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Spirit System Manual - User contributions [en]
2024-03-28T12:55:34Z
User contributions
MediaWiki 1.26.2
https://manual.spirit-system.com/index.php?title=Futaba_Telemetry&diff=52436
Futaba Telemetry
2024-03-27T08:05:19Z
<p>Admin: </p>
<hr />
<div><languages /><br />
[[File:Futaba-display.png]]<br />
<br />
<br />
<translate><!--T:1--><br />
'''From version 2.4.3 you can utilize full support of the Futaba Telemetry!'''<br />
<br />
<!--T:66--><br />
This mean you can see all telemetry variables sent by Spirit units with S.BUS2 (FASSTest receiver) in real-time.</translate><br />
<br />
== <translate><!--T:2--><br />
Requirements</translate> ==<br />
<br />
<translate><!--T:3--><br />
To make it work you will need:</translate><br />
* <translate><!--T:4--><br />
Futaba transmitter:</translate> '''14SG, 16SZ, 18MZ or 18SZ'''<br />
* <translate><!--T:5--><br />
FASSTest receiver: '''R7003SB, R7006SB, R7008SB, R7014SB or R7018SB'''.</translate><br />
* <translate><!--T:6--><br />
FrSky Integration cable available in our stores (with a small modification) - <font color=red>not for '''Spirit GT'''</font>.</translate><br />
* <translate><!--T:86--><br />
Futaba firmware: Latest.</translate><br />
<br />
[[File:Futaba-cable.jpg|700px]]<br />
<br />
== <translate><!--T:76--><br />
Cable modification</translate> ==<br />
<br />
<translate><!--T:77--><br />
To allow telemetry transmission the '''FrSky Integration cable must be modified'''. For this purpose you will need a servo' plastic plug (already included with the cable).<br />
<br />
<!--T:78--><br />
'''Modification of the longer end'''<br />
#Use a needle to free-up the Red wire from the plastic.<br />
#Then plug the Red wire from the middle to a separate servo plastic (at the signal position).<br />
</translate><br />
<br />
[[File:Futaba-cable-mod.jpg|500px|<translate><!--T:79--><br />
Resulting cable modification</translate>]]<br />
<br />
== <translate><!--T:9--><br />
Wiring</translate> ==<br />
<br />
=== Spirit 1, Spirit 2, Spirit Pro, µSpirit ===<br />
<br />
<translate><!--T:10--><br />
The FrSky Integration cable is able to transfer everything including channel data and telemetry. But it is also important to connect a '''direct cable for powering the receiver'''. You can see a wiring example at the photo including direct patch cable that is supplied with Spirit package.</translate><br />
<br />
[[File:Futaba-wiring.jpg|400px]]<br />
[[File:Futaba-connection.jpg|400px]]<br />
<br />
:{| style="width: 40%;"<br />
|-<br />
| style="width: 55%;"|<translate><!--T:15--><br />
'''RED connector''' - longer end of the cable<br />
|unit</translate> - <translate><!--T:87--><br />
'''RUD and ELE/PIT/AIL''' ''(see the photo)''</translate><br />
|-<br />
| style="width: 55%;"|<translate><!--T:16--><br />
'''BLACK connector''' - shorter end of the cable<br />
|receiver</translate> - '''S.BUS2'''<br />
|}<br />
<br />
{{Quote|<translate><!--T:67--><br />
The FrSky Integration cable is not able to carry power to the receiver. For this purpose you will need to add a normal servo cable between receiver and unit to a free port (for example ''AUX, AUX2 or CH0'' port connected with ''8/SB''). Alternatively you can use one additional wire and connect it to the middle pin of the RUD that is not connected. You can also use a secondary BEC output so no other cable is required.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:68--><br />
Make sure that the receiver is bound in the FASSTest mode, otherwise telemetry will not work.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] '''Spirit''': <translate><!--T:69--><br />
If S-BUS Adapter is used with Spirit, then it will be replaced by the FrSky Integration cable.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] '''Spirit Pro & uSpirit''': <translate><!--T:70--><br />
Servo cable that was used for connection between receiver and unit will be replaced by the FrSky Integration cable.</translate>}}<br />
<p></p><br />
<br />
=== Spirit GT ===<br />
<br />
<translate><!--T:90--><br />
Spirit GT does not require FrSky integration cable at all. It is enough to use a stright servo cable.<br />
Connect S.BUS2 port with '''RUD port''' at the Spirit GT.</translate><br />
<br />
[[File:Futaba-wiring-gt.jpg|400px]]<br />
<br />
== <translate><!--T:17--><br />
Transmitter preparation</translate> ==<br />
<br />
=== <translate><!--T:80--><br />
Configuration</translate> ===<br />
<br />
<translate><!--T:81--><br />
#Power up the transmitter and from the '''Main screen''' go to the '''LINKAGE MENU''' (LNK button) and then to the '''SENSOR''' page.<br />
#For the 8th position Slot select '''KONTRONIK''' as the Sensor. This will overwrite automatically next 6 slots.<br />
<br />
<br />
<!--T:82--><br />
At this point your transmitter is ready.</translate><br />
<br />
<br />
[[File:Futaba-sensor-menu1.jpg|400px]]<br />
<br />
<br />
== <translate><!--T:54--><br />
Telemetry data</translate> ==<br />
<br />
<translate><!--T:83--><br />
Now it is a proper time for configuring the [[ESC telemetry]] (if you want to use this feature).</translate><br />
<br />
<translate><!--T:55--><br />
In order to display Telemetry data, go to the '''LINKAGE MENU''' and then '''TELEMETRY''' page.</translate><br />
<br />
<translate><!--T:84--><br />
It is also possible to display any variable in the '''TELEMETRY MONITOR''' accessible by clicking the '''HOME/EXIT''' button.</translate><br />
<br />
<br />
'''<translate><!--T:85--><br />
List of available Telemetry variables</translate>:'''<br />
* '''Rx-BATT''' [V] - <translate><!--T:71--><br />
BEC Voltage (provided by the receiver)</translate><br />
* '''EXT-VOLT''' [V] - <translate><!--T:72--><br />
Voltage measured on external wires (optionally connected to the receiver)</translate><br />
* '''CURRENT''' [A] - <translate><!--T:62--><br />
[[ESC_telemetry|ESC Telemetry]]</translate> '''|''' <translate><!--T:60--><br />
Main Battery current</translate><br />
* '''VOLTAGE''' [V] - <translate><!--T:58--><br />
[[ESC_telemetry|ESC Telemetry]]</translate> '''|''' <translate><!--T:59--><br />
Main Battery voltage</translate><br />
* '''DISCHARG''' [mAh] - <translate><br />
<!--T:73--><br />
[[ESC_telemetry|ESC Telemetry]]</translate> '''|''' <translate><!--T:63--><br />
Main Battery consumed capacity</translate><br />
* '''RPM''' [Head RPM] - <translate><!--T:57--><br />
RPM provided by [[Configuration#GOVERNOR|RPM sensor]] or ESC</translate>.<br />
* '''TEMP''' [°C] - <translate><!--T:64--><br />
[[ESC_telemetry|ESC Telemetry]]</translate> '''|''' <translate><!--T:65--><br />
FET temperature of the ESC</translate><br />
<br />
* '''PWM''' [%] - <translate><!--T:74--><br />
[[ESC_telemetry|ESC Telemetry]]</translate> '''|''' <translate><!--T:75--><br />
Throttle percentage (provided by unit)</translate><br />
* '''BEC CURRENT''' [%] - <translate><!--T:56--><br />
Vibration level (0 - 10% is normal level, 1A = 1%, provided by unit)</translate><br />
<br />
[[File:Futaba-telemetry-menu.jpg|400px]]</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list&diff=52421
Servo list
2024-03-18T09:41:53Z
<p>Admin: Marked this version for translation</p>
<hr />
<div><languages/><br />
<p></p><br />
<br />
{{Quote|<translate><!--T:1--><br />
Please set the parameters of your servos according this table. If some servo is not listed, please check the datasheet of the servo manufacturer.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:2--><br />
For optimal performance of the rudder, we recommend to set the Rudder Delay parameter according the table.</translate>}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! <translate><!--T:3--><br />
Manufacturer</translate><br />
! <translate><!--T:4--><br />
Model</translate><br />
! <translate><!--T:5--><br />
Usage</translate><br />
! <translate><!--T:6--><br />
Pulse</translate><br />
! <translate><!--T:7--><br />
Frequency</translate><br />
! <translate><!--T:8--><br />
Delay</translate><br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! <translate><!--T:126--><br />
Manufacturer</translate><br />
! <translate><!--T:127--><br />
Model</translate><br />
! <translate><!--T:128--><br />
Usage</translate><br />
! <translate><!--T:129--><br />
Pulse</translate><br />
! <translate><!--T:130--><br />
Frequency</translate><br />
! <translate><!--T:131--><br />
Delay</translate><br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! <translate><!--T:9--><br />
Manufacturer</translate><br />
! <translate><!--T:10--><br />
Model</translate><br />
! <translate><!--T:11--><br />
Usage</translate><br />
! <translate><!--T:12--><br />
Pulse</translate><br />
! <translate><!--T:13--><br />
Frequency</translate><br />
! <translate><!--T:14--><br />
Delay</translate><br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! <translate><!--T:102--><br />
Manufacturer</translate><br />
! <translate><!--T:103--><br />
Model</translate><br />
! <translate><!--T:104--><br />
Usage</translate><br />
! <translate><!--T:105--><br />
Pulse</translate><br />
! <translate><!--T:106--><br />
Frequency</translate><br />
! <translate><!--T:107--><br />
Delay</translate><br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! <translate><!--T:15--><br />
Manufacturer</translate><br />
! <translate><!--T:16--><br />
Model</translate><br />
! <translate><!--T:17--><br />
Usage</translate><br />
! <translate><!--T:18--><br />
Pulse</translate><br />
! <translate><!--T:19--><br />
Frequency</translate><br />
! <translate><!--T:20--><br />
Delay</translate><br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
<br />
== GDW ==<br />
{| class="servolist"<br />
! <translate><!--T:132--><br />
Manufacturer</translate><br />
! <translate><!--T:133--><br />
Model</translate><br />
! <translate><!--T:134--><br />
Usage</translate><br />
! <translate><!--T:135--><br />
Pulse</translate><br />
! <translate><!--T:136--><br />
Frequency</translate><br />
! <translate><!--T:137--><br />
Delay</translate><br />
|-<br />
| GDW <br />
| BLS992HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| GDW <br />
| BLS995HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! <translate><!--T:21--><br />
Manufacturer</translate><br />
! <translate><!--T:22--><br />
Model</translate><br />
! <translate><!--T:23--><br />
Usage</translate><br />
! <translate><!--T:24--><br />
Pulse</translate><br />
! <translate><!--T:25--><br />
Frequency</translate><br />
! <translate><!--T:26--><br />
Delay</translate><br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 990<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! <translate><!--T:27--><br />
Manufacturer</translate><br />
! <translate><!--T:28--><br />
Model</translate><br />
! <translate><!--T:29--><br />
Usage</translate><br />
! <translate><!--T:30--><br />
Pulse</translate><br />
! <translate><!--T:31--><br />
Frequency</translate><br />
! <translate><!--T:32--><br />
Delay</translate><br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! <translate><!--T:51--><br />
Manufacturer</translate><br />
! <translate><!--T:52--><br />
Model</translate><br />
! <translate><!--T:53--><br />
Usage</translate><br />
! <translate><!--T:54--><br />
Pulse</translate><br />
! <translate><!--T:55--><br />
Frequency</translate><br />
! <translate><!--T:56--><br />
Delay</translate><br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! <translate><!--T:33--><br />
Manufacturer</translate><br />
! <translate><!--T:34--><br />
Model</translate><br />
! <translate><!--T:35--><br />
Usage</translate><br />
! <translate><!--T:36--><br />
Pulse</translate><br />
! <translate><!--T:37--><br />
Frequency</translate><br />
! <translate><!--T:38--><br />
Delay</translate><br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! <translate><!--T:39--><br />
Manufacturer</translate><br />
! <translate><!--T:40--><br />
Model</translate><br />
! <translate><!--T:41--><br />
Usage</translate><br />
! <translate><!--T:42--><br />
Pulse</translate><br />
! <translate><!--T:43--><br />
Frequency</translate><br />
! <translate><!--T:44--><br />
Delay</translate><br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! <translate><!--T:45--><br />
Manufacturer</translate><br />
! <translate><!--T:46--><br />
Model</translate><br />
! <translate><!--T:47--><br />
Usage</translate><br />
! <translate><!--T:48--><br />
Pulse</translate><br />
! <translate><!--T:49--><br />
Frequency</translate><br />
! <translate><!--T:50--><br />
Delay</translate><br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! <translate><!--T:120--><br />
Manufacturer</translate><br />
! <translate><!--T:121--><br />
Model</translate><br />
! <translate><!--T:122--><br />
Usage</translate><br />
! <translate><!--T:123--><br />
Pulse</translate><br />
! <translate><!--T:124--><br />
Frequency</translate><br />
! <translate><!--T:125--><br />
Delay</translate><br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! <translate><!--T:57--><br />
Manufacturer</translate><br />
! <translate><!--T:58--><br />
Model</translate><br />
! <translate><!--T:59--><br />
Usage</translate><br />
! <translate><!--T:60--><br />
Pulse</translate><br />
! <translate><!--T:61--><br />
Frequency</translate><br />
! <translate><!--T:62--><br />
Delay</translate><br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! <translate><!--T:114--><br />
Manufacturer</translate><br />
! <translate><!--T:115--><br />
Model</translate><br />
! <translate><!--T:116--><br />
Usage</translate><br />
! <translate><!--T:117--><br />
Pulse</translate><br />
! <translate><!--T:118--><br />
Frequency</translate><br />
! <translate><!--T:119--><br />
Delay</translate><br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! <translate><!--T:63--><br />
Manufacturer</translate><br />
! <translate><!--T:64--><br />
Model</translate><br />
! <translate><!--T:65--><br />
Usage</translate><br />
! <translate><!--T:66--><br />
Pulse</translate><br />
! <translate><!--T:67--><br />
Frequency</translate><br />
! <translate><!--T:68--><br />
Delay</translate><br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! <translate><!--T:69--><br />
Manufacturer</translate><br />
! <translate><!--T:70--><br />
Model</translate><br />
! <translate><!--T:71--><br />
Usage</translate><br />
! <translate><!--T:72--><br />
Pulse</translate><br />
! <translate><!--T:73--><br />
Frequency</translate><br />
! <translate><!--T:74--><br />
Delay</translate><br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! <translate><!--T:75--><br />
Manufacturer</translate><br />
! <translate><!--T:76--><br />
Model</translate><br />
! <translate><!--T:77--><br />
Usage</translate><br />
! <translate><!--T:78--><br />
Pulse</translate><br />
! <translate><!--T:79--><br />
Frequency</translate><br />
! <translate><!--T:80--><br />
Delay</translate><br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! <translate><!--T:81--><br />
Manufacturer</translate><br />
! <translate><!--T:82--><br />
Model</translate><br />
! <translate><!--T:83--><br />
Usage</translate><br />
! <translate><!--T:84--><br />
Pulse</translate><br />
! <translate><!--T:85--><br />
Frequency</translate><br />
! <translate><!--T:86--><br />
Delay</translate><br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! <translate><!--T:87--><br />
Manufacturer</translate><br />
! <translate><!--T:88--><br />
Model</translate><br />
! <translate><!--T:89--><br />
Usage</translate><br />
! <translate><!--T:90--><br />
Pulse</translate><br />
! <translate><!--T:91--><br />
Frequency</translate><br />
! <translate><!--T:92--><br />
Delay</translate><br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! <translate><!--T:93--><br />
Manufacturer</translate><br />
! <translate><!--T:94--><br />
Model</translate><br />
! <translate><!--T:95--><br />
Usage</translate><br />
! <translate><!--T:96--><br />
Pulse</translate><br />
! <translate><!--T:97--><br />
Frequency</translate><br />
! <translate><!--T:98--><br />
Delay</translate><br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! <translate><!--T:108--><br />
Manufacturer</translate><br />
! <translate><!--T:109--><br />
Model</translate><br />
! <translate><!--T:110--><br />
Usage</translate><br />
! <translate><!--T:111--><br />
Pulse</translate><br />
! <translate><!--T:112--><br />
Frequency</translate><br />
! <translate><!--T:113--><br />
Delay</translate><br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== <translate><!--T:99--><br />
Servo compatibility</translate> ==<br />
<br />
<translate><!--T:100--><br />
All servos should be compatible except cases where servo does not meet standard electrical design.<br />
These servos are marked with <sup>*</sup> character.</translate><br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:101--><br />
This servo list is intended only for Spirit units. Data copying is forbidden.</translate>}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/131/cs&diff=52419
Translations:Servo list/131/cs
2024-03-18T09:41:35Z
<p>Admin: Created page with "Zpoždění"</p>
<hr />
<div>Zpoždění</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list/cs&diff=52420
Servo list/cs
2024-03-18T09:41:35Z
<p>Admin: Created page with "Zpoždění"</p>
<hr />
<div><languages/><br />
<p></p><br />
<br />
{{Quote|Nastavte parametry serv dle tabulky. V případě, že zde není některé servo uvedeno, získejte informace ze specifikací výrobce.}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] Pro optimální fungování vrtulky doporučujeme nastavit parametr ''Zpoždění vrtulky'' dle uvedené tabulky.}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Kompatibilita serv ==<br />
<br />
Všechna serva jsou kompatibilní, kromě těch, které nesplňují standardní el. požadavky.<br />
Tyto serva jsou označena znakem <sup>*</sup>.<br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] Tento seznam serv je určen pouze pro jednotky Spirit. Kopírování dat je zakázáno.}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/130/cs&diff=52417
Translations:Servo list/130/cs
2024-03-18T09:41:27Z
<p>Admin: Created page with "Frekvence"</p>
<hr />
<div>Frekvence</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list/cs&diff=52418
Servo list/cs
2024-03-18T09:41:27Z
<p>Admin: Created page with "Frekvence"</p>
<hr />
<div><languages/><br />
<p></p><br />
<br />
{{Quote|Nastavte parametry serv dle tabulky. V případě, že zde není některé servo uvedeno, získejte informace ze specifikací výrobce.}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] Pro optimální fungování vrtulky doporučujeme nastavit parametr ''Zpoždění vrtulky'' dle uvedené tabulky.}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Delay<br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Kompatibilita serv ==<br />
<br />
Všechna serva jsou kompatibilní, kromě těch, které nesplňují standardní el. požadavky.<br />
Tyto serva jsou označena znakem <sup>*</sup>.<br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] Tento seznam serv je určen pouze pro jednotky Spirit. Kopírování dat je zakázáno.}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/129/cs&diff=52415
Translations:Servo list/129/cs
2024-03-18T09:41:24Z
<p>Admin: Created page with "Střed"</p>
<hr />
<div>Střed</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list/cs&diff=52416
Servo list/cs
2024-03-18T09:41:24Z
<p>Admin: Created page with "Střed"</p>
<hr />
<div><languages/><br />
<p></p><br />
<br />
{{Quote|Nastavte parametry serv dle tabulky. V případě, že zde není některé servo uvedeno, získejte informace ze specifikací výrobce.}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] Pro optimální fungování vrtulky doporučujeme nastavit parametr ''Zpoždění vrtulky'' dle uvedené tabulky.}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frequency<br />
! Delay<br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Kompatibilita serv ==<br />
<br />
Všechna serva jsou kompatibilní, kromě těch, které nesplňují standardní el. požadavky.<br />
Tyto serva jsou označena znakem <sup>*</sup>.<br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] Tento seznam serv je určen pouze pro jednotky Spirit. Kopírování dat je zakázáno.}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list/cs&diff=52414
Servo list/cs
2024-03-18T09:41:15Z
<p>Admin: Created page with "Použití"</p>
<hr />
<div><languages/><br />
<p></p><br />
<br />
{{Quote|Nastavte parametry serv dle tabulky. V případě, že zde není některé servo uvedeno, získejte informace ze specifikací výrobce.}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] Pro optimální fungování vrtulky doporučujeme nastavit parametr ''Zpoždění vrtulky'' dle uvedené tabulky.}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Pulse<br />
! Frequency<br />
! Delay<br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Kompatibilita serv ==<br />
<br />
Všechna serva jsou kompatibilní, kromě těch, které nesplňují standardní el. požadavky.<br />
Tyto serva jsou označena znakem <sup>*</sup>.<br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] Tento seznam serv je určen pouze pro jednotky Spirit. Kopírování dat je zakázáno.}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/128/cs&diff=52413
Translations:Servo list/128/cs
2024-03-18T09:41:15Z
<p>Admin: Created page with "Použití"</p>
<hr />
<div>Použití</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/127/cs&diff=52412
Translations:Servo list/127/cs
2024-03-18T09:41:04Z
<p>Admin: Created page with "Model"</p>
<hr />
<div>Model</div>
Admin
https://manual.spirit-system.com/index.php?title=Translations:Servo_list/126/cs&diff=52410
Translations:Servo list/126/cs
2024-03-18T09:40:58Z
<p>Admin: Created page with "Výrobce"</p>
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<div>Výrobce</div>
Admin
https://manual.spirit-system.com/index.php?title=Servo_list/cs&diff=52411
Servo list/cs
2024-03-18T09:40:58Z
<p>Admin: Created page with "Výrobce"</p>
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<div><languages/><br />
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<br />
{{Quote|Nastavte parametry serv dle tabulky. V případě, že zde není některé servo uvedeno, získejte informace ze specifikací výrobce.}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] Pro optimální fungování vrtulky doporučujeme nastavit parametr ''Zpoždění vrtulky'' dle uvedené tabulky.}}<br />
<p></p><br />
<br />
== Align ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Align<br />
| BL700H<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| BL750H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL800H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| BL815H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Align<br />
| BL850H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Align<br />
| BL855H<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS410<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Align<br />
| DS415M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS416M<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Align<br />
| DS420<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS425M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Align<br />
| DS426M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 8<br />
|-<br />
| Align<br />
| DS430M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS450M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS455<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS455M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 8<br />
|-<br />
| Align<br />
| DS510<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS515M<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS520<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 10 - 15<br />
|-<br />
| Align<br />
| DS525M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 12<br />
|-<br />
| Align<br />
| DS530<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS530M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS535M<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Align<br />
| DS535M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Align<br />
| DS610<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS615S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Align<br />
| DS620<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Align<br />
| DS650<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS655<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Align<br />
| DS820<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS820M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Align<br />
| DS825<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| Align<br />
| DS825M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 2<br />
|}<br />
<br />
<br />
== ALZRC ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Usage<br />
! Pulse<br />
! Frequency<br />
! Delay<br />
|-<br />
| ALZRC<br />
| BLS2036T<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| ALZRC<br />
| DS452MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| ALZRC<br />
| DS501MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|}<br />
<br />
== BK Servo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| BK Servo<br />
| BLS-8001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| BLS-8005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 2<br />
|-<br />
| BK Servo<br />
| DS-3001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-3005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| BK Servo<br />
| DS-5001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| <sup>*</sup>BK Servo<br />
| DS-5005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7001HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7002HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| BK Servo<br />
| DS-7005HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| BK Servo<br />
| DS-7006HV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0 - 3<br />
|}<br />
<br />
== E-flite ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| E-flite<br />
| EFLRDS76<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| E-flite<br />
| EFLRDS76T<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| E-flite<br />
| EFLRDS76TJ<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|}<br />
<br />
== Futaba ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Futaba<br />
| BLS153<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS173SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS253<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS254<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS255HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS256HV<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS272SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS273SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS275SV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS276SV<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 0<br />
|-<br />
| Futaba<br />
| BLS351<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| BLS651<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3115<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3116<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Futaba<br />
| S3151<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3152<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3156<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S3157<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9251<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9252<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9253<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 6 - 12<br />
|-<br />
| Futaba<br />
| S9254<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Futaba<br />
| S9255<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9256<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Futaba<br />
| S9257<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Futaba<br />
| S9451<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9452<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9551<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Futaba<br />
| S9650<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Graupner ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Graupner<br />
| BS 9500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| C 231<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 261<br />
| Cyclic<br />
| 1520µs<br />
| 50Hz<br />
|-<br />
| Graupner<br />
| C 4041<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4421<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4621<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4821<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| C 4835<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Graupner<br />
| DS 368 MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS3781<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Graupner<br />
| DS 8077 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| DS 8700 G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| Graupner<br />
| HBM 660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBM 690<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 660 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Graupner<br />
| HBS 770 BB<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| Graupner<br />
| HBS 870 BB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== Hitec ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Hitec<br />
| D-940TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| D-945TW<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5055MG<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| Hitec<br />
| HS-5065MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5245MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-5925MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-65HB<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-65MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-6965HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-6975HB<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-7940TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-82MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Hitec<br />
| HS-8360TH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Hitec<br />
| HS-M7990TH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Hitec<br />
| HSG-5083MG<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| Hitec<br />
| HSG-5084MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Hitec<br />
| HSG-8315BH<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|-<br />
| Hitec<br />
| HSG-8330SH<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== JR Propo ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JR Propo<br />
| DS285MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS285MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS287MGHV<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| JR Propo<br />
| DS290G<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 6 - 12<br />
|-<br />
| JR Propo<br />
| DS3500G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| JR Propo<br />
| DS3517MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS3717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8717HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8900G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| DS8915<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| DS8917HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| ELG01<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| ELS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS11<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-DS21<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| FBL-SWS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| JR Propo<br />
| MP80S<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP80T<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| MP82G WV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| JR Propo<br />
| NX8925<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| JR Propo<br />
| NXB89G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JR Propo<br />
| NXB8925<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| JR Propo<br />
| SLS01<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== JX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| JX<br />
| BLS-6007MG<br />
| Cyclic<br />
| 1520μs<br />
| 333Hz<br />
|-<br />
| JX<br />
| BLS6508HV<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| JX<br />
| BLS6520HV<br />
| Cyclic<br />
| 1520μs<br />
| 200Hz<br />
|-<br />
| JX<br />
| BLS-HV6105MG<br />
| Rudder<br />
| 1520μs<br />
| 333Hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-HV7006MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 5<br />
|-<br />
| JX<br />
| BLS-7007MG<br />
| Rudder<br />
| 760μs<br />
| 560hz<br />
| 0 - 7<br />
|}<br />
<br />
== KST ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| KST<br />
| BLS359<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS505X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS705<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS805X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS825<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| BLS905X<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| BLS915<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS113MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS115MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS215MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| DS515MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS525MG<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS565X<br />
| Rudder<br />
| 760µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| KST<br />
| DS589MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS715MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| DS725MG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS565<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS589<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS665<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| KST<br />
| MS725<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| MS805<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| MS815<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-1035<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| KST<br />
| X20-2208<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-3012<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| KST<br />
| X20-9650<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Logictech ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Logictech<br />
| LTS-3100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|-<br />
| Logictech<br />
| LTS-6100G<br />
| Rudder<br />
| 960µs<br />
| 333Hz<br />
| 5 - 10<br />
|}<br />
<br />
== Lynx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Lynx<br />
| DS-895-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|}<br />
<br />
== MKS ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| MKS<br />
| BLS950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS970<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| BLS980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| BLS990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS1210<br />
| Cyclic<br />
| 1520µs<br />
| 100Hz<br />
|-<br />
| MKS<br />
| DS660A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS670<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS760<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS8910<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| DS8910A+<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| DS92<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| MKS<br />
| DS92A+<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS93<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS95i<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 2<br />
|-<br />
| MKS<br />
| DS9660<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| DS9660A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| DS9670<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 6<br />
|-<br />
| MKS<br />
| DS9670A+<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL575<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL599<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL665<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL669<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HBL850<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL860<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL880<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
|-<br />
| MKS<br />
| HBL950<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HBL980<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HBL990<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 3<br />
|-<br />
| MKS<br />
| HV300<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV380<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV737<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV747<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV767<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| MKS<br />
| HV787<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| MKS<br />
| HV9767<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| MKS<br />
| HV9780<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 5<br />
|}<br />
<br />
== OMG ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| OMG<br />
| H1-MR-CF20Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| OMG<br />
| H1-MR-CF30S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF11S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H2-MI-BF55Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H3-ST-BF20S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H4-ST-BF07Q/FBK<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H4-ST-BF20S/FRD<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| OMG<br />
| H5-ST-BFX1Q<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 3<br />
|-<br />
| OMG<br />
| H5-ST-BFX1S<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Outrage ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Outrage<br />
| BL 9080<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9088<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| BL 9180<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Outrage<br />
| BL 9188<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Outrage<br />
| OS7654T<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|}<br />
<br />
== RJX ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RJX<br />
| BLS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| BLS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 2<br />
|-<br />
| RJX<br />
| FS0390HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0391THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|-<br />
| RJX<br />
| FS0435HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521HV<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz <br />
|-<br />
| RJX<br />
| FS0521THV<br />
| Rudder<br />
| 760μs<br />
| 333Hz <br />
| 0 - 3<br />
|}<br />
<br />
== RotorStar ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| RotorStar<br />
| RS-3868MGT<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|-<br />
| RotorStar<br />
| RS-3878MGT<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-550MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-610MGC-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| RotorStar<br />
| RS-715MG-HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 3 - 7<br />
|}<br />
<br />
== Savöx ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Savöx<br />
| SA-1230SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1231SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SA-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SB-2271SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2272MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Savöx<br />
| SB-2282SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SB-2283MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SB-2284SG<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Savöx<br />
| SC-0253MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-0352<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SC-1232SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1233SG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1251MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1252MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1256TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1257TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SC-1258TG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-0253<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0254<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0255MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Cyclic<br />
| 1520µs<br />
| 150Hz<br />
|-<br />
| Savöx<br />
| SH-0257MG<br />
| Rudder<br />
| 1520µs<br />
| 150Hz<br />
| 14 - 20<br />
|-<br />
| Savöx<br />
| SH-0261MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0262MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0263MG<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-0264MG<br />
| Rudder<br />
| 1520µs<br />
| 200Hz<br />
| 8 - 12<br />
|-<br />
| Savöx<br />
| SH-0350<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Savöx<br />
| SH-1250MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SH-1290MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
| Savöx<br />
| SH-1350<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SH-1357<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 8 - 15<br />
|-<br />
| Savöx<br />
| SV-1232MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1257MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 5 - 8<br />
|-<br />
| Savöx<br />
| SV-1260MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Savöx<br />
| SV-1274MG<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 5<br />
|-<br />
|}<br />
<br />
== Spektrum ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Spektrum<br />
| H2060<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3000<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H3020<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3050<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H3060<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|-<br />
| Spektrum<br />
| H5000<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H5010<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6010<br />
| Cyclic<br />
| 1520µs<br />
| 60Hz<br />
|-<br />
| Spektrum<br />
| H6040<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6080G<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 2 - 6<br />
|-<br />
| Spektrum<br />
| H6160 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6205 HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Spektrum<br />
| H6210 HV<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 0 - 4<br />
|}<br />
<br />
== Turnigy ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Turnigy<br />
| 1266HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-213C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-259BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-306G-HV<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-313C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-390DMH<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-505HS<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 2 - 5<br />
|-<br />
| Turnigy<br />
| TGY-525MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 6<br />
|-<br />
| Turnigy<br />
| TGY-565MG<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 3 - 5<br />
|-<br />
| Turnigy<br />
| TGY-589MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-605C<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 4 - 6<br />
|-<br />
| Turnigy<br />
| TGY-615BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-615C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-616MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625BL<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-625C<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-725MG<br />
| Cyclic<br />
| 1520µs<br />
| 200Hz<br />
|-<br />
| Turnigy<br />
| TGY-SM-3473M<br />
| Rudder<br />
| 1520µs<br />
| 333Hz<br />
| 7 - 12<br />
|}<br />
<br />
== Xpert-rc ==<br />
{| class="servolist"<br />
! Výrobce<br />
! Model<br />
! Použití<br />
! Střed<br />
! Frekvence<br />
! Zpoždění<br />
|-<br />
| Xpert-rc<br />
| GS-3302T-HV(R2T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| GS-6401-HV(R2)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|-<br />
| Xpert-rc<br />
| HS-3302T-HV(R1T)<br />
| Rudder<br />
| 760µs<br />
| 560Hz<br />
| 0 - 4<br />
|-<br />
| Xpert-rc<br />
| HS-6401-HV(R1)<br />
| Cyclic<br />
| 1520µs<br />
| 333Hz<br />
|}<br />
<br />
== Kompatibilita serv ==<br />
<br />
Všechna serva jsou kompatibilní, kromě těch, které nesplňují standardní el. požadavky.<br />
Tyto serva jsou označena znakem <sup>*</sup>.<br />
<br />
<br />
{{Info|[[File:Info.png|18px|]] Tento seznam serv je určen pouze pro jednotky Spirit. Kopírování dat je zakázáno.}}</div>
Admin
https://manual.spirit-system.com/index.php?title=Stabilization_(Acro)&diff=52409
Stabilization (Acro)
2024-03-04T08:08:24Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<p></p><br />
<translate><!--T:1--><br />
Stabilisation mode is feature of the unit which helps the pilot to maintain flight position.<br />
The model is fully controlled by the pilot but unlike normal flight mode, it has tendency to return to the horizontal level automatically.</translate><br />
<br />
<translate><!--T:2--><br />
You can activate the mode remotely by assigned switch of your transmitter. As long as the switch is in active position, the stabilisation mode will be engaged. Otherwise normal flight mode will be used.</translate><br />
<br />
<translate>This mode is great choice for learning 3D maneuvers. If you are not sure, you only have to release sticks and the model will level back to the horizontal position - normal or inverted (which is closer).</translate><br />
<br />
== <translate><!--T:3--><br />
Characteristics</translate> ==<br />
<br />
*<translate><!--T:4--><br />
Upon activation of the Stabilisation (Acro), the model will attain horizontal level rather slowly (skids down or inverted depending on what is closer).</translate><br />
*<translate><!--T:5--><br />
Cyclic stick input from the pilot will control the model in the very same way as in normal flight mode.</translate><br />
*<translate><!--T:6--><br />
As soon as the stick is returned to the center, the helicopter will move back to the horizontal level. Whenever you are unsure, just release the sticks and the helicopter will recover.</translate><br />
*<translate><!--T:7--><br />
It is perfect for learning basic acrobatics maneuvers.</translate><br />
*<translate><!--T:8--><br />
In this mode it is possible perform a flips or rolls as you are used to do from normal flight mode.</translate><br />
*<translate><!--T:9--><br />
Collective pitch and rudder is controlled by the pilot as in a normal flight mode.</translate><br />
*<translate>Model can perform rolls or flips as in a normal flight mode. When sticks are released the model will remain at upside down or skids down depending on what is closer.</translate><br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:10--><br />
This mode will not maintain altitude or a spot on position. It can act as aid during learning.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
For rescue of the helicopter we highly recommend to use the Rescue mode instead of stabilisation.</translate>}}<br />
<br />
== <translate><!--T:12--><br />
Setttings</translate> ==<br />
<br />
<translate><!--T:13--><br />
To make it comfortable for your needs you can set the ''Direction control rate'' parameter.<br />
This will affect how fast the helicopter will return to the horizontal position when stick(s) are released.</translate><br />
<br />
*<translate><!--T:14--><br />
Low values are recommended for beginners - it will return faster to the horizontal position.</translate><br />
*<translate><!--T:15--><br />
Higher values will return the model slowly and will make it closer to a normal flight mode.</translate></div>
Admin
https://manual.spirit-system.com/index.php?title=Stabilization_(Acro)&diff=52408
Stabilization (Acro)
2024-03-04T08:07:40Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<p></p><br />
<translate><!--T:1--><br />
Stabilisation mode is feature of the unit which helps the pilot to maintain flight position.<br />
The model is fully controlled by the pilot but unlike normal flight mode, it has tendency to return to the horizontal level automatically.</translate><br />
<br />
<translate><!--T:2--><br />
You can activate the mode remotely by assigned switch of your transmitter. As long as the switch is in active position, the stabilisation mode will be engaged. Otherwise normal flight mode will be used.</translate><br />
<br />
<translate>This mode is great choice for learning 3D maneuvers. If you are not sure, you only have to release sticks and the model will level back to the horizontal position - normal or inverted (which is closer).</translate><br />
<br />
== <translate><!--T:3--><br />
Characteristics</translate> ==<br />
<br />
*<translate><!--T:4--><br />
Upon activation of the Stabilisation (Acro), the model will attain horizontal level rather slowly (skids down or inverted depending on what is closer).</translate><br />
*<translate><!--T:5--><br />
Cyclic stick input from the pilot will control the model in the very same way as in normal flight mode.</translate><br />
*<translate><!--T:6--><br />
As soon as the stick is returned to the center, the helicopter will move back to the horizontal level. Whenever you are unsure, just release the sticks and the helicopter will recover.</translate><br />
*<translate><!--T:7--><br />
It is perfect for learning basic acrobatics maneuvers.</translate><br />
*<translate><!--T:8--><br />
In this mode it is possible perform a flips or rolls as you are used to do from normal flight mode.</translate><br />
*<translate><!--T:9--><br />
Collective pitch and rudder is controlled by the pilot as in a normal flight mode.</translate><br />
*<translate>If holding aileron or elevator the model will the the rolls or flips as in a normal flight mode. When sticks are released the model will remain at upside down or skids down depending on what is closer.</translate><br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:10--><br />
This mode will not maintain altitude or a spot on position. It can act as aid during learning.</translate>}}<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
For rescue of the helicopter we highly recommend to use the Rescue mode instead of stabilisation.</translate>}}<br />
<br />
== <translate><!--T:12--><br />
Setttings</translate> ==<br />
<br />
<translate><!--T:13--><br />
To make it comfortable for your needs you can set the ''Direction control rate'' parameter.<br />
This will affect how fast the helicopter will return to the horizontal position when stick(s) are released.</translate><br />
<br />
*<translate><!--T:14--><br />
Low values are recommended for beginners - it will return faster to the horizontal position.</translate><br />
*<translate><!--T:15--><br />
Higher values will return the model slowly and will make it closer to a normal flight mode.</translate></div>
Admin
https://manual.spirit-system.com/index.php?title=Tuning_Guide&diff=52407
Tuning Guide
2024-03-04T07:47:05Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<br />
<br />
<div id="up"></div><br />
<center><font size="6"><br />
<translate><!--T:1--><br />
Spirit Tuning Guide</translate><br />
</font></center><br />
{{Info|[[File:Info.png|18px|]] '''<translate><!--T:2--><br />
This guide should help you with tuning your helicopter to obtain optimal flight characteristic. The tuning guide expect the Advanced parameters are set to default.</translate><br />
'''}}<br />
<br />
<p></p><br />
<translate><!--T:3--><br />
First from all, you should try a default settings that are recommended. There are basic parameters that you have to set at the beginning (for example in the Setup wizard) but other are useful to adjust feeling and flight characteristics. Basically, you can set the behavior so that it is very similar to any known flybarless or flybared system.</translate><br />
<br />
<translate><!--T:4--><br />
If you are in condition that the helicopter is flying, but you need to do some corrections, you should start with the rudder settings first.</translate><br />
== <translate><!--T:5--><br />
RUDDER TUNING</translate> ==<br />
<br />
{{Quote|<br />
<translate><!--T:6--><br />
'''Prerequisite step -''' You can verify that the rudder servo limits are not too low or either not too high.</translate>}}<br />
<p></p><br />
:<translate><!--T:7--><br />
If the values for Rudder End-Points in the Limits Tab are less than 70, then it is too low. That mean that servo precision vs mechanical gain is not optimal. You can fix the issue with putting ball link closer to the center at the rudder servo so that limit can be higher. In case the value is more than 170 there is mostly too high servo precision vs mechanical gain. You should put longer servo arm, so the ball linkage can be further. Be sure you have configured limits so that tail slider is moving from end to end, but without any mechanical binding (servo buzzing). In case your tail mechanics allows a pitch higher than 45°, do not set limits that high. It is not absolutely necessary that limits for both sides are equal.</translate><br />
<br />
===<translate><!--T:8--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:9--><br />
Set '''Sensor/Rotation Rate''' for the rudder - this parameter determine how fast the rudder will rotate around its axis. Values between 8-11 are used by allmost all pilots. Default value of 8 is fine for beginners. While value of 11 is good for 3D maneuvers where faster pirouettes are needed.</translate><br />
:'''2.''' <translate><!--T:10--><br />
Set '''Advanced/Rudder Delay''' accordingly for your servo type - please see the [[Servo list]] where you can find optimal range. For ''Futaba BLS'' servos and ultra fast servos it is fine to set 0. Slower the servo is, the higher value should be configured. If you are not sure, leave this parameter (value of 5 should fit for average digital servos).</translate><br />
:'''3.''' <translate><!--T:11--><br />
Set '''Gyro Gain''' (usually in your transmitter) to the value, that tail is holding well, but not oscillating in any maneuver (for example Pitch pumping). This value should be as high as possible always. If you are observing tail oscillation, you should decrease the gain to eliminate it. Please note that it is recommended to change the Gain only in this step. In case that you have achieved 100% Gyro Gain with no oscillation, please increase '''Sensor/Rudder Common Gain''' which will multiply the Gyro Gain.</translate><br />
:'''4.''' <translate><!--T:12--><br />
Now, when your gain is configured, your tail can still not hold the position exactly. That's because your mechanical gain is not high as necessary. You can fix it by increasing the '''Advanced/Piro Consistency''' value. Increase it by 5 gradually until the tail will hold. The value should be nearly in all cases between 155 - 190. With higher values the rudder will rotate more constantly and so can be even more sharp. With bigger size helicopter the value is often higher. It depends mostly on the helicopter construction (manufacturer), servo arm and servo type. For ''Futaba BLS'' servos or similar, it is needed to increase the value even more (in rare cases to value of 200). You shouldn't set the parameter too high if not necessary (always set only as high as really necessary), otherwise ''tail oscillation'' in high extent can occur. You can verify it in a ''fast forward flight'' or ''pitch pumps'' whether the value is too high and you can see any oscillations.</translate><br />
:'''5.''' <translate><!--T:13--><br />
If the tail is still not holding well the problem could be:</translate><br />
:::*<translate><!--T:14--><br />
Head Speed is holding poorly or too agressively during load. (can be improved by Governor settings or Throttle Curve change).</translate><br />
:::*<translate><!--T:15--><br />
There is a mechanical issue. Check by spooling up the motor with no blades, then move with the tail push rod carefully by hand from end to end. (push rod disconnected from servo).</translate><br />
:::*<translate><!--T:16--><br />
Tail servo is too slow (0.07s/60° or higher) - increase the '''Advanced/Rudder Revomix''' to value 1-4. Higher values are not recommended.</translate><br />
:'''6.''' <translate><!--T:17--><br />
When above steps are done, you can tune the Stopping Behavior. For this purpose use the '''Advanced/Rudder Dynamic''' parameter. Value determine how aggressive the rudder stops and the steering is. If you like sharp stops, you should set value between 6 to 8. If you like extra sharp behavior, then value higher than 10 are good for you. But high values are very demanding for servos and mechanics, so you should be carefull. If you like smooth stopping so that steering is also very smooth, you should set values between 5-7. If value is too low, the rudder reaction can be even delayed. In case the tail stopping is not equal or overshooting to one side, you can decrease the Rudder End-point for such side (mostly closer to the tail blades) by 0,5-1mm.</translate><br />
<br />
== <translate><!--T:18--><br />
CYCLIC TUNING</translate> ==<br />
<br />
<br />
{{Quote|<br />
<translate><!--T:19--><br />
Make sure the '''Cyclic Ring''' - Aileron/Elevator range is as high as possible without binding even in min/max collective pitch. Ideally it should be equal angle with your max. collective pitch. But it is extremely important to not exceed angles allowed by the model manufacturer. With models of size 600 and bigger risk of boomstrike is very high with lower RPM.</translate><br />
}}<br />
<p></p><br />
===<translate><!--T:20--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:21--><br />
Increase the '''Sensor/Cyclic Gain''' if you can observe the cyclic is not level during pitch pumps or flight is not precise. Mostly values around 60% are optimal for all models. You shouldn't set the gain as high as possible always. If it is too high, steering can be even delayed little bit and not that comfortable. Mostly values above 80% are unwanted. If gain is too high, you can see Aileron oscillations, especially when descending slowly or while doing Tic-Toc maneuver. Sometimes it is caused by too soft head dampeners or non-flybarless blades as well. But if you can achieve values higher than 50% then it is optimal. In some cases, if you want very natural feeling, you can set the Cyclic Gain to e.g. 40%, but you will loose some precision. Stability will be still good.</translate><br />
:'''2.''' <translate><!--T:22--><br />
Set the '''Sensor/Rotation Rate''' parameter to the extent that flips and rolls are fast enough. Be carefull to not set it higher than your mechanics can handle. The highest value for the most models is between 11 - 13. If the value is too high, steering is not precise and sometimes you can observe that rate is not constant (Once you finish the cyclic input it will continue for a fraction of second).</translate><br />
:'''3.''' <translate><!--T:23--><br />
If input reactions are delayed, you want likely to increase the '''Advanced/Cyclic Feed Forward''' which plays very important role in overall behavior. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. If you are switching from Bavarian Demon, you will love values of 8 - 10. The higher values are more demanding for the servos. In bigger helicopter you can even risk Boom Strike with too high values. Too high value will induce too sharp movements and also elevator bounce-back. Too low value will cause very delayed (smooth) steering.</translate><br />
:'''4.''' <translate><!--T:24--><br />
Now it is time to set the '''General/Flight Style'''. This is the last parameter that determines flight characteristics. If you like very linear movements from the stick center to full stick deflection then you will like low values. If you like flybar behavior, so that feeling around center is smooth but with faster input you will get a sharp response, then you want to set high value. With various combinations of Flight Style and Cyclic Feed Forward you can change Cyclic feeling a lot. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. Difference between settings can be seen especially in a pirouette maneuvers and also Tic-Tocs. If value is too high, then blade' efficiency can decrease and motor can be overloaded. With higher value a sharp movements are transferred faster to the servos. Also if you are doing aggressive maneuvers, it will stop faster when stick is returned to the center. If the value is too low, then a Tic-Tocs can't be done fast enough, Piroflips can't be done precisely, etc. For beginners we recommend to leave default value. This parameter is only about your preference and both low and high value has its positive and negative side. For example, if you want smooth feeling around center with natural characteristics, you can set value of 8 for the Flight Style and Cyclic Feed Forward to 6 - 10.</translate><br />
:'''5.''' <translate><!--T:25--><br />
Lastly, you want to eliminate possible Elevator Bounce-Back effect. This can occur with high Cyclic Feed Forward, but it can be reduced by increasing '''Advanced/Elevator Filter''' parameter. Value between 2-3 should be fine for almost all helicopters. When using an aggressive blades you will need value of 4. Especially for bigger size helicopter, the value can be higher. In case of too high value, elevator movement can be too smooth and in some cases elevator can oscillate with low RPM during hovering. Set it only as high as really necessary.</translate><br />
<br />
== Unable to Tune perfectly ==<br />
<br />
In some cases even after proceeding according this Tuning Guide you can be unable to make the model to fly well. The most issues are result of poor rudder performance. This can then transfer to Cyclic whenever tail will kick to a side on its own.<br />
<br />
=== Tail mechanics check ===<br />
<br />
In order to not waste time with tuning procedure it is recommended after each build or rebuild to remove Tail servo arm from the tail servo. Then check the following steps.<br />
<br />
#Move with tail push rod in full extent and make sure the mechanics is butter smooth.<br />
#There must be basically zero friction. Any friction you feel has direct impact at the tail performance.<br />
#The easiest way to make sure it is really smooth is to tilt model - the tail slider should move on its own back and forth.<br />
#If you remove all rotor blades and spoolup up the motor you should see only moderate increase of required force to move with the tail push rod. Imagine the servo must overcome the force all the time - if you feel it is already too much there is high chance something is wrong with axial bearings in the tail rotor hub or something does not fit at a correct place. Even a single missing washer can cause very big difference.<br />
#With some models it is absolutely necessary to use a '''Ball reamer'''. Without this tool push rods might never move smoothly even after 1000 flights.<br />
<br />
=== Tail hunting ===<br />
<br />
Tail hunting is the first, but the most common sign there is something wrong with the tail. It is enough to hover the model when there is no wind. Tail should be rock solid without any movement. If there is a movement during hovering then continue reading.<br />
<br />
* In almost all cases it results from mechanics not moving smoothly.<br />
* Basically any parameter of the FBL unit will not improve this issue whatever you will do.<br />
* If your servo frequency was configured to the higest possible your tail mechanics is either still not smooth or servo is not up to the task.<br />
* Faster servo will always improve Tail performance and could reduce the issue even if mechanics is not butter smooth.<br />
* In less common cases the hunting comes from very high Governor P gain (ESC governor) or very high Governor Response (Spirit Governor).<br />
* Make sure you used Spirit double sided tape.<br />
<br />
=== Tail kick ===<br />
<br />
Tail kick could be result of more problems at the same time. If you checked tail mechanics the biggest improvement will come after a proper setting of the '''Pirouette Consistency''' parameter and '''Gyro Gain'''.<br />
* Make sure that Head Speed is holding correctly. If using Governor make sure the Governor Gains are not too high but not too low. Both cases will result in tail kick. Too high Governor gain can be distinguished by audiable noise coming from the motor. Your motor might be reaching higher RPM than required in that case.<br />
* If using only Throttle Curves without a Governor it is necessary to set a proper V-shape curve. Too high or too small difference between center throttle percentage will cause tail kick too.<br />
* If servo is too slow and there is nothing else you can do with the mechanics the only real improvement can come by using Revomix parameter. In the most cases it should be not higher than value of 4. Revomix value should be configured to be only that high as really needed. Too high value will introduce tail wag problem and other imprecision.<br />
* You can improve the performance by adjusting mechanical tail center position by adjusting push rod length. When tail servo arm is at the center then there should be 3-4° angle between tail blades. Tail slider should be closer to the tail boom.<br />
<br />
=== Main rotor check ===<br />
<br />
If you can observe that the model is pitching up when moving collective pitch or there is excess elevator bounce back do the following check:<br />
# Enable Servo/Subtrim (tuning) menu. All servo arms MUST be at the center position. If not, use Subtrims in the software to fix this.<br />
# After adjusting subtrims and servo arms are at the center, make sure the swashplate is perfectly level by using '''Cyclic Leveler''' tool. Using eye only will not reach to desired point.<br />
# Make sure that axial bearings in the main rotor hub are properly oriented. The most models require correct I/O direction. Note that even after 30 flights the axial bearings could be damaged completely. Rotor grips must move with no steps. If there are steps they must be replaced for new.<br />
# Make sure that a '''Ball reamer''' was used to all push rods. When you disconnect servo arms from the servos, the swashplate must move on its own depending on how you tilt the model. If swashplate will remain at the same position this will result in decreased cyclic performance. Strong and fast cyclic servos can overcome this issue in the most cases but it is always better to build the model properly.<br />
# Make sure you used Spirit double sided tape. Otherwise a strange bobbing or oscillations could occur - especially when using a soft tapes.<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;text-align:center;"<br />
<br />
|[[#up|&uarr;<translate><!--T:26--><br />
Up</translate>&uarr;]]<br />
<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=Tuning_Guide&diff=52406
Tuning Guide
2024-03-04T07:45:52Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<br />
<br />
<div id="up"></div><br />
<center><font size="6"><br />
<translate><!--T:1--><br />
Spirit Tuning Guide</translate><br />
</font></center><br />
{{Info|[[File:Info.png|18px|]] '''<translate><!--T:2--><br />
This guide should help you with tuning your helicopter to obtain optimal flight characteristic. The tuning guide expect the Advanced parameters are set to default.</translate><br />
'''}}<br />
<br />
<p></p><br />
<translate><!--T:3--><br />
First from all, you should try a default settings that are recommended. There are basic parameters that you have to set at the beginning (for example in the Setup wizard) but other are useful to adjust feeling and flight characteristics. Basically, you can set the behavior so that it is very similar to any known flybarless or flybared system.</translate><br />
<br />
<translate><!--T:4--><br />
If you are in condition that the helicopter is flying, but you need to do some corrections, you should start with the rudder settings first.</translate><br />
== <translate><!--T:5--><br />
RUDDER TUNING</translate> ==<br />
<br />
{{Quote|<br />
<translate><!--T:6--><br />
'''Prerequisite step -''' You can verify that the rudder servo limits are not too low or either not too high.</translate>}}<br />
<p></p><br />
:<translate><!--T:7--><br />
If the values for Rudder End-Points in the Limits Tab are less than 70, then it is too low. That mean that servo precision vs mechanical gain is not optimal. You can fix the issue with putting ball link closer to the center at the rudder servo so that limit can be higher. In case the value is more than 170 there is mostly too high servo precision vs mechanical gain. You should put longer servo arm, so the ball linkage can be further. Be sure you have configured limits so that tail slider is moving from end to end, but without any mechanical binding (servo buzzing). In case your tail mechanics allows a pitch higher than 45°, do not set limits that high. It is not absolutely necessary that limits for both sides are equal.</translate><br />
<br />
===<translate><!--T:8--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:9--><br />
Set '''Sensor/Rotation Rate''' for the rudder - this parameter determine how fast the rudder will rotate around its axis. Values between 8-11 are used by allmost all pilots. Default value of 8 is fine for beginners. While value of 11 is good for 3D maneuvers where faster pirouettes are needed.</translate><br />
:'''2.''' <translate><!--T:10--><br />
Set '''Advanced/Rudder Delay''' accordingly for your servo type - please see the [[Servo list]] where you can find optimal range. For ''Futaba BLS'' servos and ultra fast servos it is fine to set 0. Slower the servo is, the higher value should be configured. If you are not sure, leave this parameter (value of 5 should fit for average digital servos).</translate><br />
:'''3.''' <translate><!--T:11--><br />
Set '''Gyro Gain''' (usually in your transmitter) to the value, that tail is holding well, but not oscillating in any maneuver (for example Pitch pumping). This value should be as high as possible always. If you are observing tail oscillation, you should decrease the gain to eliminate it. Please note that it is recommended to change the Gain only in this step. In case that you have achieved 100% Gyro Gain with no oscillation, please increase '''Sensor/Rudder Common Gain''' which will multiply the Gyro Gain.</translate><br />
:'''4.''' <translate><!--T:12--><br />
Now, when your gain is configured, your tail can still not hold the position exactly. That's because your mechanical gain is not high as necessary. You can fix it by increasing the '''Advanced/Piro Consistency''' value. Increase it by 5 gradually until the tail will hold. The value should be nearly in all cases between 155 - 190. With higher values the rudder will rotate more constantly and so can be even more sharp. With bigger size helicopter the value is often higher. It depends mostly on the helicopter construction (manufacturer), servo arm and servo type. For ''Futaba BLS'' servos or similar, it is needed to increase the value even more (in rare cases to value of 200). You shouldn't set the parameter too high if not necessary (always set only as high as really necessary), otherwise ''tail oscillation'' in high extent can occur. You can verify it in a ''fast forward flight'' or ''pitch pumps'' whether the value is too high and you can see any oscillations.</translate><br />
:'''5.''' <translate><!--T:13--><br />
If the tail is still not holding well the problem could be:</translate><br />
:::*<translate><!--T:14--><br />
Head Speed is holding poorly or too agressively during load. (can be improved by Governor settings or Throttle Curve change).</translate><br />
:::*<translate><!--T:15--><br />
There is a mechanical issue. Check by spooling up the motor with no blades, then move with the tail push rod carefully by hand from end to end. (push rod disconnected from servo).</translate><br />
:::*<translate><!--T:16--><br />
Tail servo is too slow (0.07s/60° or higher) - increase the '''Advanced/Rudder Revomix''' to value 1-4. Higher values are not recommended.</translate><br />
:'''6.''' <translate><!--T:17--><br />
When above steps are done, you can tune the Stopping Behavior. For this purpose use the '''Advanced/Rudder Dynamic''' parameter. Value determine how aggressive the rudder stops and the steering is. If you like sharp stops, you should set value between 6 to 8. If you like extra sharp behavior, then value higher than 10 are good for you. But high values are very demanding for servos and mechanics, so you should be carefull. If you like smooth stopping so that steering is also very smooth, you should set values between 5-7. If value is too low, the rudder reaction can be even delayed. In case the tail stopping is not equal or overshooting to one side, you can decrease the Rudder End-point for such side (mostly closer to the tail blades) by 0,5-1mm.</translate><br />
<br />
== <translate><!--T:18--><br />
CYCLIC TUNING</translate> ==<br />
<br />
<br />
{{Quote|<br />
<translate><!--T:19--><br />
Make sure the '''Cyclic Ring''' - Aileron/Elevator range is as high as possible without binding even in min/max collective pitch. Ideally it should be equal angle with your max. collective pitch. But it is extremely important to not exceed angles allowed by the model manufacturer. With models of size 600 and bigger risk of boomstrike is very high with lower RPM.</translate><br />
}}<br />
<p></p><br />
===<translate><!--T:20--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:21--><br />
Increase the '''Sensor/Cyclic Gain''' if you can observe the cyclic is not level during pitch pumps or flight is not precise. Mostly values around 60% are optimal for all models. You shouldn't set the gain as high as possible always. If it is too high, steering can be even delayed little bit and not that comfortable. Mostly values above 80% are unwanted. If gain is too high, you can see Aileron oscillations, especially when descending slowly or while doing Tic-Toc maneuver. Sometimes it is caused by too soft head dampeners or non-flybarless blades as well. But if you can achieve values higher than 50% then it is optimal. In some cases, if you want very natural feeling, you can set the Cyclic Gain to e.g. 40%, but you will loose some precision. Stability will be still good.</translate><br />
:'''2.''' <translate><!--T:22--><br />
Set the '''Sensor/Rotation Rate''' parameter to the extent that flips and rolls are fast enough. Be carefull to not set it higher than your mechanics can handle. The highest value for the most models is between 11 - 13. If the value is too high, steering is not precise and sometimes you can observe that rate is not constant (Once you finish the cyclic input it will continue for a fraction of second).</translate><br />
:'''3.''' <translate><!--T:23--><br />
If input reactions are delayed, you want likely to increase the '''Advanced/Cyclic Feed Forward''' which plays very important role in overall behavior. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. If you are switching from Bavarian Demon, you will love values of 8 - 10. The higher values are more demanding for the servos. In bigger helicopter you can even risk Boom Strike with too high values. Too high value will induce too sharp movements and also elevator bounce-back. Too low value will cause very delayed (smooth) steering.</translate><br />
:'''4.''' <translate><!--T:24--><br />
Now it is time to set the '''General/Flight Style'''. This is the last parameter that determines flight characteristics. If you like very linear movements from the stick center to full stick deflection then you will like low values. If you like flybar behavior, so that feeling around center is smooth but with faster input you will get a sharp response, then you want to set high value. With various combinations of Flight Style and Cyclic Feed Forward you can change Cyclic feeling a lot. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. Difference between settings can be seen especially in a pirouette maneuvers and also Tic-Tocs. If value is too high, then blade' efficiency can decrease and motor can be overloaded. With higher value a sharp movements are transferred faster to the servos. Also if you are doing aggressive maneuvers, it will stop faster when stick is returned to the center. If the value is too low, then a Tic-Tocs can't be done fast enough, Piroflips can't be done precisely, etc. For beginners we recommend to leave default value. This parameter is only about your preference and both low and high value has its positive and negative side. For example, if you want smooth feeling around center with natural characteristics, you can set value of 8 for the Flight Style and Cyclic Feed Forward to 6 - 10.</translate><br />
:'''5.''' <translate><!--T:25--><br />
Lastly, you want to eliminate possible Elevator Bounce-Back effect. This can occur with high Cyclic Feed Forward, but it can be reduced by increasing '''Advanced/Elevator Filter''' parameter. Value between 2-3 should be fine for almost all helicopters. When using an aggressive blades you will need value of 4. Especially for bigger size helicopter, the value can be higher. In case of too high value, elevator movement can be too smooth and in some cases elevator can oscillate with low RPM during hovering. Set it only as high as really necessary.</translate><br />
<br />
== If you are Unable to tune the unit ==<br />
<br />
In some cases even after proceeding according this Tuning Guide you can be unable to make the model to fly well. The most issues are result of poor rudder performance. This can then transfer to Cyclic whenever tail will kick to a side on its own.<br />
<br />
=== Tail mechanics check ===<br />
<br />
In order to not waste time with tuning procedure it is recommended after each build or rebuild to remove Tail servo arm from the tail servo. Then check the following steps.<br />
<br />
#Move with tail push rod in full extent and make sure the mechanics is butter smooth.<br />
#There must be basically zero friction. Any friction you feel has direct impact at the tail performance.<br />
#The easiest way to make sure it is really smooth is to tilt model - the tail slider should move on its own back and forth.<br />
#If you remove all rotor blades and spoolup up the motor you should see only moderate increase of required force to move with the tail push rod. Imagine the servo must overcome the force all the time - if you feel it is already too much there is high chance something is wrong with axial bearings in the tail rotor hub or something does not fit at a correct place. Even a single missing washer can cause very big difference.<br />
#With some models it is absolutely necessary to use a '''Ball reamer'''. Without this tool push rods might never move smoothly even after 1000 flights.<br />
<br />
=== Tail hunting ===<br />
<br />
Tail hunting is the first, but the most common sign there is something wrong with the tail. It is enough to hover the model when there is no wind. Tail should be rock solid without any movement. If there is a movement during hovering then continue reading.<br />
<br />
* In almost all cases it results from mechanics not moving smoothly.<br />
* Basically any parameter of the FBL unit will not improve this issue whatever you will do.<br />
* If your servo frequency was configured to the higest possible your tail mechanics is either still not smooth or servo is not up to the task.<br />
* Faster servo will always improve Tail performance and could reduce the issue even if mechanics is not butter smooth.<br />
* In less common cases the hunting comes from very high Governor P gain (ESC governor) or very high Governor Response (Spirit Governor).<br />
* Make sure you used Spirit double sided tape.<br />
<br />
=== Tail kick ===<br />
<br />
Tail kick could be result of more problems at the same time. If you checked tail mechanics the biggest improvement will come after a proper setting of the '''Pirouette Consistency''' parameter and '''Gyro Gain'''.<br />
* Make sure that Head Speed is holding correctly. If using Governor make sure the Governor Gains are not too high but not too low. Both cases will result in tail kick. Too high Governor gain can be distinguished by audiable noise coming from the motor. Your motor might be reaching higher RPM than required in that case.<br />
* If using only Throttle Curves without a Governor it is necessary to set a proper V-shape curve. Too high or too small difference between center throttle percentage will cause tail kick too.<br />
* If servo is too slow and there is nothing else you can do with the mechanics the only real improvement can come by using Revomix parameter. In the most cases it should be not higher than value of 4. Revomix value should be configured to be only that high as really needed. Too high value will introduce tail wag problem and other imprecision.<br />
* You can improve the performance by adjusting mechanical tail center position by adjusting push rod length. When tail servo arm is at the center then there should be 3-4° angle between tail blades. Tail slider should be closer to the tail boom.<br />
<br />
=== Main rotor check ===<br />
<br />
If you can observe that the model is pitching up when moving collective pitch or there is excess elevator bounce back do the following check:<br />
# Enable Servo/Subtrim (tuning) menu. All servo arms MUST be at the center position. If not, use Subtrims in the software to fix this.<br />
# After adjusting subtrims and servo arms are at the center, make sure the swashplate is perfectly level by using '''Cyclic Leveler''' tool. Using eye only will not reach to desired point.<br />
# Make sure that axial bearings in the main rotor hub are properly oriented. The most models require correct I/O direction. Note that even after 30 flights the axial bearings could be damaged completely. Rotor grips must move with no steps. If there are steps they must be replaced for new.<br />
# Make sure that a '''Ball reamer''' was used to all push rods. When you disconnect servo arms from the servos, the swashplate must move on its own depending on how you tilt the model. If swashplate will remain at the same position this will result in decreased cyclic performance. Strong and fast cyclic servos can overcome this issue in the most cases but it is always better to build the model properly.<br />
# Make sure you used Spirit double sided tape. Otherwise a strange bobbing or oscillations could occur - especially when using a soft tapes.<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;text-align:center;"<br />
<br />
|[[#up|&uarr;<translate><!--T:26--><br />
Up</translate>&uarr;]]<br />
<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=Tuning_Guide&diff=52405
Tuning Guide
2024-03-04T07:43:28Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<br />
<br />
<div id="up"></div><br />
<center><font size="6"><br />
<translate><!--T:1--><br />
Spirit Tuning Guide</translate><br />
</font></center><br />
{{Info|[[File:Info.png|18px|]] '''<translate><!--T:2--><br />
This guide should help you with tuning your helicopter to obtain optimal flight characteristic. The tuning guide expect the Advanced parameters are set to default.</translate><br />
'''}}<br />
<br />
<p></p><br />
<translate><!--T:3--><br />
First from all, you should try a default settings that are recommended. There are basic parameters that you have to set at the beginning (for example in the Setup wizard) but other are useful to adjust feeling and flight characteristics. Basically, you can set the behavior so that it is very similar to any known flybarless or flybared system.</translate><br />
<br />
<translate><!--T:4--><br />
If you are in condition that the helicopter is flying, but you need to do some corrections, you should start with the rudder settings first.</translate><br />
== <translate><!--T:5--><br />
RUDDER TUNING</translate> ==<br />
<br />
{{Quote|<br />
<translate><!--T:6--><br />
'''Prerequisite step -''' You can verify that the rudder servo limits are not too low or either not too high.</translate>}}<br />
<p></p><br />
:<translate><!--T:7--><br />
If the values for Rudder End-Points in the Limits Tab are less than 70, then it is too low. That mean that servo precision vs mechanical gain is not optimal. You can fix the issue with putting ball link closer to the center at the rudder servo so that limit can be higher. In case the value is more than 170 there is mostly too high servo precision vs mechanical gain. You should put longer servo arm, so the ball linkage can be further. Be sure you have configured limits so that tail slider is moving from end to end, but without any mechanical binding (servo buzzing). In case your tail mechanics allows a pitch higher than 45°, do not set limits that high. It is not absolutely necessary that limits for both sides are equal.</translate><br />
<br />
===<translate><!--T:8--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:9--><br />
Set '''Sensor/Rotation Rate''' for the rudder - this parameter determine how fast the rudder will rotate around its axis. Values between 8-11 are used by allmost all pilots. Default value of 8 is fine for beginners. While value of 11 is good for 3D maneuvers where faster pirouettes are needed.</translate><br />
:'''2.''' <translate><!--T:10--><br />
Set '''Advanced/Rudder Delay''' accordingly for your servo type - please see the [[Servo list]] where you can find optimal range. For ''Futaba BLS'' servos and ultra fast servos it is fine to set 0. Slower the servo is, the higher value should be configured. If you are not sure, leave this parameter (value of 5 should fit for average digital servos).</translate><br />
:'''3.''' <translate><!--T:11--><br />
Set '''Gyro Gain''' (usually in your transmitter) to the value, that tail is holding well, but not oscillating in any maneuver (for example Pitch pumping). This value should be as high as possible always. If you are observing tail oscillation, you should decrease the gain to eliminate it. Please note that it is recommended to change the Gain only in this step. In case that you have achieved 100% Gyro Gain with no oscillation, please increase '''Sensor/Rudder Common Gain''' which will multiply the Gyro Gain.</translate><br />
:'''4.''' <translate><!--T:12--><br />
Now, when your gain is configured, your tail can still not hold the position exactly. That's because your mechanical gain is not high as necessary. You can fix it by increasing the '''Advanced/Piro Consistency''' value. Increase it by 5 gradually until the tail will hold. The value should be nearly in all cases between 155 - 190. With higher values the rudder will rotate more constantly and so can be even more sharp. With bigger size helicopter the value is often higher. It depends mostly on the helicopter construction (manufacturer), servo arm and servo type. For ''Futaba BLS'' servos or similar, it is needed to increase the value even more (in rare cases to value of 200). You shouldn't set the parameter too high if not necessary (always set only as high as really necessary), otherwise ''tail oscillation'' in high extent can occur. You can verify it in a ''fast forward flight'' or ''pitch pumps'' whether the value is too high and you can see any oscillations.</translate><br />
:'''5.''' <translate><!--T:13--><br />
If the tail is still not holding well the problem could be:</translate><br />
:::*<translate><!--T:14--><br />
Head Speed is holding poorly or too agressively during load. (can be improved by Governor settings or Throttle Curve change).</translate><br />
:::*<translate><!--T:15--><br />
There is a mechanical issue. Check by spooling up the motor with no blades, then move with the tail push rod carefully by hand from end to end. (push rod disconnected from servo).</translate><br />
:::*<translate><!--T:16--><br />
Tail servo is too slow (0.07s/60° or higher) - increase the '''Advanced/Rudder Revomix''' to value 1-4. Higher values are not recommended.</translate><br />
:'''6.''' <translate><!--T:17--><br />
When above steps are done, you can tune the Stopping Behavior. For this purpose use the '''Advanced/Rudder Dynamic''' parameter. Value determine how aggressive the rudder stops and the steering is. If you like sharp stops, you should set value between 6 to 8. If you like extra sharp behavior, then value higher than 10 are good for you. But high values are very demanding for servos and mechanics, so you should be carefull. If you like smooth stopping so that steering is also very smooth, you should set values between 5-7. If value is too low, the rudder reaction can be even delayed. In case the tail stopping is not equal or overshooting to one side, you can decrease the Rudder End-point for such side (mostly closer to the tail blades) by 0,5-1mm.</translate><br />
<br />
== <translate><!--T:18--><br />
CYCLIC TUNING</translate> ==<br />
<br />
<br />
{{Quote|<br />
<translate><!--T:19--><br />
Make sure the '''Cyclic Ring''' - Aileron/Elevator range is as high as possible without binding even in min/max collective pitch. Ideally it should be equal angle with your max. collective pitch. But it is extremely important to not exceed angles allowed by the model manufacturer. With models of size 600 and bigger risk of boomstrike is very high with lower RPM.</translate><br />
}}<br />
<p></p><br />
===<translate><!--T:20--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:21--><br />
Increase the '''Sensor/Cyclic Gain''' if you can observe the cyclic is not level during pitch pumps or flight is not precise. Mostly values around 60% are optimal for all models. You shouldn't set the gain as high as possible always. If it is too high, steering can be even delayed little bit and not that comfortable. Mostly values above 80% are unwanted. If gain is too high, you can see Aileron oscillations, especially when descending slowly or while doing Tic-Toc maneuver. Sometimes it is caused by too soft head dampeners or non-flybarless blades as well. But if you can achieve values higher than 50% then it is optimal. In some cases, if you want very natural feeling, you can set the Cyclic Gain to e.g. 40%, but you will loose some precision. Stability will be still good.</translate><br />
:'''2.''' <translate><!--T:22--><br />
Set the '''Sensor/Rotation Rate''' parameter to the extent that flips and rolls are fast enough. Be carefull to not set it higher than your mechanics can handle. The highest value for the most models is between 11 - 13. If the value is too high, steering is not precise and sometimes you can observe that rate is not constant (Once you finish the cyclic input it will continue for a fraction of second).</translate><br />
:'''3.''' <translate><!--T:23--><br />
If input reactions are delayed, you want likely to increase the '''Advanced/Cyclic Feed Forward''' which plays very important role in overall behavior. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. If you are switching from Bavarian Demon, you will love values of 8 - 10. The higher values are more demanding for the servos. In bigger helicopter you can even risk Boom Strike with too high values. Too high value will induce too sharp movements and also elevator bounce-back. Too low value will cause very delayed (smooth) steering.</translate><br />
:'''4.''' <translate><!--T:24--><br />
Now it is time to set the '''General/Flight Style'''. This is the last parameter that determines flight characteristics. If you like very linear movements from the stick center to full stick deflection then you will like low values. If you like flybar behavior, so that feeling around center is smooth but with faster input you will get a sharp response, then you want to set high value. With various combinations of Flight Style and Cyclic Feed Forward you can change Cyclic feeling a lot. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. Difference between settings can be seen especially in a pirouette maneuvers and also Tic-Tocs. If value is too high, then blade' efficiency can decrease and motor can be overloaded. With higher value a sharp movements are transferred faster to the servos. Also if you are doing aggressive maneuvers, it will stop faster when stick is returned to the center. If the value is too low, then a Tic-Tocs can't be done fast enough, Piroflips can't be done precisely, etc. For beginners we recommend to leave default value. This parameter is only about your preference and both low and high value has its positive and negative side. For example, if you want smooth feeling around center with natural characteristics, you can set value of 8 for the Flight Style and Cyclic Feed Forward to 6 - 10.</translate><br />
:'''5.''' <translate><!--T:25--><br />
Lastly, you want to eliminate possible Elevator Bounce-Back effect. This can occur with high Cyclic Feed Forward, but it can be reduced by increasing '''Advanced/Elevator Filter''' parameter. Value between 2-3 should be fine for almost all helicopters. When using an aggressive blades you will need value of 4. Especially for bigger size helicopter, the value can be higher. In case of too high value, elevator movement can be too smooth and in some cases elevator can oscillate with low RPM during hovering. Set it only as high as really necessary.</translate><br />
<br />
== If you are Unable to tune the unit ==<br />
<br />
In some cases even after proceeding according this Tuning Guide you can be unable to make the model to fly well. The most issues are result of poor rudder performance. This can then transfer to Cyclic whenever tail will kick to a side on its own.<br />
<br />
=== Tail mechanics check ===<br />
<br />
In order to not waste time with tuning procedure it is recommended after each build or rebuild to remove Tail servo arm from the tail servo. Then check the following steps.<br />
<br />
#Move with tail push rod in full extent and make sure the mechanics is butter smooth.<br />
#There must be basically zero friction. Any friction you feel has direct impact at the tail performance.<br />
#The easiest way to make sure it is really smooth is to tilt model - the tail slider should move on its own back and forth.<br />
#If you remove all rotor blades and spoolup up the motor you should see only moderate increase of required force to move with the tail push rod. Imagine the servo must overcome the force all the time - if you feel it is already too much there is high chance something is wrong with axial bearings in the tail rotor hub or something does not fit at a correct place. Even a single missing washer can cause very big difference.<br />
#With some models it is absolutely necessary to use a '''Ball reamer'''. Without this tool push rods might never move smoothly even after 1000 flights.<br />
<br />
=== Tail hunting ===<br />
<br />
Tail hunting is the first, but the most common sign there is something wrong with the tail. It is enough to hover the model when there is no wind. Tail should be rock solid without any movement. If there is a movement during hovering then continue reading.<br />
<br />
* In almost all cases it results from mechanics not moving smoothly.<br />
* Basically any parameter of the FBL unit will not improve this issue whatever you will do.<br />
* If your servo frequency was configured to the higest possible your tail mechanics is either still not smooth or servo is not up to the task.<br />
* Faster servo will always improve Tail performance and could reduce the issue even if mechanics is not butter smooth.<br />
* In less common cases the hunting comes from very high Governor P gain (ESC governor) or very high Governor Response (Spirit Governor).<br />
<br />
=== Tail kick ===<br />
<br />
Tail kick could be result of more problems at the same time. If you checked tail mechanics the biggest improvement will come after a proper setting of the '''Pirouette Consistency''' parameter and '''Gyro Gain'''.<br />
* Make sure that Head Speed is holding correctly. If using Governor make sure the Governor Gains are not too high but not too low. Both cases will result in tail kick. Too high Governor gain can be distinguished by audiable noise coming from the motor. Your motor might be reaching higher RPM than required in that case.<br />
* If using only Throttle Curves without a Governor it is necessary to set a proper V-shape curve. Too high or too small difference between center throttle percentage will cause tail kick too.<br />
* If servo is too slow and there is nothing else you can do with the mechanics the only real improvement can come by using Revomix parameter. In the most cases it should be not higher than value of 4. Revomix value should be configured to be only that high as really needed. Too high value will introduce tail wag problem and other imprecision.<br />
* You can improve the performance by adjusting mechanical tail center position by adjusting push rod length. When tail servo arm is at the center then there should be 3-4° angle between tail blades. Tail slider should be closer to the tail boom.<br />
<br />
=== Main rotor check ===<br />
<br />
If you can observe that the model is pitching up when moving collective pitch or there is excess elevator bounce back do the following check:<br />
# Enable Servo/Subtrim (tuning) menu. All servo arms MUST be at the center position. If not, use Subtrims in the software to fix this.<br />
# After adjusting subtrims and servo arms are at the center, make sure the swashplate is perfectly level by using '''Cyclic Leveler''' tool. Using eye only will not reach to desired point.<br />
# Make sure that axial bearings in the main rotor hub are properly oriented. The most models require correct I/O direction. Note that even after 30 flights the axial bearings could be damaged completely. Rotor grips must move with no steps. If there are steps they must be replaced for new.<br />
# Make sure that a '''Ball reamer''' was used to all push rods. When you disconnect servo arms from the servos, the swashplate must move on its own depending on how you tilt the model. If swashplate will remain at the same position this will result in decreased cyclic performance. Strong and fast cyclic servos can overcome this issue in the most cases but it is always better to build the model properly.<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;text-align:center;"<br />
<br />
|[[#up|&uarr;<translate><!--T:26--><br />
Up</translate>&uarr;]]<br />
<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=Tuning_Guide&diff=52404
Tuning Guide
2024-03-04T07:30:02Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<br />
<br />
<div id="up"></div><br />
<center><font size="6"><br />
<translate><!--T:1--><br />
Spirit Tuning Guide</translate><br />
</font></center><br />
{{Info|[[File:Info.png|18px|]] '''<translate><!--T:2--><br />
This guide should help you with tuning your helicopter to obtain optimal flight characteristic. The tuning guide expect the Advanced parameters are set to default.</translate><br />
'''}}<br />
<br />
<p></p><br />
<translate><!--T:3--><br />
First from all, you should try a default settings that are recommended. There are basic parameters that you have to set at the beginning (for example in the Setup wizard) but other are useful to adjust feeling and flight characteristics. Basically, you can set the behavior so that it is very similar to any known flybarless or flybared system.</translate><br />
<br />
<translate><!--T:4--><br />
If you are in condition that the helicopter is flying, but you need to do some corrections, you should start with the rudder settings first.</translate><br />
== <translate><!--T:5--><br />
RUDDER TUNING</translate> ==<br />
<br />
{{Quote|<br />
<translate><!--T:6--><br />
'''Prerequisite step -''' You can verify that the rudder servo limits are not too low or either not too high.</translate>}}<br />
<p></p><br />
:<translate><!--T:7--><br />
If the values for Rudder End-Points in the Limits Tab are less than 70, then it is too low. That mean that servo precision vs mechanical gain is not optimal. You can fix the issue with putting ball link closer to the center at the rudder servo so that limit can be higher. In case the value is more than 170 there is mostly too high servo precision vs mechanical gain. You should put longer servo arm, so the ball linkage can be further. Be sure you have configured limits so that tail slider is moving from end to end, but without any mechanical binding (servo buzzing). In case your tail mechanics allows a pitch higher than 45°, do not set limits that high. It is not absolutely necessary that limits for both sides are equal.</translate><br />
<br />
===<translate><!--T:8--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:9--><br />
Set '''Sensor/Rotation Rate''' for the rudder - this parameter determine how fast the rudder will rotate around its axis. Values between 8-11 are used by allmost all pilots. Default value of 8 is fine for beginners. While value of 11 is good for 3D maneuvers where faster pirouettes are needed.</translate><br />
:'''2.''' <translate><!--T:10--><br />
Set '''Advanced/Rudder Delay''' accordingly for your servo type - please see the [[Servo list]] where you can find optimal range. For ''Futaba BLS'' servos and ultra fast servos it is fine to set 0. Slower the servo is, the higher value should be configured. If you are not sure, leave this parameter (value of 5 should fit for average digital servos).</translate><br />
:'''3.''' <translate><!--T:11--><br />
Set '''Gyro Gain''' (usually in your transmitter) to the value, that tail is holding well, but not oscillating in any maneuver (for example Pitch pumping). This value should be as high as possible always. If you are observing tail oscillation, you should decrease the gain to eliminate it. Please note that it is recommended to change the Gain only in this step. In case that you have achieved 100% Gyro Gain with no oscillation, please increase '''Sensor/Rudder Common Gain''' which will multiply the Gyro Gain.</translate><br />
:'''4.''' <translate><!--T:12--><br />
Now, when your gain is configured, your tail can still not hold the position exactly. That's because your mechanical gain is not high as necessary. You can fix it by increasing the '''Advanced/Piro Consistency''' value. Increase it by 5 gradually until the tail will hold. The value should be nearly in all cases between 155 - 190. With higher values the rudder will rotate more constantly and so can be even more sharp. With bigger size helicopter the value is often higher. It depends mostly on the helicopter construction (manufacturer), servo arm and servo type. For ''Futaba BLS'' servos or similar, it is needed to increase the value even more (in rare cases to value of 200). You shouldn't set the parameter too high if not necessary (always set only as high as really necessary), otherwise ''tail oscillation'' in high extent can occur. You can verify it in a ''fast forward flight'' or ''pitch pumps'' whether the value is too high and you can see any oscillations.</translate><br />
:'''5.''' <translate><!--T:13--><br />
If the tail is still not holding well the problem could be:</translate><br />
:::*<translate><!--T:14--><br />
Head Speed is holding poorly or too agressively during load. (can be improved by Governor settings or Throttle Curve change).</translate><br />
:::*<translate><!--T:15--><br />
There is a mechanical issue. Check by spooling up the motor with no blades, then move with the tail push rod carefully by hand from end to end. (push rod disconnected from servo).</translate><br />
:::*<translate><!--T:16--><br />
Tail servo is too slow (0.07s/60° or higher) - increase the '''Advanced/Rudder Revomix''' to value 1-4. Higher values are not recommended.</translate><br />
:'''6.''' <translate><!--T:17--><br />
When above steps are done, you can tune the Stopping Behavior. For this purpose use the '''Advanced/Rudder Dynamic''' parameter. Value determine how aggressive the rudder stops and the steering is. If you like sharp stops, you should set value between 6 to 8. If you like extra sharp behavior, then value higher than 10 are good for you. But high values are very demanding for servos and mechanics, so you should be carefull. If you like smooth stopping so that steering is also very smooth, you should set values between 5-7. If value is too low, the rudder reaction can be even delayed. In case the tail stopping is not equal or overshooting to one side, you can decrease the Rudder End-point for such side (mostly closer to the tail blades) by 0,5-1mm.</translate><br />
<br />
== <translate><!--T:18--><br />
CYCLIC TUNING</translate> ==<br />
<br />
<br />
{{Quote|<br />
<translate><!--T:19--><br />
Make sure the '''Cyclic Ring''' - Aileron/Elevator range is as high as possible without binding even in min/max collective pitch. Ideally it should be equal angle with your max. collective pitch. But it is extremely important to not exceed angles allowed by the model manufacturer. With models of size 600 and bigger risk of boomstrike is very high with lower RPM.</translate><br />
}}<br />
<p></p><br />
===<translate><!--T:20--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:21--><br />
Increase the '''Sensor/Cyclic Gain''' if you can observe the cyclic is not level during pitch pumps or flight is not precise. Mostly values around 60% are optimal for all models. You shouldn't set the gain as high as possible always. If it is too high, steering can be even delayed little bit and not that comfortable. Mostly values above 80% are unwanted. If gain is too high, you can see Aileron oscillations, especially when descending slowly or while doing Tic-Toc maneuver. Sometimes it is caused by too soft head dampeners or non-flybarless blades as well. But if you can achieve values higher than 50% then it is optimal. In some cases, if you want very natural feeling, you can set the Cyclic Gain to e.g. 40%, but you will loose some precision. Stability will be still good.</translate><br />
:'''2.''' <translate><!--T:22--><br />
Set the '''Sensor/Rotation Rate''' parameter to the extent that flips and rolls are fast enough. Be carefull to not set it higher than your mechanics can handle. The highest value for the most models is between 11 - 13. If the value is too high, steering is not precise and sometimes you can observe that rate is not constant (Once you finish the cyclic input it will continue for a fraction of second).</translate><br />
:'''3.''' <translate><!--T:23--><br />
If input reactions are delayed, you want likely to increase the '''Advanced/Cyclic Feed Forward''' which plays very important role in overall behavior. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. If you are switching from Bavarian Demon, you will love values of 8 - 10. The higher values are more demanding for the servos. In bigger helicopter you can even risk Boom Strike with too high values. Too high value will induce too sharp movements and also elevator bounce-back. Too low value will cause very delayed (smooth) steering.</translate><br />
:'''4.''' <translate><!--T:24--><br />
Now it is time to set the '''General/Flight Style'''. This is the last parameter that determines flight characteristics. If you like very linear movements from the stick center to full stick deflection then you will like low values. If you like flybar behavior, so that feeling around center is smooth but with faster input you will get a sharp response, then you want to set high value. With various combinations of Flight Style and Cyclic Feed Forward you can change Cyclic feeling a lot. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. Difference between settings can be seen especially in a pirouette maneuvers and also Tic-Tocs. If value is too high, then blade' efficiency can decrease and motor can be overloaded. With higher value a sharp movements are transferred faster to the servos. Also if you are doing aggressive maneuvers, it will stop faster when stick is returned to the center. If the value is too low, then a Tic-Tocs can't be done fast enough, Piroflips can't be done precisely, etc. For beginners we recommend to leave default value. This parameter is only about your preference and both low and high value has its positive and negative side. For example, if you want smooth feeling around center with natural characteristics, you can set value of 8 for the Flight Style and Cyclic Feed Forward to 6 - 10.</translate><br />
:'''5.''' <translate><!--T:25--><br />
Lastly, you want to eliminate possible Elevator Bounce-Back effect. This can occur with high Cyclic Feed Forward, but it can be reduced by increasing '''Advanced/Elevator Filter''' parameter. Value between 2-3 should be fine for almost all helicopters. When using an aggressive blades you will need value of 4. Especially for bigger size helicopter, the value can be higher. In case of too high value, elevator movement can be too smooth and in some cases elevator can oscillate with low RPM during hovering. Set it only as high as really necessary.</translate><br />
<br />
== If you are Unable to tune the unit ==<br />
<br />
In some cases even after proceeding according this Tuning Guide you can be unable to make the model to fly well. The most issues are result of poor rudder performance. This can then transfer to Cyclic whenever tail will kick to a side on its own.<br />
<br />
==== Tail mechanics check ====<br />
<br />
In order to not waste time with tuning procedure it is recommended after each build or rebuild to remove Tail servo arm from the tail servo. Then check the following steps.<br />
<br />
#Move with tail push rod in full extent and make sure the mechanics is butter smooth.<br />
#There must be basically zero friction. Any friction you feel has direct impact at the tail performance.<br />
#The easiest way to make sure it is really smooth is to tilt model - the tail slider should move on its own back and forth.<br />
#If you remove all rotor blades and spoolup up the motor you should see only moderate increase of required force to move with the tail push rod. Imagine the servo must overcome the force all the time - if you feel it is already too much there is high chance something is wrong with axial bearings in the tail rotor hub or something does not fit at a correct place. Even a single missing washer can cause very big difference.<br />
#With some models it is absolutely necessary to use a '''Ball reamer'''. Without this tool push rods might never move smoothly even after 1000 flights.<br />
<br />
=== Tail hunting ===<br />
<br />
Tail hunting is the first, but the most common sign there is something wrong with the tail. It is enough to hover the model when there is no wind. Tail should be rock solid without any movement. If there is a movement during hovering then continue reading.<br />
<br />
* In almost all cases it results from mechanics not moving smoothly.<br />
* Basically any parameter of the FBL unit will not improve this issue whatever you will do.<br />
* If your servo frequency was configured to the higest possible your tail mechanics is either still not smooth or servo is not up to the task.<br />
* Faster servo will always improve Tail performance and could reduce the issue even if mechanics is not butter smooth.<br />
* In less common cases the hunting comes from very high Governor P gain (ESC governor) or very high Governor Response (Spirit Governor).<br />
<br />
=== Tail kick ===<br />
<br />
Tail kick could be result of more problems at the same time. If you checked tail mechanics the biggest improvement will come after a proper setting of the '''Pirouette Consistency''' parameter and '''Gyro Gain'''.<br />
* Make sure that Head Speed is holding correctly. If using Governor make sure the Governor Gains are not too high but not too low. Both cases will result in tail kick. Too high Governor gain can be distinguished by audiable noise coming from the motor. Your motor might be reaching higher RPM than required in that case.<br />
* If using only Throttle Curves without a Governor it is necessary to set a proper V-shape curve. Too high or too small difference between center throttle percentage will cause tail kick too.<br />
* If servo is too slow and there is nothing else you can do with the mechanics the only real improvement can come by using Revomix parameter. In the most cases it should be not higher than value of 4.<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;text-align:center;"<br />
<br />
|[[#up|&uarr;<translate><!--T:26--><br />
Up</translate>&uarr;]]<br />
<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=Tuning_Guide&diff=52403
Tuning Guide
2024-03-04T05:34:00Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<br />
<br />
<div id="up"></div><br />
<center><font size="6"><br />
<translate><!--T:1--><br />
Spirit Tuning Guide</translate><br />
</font></center><br />
{{Info|[[File:Info.png|18px|]] '''<translate><!--T:2--><br />
This guide should help you with tuning your helicopter to obtain optimal flight characteristic. The tuning guide expect the Advanced parameters are set to default.</translate><br />
'''}}<br />
<br />
<p></p><br />
<translate><!--T:3--><br />
First from all, you should try a default settings that are recommended. There are basic parameters that you have to set at the beginning (for example in the Setup wizard) but other are useful to adjust feeling and flight characteristics. Basically, you can set the behavior so that it is very similar to any known flybarless or flybared system.</translate><br />
<br />
<translate><!--T:4--><br />
If you are in condition that the helicopter is flying, but you need to do some corrections, you should start with the rudder settings first.</translate><br />
== <translate><!--T:5--><br />
RUDDER TUNING</translate> ==<br />
<br />
{{Quote|<br />
<translate><!--T:6--><br />
'''Prerequisite step -''' You can verify that the rudder servo limits are not too low or either not too high.</translate>}}<br />
<p></p><br />
:<translate><!--T:7--><br />
If the values for Rudder End-Points in the Limits Tab are less than 70, then it is too low. That mean that servo precision vs mechanical gain is not optimal. You can fix the issue with putting ball link closer to the center at the rudder servo so that limit can be higher. In case the value is more than 170 there is mostly too high servo precision vs mechanical gain. You should put longer servo arm, so the ball linkage can be further. Be sure you have configured limits so that tail slider is moving from end to end, but without any mechanical binding (servo buzzing). In case your tail mechanics allows a pitch higher than 45°, do not set limits that high. It is not absolutely necessary that limits for both sides are equal.</translate><br />
<br />
===<translate><!--T:8--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:9--><br />
Set '''Sensor/Rotation Rate''' for the rudder - this parameter determine how fast the rudder will rotate around its axis. Values between 8-11 are used by allmost all pilots. Default value of 8 is fine for beginners. While value of 11 is good for 3D maneuvers where faster pirouettes are needed.</translate><br />
:'''2.''' <translate><!--T:10--><br />
Set '''Advanced/Rudder Delay''' accordingly for your servo type - please see the [[Servo list]] where you can find optimal range. For ''Futaba BLS'' servos and ultra fast servos it is fine to set 0. Slower the servo is, the higher value should be configured. If you are not sure, leave this parameter (value of 5 should fit for average digital servos).</translate><br />
:'''3.''' <translate><!--T:11--><br />
Set '''Gyro Gain''' (usually in your transmitter) to the value, that tail is holding well, but not oscillating in any maneuver (for example Pitch pumping). This value should be as high as possible always. If you are observing tail oscillation, you should decrease the gain to eliminate it. Please note that it is recommended to change the Gain only in this step. In case that you have achieved 100% Gyro Gain with no oscillation, please increase '''Sensor/Rudder Common Gain''' which will multiply the Gyro Gain.</translate><br />
:'''4.''' <translate><!--T:12--><br />
Now, when your gain is configured, your tail can still not hold the position exactly. That's because your mechanical gain is not high as necessary. You can fix it by increasing the '''Advanced/Piro Consistency''' value. Increase it by 5 gradually until the tail will hold. The value should be nearly in all cases between 155 - 190. With higher values the rudder will rotate more constantly and so can be even more sharp. With bigger size helicopter the value is often higher. It depends mostly on the helicopter construction (manufacturer), servo arm and servo type. For ''Futaba BLS'' servos or similar, it is needed to increase the value even more (in rare cases to value of 200). You shouldn't set the parameter too high if not necessary (always set only as high as really necessary), otherwise ''tail oscillation'' in high extent can occur. You can verify it in a ''fast forward flight'' or ''pitch pumps'' whether the value is too high and you can see any oscillations.</translate><br />
:'''5.''' <translate><!--T:13--><br />
If the tail is still not holding well the problem could be:</translate><br />
:::*<translate><!--T:14--><br />
Head Speed is holding poorly or too agressively during load. (can be improved by Governor settings or Throttle Curve change).</translate><br />
:::*<translate><!--T:15--><br />
There is a mechanical issue. Check by spooling up the motor with no blades, then move with the tail push rod carefully by hand from end to end. (push rod disconnected from servo).</translate><br />
:::*<translate><!--T:16--><br />
Tail servo is too slow (0.07s/60° or higher) - increase the '''Advanced/Rudder Revomix''' to value 1-4. Higher values are not recommended.</translate><br />
:'''6.''' <translate><!--T:17--><br />
When above steps are done, you can tune the Stopping Behavior. For this purpose use the '''Advanced/Rudder Dynamic''' parameter. Value determine how aggressive the rudder stops and the steering is. If you like sharp stops, you should set value between 6 to 8. If you like extra sharp behavior, then value higher than 10 are good for you. But high values are very demanding for servos and mechanics, so you should be carefull. If you like smooth stopping so that steering is also very smooth, you should set values between 5-7. If value is too low, the rudder reaction can be even delayed. In case the tail stopping is not equal or overshooting to one side, you can decrease the Rudder End-point for such side (mostly closer to the tail blades) by 0,5-1mm.</translate><br />
<br />
== <translate><!--T:18--><br />
CYCLIC TUNING</translate> ==<br />
<br />
<br />
{{Quote|<br />
<translate><!--T:19--><br />
Make sure the '''Cyclic Ring''' - Aileron/Elevator range is as high as possible without binding even in min/max collective pitch. Ideally it should be equal angle with your max. collective pitch. But it is extremely important to not exceed angles allowed by the model manufacturer. With models of size 600 and bigger risk of boomstrike is very high with lower RPM.</translate><br />
}}<br />
<p></p><br />
===<translate><!--T:20--><br />
Tuning Procedure</translate>===<br />
:'''1.''' <translate><!--T:21--><br />
Increase the '''Sensor/Cyclic Gain''' if you can observe the cyclic is not level during pitch pumps or flight is not precise. Mostly values around 60% are optimal for all models. You shouldn't set the gain as high as possible always. If it is too high, steering can be even delayed little bit and not that comfortable. Mostly values above 80% are unwanted. If gain is too high, you can see Aileron oscillations, especially when descending slowly or while doing Tic-Toc maneuver. Sometimes it is caused by too soft head dampeners or non-flybarless blades as well. But if you can achieve values higher than 50% then it is optimal. In some cases, if you want very natural feeling, you can set the Cyclic Gain to e.g. 40%, but you will loose some precision. Stability will be still good.</translate><br />
:'''2.''' <translate><!--T:22--><br />
Set the '''Sensor/Rotation Rate''' parameter to the extent that flips and rolls are fast enough. Be carefull to not set it higher than your mechanics can handle. The highest value for the most models is between 11 - 13. If the value is too high, steering is not precise and sometimes you can observe that rate is not constant (Once you finish the cyclic input it will continue for a fraction of second).</translate><br />
:'''3.''' <translate><!--T:23--><br />
If input reactions are delayed, you want likely to increase the '''Advanced/Cyclic Feed Forward''' which plays very important role in overall behavior. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. If you are switching from Bavarian Demon, you will love values of 8 - 10. The higher values are more demanding for the servos. In bigger helicopter you can even risk Boom Strike with too high values. Too high value will induce too sharp movements and also elevator bounce-back. Too low value will cause very delayed (smooth) steering.</translate><br />
:'''4.''' <translate><!--T:24--><br />
Now it is time to set the '''General/Flight Style'''. This is the last parameter that determines flight characteristics. If you like very linear movements from the stick center to full stick deflection then you will like low values. If you like flybar behavior, so that feeling around center is smooth but with faster input you will get a sharp response, then you want to set high value. With various combinations of Flight Style and Cyclic Feed Forward you can change Cyclic feeling a lot. If you are switching from e.g. Microbeast, you will be comfortable with values between 4 - 6. If you are switching from V-Bar you will like 6 - 8. Difference between settings can be seen especially in a pirouette maneuvers and also Tic-Tocs. If value is too high, then blade' efficiency can decrease and motor can be overloaded. With higher value a sharp movements are transferred faster to the servos. Also if you are doing aggressive maneuvers, it will stop faster when stick is returned to the center. If the value is too low, then a Tic-Tocs can't be done fast enough, Piroflips can't be done precisely, etc. For beginners we recommend to leave default value. This parameter is only about your preference and both low and high value has its positive and negative side. For example, if you want smooth feeling around center with natural characteristics, you can set value of 8 for the Flight Style and Cyclic Feed Forward to 6 - 10.</translate><br />
:'''5.''' <translate><!--T:25--><br />
Lastly, you want to eliminate possible Elevator Bounce-Back effect. This can occur with high Cyclic Feed Forward, but it can be reduced by increasing '''Advanced/Elevator Filter''' parameter. Value between 2-3 should be fine for almost all helicopters. When using an aggressive blades you will need value of 4. Especially for bigger size helicopter, the value can be higher. In case of too high value, elevator movement can be too smooth and in some cases elevator can oscillate with low RPM during hovering. Set it only as high as really necessary.</translate><br />
<br />
== If you are Unable to tune the unit ==<br />
<br />
In some cases even after proceeding according this Tuning Guide you can be unable to make the model to fly well. The most issues are result of poor rudder performance. This can then transfer to Cyclic whenever tail will kick to a side on its own.<br />
<br />
=== Tail hunting ===<br />
<br />
Tail hunting is the first, but the most common indication that something is wrong with the tail.<br />
<br />
=== Tail kick ===<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;text-align:center;"<br />
<br />
|[[#up|&uarr;<translate><!--T:26--><br />
Up</translate>&uarr;]]<br />
<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=GeoLink_Altitude_Limit&diff=52402
GeoLink Altitude Limit
2024-02-15T09:14:11Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
<br />
== <translate><!--T:80--><br />
Altitude Limit</translate> ==<br />
<br />
=== <translate><!--T:81--><br />
How it works</translate> ===<br />
<br />
<translate><!--T:82--><br />
Altitude Limit is aid feature that can automatilly perform Rescue of the model as soon as it will drop under a specified altitude. Or it can stop the model ascending when it will reach specified maximum altitude.<br />
<br />
<!--T:83--><br />
Whenever the Altitude Limit feature is engaged it will perform Rescue first to notify you it was really engaged. At the same time you can use Altitude Limit as ordinary Rescue mode in case you forgot to engage it prior an unexpected situation.<br />
<br />
<!--T:84--><br />
It will perform Rescue always for at least 1.5 seconds. Then depending on resulting altitude it is turned off and pilot can continue in flight.<br />
<br />
<!--T:85--><br />
On the other hand if the model exceed configured upper altitude limit it will stop ascending there. The model will maintain the level and pilot can descend on will with collective pitch.</translate><br />
<br />
<translate><!--T:35--><br />
To enable this feature it is required to tick the CheckBox in the GeoLink window/Aid tab.</translate><br />
<br />
<translate><!--T:86--><br />
Altitude for the Hard Deck is programmed in two ways described in the '''Modes''' section above.</translate><br />
<br />
[[File:geolink-alt.png|center|620px]]<br />
<br />
=== <translate><!--T:36--><br />
Usage</translate> ===<br />
<br />
<translate><!--T:37--><br />
The feature can be engaged at any given time by a switch of your radio. We recommend to use a normal two-state or three-state switch for this feature. But first it is important to decide in which way the feature will be engaged as there are two options:<br />
<br />
<!--T:38--><br />
# To engage with Stabi function - in this case the feature is engaged when programmed Stabi function is engaged. This mean you do not need to assign any other switch than when used for e.g. Stabilisation mode. ''[LESS CHANNELS ARE USED]''<br />
# To engage with assigned GeoLink channel - it is required to assign ''F: GeoLink Altitude Limit'' function in the ''General/Channels'' to an available channel. ''[EASIER TO SET UP]''</translate><br />
<br />
=== <translate><!--T:87--><br />
Modes</translate> ===<br />
<br />
<translate><br />
<!--T:88--><br />
If Altitude Limit is engaged by assigned GeoLink channel there is possibility to use two different modes for activation.<br />
In the Channels window you will be able to see Function as '''On''' and '''Off''' which is corresponding to 100% and 0% channel value.<br />
<br />
Hard Deck is programmed in two possible ways:<br />
* Programmed in flight (Default)<br />
* Defined directly in software<br />
<br />
==== Programmed in flight ====<br />
<!--T:90--><br />
When '''On''' is displayed in the Channels window it mean that Hard Deck altitude is programmed from the altitude in which the model presently is. In other words, if you engage the Altitude Limit when flying in 5 meters your model will be automatically recovered whenever it will drop under 5 meters. This mode is very easy to set, because you do not have to set basically anything. And additionally you can program Hard Deck to any altitude at any moment even without landing.<br />
<br />
==== Defined directly in software ====<br />
First you have to set Hard Deck altitude in the software to a value higher than 0 meters. Then whenever you can see '''On''' in the Channels window model will ascend until programmed value is reached.<br />
</translate><br />
<br />
=== <translate><!--T:78--><br />
Triggering Acceleration</translate> ===<br />
<br />
<translate><!--T:79--><br />
This parameter is key for engaging the Rescue mode fast enough if your model is approaching towards the ground.<br />
The faster is descending velocity, the faster the Rescue is engaged. This mean that the Rescue can be engaged above configured Minimum limit to save the model safely. If model is approaching the Minimum limit slowly then the rescue is engaged at configured level.<br />
Low Triggering Acceleration value is causing only minor difference.</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:93--><br />
GeoLink_Configuration</translate>|&larr; <translate><!--T:94--><br />
Configuration</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:74--><br />
Up</translate>&uarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=GeoLink_Altitude_Limit&diff=52401
GeoLink Altitude Limit
2024-02-15T09:13:49Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
<br />
== <translate><!--T:80--><br />
Altitude Limit</translate> ==<br />
<br />
=== <translate><!--T:81--><br />
How it works</translate> ===<br />
<br />
<translate><!--T:82--><br />
Altitude Limit is aid feature that can automatilly perform Rescue of the model as soon as it will drop under a specified altitude. Or it can stop the model ascending when it will reach specified maximum altitude.<br />
<br />
<!--T:83--><br />
Whenever the Altitude Limit feature is engaged it will perform Rescue first to notify you it was really engaged. At the same time you can use Altitude Limit as ordinary Rescue mode in case you forgot to engage it prior an unexpected situation.<br />
<br />
<!--T:84--><br />
It will perform Rescue always for at least 1.5 seconds. Then depending on resulting altitude it is turned off and pilot can continue in flight.<br />
<br />
<!--T:85--><br />
On the other hand if the model exceed configured upper altitude limit it will stop ascending there. The model will maintain the level and pilot can descend on will with collective pitch.</translate><br />
<br />
<translate><!--T:35--><br />
To enable this feature it is required to tick the CheckBox in the GeoLink window/Aid tab.</translate><br />
<br />
<translate><!--T:86--><br />
Altitude for the Hard Deck is programmed in two ways described in the '''Modes''' section above.</translate><br />
<br />
[[File:geolink-alt.png|center|550px]]<br />
<br />
=== <translate><!--T:36--><br />
Usage</translate> ===<br />
<br />
<translate><!--T:37--><br />
The feature can be engaged at any given time by a switch of your radio. We recommend to use a normal two-state or three-state switch for this feature. But first it is important to decide in which way the feature will be engaged as there are two options:<br />
<br />
<!--T:38--><br />
# To engage with Stabi function - in this case the feature is engaged when programmed Stabi function is engaged. This mean you do not need to assign any other switch than when used for e.g. Stabilisation mode. ''[LESS CHANNELS ARE USED]''<br />
# To engage with assigned GeoLink channel - it is required to assign ''F: GeoLink Altitude Limit'' function in the ''General/Channels'' to an available channel. ''[EASIER TO SET UP]''</translate><br />
<br />
=== <translate><!--T:87--><br />
Modes</translate> ===<br />
<br />
<translate><br />
<!--T:88--><br />
If Altitude Limit is engaged by assigned GeoLink channel there is possibility to use two different modes for activation.<br />
In the Channels window you will be able to see Function as '''On''' and '''Off''' which is corresponding to 100% and 0% channel value.<br />
<br />
Hard Deck is programmed in two possible ways:<br />
* Programmed in flight (Default)<br />
* Defined directly in software<br />
<br />
==== Programmed in flight ====<br />
<!--T:90--><br />
When '''On''' is displayed in the Channels window it mean that Hard Deck altitude is programmed from the altitude in which the model presently is. In other words, if you engage the Altitude Limit when flying in 5 meters your model will be automatically recovered whenever it will drop under 5 meters. This mode is very easy to set, because you do not have to set basically anything. And additionally you can program Hard Deck to any altitude at any moment even without landing.<br />
<br />
==== Defined directly in software ====<br />
First you have to set Hard Deck altitude in the software to a value higher than 0 meters. Then whenever you can see '''On''' in the Channels window model will ascend until programmed value is reached.<br />
</translate><br />
<br />
=== <translate><!--T:78--><br />
Triggering Acceleration</translate> ===<br />
<br />
<translate><!--T:79--><br />
This parameter is key for engaging the Rescue mode fast enough if your model is approaching towards the ground.<br />
The faster is descending velocity, the faster the Rescue is engaged. This mean that the Rescue can be engaged above configured Minimum limit to save the model safely. If model is approaching the Minimum limit slowly then the rescue is engaged at configured level.<br />
Low Triggering Acceleration value is causing only minor difference.</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:93--><br />
GeoLink_Configuration</translate>|&larr; <translate><!--T:94--><br />
Configuration</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:74--><br />
Up</translate>&uarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=File:Geolink-alt.png&diff=52400
File:Geolink-alt.png
2024-02-15T09:12:33Z
<p>Admin: Admin uploaded a new version of File:Geolink-alt.png</p>
<hr />
<div></div>
Admin
https://manual.spirit-system.com/index.php?title=GeoLink_Altitude_Limit&diff=52399
GeoLink Altitude Limit
2024-02-15T09:11:42Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
<br />
== <translate><!--T:80--><br />
Altitude Limit</translate> ==<br />
<br />
=== <translate><!--T:81--><br />
How it works</translate> ===<br />
<br />
<translate><!--T:82--><br />
Altitude Limit is aid feature that can automatilly perform Rescue of the model as soon as it will drop under a specified altitude. Or it can stop the model ascending when it will reach specified maximum altitude.<br />
<br />
<!--T:83--><br />
Whenever the Altitude Limit feature is engaged it will perform Rescue first to notify you it was really engaged. At the same time you can use Altitude Limit as ordinary Rescue mode in case you forgot to engage it prior an unexpected situation.<br />
<br />
<!--T:84--><br />
It will perform Rescue always for at least 1.5 seconds. Then depending on resulting altitude it is turned off and pilot can continue in flight.<br />
<br />
<!--T:85--><br />
On the other hand if the model exceed configured upper altitude limit it will stop ascending there. The model will maintain the level and pilot can descend on will with collective pitch.</translate><br />
<br />
<translate><!--T:35--><br />
To enable this feature it is required to tick the CheckBox in the GeoLink window/Aid tab.</translate><br />
<br />
<translate><!--T:86--><br />
Altitude for the Hard Deck is programmed in two ways described in the '''Modes''' section above.</translate><br />
<br />
[[File:geolink-alt.png|center|550px]]<br />
<br />
=== <translate><!--T:36--><br />
Usage</translate> ===<br />
<br />
<translate><!--T:37--><br />
The feature can be engaged at any given time by a switch of your radio. We recommend to use a normal two-state or three-state switch for this feature. But first it is important to decide in which way the feature will be engaged as there are two options:<br />
<br />
<!--T:38--><br />
# To engage with Stabi function - in this case the feature is engaged when programmed Stabi function is engaged. This mean you do not need to assign any other switch than when used for e.g. Stabilisation mode. ''[LESS CHANNELS ARE USED]''<br />
# To engage with assigned GeoLink channel - it is required to assign ''F: GeoLink Altitude Limit'' function in the ''General/Channels'' to an available channel. ''[EASIER TO SET UP]''</translate><br />
<br />
=== <translate><!--T:87--><br />
Modes</translate> ===<br />
<br />
<translate><br />
<!--T:88--><br />
If Altitude Limit is engaged by assigned GeoLink channel there is possibility to use two different modes for activation.<br />
In the Channels window you will be able to see Function as '''On''' and '''Off''' which is corresponding to 100% and 0% channel value.<br />
<br />
Hard Deck is programmed in two possible ways:<br />
* Programmed in flight (Default)<br />
* Defined directly in software<br />
<br />
==== Programmed in flight ====<br />
<!--T:90--><br />
When '''On''' is displayed in the Channels window it mean that Hard Deck altitude is programmed from the altitude in which the model presently is. In other words, if you engage the Altitude Limit when flying in 5 meters, the models will be automatically recovered whenever it will drop under 5 meters. This mode is very easy to set, because you do not have to set basically anything. And additionally you can program Hard Deck to any altitude at any moment even without landing.<br />
<br />
==== Defined directly in software ====<br />
First you have to set Hard Deck altitude in the software to a value higher than 0 meters. Then whenever you can see '''On''' in the Channels window model will ascend until programmed value is reached.<br />
</translate><br />
<br />
=== <translate><!--T:78--><br />
Triggering Acceleration</translate> ===<br />
<br />
<translate><!--T:79--><br />
This parameter is key for engaging the Rescue mode fast enough if your model is approaching towards the ground.<br />
The faster is descending velocity, the faster the Rescue is engaged. This mean that the Rescue can be engaged above configured Minimum limit to save the model safely. If model is approaching the Minimum limit slowly then the rescue is engaged at configured level.<br />
Low Triggering Acceleration value is causing only minor difference.</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:93--><br />
GeoLink_Configuration</translate>|&larr; <translate><!--T:94--><br />
Configuration</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:74--><br />
Up</translate>&uarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1&diff=52398
SpiritW1
2024-01-15T08:54:17Z
<p>Admin: </p>
<hr />
<div><languages /><br />
__NOTOC__<br />
[[File:wavelogo.png|center|128px]]<br />
<br />
<translate><!--T:1--><br />
Spirit W1 is stabilisation system for R/C aircrafts such as helicopters and planes featuring control unit and receiver in one extraordinary packageǃ<br />
<br />
<!--T:2--><br />
It combines the best available technologies from both worlds to offer cutting edge experience.<br />
<br />
<!--T:3--><br />
In other words, Spirit W1 consists from Spirit GT hardware and Spirit Wave receiver.<br />
</translate><br />
<br />
<translate><br />
<!--T:37--><br />
'''Control part'''<br />
* Top-notch 20-bit IMU Sensor<br />
* Performance-line ARM F7 processor<br />
* Precise pressure sensor for Altitude measurement<br />
* Dedicated Memory Chip for detailed logging<br />
<br />
<!--T:5--><br />
'''Receiver part'''<br />
* Spirit Wave 2.4Ghz full-range telemetry receiver<br />
* Full featured 30+ channels available<br />
* Blazing fast 300 Hz transmission<br />
* High interference immunity<br />
* BEC Voltage measurement</translate><br />
<br />
<br />
<translate><!--T:6--><br />
Spirit W1 can be easily bound with all Spirit Wave radios. It can be used also with all third party external receivers known to work with Spirit units.<br />
<br />
<!--T:38--><br />
This will allow easy transition from previous systems, while Wave radio can be linked anytime later.<br />
<br />
<br />
<!--T:8--><br />
Following pages are covering setup of your Spirit Wave radio and W1 unit to prepare everything for the first flight.<br />
<br />
<!--T:39--><br />
When W1 unit is used with a non-Wave radio you can proceed according [https://manual.spirit-system.com/index.php?title=Manual standard Spirit manual].<br />
</translate><br />
<br />
[[File:spiritw1-man.jpg|600px|center]]<br />
<br />
<br />
<div style="color:white; background:red; font-size:large; padding: 2px 15px; border-radius:15px; page-break-before: always; font-size: 16pt; ">'''<translate><!--T:35--><br />
CONTENTS</translate>'''</div><br />
==[[File:spiritrs-prep.png|22px|sub|]] <translate><!--T:9--><br />
Preparation</translate> ==<br />
*[[<translate><!--T:10--><br />
SpiritW1 Safety</translate>|<translate><!--T:11--><br />
Safety notes</translate>]]<br />
*[[<translate><!--T:12--><br />
SpiritW1 Preparation</translate>|<translate><!--T:13--><br />
Radio Preparation</translate>]]<br />
<br />
==[[File:spiritrs-mounting.png|22px|sub|]] <translate><!--T:14--><br />
Mounting</translate> ==<br />
*[[<translate><!--T:15--><br />
SpiritW1 Mounting</translate>|<translate><!--T:16--><br />
Mounting at the model</translate>]]<br />
<br />
==[[File:spiritrs-wiring.png|22px|sub|]] <translate><!--T:17--><br />
Wiring</translate> ==<br />
*[[<translate><!--T:18--><br />
SpiritW1 Wiring</translate>|<translate><!--T:19--><br />
Servo wiring and Power Supply</translate>]]<br />
*[[<translate><!--T:20--><br />
SpiritW1 Telemetry</translate>|<translate><!--T:21--><br />
Telemetry sensors</translate>]]<br />
*[[<translate><!--T:30--><br />
ESC_telemetry</translate>|<translate><!--T:31--><br />
ESC Telemetry</translate>]]<br />
*[[<translate><!--T:32--><br />
Governor</translate>|<translate><!--T:33--><br />
Spirit Governor</translate>]]<br />
<br />
==[[File:spiritrs-binding.png|22px|sub|]] <translate><!--T:22--><br />
Binding</translate> ==<br />
*[[<translate><!--T:23--><br />
SpiritW1 Binding</translate>|<translate><!--T:24--><br />
Binding with Radio</translate>]]<br />
<br />
==[[File:spiritrs-setup.png|22px|sub|]] <translate><!--T:25--><br />
Setup</translate> ==<br />
*[[<translate><!--T:26--><br />
SpiritW1 Setup</translate>|<translate><!--T:27--><br />
Configuring Spirit from Radio</translate>]]<br />
*[[<translate><!--T:28--><br />
SpiritW1 Computer</translate>|<translate><!--T:29--><br />
Configuring Spirit from Computer</translate>]]<br />
<br />
==[[File:spiritrs-doc.png|22px|sub|]] Certification ==<br />
*[[SpiritW1 FCC|FCC Declaration of Conformity]]</div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_FCC&diff=52397
SpiritW1 FCC
2024-01-15T08:51:59Z
<p>Admin: </p>
<hr />
<div>=6 <translate>FCC Compliance Statement</translate>=<br />
<br />
<translate><br />
<!--T:2--><br />
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: <br />
<br />
<!--T:3--><br />
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.<br />
<br />
<!--T:4--><br />
'''CAUTION''': The grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. Such modifications could void the user’s authority to operate the equipment.<br />
<br />
<!--T:5--><br />
'''NOTE''': This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:<br />
*Reorient or relocate the receiving antenna.<br />
*Increase the separation between the equipment and receiver.<br />
*Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.<br />
*Consult the dealer or an experienced radio/TV technician for help.<br />
The device has been evaluated to meet general RF exposure requirement. To maintain compliance with FCC's RF exposure guidelines, the distance must be at least 20 cm between the radiator and your body, and fully supported by the operating and installation.<br />
</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Computer</translate>|&larr; <translate>Configuring from computer</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1</translate>|<translate>Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_FCC&diff=52396
SpiritW1 FCC
2024-01-15T08:51:38Z
<p>Admin: </p>
<hr />
<div>=6 <translate>FCC Compliance Statement</translate>=<br />
<br />
<translate><br />
<!--T:2--><br />
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: <br />
<br />
<!--T:3--><br />
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.<br />
<br />
<!--T:4--><br />
'''CAUTION''': The grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. Such modifications could void the user’s authority to operate the equipment.<br />
<br />
<!--T:5--><br />
'''NOTE''': This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:<br />
*Reorient or relocate the receiving antenna.<br />
*Increase the separation between the equipment and receiver.<br />
*Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.<br />
*Consult the dealer or an experienced radio/TV technician for help.<br />
The device has been evaluated to meet general RF exposure requirement. To maintain compliance with FCC's RF exposure guidelines, the distance must be at least 20 cm between the radiator and your body, and fully supported by the operating and installation<br />
</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Computer</translate>|&larr; <translate>Configuring from computer</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1</translate>|<translate>Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_FCC&diff=52395
SpiritW1 FCC
2024-01-15T08:51:28Z
<p>Admin: </p>
<hr />
<div>=6 <translate>FCC Compliance Statement</translate>=<br />
<br />
<translate><br />
<!--T:2--><br />
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: <br />
<br />
<!--T:3--><br />
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.<br />
<br />
<!--T:4--><br />
'''CAUTION''': The grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. Such modifications could void the user’s authority to operate the equipment.<br />
<br />
<!--T:5--><br />
'''NOTE''': This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:<br />
*Reorient or relocate the receiving antenna.<br />
*Increase the separation between the equipment and receiver.<br />
*Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.<br />
*Consult the dealer or an experienced radio/TV technician for help.<br />
The device has been evaluated to meet general RF exposure requirement.<br />
<br />
To maintain compliance with FCC's RF exposure guidelines, the distance must be at least 20 cm between the radiator and your body, and fully supported by the operating and installation<br />
</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Computer</translate>|&larr; <translate>Configuring from computer</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1</translate>|<translate>Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Binding&diff=52394
SpiritW1 Binding
2024-01-11T11:47:19Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
=4 <translate><!--T:2--><br />
Binding Procedure</translate> =<br />
<br />
<translate><!--T:1--><br />
In order to Bind Spirit W1 with your Wave radio use supplied Bind plug.</translate><br />
<br />
<translate><!--T:3--><br />
#Insert '''Bind plug''' at the '''SYS port''' and connect Power supply to the Spirit W1 unit. You can connect BEC or 1-3S Battery at the '''THR, AUX, T1''' ports.<br />
#Spirit W1 unit will start to blink with the Status LED periodically.<br />
#Then power up your Wave radio.<br />
#Radio will automatically bind to the receiver when using new Model profile. You can also Bind anytime manually as described in the section above.<br />
#After successfull binding Spirit unit will stop blinking and will initialize. Then you can remove the Bind plug.</translate><br />
<br />
[[File:spritW1-bind.jpg|class=halfwidth|center]]<br />
<br />
== Manual Binding ==<br />
You can Bind manually by going to the '''Model/Receiver''' menu.<br />
Press the '''Bind button''' after powering up Spirit W1 with a Bind plug.<br />
<br />
[[File:wave-bind.png|480px|center]]<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:8--><br />
SpiritW1 Wiring</translate>|&larr; <translate><!--T:9--><br />
Wiring</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:10--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:11--><br />
SpiritW1 Setup</translate>|<translate><!--T:12--><br />
Configuring from Radio</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_FCC&diff=52393
SpiritW1 FCC
2024-01-11T11:46:02Z
<p>Admin: </p>
<hr />
<div>=6 <translate>FCC Compliance Statement</translate>=<br />
<br />
<translate><br />
<!--T:2--><br />
This device complies with part 15 of the FCC Rules. Operation is subject to the following two conditions: <br />
<br />
<!--T:3--><br />
(1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation.<br />
<br />
<!--T:4--><br />
'''CAUTION''': The grantee is not responsible for any changes or modifications not expressly approved by the party responsible for compliance. Such modifications could void the user’s authority to operate the equipment.<br />
<br />
<!--T:5--><br />
'''NOTE''': This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates, uses, and can radiate radio frequency energy, and if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:<br />
*Reorient or relocate the receiving antenna.<br />
*Increase the separation between the equipment and receiver.<br />
*Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.<br />
*Consult the dealer or an experienced radio/TV technician for help.<br />
This equipment complies with the FCC radiation exposure limits set forth for an uncontrolled environment. This transmitter must not be co-located or operating in conjunction with any other antenna or transmitter.<br />
</translate><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Computer</translate>|&larr; <translate>Configuring from computer</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1</translate>|<translate>Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Computer&diff=52392
SpiritW1 Computer
2024-01-11T11:45:15Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=<translate>PC Configuration</translate>=<br />
<translate><!--T:1--><br />
Spirit W1 units can be configured through any modern computer. This will allow the best comfort and guidance through the entire setup process.<br />
<br />
<!--T:2--><br />
Spirit W1 is compatible with Spirit USB interface and can be connected and configured at any given moment.<br />
<br />
<!--T:3--><br />
Please proceed according our [[Configuration]] page that is common for all Spirit units.</translate><br />
<br />
[[File:spiritrs-computer.png|class=halfwidth|center]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:5--><br />
SpiritW1 Setup</translate>|&larr; <translate><!--T:6--><br />
Configuring from Radio</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:7--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:8--><br />
SpiritW1</translate>|<translate><!--T:9--><br />
Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Setup&diff=52391
SpiritW1 Setup
2024-01-11T11:45:04Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=5 <translate>Setup</translate> =<br />
<translate><!--T:1--><br />
All Spirit units can be configured through radio in the full extent without usage of computer.<br />
You can perform full setup of the Spirit W1 and tune all flight parameters easily from the '''Model''' menu in the Spirit Wave radio.</translate><br />
<br />
== <translate><!--T:2--><br />
Spirit Integration</translate> ==<br />
<br />
<translate><!--T:3--><br />
All Spirit features are tightly integrated to the configuration interface. All changes related to the Spirit W1 unit can be done from there which mean you do not need computer for full model configuration.<br />
You can enter and close it anytime you wish.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:4--><br />
It is highly advised to not enter the setup while flying!.</translate>}}<br />
<p></p><br />
<br />
=== <translate><!--T:5--><br />
Opening Spirit menu</translate> ===<br />
<br />
<translate><!--T:6--><br />
To open Spirit setup you can proceed in the following way.<br />
<br />
<!--T:7--><br />
Tap at the '''Model menu''' and the very first page is all related only to Spirit parameters.</translate><br />
<br />
[[File:wave-spiritmenuop.png|480px]]<br />
<br />
=== Spirit Settings interface ===<br />
<br />
<translate><!--T:9--><br />
Spirit menu is almost identical to computer software called Spirit Settings that can be also optionally used.<br />
<br />
<!--T:10--><br />
You can easily change any parameter and changes are applied immediately.<br />
But to store any changes do not forget to Save the settings.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
Click at the '''Save Settings''' in the Spirit menu to save all changes you have made in the Spirit W1 settings. Otherwise after re-power changes are returned to the previous values.</translate>}}<br />
<p></p><br />
<br />
== <translate><!--T:18--><br />
Spirit setup</translate> ==<br />
<br />
<translate><!--T:19--><br />
To prepare Spirit unit for flight it is necessary to go through '''Setup Wizard''' first.<br />
This process is required only once, always for a new model.<br />
<br />
<!--T:20--><br />
You can find the Setup Wizard in the '''Model/Base/Setup Wizard'''.</translate><br />
<br />
[[File:wave-wizard.png|480px]] [[File:wave-wizard2.png|480px]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:21--><br />
SpiritW1 Binding</translate>|&larr; <translate><!--T:22--><br />
Binding</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:23--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:24--><br />
SpiritW1 Computer</translate>|<translate><!--T:25--><br />
Configuring from Computer</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Binding&diff=52390
SpiritW1 Binding
2024-01-11T11:44:45Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
=4 <translate><!--T:2--><br />
Binding Procedure</translate> =<br />
<br />
<translate><!--T:1--><br />
In order to Bind Spirit W1 with your Wave radio use supplied Bind plug.</translate><br />
<br />
<translate><!--T:3--><br />
#Insert '''Bind plug''' at the '''SYS port''' and connect Power supply to the Spirit W1 unit. You can connect BEC or 1-3S Battery at the '''THR, AUX, T1''' ports.<br />
#Spirit W1 unit will start to blink with the Status LED periodically.<br />
#Then power up your Wave radio.<br />
#Radio will automatically bind to the receiver when using new Model profile. You can also Bind anytime manually as described in the section above.<br />
#After successfull binding Spirit unit will stop blinking and will initialize. Then you can remove the Bind plug.</translate><br />
<br />
[[File:spritW1-bind.jpg|class=halfwidth|center]]<br />
<br />
<br />
== Manual Binding ==<br />
<br />
You can Bind manually by going to the '''Model/Receiver''' menu.<br />
Press the '''Bind button''' after powering up Spirit W1 with a Bind plug.<br />
<br />
[[File:wave-bind.png|480px|center]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:8--><br />
SpiritW1 Wiring</translate>|&larr; <translate><!--T:9--><br />
Wiring</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:10--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:11--><br />
SpiritW1 Setup</translate>|<translate><!--T:12--><br />
Configuring from Radio</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Wiring&diff=52389
SpiritW1 Wiring
2024-01-11T11:44:26Z
<p>Admin: </p>
<hr />
<div><languages /> <br />
__NOTOC__<br />
=3 <translate>Wiring</translate>=<br />
<translate><!--T:1--><br />
'''Spirit W1''' has support for 4x swashplate, 1x tail and 1x throttle servos.<br />
<br />
<!--T:23--><br />
It has also 2x independent telemetry ports which mean you can attach directly two Spirit Wave sensors.<br />
Moreover you can optionally connect a backup receiver.<br />
<br />
<!--T:2--><br />
Additionally you can utilize [[ESC telemetry|ESC Telemetry]] and [[GeoLink|GeoLink GPS/GNSS module]].</translate><br />
<br />
[[File:spiritw1-detail.jpg|class=smallwidth]]<br />
<br />
== <translate><!--T:3--><br />
Servo Wiring</translate> ==<br />
<br />
<translate><!--T:4--><br />
According following diagrams you can connect servos to the Spirit W1.<br />
If some of your servos are not 1520μs center pulse, please connect the servo later during Setup Wizard process.</translate><br />
<br />
<translate><!--T:5--><br />
* '''CH1''' and '''CH3''' - Aileron/Pitch servo<br />
* '''CH2''' - Elevator Servo<br />
* '''CH4''' - Tail Servo</translate><br />
<p></p><br />
<translate><!--T:24--><br />
* '''CH0''' - Optional 2nd Elevator Servo</translate><br />
<br />
<translate><!--T:6--><br />
Depending on your model and selected Swashplate Type servos are wired differently.<br />
Wiring is described in the following sections and also in the Setup Wizard.</translate><br />
<br />
=== <translate><!--T:7--><br />
Elevator at the front</translate> ===<br />
<br />
<translate><!--T:8--><br />
Elevator has servo control push rod at the front part of the model - swashplate push rod at the front.</translate><br />
<br />
[[File:Swashplate-rev.png]]<br />
<br />
<translate><!--T:9--><br />
* '''CH1''' - connected to the right servo (Pitch)<br />
* '''CH3''' - connected to the left servo (Aileron)</translate><br />
<br />
=== <translate><!--T:10--><br />
Elevator at the rear</translate> ===<br />
<br />
<translate><!--T:11--><br />
Elevator has servo control push rod at the rear - swashplate push rod at the rear.</translate><br />
<br />
[[File:Swashplate.png]]<br />
<br />
<translate><!--T:12--><br />
* '''CH1''' - connected to the left servo (Aileron)<br />
* '''CH3''' - connected to the right servo (Pitch)</translate><br />
<br />
== <translate><!--T:13--><br />
Power Supply</translate> ==<br />
<br />
<translate><!--T:14--><br />
Power Supply is critical part of the model. For this reason it is highly recommended to use suitable BEC or battery that can handle used servos.<br />
Once wiring and setup is completed it is highly advised to perform the '''BEC test'''. If the test will not pass it is clear the power supply is inadequate and failure will occur.</translate><br />
<br />
<br />
<translate><!--T:15--><br />
BEC, Battery or Backup power supply should be connected always at '''THR''', '''E1''' and '''AUX''' ports.</translate><br />
<br />
<translate><!--T:16--><br />
* '''THR''' - used for Throttle output and primary ESC/BEC cable for electric helicopters. For a combustion helicopters THR port is used for Throttle Servo.<br />
* '''T1''' - used for Secondary BEC cable for electric helicopters (recommended for class 500+). For a combustion helicopters T1 port is used for a Battery lead.<br />
* '''AUX''' - used for Optional Power Guard system or an additional battery lead. Can output also channel data for controlling a landing gear, lights, etc.</translate><br />
<br />
<p></p><br />
{{Quote|'''<translate><!--T:22--><br />
Do not connect any wire to X pin. This pin is shared with internal Spirit RX receiver. Only if using external receiver this pin can be used!</translate>'''}}<br />
<p></p><br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:17--><br />
SpiritW1 Mounting</translate>|&larr; <translate><!--T:18--><br />
Mounting</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:19--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:20--><br />
SpiritW1 Binding</translate>|<translate><!--T:21--><br />
Binding</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Mounting&diff=52388
SpiritW1 Mounting
2024-01-11T11:44:08Z
<p>Admin: </p>
<hr />
<div><languages /> <br />
__NOTOC__<br />
=2 <translate>Mounting</translate>=<br />
<translate><br />
<!--T:1--><br />
Correct mounting of the Spirit W1 unit plays an important role for the operation of your model.<br />
<br />
<!--T:2--><br />
Find a suitable location where vibrations are as low as possible - this is usually<br />
the same location shown by the manufacturer for mounting a gyro.<br />
<br />
<!--T:3--><br />
It is VERY important that the unit will be mounted so that the unit is '''exactly'''<br />
perpendicular to each rotational axis.<br />
Depending on your preference and available space it can be mounted in<br />
eight different positions:<br />
<br />
<!--T:4--><br />
*Horizontal (0°)<br />
*Horizontal (180°)<br />
*Horizontal (0° + inverted)<br />
*Horizontal (180° + inverted)<br />
*Vertical (0° - left side)<br />
*Vertical (180° - left side)<br />
*Vertical (0° - right side)<br />
*Vertical (180° - right side)<br />
<br />
<!--T:5--><br />
In case the unit is positioned so that connectors are facing forwards, select ''180°'', please. <br />
If the unit is mounted upside down, select ''inverted'' option.<br />
</translate><br />
<br />
<div>'''<translate><!--T:6--><br />
Mounting examples</translate>'''</div><br />
<translate><!--T:7--><br />
In the following photo the unit is mounted by double-sided adhesive tape to<br />
the frame of model.</translate><br />
<br />
<br />
[[File:spiritrs-poz1.jpg|class=halfwidth|center]]<br />
<br />
<br />
<center><translate><!--T:16--><br />
''Example 1:'' Position is '''Horizontal (180°)'''</translate></center><br />
<br />
<br />
[[File:spiritrs-poz2.jpg|class=halfwidth|center]]<br />
<br />
<br />
<center><translate><!--T:8--><br />
''Example 2:'' Position is '''Vertical (180° - left side)'''</translate></center><br />
<br />
<br />
<translate><br />
<!--T:9--><br />
In order to better insulate against any vibrations from the model, it is necessary<br />
to choose the right double-sided mounting tape. The tape should limit any<br />
transmission of vibrations from the model to the Spirit which may produce<br />
undesirable flight characteristics.<br />
Vibrations may also be caused by incorrectly balanced blades, damaged<br />
bearings, bent shafts and other mechanical issues.<br />
<br />
<!--T:10--><br />
We recommend to use supplied double sided tape.</translate><br /><br />
<br />
== <translate><!--T:20--><br />
Antenna</translate> ==<br />
<br />
<translate><!--T:21--><br />
Spirit W1 is equipped with 2 full-range antennas. For the best signal reception it is necessary to mount them properly at the model.<br />
<br />
<!--T:22--><br />
Ends of the antennas should be perpendicular to each other in all directions for optimal signal radiation.</translate><br />
<br />
{{Quote|'''<translate><!--T:18--><br />
Do not bend antennas more than 45° in a sharp angle. Bending radius should be more than 2 cm.</translate>'''}}<br />
<p></p><br />
{{Quote|'''<translate><!--T:19--><br />
Do not cover antennas with any additional objects. Preferably direct visibility at any angle should be achieved.</translate>'''}}<br />
<p></p><br />
{{Quote|'''<translate>Never pull the antennas. Antennas are replaceable and could be accidently disconnected making them ineffective.</translate>'''}}<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:11--><br />
SpiritW1 Preparation</translate>|&larr; <translate><!--T:12--><br />
Radio Preparation</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:13--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:14--><br />
SpiritW1 Wiring</translate>|<translate><!--T:15--><br />
Wiring</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Preparation&diff=52387
SpiritW1 Preparation
2024-01-11T11:43:49Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=<translate>Preparation</translate>=<br />
<br />
<translate>To use Spirit W1 with Spirit Wave radio it is enough to create fresh Model in the Model list.<br />
<br />
Spirit W1 unit can be used for Helicopters and Airplanes. Depending on this create according model.</translate><br />
<br />
== <translate>Model Creation</translate> ==<br />
<br />
<translate>1. Go to '''Main Screen''' by tapping at the Home icon from where you can enter '''Model Selection''' menu.</translate><br />
<br />
[[File:wave-mainscreen.png|480px]] [[File:wave-modelsel.png|480px]]<br />
<br />
<translate>2. Tap at the '''Create button''' and choose '''Yes'''.</translate><br />
<br />
[[File:wave-modelcreate.png|480px]]<br />
<br />
<translate>3. Then select '''Helicopter''' or '''Plane''' and enter Model Name if using Spirit W1.</translate><br />
<br />
[[File:wave-modelwizard.png|480px]] [[File:wave-modelname.png|480px]]<br />
<br />
{{Info|[[File:Info.png]] <translate>By default Spirit W1 units are preloaded with Helicopter firmware. You can flash Spirit Aero firmware for free at any moment if you plan to use a plane.</translate>}}<br />
<p></p><br />
<br />
== <translate>Model Configuration</translate> ==<br />
<br />
<translate>All Model-related settings are at the '''Model menu''' (Third icon at the bottom panel).<br />
<br />
Depending on Model type you selected during model creation this menu has differences. For helicopters you will find there different menus than for a planes.</translate><br />
<br />
=== <translate>Model menu pages</translate> ===<br />
<br />
<translate>After binding with Spirit W1 you can find three menu pages in the Model Menu. If Spirit unit is not detected only two menu pages are visible.<br />
<br />
* '''Spirit''' - Full integration and configuration of the Spirit Flybarless unit.<br />
* '''General''' - Receiver binding, Flight Modes, Throttle and Pitch Curves, Gyro gain and similar.<br />
* '''Miscellaneous''' - Theme for particular model, Alarms, Logging and rest.</translate><br />
<p></p><br />
{{Info|[[File:Info.png]] <translate>You can do the General settings at any moment even without Spirit unit disconnected.</translate>}}<br />
<p></p><br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Safety</translate>|&larr; <translate>Safety notes</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1_Mounting</translate>|<translate>Mounting at the model</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Telemetry&diff=52386
SpiritW1 Telemetry
2024-01-11T11:43:36Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=<translate>Telemetry</translate>=<br />
<translate><!--T:1--><br />
Spirit W1 is equipped with 2 separate inputs for Spirit Telemetry sensors.<br />
These sensors are compatible also with external Spirit RX receivers.</translate><br />
<br />
<translate><!--T:3--><br />
Available telemetry ports:</translate><br />
* '''T1'''<br />
* '''T2'''<br />
<br />
Please note these ports are not used for ESC telemetry or GeoLink module.<br />
<p></p><br />
{{Quote| <translate><!--T:24--><br />
Spirit W1 is equipped also with X pin at T2/RPM/X port. This pin is used internally for communication with built-in receiver. '''When using Spirit RX receiver nothing should be connected to X pin.'''</translate>}}<br />
<p></p><br />
<br />
== <translate><!--T:5--><br />
Telemetry Sensor Wiring</translate> ==<br />
<br />
=== <translate><!--T:6--><br />
T1 port</translate> ===<br />
<br />
<translate><!--T:7--><br />
Connect Sensor or Expander cable directly without any change.</translate><br />
<br />
[[File:spiritw1-t1.jpg|class=smallwidth]]<br />
<br />
=== <translate><!--T:8--><br />
T2 port</translate> ===<br />
<br />
<translate><!--T:9--><br />
Connect Spirit Sensor cable in so that RED/BROWN wires are at the AUX port (or any other free powering port) and ORANGE wire at the bottom T2 pin.<br />
In case of lack of free ports, please use an Y-cable.</translate><br />
<br />
{{Info|[[File:Info.png]] <translate><!--T:10--><br />
Original connector must be modified so that two servo connectors are used.</translate>}}<br />
<p></p><br />
<br />
[[File:spiritw1-t2.jpg|class=smallwidth]]<br />
<br />
== <translate><!--T:11--><br />
Telemetry Sensor Data</translate> ==<br />
<br />
<translate><!--T:12--><br />
You can set display Sensor Data at the Main screen by opening adding '''Widgets'''.</translate><br />
<br />
[[File:wave-widgets.png|480px]] [[File:wave-widgets-example.png|480px]]<br />
<br />
== <translate><!--T:13--><br />
Spirit Telemetry</translate> ==<br />
<br />
<translate><!--T:14--><br />
Besides Spirit Telemetry sensors you can also utilize the [[ESC telemetry|ESC Telemetry]], [[GeoLink|GeoLink module]] and Spirit telemetry variables.<br />
<br />
<!--T:15--><br />
This mean you can interface your ESC and display telemetry data such as Battery Voltage, Current, Consumed Capacity, Temperature, RPM.</translate><br />
<br />
<translate>For more details about ESC telemetry please visit linked guide.</translate><br />
<br />
<translate>Similarly you can install GeoLink for measuring GPS position, Speed and other variables.</translate></div>
Admin
https://manual.spirit-system.com/index.php?title=MediaWiki:Common.css&diff=52385
MediaWiki:Common.css
2024-01-11T11:41:36Z
<p>Admin: </p>
<hr />
<div>/* Zde uvedené CSS bude ovlivňovat všechny styly */<br />
img.halfwidth {<br />
width: 50%;<br />
height: auto;<br />
}<br />
<br />
img.smallwidth {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.13width {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.23width {<br />
width: 66%;<br />
height: auto;<br />
}<br />
<br />
img.14width {<br />
width: 25%;<br />
height: auto;<br />
}<br />
<br />
img.15width {<br />
width: 20%;<br />
height: auto;<br />
}<br />
<br />
body.page-Main_Page .mw-headline-number { display: none; }<br />
body.page-Main_Page_cs .mw-headline-number { display: none; }<br />
body.page-Main_Page_de .mw-headline-number { display: none; }<br />
body.page-Main_Page_es .mw-headline-number { display: none; }<br />
body.page-Main_Page_fr .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritRS .mw-headline-number { display: none; }<br />
body.page-SpiritRS h1.firstHeading { display:none; }<br />
body.page-SpiritW1 .mw-headline-number { display: none; }<br />
body.page-SpiritW1 h1.firstHeading { display:none; }<br />
<br />
body.page-SpiritW1_Preparation .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Mounting .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Wiring .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Safety .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Binding .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Setup .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Computer .mw-headline-number { display: none; }<br />
body.page-SpiritW1_FCC .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Telemetry .mw-headline-number { display: none; }<br />
<br />
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body.page-SpiritW1_Safety h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Binding h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Setup h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Computer h1.firstHeading { display:none; }<br />
body.page-SpiritW1_FCC h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Telemetry h1.firstHeading { display:none; }<br />
<br />
table {<br />
border-radius:10px;<br />
border: 0px;<br />
background: #eeeeee;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
<br />
table.problems {<br />
padding: 50px 20px;<br />
border-radius: 10px;<br />
border-collapse: collapse;<br />
background: rgb(242,245,246); /* Old browsers */<br />
background: -moz-linear-gradient(top, rgba(242,245,246,1) 0%, rgba(227,234,237,1) 37%, rgba(200,215,220,1) 100%); /* FF3.6-15 */<br />
background: -webkit-linear-gradient(top, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* Chrome10-25,Safari5.1-6 */<br />
background: linear-gradient(to bottom, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* W3C, IE10+, FF16+, Chrome26+, Opera12+, Safari7+ */<br />
}<br />
table.problems td, table th {<br />
border: 3px solid white;<br />
padding: 6px;<br />
}<br />
table.problems tr:first-child th {<br />
border-top: 0;<br />
}<br />
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border-bottom: 0;<br />
}<br />
table.problems tr td:first-child,<br />
table.problems tr th:first-child {<br />
border-left: 0;<br />
}<br />
table.problems tr td:last-child,<br />
table.problems tr th:last-child {<br />
border-right: 0;<br />
}<br />
<br />
<br />
table.servolist {<br />
border: 0px;<br />
border-radius: 10px;<br />
border: 0px solid black;<br />
background: #f9f9f9;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
<br />
table.servolist td, table th {<br />
border: 0px;<br />
border-radius: 6px;<br />
padding: 6px;<br />
}<br />
<br />
table.servolist tr:nth-child(even) {background-color: #f2f2f2}<br />
<br />
table.servolist th {<br />
background-color: #cb410b;<br />
color: white;<br />
}<br />
<br />
table.servolist tr:hover {background-color: #ffcf7b}<br />
<br />
#printOnly {<br />
display : none;<br />
}<br />
<br />
@media print {<br />
#printOnly {<br />
display : block;<br />
}<br />
}</div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Computer&diff=52384
SpiritW1 Computer
2024-01-11T11:41:01Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=8 <translate>PC Configuration</translate>=<br />
<translate><!--T:1--><br />
Spirit W1 units can be configured through any modern computer. This will allow the best comfort and guidance through the entire setup process.<br />
<br />
<!--T:2--><br />
Spirit W1 is compatible with Spirit USB interface and can be connected and configured at any given moment.<br />
<br />
<!--T:3--><br />
Please proceed according our [[Configuration]] page that is common for all Spirit units.</translate><br />
<br />
[[File:spiritrs-computer.png|class=halfwidth|center]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:5--><br />
SpiritW1 Setup</translate>|&larr; <translate><!--T:6--><br />
Configuring from Radio</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:7--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:8--><br />
SpiritW1</translate>|<translate><!--T:9--><br />
Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=MediaWiki:Common.css&diff=52383
MediaWiki:Common.css
2024-01-11T11:40:37Z
<p>Admin: </p>
<hr />
<div>/* Zde uvedené CSS bude ovlivňovat všechny styly */<br />
img.halfwidth {<br />
width: 50%;<br />
height: auto;<br />
}<br />
<br />
img.smallwidth {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.13width {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.23width {<br />
width: 66%;<br />
height: auto;<br />
}<br />
<br />
img.14width {<br />
width: 25%;<br />
height: auto;<br />
}<br />
<br />
img.15width {<br />
width: 20%;<br />
height: auto;<br />
}<br />
<br />
body.page-Main_Page .mw-headline-number { display: none; }<br />
body.page-Main_Page_cs .mw-headline-number { display: none; }<br />
body.page-Main_Page_de .mw-headline-number { display: none; }<br />
body.page-Main_Page_es .mw-headline-number { display: none; }<br />
body.page-Main_Page_fr .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritRS .mw-headline-number { display: none; }<br />
body.page-SpiritW1 .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritW1_Preparation .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Mounting .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Wiring .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Safety .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Binding .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Setup .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Computer .mw-headline-number { display: none; }<br />
body.page-SpiritW1_FCC .mw-headline-number { display: none; }<br />
body.page-SpiritW1_Telemetry .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritW1_Preparation h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Mounting h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Wiring h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Safety h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Binding h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Setup h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Computer h1.firstHeading { display:none; }<br />
body.page-SpiritW1_FCC h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Telemetry h1.firstHeading { display:none; }<br />
<br />
table {<br />
border-radius:10px;<br />
border: 0px;<br />
background: #eeeeee;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
<br />
table.problems {<br />
padding: 50px 20px;<br />
border-radius: 10px;<br />
border-collapse: collapse;<br />
background: rgb(242,245,246); /* Old browsers */<br />
background: -moz-linear-gradient(top, rgba(242,245,246,1) 0%, rgba(227,234,237,1) 37%, rgba(200,215,220,1) 100%); /* FF3.6-15 */<br />
background: -webkit-linear-gradient(top, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* Chrome10-25,Safari5.1-6 */<br />
background: linear-gradient(to bottom, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* W3C, IE10+, FF16+, Chrome26+, Opera12+, Safari7+ */<br />
}<br />
table.problems td, table th {<br />
border: 3px solid white;<br />
padding: 6px;<br />
}<br />
table.problems tr:first-child th {<br />
border-top: 0;<br />
}<br />
table.problems tr:last-child td {<br />
border-bottom: 0;<br />
}<br />
table.problems tr td:first-child,<br />
table.problems tr th:first-child {<br />
border-left: 0;<br />
}<br />
table.problems tr td:last-child,<br />
table.problems tr th:last-child {<br />
border-right: 0;<br />
}<br />
<br />
<br />
table.servolist {<br />
border: 0px;<br />
border-radius: 10px;<br />
border: 0px solid black;<br />
background: #f9f9f9;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
<br />
table.servolist td, table th {<br />
border: 0px;<br />
border-radius: 6px;<br />
padding: 6px;<br />
}<br />
<br />
table.servolist tr:nth-child(even) {background-color: #f2f2f2}<br />
<br />
table.servolist th {<br />
background-color: #cb410b;<br />
color: white;<br />
}<br />
<br />
table.servolist tr:hover {background-color: #ffcf7b}<br />
<br />
#printOnly {<br />
display : none;<br />
}<br />
<br />
@media print {<br />
#printOnly {<br />
display : block;<br />
}<br />
}</div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Computer&diff=52382
SpiritW1 Computer
2024-01-11T11:40:06Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=8 <translate>Configuring with Computer</translate>=<br />
<translate><!--T:1--><br />
Spirit W1 units can be configured through any modern computer. This will allow the best comfort and guidance through the entire setup process.<br />
<br />
<!--T:2--><br />
Spirit W1 is compatible with Spirit USB interface and can be connected and configured at any given moment.<br />
<br />
<!--T:3--><br />
Please proceed according our [[Configuration]] page that is common for all Spirit units.</translate><br />
<br />
[[File:spiritrs-computer.png|class=halfwidth|center]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:5--><br />
SpiritW1 Setup</translate>|&larr; <translate><!--T:6--><br />
Configuring from Radio</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:7--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:8--><br />
SpiritW1</translate>|<translate><!--T:9--><br />
Main page</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Setup&diff=52381
SpiritW1 Setup
2024-01-11T11:39:10Z
<p>Admin: </p>
<hr />
<div><languages /><br />
<div id="up"></div><br />
__NOTOC__<br />
=6 <translate>Setup</translate> =<br />
<translate><!--T:1--><br />
All Spirit units can be configured through radio in the full extent without usage of computer.<br />
You can perform full setup of the Spirit W1 and tune all flight parameters easily from the '''Model''' menu in the Spirit Wave radio.</translate><br />
<br />
== <translate><!--T:2--><br />
Spirit Integration</translate> ==<br />
<br />
<translate><!--T:3--><br />
All Spirit features are tightly integrated to the configuration interface. All changes related to the Spirit W1 unit can be done from there which mean you do not need computer for full model configuration.<br />
You can enter and close it anytime you wish.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:4--><br />
It is highly advised to not enter the setup while flying!.</translate>}}<br />
<p></p><br />
<br />
=== <translate><!--T:5--><br />
Opening Spirit menu</translate> ===<br />
<br />
<translate><!--T:6--><br />
To open Spirit setup you can proceed in the following way.<br />
<br />
<!--T:7--><br />
Tap at the '''Model menu''' and the very first page is all related only to Spirit parameters.</translate><br />
<br />
[[File:wave-spiritmenuop.png|480px]]<br />
<br />
=== Spirit Settings interface ===<br />
<br />
<translate><!--T:9--><br />
Spirit menu is almost identical to computer software called Spirit Settings that can be also optionally used.<br />
<br />
<!--T:10--><br />
You can easily change any parameter and changes are applied immediately.<br />
But to store any changes do not forget to Save the settings.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
Click at the '''Save Settings''' in the Spirit menu to save all changes you have made in the Spirit W1 settings. Otherwise after re-power changes are returned to the previous values.</translate>}}<br />
<p></p><br />
<br />
== <translate><!--T:18--><br />
Spirit setup</translate> ==<br />
<br />
<translate><!--T:19--><br />
To prepare Spirit unit for flight it is necessary to go through '''Setup Wizard''' first.<br />
This process is required only once, always for a new model.<br />
<br />
<!--T:20--><br />
You can find the Setup Wizard in the '''Model/Base/Setup Wizard'''.</translate><br />
<br />
[[File:wave-wizard.png|480px]] [[File:wave-wizard2.png|480px]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:21--><br />
SpiritW1 Binding</translate>|&larr; <translate><!--T:22--><br />
Binding</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:23--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:24--><br />
SpiritW1 Computer</translate>|<translate><!--T:25--><br />
Configuring from Computer</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Setup&diff=52380
SpiritW1 Setup
2024-01-11T11:38:33Z
<p>Admin: </p>
<hr />
<div><languages/><br />
=6 <translate>Setup</translate> =<br />
<translate><!--T:1--><br />
All Spirit units can be configured through radio in the full extent without usage of computer.<br />
You can perform full setup of the Spirit W1 and tune all flight parameters easily from the '''Model''' menu in the Spirit Wave radio.</translate><br />
<br />
== <translate><!--T:2--><br />
Spirit Integration</translate> ==<br />
<br />
<translate><!--T:3--><br />
All Spirit features are tightly integrated to the configuration interface. All changes related to the Spirit W1 unit can be done from there which mean you do not need computer for full model configuration.<br />
You can enter and close it anytime you wish.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:4--><br />
It is highly advised to not enter the setup while flying!.</translate>}}<br />
<p></p><br />
<br />
=== <translate><!--T:5--><br />
Opening Spirit menu</translate> ===<br />
<br />
<translate><!--T:6--><br />
To open Spirit setup you can proceed in the following way.<br />
<br />
<!--T:7--><br />
Tap at the '''Model menu''' and the very first page is all related only to Spirit parameters.</translate><br />
<br />
[[File:wave-spiritmenuop.png|480px]]<br />
<br />
=== Spirit Settings interface ===<br />
<br />
<translate><!--T:9--><br />
Spirit menu is almost identical to computer software called Spirit Settings that can be also optionally used.<br />
<br />
<!--T:10--><br />
You can easily change any parameter and changes are applied immediately.<br />
But to store any changes do not forget to Save the settings.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
Click at the '''Save Settings''' in the Spirit menu to save all changes you have made in the Spirit W1 settings. Otherwise after re-power changes are returned to the previous values.</translate>}}<br />
<p></p><br />
<br />
== <translate><!--T:18--><br />
Spirit setup</translate> ==<br />
<br />
<translate><!--T:19--><br />
To prepare Spirit unit for flight it is necessary to go through '''Setup Wizard''' first.<br />
This process is required only once, always for a new model.<br />
<br />
<!--T:20--><br />
You can find the Setup Wizard in the '''Model/Base/Setup Wizard'''.</translate><br />
<br />
[[File:wave-wizard.png|480px]] [[File:wave-wizard2.png|480px]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:21--><br />
SpiritW1 Binding</translate>|&larr; <translate><!--T:22--><br />
Binding</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:23--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:24--><br />
SpiritW1 Computer</translate>|<translate><!--T:25--><br />
Configuring from Computer</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Setup&diff=52379
SpiritW1 Setup
2024-01-11T11:38:22Z
<p>Admin: </p>
<hr />
<div><languages/><br />
=7 <translate>Setup</translate> =<br />
<translate><!--T:1--><br />
All Spirit units can be configured through radio in the full extent without usage of computer.<br />
You can perform full setup of the Spirit W1 and tune all flight parameters easily from the '''Model''' menu in the Spirit Wave radio.</translate><br />
<br />
== <translate><!--T:2--><br />
Spirit Integration</translate> ==<br />
<br />
<translate><!--T:3--><br />
All Spirit features are tightly integrated to the configuration interface. All changes related to the Spirit W1 unit can be done from there which mean you do not need computer for full model configuration.<br />
You can enter and close it anytime you wish.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:4--><br />
It is highly advised to not enter the setup while flying!.</translate>}}<br />
<p></p><br />
<br />
=== <translate><!--T:5--><br />
Opening Spirit menu</translate> ===<br />
<br />
<translate><!--T:6--><br />
To open Spirit setup you can proceed in the following way.<br />
<br />
<!--T:7--><br />
Tap at the '''Model menu''' and the very first page is all related only to Spirit parameters.</translate><br />
<br />
[[File:wave-spiritmenuop.png|480px]]<br />
<br />
=== Spirit Settings interface ===<br />
<br />
<translate><!--T:9--><br />
Spirit menu is almost identical to computer software called Spirit Settings that can be also optionally used.<br />
<br />
<!--T:10--><br />
You can easily change any parameter and changes are applied immediately.<br />
But to store any changes do not forget to Save the settings.</translate><br />
<br />
<p></p><br />
{{Info|[[File:Info.png|18px|]] <translate><!--T:11--><br />
Click at the '''Save Settings''' in the Spirit menu to save all changes you have made in the Spirit W1 settings. Otherwise after re-power changes are returned to the previous values.</translate>}}<br />
<p></p><br />
<br />
== <translate><!--T:18--><br />
Spirit setup</translate> ==<br />
<br />
<translate><!--T:19--><br />
To prepare Spirit unit for flight it is necessary to go through '''Setup Wizard''' first.<br />
This process is required only once, always for a new model.<br />
<br />
<!--T:20--><br />
You can find the Setup Wizard in the '''Model/Base/Setup Wizard'''.</translate><br />
<br />
[[File:wave-wizard.png|480px]] [[File:wave-wizard2.png|480px]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:21--><br />
SpiritW1 Binding</translate>|&larr; <translate><!--T:22--><br />
Binding</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:23--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:24--><br />
SpiritW1 Computer</translate>|<translate><!--T:25--><br />
Configuring from Computer</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Binding&diff=52378
SpiritW1 Binding
2024-01-11T11:37:37Z
<p>Admin: </p>
<hr />
<div><languages/><br />
<br />
= 5 <translate><!--T:2--><br />
Binding Procedure</translate> =<br />
<br />
<translate><!--T:1--><br />
In order to Bind Spirit W1 with your Wave radio use supplied Bind plug.</translate><br />
<br />
<translate><!--T:3--><br />
#Insert '''Bind plug''' at the '''SYS port''' and connect Power supply to the Spirit W1 unit. You can connect BEC or 1-3S Battery at the '''THR, AUX, T1''' ports.<br />
#Spirit W1 unit will start to blink with the Status LED periodically.<br />
#Then power up your Wave radio.<br />
#Radio will automatically bind to the receiver when using new Model profile. You can also Bind anytime manually as described in the section above.<br />
#After successfull binding Spirit unit will stop blinking and will initialize. Then you can remove the Bind plug.</translate><br />
<br />
[[File:spritW1-bind.jpg|class=halfwidth|center]]<br />
<br />
<br />
== Manual Binding ==<br />
<br />
You can Bind manually by going to the '''Model/Receiver''' menu.<br />
Press the '''Bind button''' after powering up Spirit W1 with a Bind plug.<br />
<br />
[[File:wave-bind.png|480px|center]]<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:8--><br />
SpiritW1 Wiring</translate>|&larr; <translate><!--T:9--><br />
Wiring</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:10--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:11--><br />
SpiritW1 Setup</translate>|<translate><!--T:12--><br />
Configuring from Radio</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=MediaWiki:Common.css&diff=52377
MediaWiki:Common.css
2024-01-11T11:36:13Z
<p>Admin: </p>
<hr />
<div>/* Zde uvedené CSS bude ovlivňovat všechny styly */<br />
img.halfwidth {<br />
width: 50%;<br />
height: auto;<br />
}<br />
<br />
img.smallwidth {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.13width {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.23width {<br />
width: 66%;<br />
height: auto;<br />
}<br />
<br />
img.14width {<br />
width: 25%;<br />
height: auto;<br />
}<br />
<br />
img.15width {<br />
width: 20%;<br />
height: auto;<br />
}<br />
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body.page-Main_Page .mw-headline-number { display: none; }<br />
body.page-Main_Page_cs .mw-headline-number { display: none; }<br />
body.page-Main_Page_de .mw-headline-number { display: none; }<br />
body.page-Main_Page_es .mw-headline-number { display: none; }<br />
body.page-Main_Page_fr .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritRS .mw-headline-number { display: none; }<br />
body.page-SpiritW1 .mw-headline-number { display: none; }<br />
<br />
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body.page-SpiritW1_Binding h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Setup h1.firstHeading { display:none; }<br />
body.page-SpiritW1_FCC h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Telemetry h1.firstHeading { display:none; }<br />
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table {<br />
border-radius:10px;<br />
border: 0px;<br />
background: #eeeeee;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
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padding: 50px 20px;<br />
border-radius: 10px;<br />
border-collapse: collapse;<br />
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background: -moz-linear-gradient(top, rgba(242,245,246,1) 0%, rgba(227,234,237,1) 37%, rgba(200,215,220,1) 100%); /* FF3.6-15 */<br />
background: -webkit-linear-gradient(top, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* Chrome10-25,Safari5.1-6 */<br />
background: linear-gradient(to bottom, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* W3C, IE10+, FF16+, Chrome26+, Opera12+, Safari7+ */<br />
}<br />
table.problems td, table th {<br />
border: 3px solid white;<br />
padding: 6px;<br />
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table.problems tr td:first-child,<br />
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table.problems tr td:last-child,<br />
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<br />
<br />
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<br />
table.servolist td, table th {<br />
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<br />
table.servolist th {<br />
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table.servolist tr:hover {background-color: #ffcf7b}<br />
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#printOnly {<br />
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<br />
@media print {<br />
#printOnly {<br />
display : block;<br />
}<br />
}</div>
Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Wiring&diff=52376
SpiritW1 Wiring
2024-01-11T11:35:45Z
<p>Admin: </p>
<hr />
<div><languages /> <br />
__NOTOC__<br />
=4 <translate>Wiring</translate>=<br />
<translate><!--T:1--><br />
'''Spirit W1''' has support for 4x swashplate, 1x tail and 1x throttle servos.<br />
<br />
<!--T:23--><br />
It has also 2x independent telemetry ports which mean you can attach directly two Spirit Wave sensors.<br />
Moreover you can optionally connect a backup receiver.<br />
<br />
<!--T:2--><br />
Additionally you can utilize [[ESC telemetry|ESC Telemetry]] and [[GeoLink|GeoLink GPS/GNSS module]].</translate><br />
<br />
[[File:spiritw1-detail.jpg|class=smallwidth]]<br />
<br />
== <translate><!--T:3--><br />
Servo Wiring</translate> ==<br />
<br />
<translate><!--T:4--><br />
According following diagrams you can connect servos to the Spirit W1.<br />
If some of your servos are not 1520μs center pulse, please connect the servo later during Setup Wizard process.</translate><br />
<br />
<translate><!--T:5--><br />
* '''CH1''' and '''CH3''' - Aileron/Pitch servo<br />
* '''CH2''' - Elevator Servo<br />
* '''CH4''' - Tail Servo</translate><br />
<p></p><br />
<translate><!--T:24--><br />
* '''CH0''' - Optional 2nd Elevator Servo</translate><br />
<br />
<translate><!--T:6--><br />
Depending on your model and selected Swashplate Type servos are wired differently.<br />
Wiring is described in the following sections and also in the Setup Wizard.</translate><br />
<br />
=== <translate><!--T:7--><br />
Elevator at the front</translate> ===<br />
<br />
<translate><!--T:8--><br />
Elevator has servo control push rod at the front part of the model - swashplate push rod at the front.</translate><br />
<br />
[[File:Swashplate-rev.png]]<br />
<br />
<translate><!--T:9--><br />
* '''CH1''' - connected to the right servo (Pitch)<br />
* '''CH3''' - connected to the left servo (Aileron)</translate><br />
<br />
=== <translate><!--T:10--><br />
Elevator at the rear</translate> ===<br />
<br />
<translate><!--T:11--><br />
Elevator has servo control push rod at the rear - swashplate push rod at the rear.</translate><br />
<br />
[[File:Swashplate.png]]<br />
<br />
<translate><!--T:12--><br />
* '''CH1''' - connected to the left servo (Aileron)<br />
* '''CH3''' - connected to the right servo (Pitch)</translate><br />
<br />
== <translate><!--T:13--><br />
Power Supply</translate> ==<br />
<br />
<translate><!--T:14--><br />
Power Supply is critical part of the model. For this reason it is highly recommended to use suitable BEC or battery that can handle used servos.<br />
Once wiring and setup is completed it is highly advised to perform the '''BEC test'''. If the test will not pass it is clear the power supply is inadequate and failure will occur.</translate><br />
<br />
<br />
<translate><!--T:15--><br />
BEC, Battery or Backup power supply should be connected always at '''THR''', '''E1''' and '''AUX''' ports.</translate><br />
<br />
<translate><!--T:16--><br />
* '''THR''' - used for Throttle output and primary ESC/BEC cable for electric helicopters. For a combustion helicopters THR port is used for Throttle Servo.<br />
* '''T1''' - used for Secondary BEC cable for electric helicopters (recommended for class 500+). For a combustion helicopters T1 port is used for a Battery lead.<br />
* '''AUX''' - used for Optional Power Guard system or an additional battery lead. Can output also channel data for controlling a landing gear, lights, etc.</translate><br />
<br />
<p></p><br />
{{Quote|'''<translate><!--T:22--><br />
Do not connect any wire to X pin. This pin is shared with internal Spirit RX receiver. Only if using external receiver this pin can be used!</translate>'''}}<br />
<p></p><br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:17--><br />
SpiritW1 Mounting</translate>|&larr; <translate><!--T:18--><br />
Mounting</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:19--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:20--><br />
SpiritW1 Binding</translate>|<translate><!--T:21--><br />
Binding</translate> &rarr;]]<br />
|}<br />
----<br />
</div></div>
Admin
https://manual.spirit-system.com/index.php?title=MediaWiki:Common.css&diff=52375
MediaWiki:Common.css
2024-01-11T11:34:53Z
<p>Admin: </p>
<hr />
<div>/* Zde uvedené CSS bude ovlivňovat všechny styly */<br />
img.halfwidth {<br />
width: 50%;<br />
height: auto;<br />
}<br />
<br />
img.smallwidth {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.13width {<br />
width: 33%;<br />
height: auto;<br />
}<br />
<br />
img.23width {<br />
width: 66%;<br />
height: auto;<br />
}<br />
<br />
img.14width {<br />
width: 25%;<br />
height: auto;<br />
}<br />
<br />
img.15width {<br />
width: 20%;<br />
height: auto;<br />
}<br />
<br />
body.page-Main_Page .mw-headline-number { display: none; }<br />
body.page-Main_Page_cs .mw-headline-number { display: none; }<br />
body.page-Main_Page_de .mw-headline-number { display: none; }<br />
body.page-Main_Page_es .mw-headline-number { display: none; }<br />
body.page-Main_Page_fr .mw-headline-number { display: none; }<br />
<br />
body.page-SpiritRS .mw-headline-number { display: none; }<br />
body.page-SpiritW1 .mw-headline-number { display: none; }<br />
<br />
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body.page-SpiritW1_Telemetry .mw-headline-number { display: none; }<br />
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body.page-SpiritW1_Preparation h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Mounting h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Safety h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Binding h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Setup h1.firstHeading { display:none; }<br />
body.page-SpiritW1_FCC h1.firstHeading { display:none; }<br />
body.page-SpiritW1_Telemetry h1.firstHeading { display:none; }<br />
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table {<br />
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background: #eeeeee;<br />
padding: 2px 10px;<br />
margin: 0px;<br />
}<br />
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table.problems {<br />
padding: 50px 20px;<br />
border-radius: 10px;<br />
border-collapse: collapse;<br />
background: rgb(242,245,246); /* Old browsers */<br />
background: -moz-linear-gradient(top, rgba(242,245,246,1) 0%, rgba(227,234,237,1) 37%, rgba(200,215,220,1) 100%); /* FF3.6-15 */<br />
background: -webkit-linear-gradient(top, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* Chrome10-25,Safari5.1-6 */<br />
background: linear-gradient(to bottom, rgba(242,245,246,1) 0%,rgba(227,234,237,1) 37%,rgba(200,215,220,1) 100%); /* W3C, IE10+, FF16+, Chrome26+, Opera12+, Safari7+ */<br />
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table.problems tr td:first-child,<br />
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table.problems tr td:last-child,<br />
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border: 0px;<br />
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border: 0px solid black;<br />
background: #f9f9f9;<br />
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table.servolist td, table th {<br />
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Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Mounting&diff=52374
SpiritW1 Mounting
2024-01-11T11:34:12Z
<p>Admin: </p>
<hr />
<div><languages /> <br />
__NOTOC__<br />
=3 <translate>Mounting</translate>=<br />
<translate><br />
<!--T:1--><br />
Correct mounting of the Spirit W1 unit plays an important role for the operation of your model.<br />
<br />
<!--T:2--><br />
Find a suitable location where vibrations are as low as possible - this is usually<br />
the same location shown by the manufacturer for mounting a gyro.<br />
<br />
<!--T:3--><br />
It is VERY important that the unit will be mounted so that the unit is '''exactly'''<br />
perpendicular to each rotational axis.<br />
Depending on your preference and available space it can be mounted in<br />
eight different positions:<br />
<br />
<!--T:4--><br />
*Horizontal (0°)<br />
*Horizontal (180°)<br />
*Horizontal (0° + inverted)<br />
*Horizontal (180° + inverted)<br />
*Vertical (0° - left side)<br />
*Vertical (180° - left side)<br />
*Vertical (0° - right side)<br />
*Vertical (180° - right side)<br />
<br />
<!--T:5--><br />
In case the unit is positioned so that connectors are facing forwards, select ''180°'', please. <br />
If the unit is mounted upside down, select ''inverted'' option.<br />
</translate><br />
<br />
<div>'''<translate><!--T:6--><br />
Mounting examples</translate>'''</div><br />
<translate><!--T:7--><br />
In the following photo the unit is mounted by double-sided adhesive tape to<br />
the frame of model.</translate><br />
<br />
<br />
[[File:spiritrs-poz1.jpg|class=halfwidth|center]]<br />
<br />
<br />
<center><translate><!--T:16--><br />
''Example 1:'' Position is '''Horizontal (180°)'''</translate></center><br />
<br />
<br />
[[File:spiritrs-poz2.jpg|class=halfwidth|center]]<br />
<br />
<br />
<center><translate><!--T:8--><br />
''Example 2:'' Position is '''Vertical (180° - left side)'''</translate></center><br />
<br />
<br />
<translate><br />
<!--T:9--><br />
In order to better insulate against any vibrations from the model, it is necessary<br />
to choose the right double-sided mounting tape. The tape should limit any<br />
transmission of vibrations from the model to the Spirit which may produce<br />
undesirable flight characteristics.<br />
Vibrations may also be caused by incorrectly balanced blades, damaged<br />
bearings, bent shafts and other mechanical issues.<br />
<br />
<!--T:10--><br />
We recommend to use supplied double sided tape.</translate><br /><br />
<br />
== <translate><!--T:20--><br />
Antenna</translate> ==<br />
<br />
<translate><!--T:21--><br />
Spirit W1 is equipped with 2 full-range antennas. For the best signal reception it is necessary to mount them properly at the model.<br />
<br />
<!--T:22--><br />
Ends of the antennas should be perpendicular to each other in all directions for optimal signal radiation.</translate><br />
<br />
{{Quote|'''<translate><!--T:18--><br />
Do not bend antennas more than 45° in a sharp angle. Bending radius should be more than 2 cm.</translate>'''}}<br />
<p></p><br />
{{Quote|'''<translate><!--T:19--><br />
Do not cover antennas with any additional objects. Preferably direct visibility at any angle should be achieved.</translate>'''}}<br />
<p></p><br />
{{Quote|'''<translate>Never pull the antennas. Antennas are replaceable and could be accidently disconnected making them ineffective.</translate>'''}}<br />
<br />
<br />
<div class=noprint><br />
---- <br />
{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate><!--T:11--><br />
SpiritW1 Preparation</translate>|&larr; <translate><!--T:12--><br />
Radio Preparation</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate><!--T:13--><br />
Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate><!--T:14--><br />
SpiritW1 Wiring</translate>|<translate><!--T:15--><br />
Wiring</translate> &rarr;]]<br />
|}<br />
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Admin
https://manual.spirit-system.com/index.php?title=SpiritW1_Preparation&diff=52373
SpiritW1 Preparation
2024-01-11T11:33:09Z
<p>Admin: </p>
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__NOTOC__<br />
=2 <translate>Preparation</translate>=<br />
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<translate>To use Spirit W1 with Spirit Wave radio it is enough to create fresh Model in the Model list.<br />
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Spirit W1 unit can be used for Helicopters and Airplanes. Depending on this create according model.</translate><br />
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== <translate>Model Creation</translate> ==<br />
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<translate>1. Go to '''Main Screen''' by tapping at the Home icon from where you can enter '''Model Selection''' menu.</translate><br />
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[[File:wave-mainscreen.png|480px]] [[File:wave-modelsel.png|480px]]<br />
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<translate>2. Tap at the '''Create button''' and choose '''Yes'''.</translate><br />
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[[File:wave-modelcreate.png|480px]]<br />
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<translate>3. Then select '''Helicopter''' or '''Plane''' and enter Model Name if using Spirit W1.</translate><br />
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[[File:wave-modelwizard.png|480px]] [[File:wave-modelname.png|480px]]<br />
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{{Info|[[File:Info.png]] <translate>By default Spirit W1 units are preloaded with Helicopter firmware. You can flash Spirit Aero firmware for free at any moment if you plan to use a plane.</translate>}}<br />
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== <translate>Model Configuration</translate> ==<br />
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<translate>All Model-related settings are at the '''Model menu''' (Third icon at the bottom panel).<br />
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Depending on Model type you selected during model creation this menu has differences. For helicopters you will find there different menus than for a planes.</translate><br />
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=== <translate>Model menu pages</translate> ===<br />
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<translate>After binding with Spirit W1 you can find three menu pages in the Model Menu. If Spirit unit is not detected only two menu pages are visible.<br />
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* '''Spirit''' - Full integration and configuration of the Spirit Flybarless unit.<br />
* '''General''' - Receiver binding, Flight Modes, Throttle and Pitch Curves, Gyro gain and similar.<br />
* '''Miscellaneous''' - Theme for particular model, Alarms, Logging and rest.</translate><br />
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{{Info|[[File:Info.png]] <translate>You can do the General settings at any moment even without Spirit unit disconnected.</translate>}}<br />
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{|style="width: 100%;color: white;"<br />
|-<br />
| style="width: 33%;"| [[<translate>SpiritW1_Safety</translate>|&larr; <translate>Safety notes</translate>]] <br />
| style="width: 33%;text-align:center;"| [[#up|&uarr;<translate>Up</translate>&uarr;]]<br />
| style="text-align:right;" | [[<translate>SpiritW1_Mounting</translate>|<translate>Mounting at the model</translate> &rarr;]]<br />
|}<br />
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Admin