Manuals:MBPlusFblV5:Setupmenu B: Difference between revisions

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{{DISPLAYTITLE:SETUP MENU B - Swashplate frequency|noerror}}
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{{TOC_MBPlusV5|Manuals:MBPlusFblV5:Setupmenu_A/en|Manuals:MBPlusFblV5:Setupmenu_C/en|SETUPMENU}}
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Setup menu point '''B''' is for selecting the servo update frequency (pulse rate) for the swashplate servos. To optimize the performance of MICROBEAST PLUS the rule is: the higher the better! With high update frequency the system will recalculate correctional movements more often and in consequence will send new commands to the servos with a higher frequency. Nevertheless, this will cause the servos to make more position changes at a given timeframe. In case your servo is not built for this kind of application this can cause an unusual high power consumption of the receiver power supply and cause the servos getting very hot. When this happens, reduce frequency immediately to prevent your servos from getting damaged. Only go as high as recommended by the servo manufacturer, or even lower when the servo is not capable of handling such high frequency in field use.<br />
Setup menu point '''B''' is for selecting the servo update frequency (pulse rate) for the swashplate servos. To optimize the performance of MICROBEAST PLUS the rule is: the higher the better! With high update frequency the system will recalculate correctional movements more often and in consequence will send new commands to the servos with a higher frequency. Nevertheless, this will cause the servos to make more position changes at a given timeframe. In case your servo is not built for this kind of application this can cause an unusual high power consumption of the receiver power supply and cause the servos getting very hot. When this happens, reduce frequency immediately to prevent your servos from getting damaged. Only go as high as recommended by the servo manufacturer, or even lower when the servo is not capable of handling such high frequency in field use.<br />
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<br />
When using a servo that allows a higher frequency as MICROBEAST PLUS offers or that allows a maximum frequency which is not choosable, please select the next lower frequency that is closest to the given frequency or set the frequency with StudioX PC Software or StudioXm mobile App. '''Note:''' Using a lower frequency is always possible. Only too high frequencies can damage the servo and/or will cause the servo to not work properly. [[The_BEASTX_servo_list/en|Here]] you can find a list of parameters for the most common servos. Please understand that we can not list all servo types. We also can not guarantee the accuracy of this data. Ask the manufacturer of the servos or your servo dealer for detailed information.<br />
When using a servo that allows a higher frequency as MICROBEAST PLUS offers or that allows a maximum frequency which is not choosable, please select the next lower frequency that is closest to the given frequency or set the frequency with StudioXm PC Software or mobile App. '''Note:''' Using a lower frequency is always possible. Only too high frequencies can damage the servo and/or will cause the servo to not work properly. [[The_BEASTX_servo_list/en|Here]] you can find a list of parameters for the most common servos. Please understand that we can not list all servo types. We also can not guarantee the accuracy of this data. Ask the manufacturer of the servos or your servo dealer for detailed information.<br />
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{{QUOTE|[[Image:Warning.png|18px|sub]] '''If you do not know the maximum pulse rate tolerated by your servos do not select more than 50Hz driving frequency.''' A higher driving frequency can lead to failure of the servos!<br />
{{QUOTE|[[Image:Warning.png|18px|sub]] '''If you do not know the maximum pulse rate tolerated by your servos do not select more than 50Hz driving frequency.''' A higher driving frequency can lead to failure of the servos!<br />
With high frequencies, some servos run in a jerky manner, especially the fast ones with coreless or brushless servos. This is due to the high update rate that the servo receives. This is not critical and will not impact flight performance.}}<br />
With high frequencies, some servos run in a jerky manner, especially the fast ones with coreless or brushless servos. This is due to the high update rate that the servo receives. This is not critical and will not impact flight performance.}}<br />
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'''After setting the correct update frequency plug in the swashplate servos, but do not install the servo horns yet as the servos could bind and get damaged on first power up:'''<br />
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{|class="gallery"
| style="padding:0px 0px;" align="center" | [[Image:Swashtypes.png|x100px|none|border]]
| style="padding:0px 40px;" align="center" | [[Image:Swashservo_connection.png|x100px|none]]
|}
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With electronic swashplate mixing the two aileron servos have to be connected to CH2 (=left) and CH3 (=right). With a mechanical mixed head (H1) the aileron servo connects to CH2 and collective pitch servo to CH3. Plug the the elevator servo into CH1 port. When using a scale helicopter with 90 degrees eCCPM you can connect a second elevator servo to CH7 output on the MICROBEAST PLUS. Note that CH7 only is a signal output, so you must power the servo from elsewhere, i.e. by getting power from the SYS-port or CH5 using a Y-adapter (for + and - only!). Anyhow, with large scale helicopters we recommend to use a separate power distribution unit to which you connect the servos. This will be the better option in regards to robust and fail safe power distribution.<br />
<br />
<!--T:4-->
{{QUOTE|When you route the wire leads in your model make sure that there is no tension passed to the MICROBEAST PLUS. Make sure that MICROBEAST PLUS is able to move freely, so no vibrations get passed onto the unit by the wire leads. It is not recommended to bundle or tie down the leads close to the MICROBEAST PLUS. On the other hand the wires must be attached so that they are unable to move the MICROBEAST PLUS during the flight caused by g-force. In particular, do not use any shrink tubing or fabric hose to bundle or encase the wiring in close proximity to the point at which the cables are plugged into the MICROBEAST PLUS. This makes the cables stiff and inflexible and can cause vibrations being transmitted to MICROBEAST PLUS.}}<br />
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=Setup with StudioX= <!--T:6-->
=Setup with StudioXm= <!--T:7-->
Choose a preset frequency by clicking one of the provided buttons for Menu Point B (Swashplate frequency) or set a custom frequency by directly changing the value in the box on the left.<br />
Choose a preset frequency by clicking one of the provided buttons for Menu Point B (Swashplate frequency) or set a custom frequency by directly changing the value with the dial or buttons.<br />
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[[File:SetupB.png|x250px]]<br />
<div class="iosgallery">
<img class="ios" src="https://wiki.beastx.com/images/studiox/freakware%202019-07-09%20031.PNG">
<div class="iostext"></div>
</div>
<div class="iosgallery">
<img class="ios" src="https://wiki.beastx.com/images/studiox/freakware%202019-07-09%20035.PNG">
<div class="iostext"></div>
</div>
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=Setup with StudioXm= <!--T:7-->
=Servo connection= <!--T:3-->
Choose a preset frequency by clicking one of the provided buttons for Menu Point B (Swashplate frequency) or set a custom frequency by directly changing the value with the dial or buttons.<br />
'''After setting the correct update frequency plug in the swashplate servos, but do not install the servo horns yet as the servos could bind and get damaged on first power up!'''<br />
<br />
{|class="gallery"
| style="padding:0px 0px;" align="center" | [[Image:Swashtypes.png|x100px|none|border]]
| style="padding:0px 40px;" align="center" | [[Image:Swashservo_connection.png|x100px|none]]
|}
<br />
<br />
With electronic swashplate mixing the two aileron servos have to be connected to CH2 (=left) and CH3 (=right). With a mechanical mixed head (H1) the aileron servo connects to CH2 and collective pitch servo to CH3. Plug the the elevator servo into CH1 port. When using a scale helicopter with 90 degrees eCCPM you can connect a second elevator servo to CH7 output on the MICROBEAST PLUS. Note that CH7 only is a signal output, so you must power the servo from elsewhere, i.e. by getting power from the SYS-port or CH5 using a Y-adapter (for + and - only!). Anyhow, with large scale helicopters we recommend to use a separate power distribution unit to which you connect the servos. This will be the better option in regards to robust and fail safe power distribution.<br />
<br />
<br />
[[File:SetupB_mobile.png|x250px]]<br />
 
<!--T:4-->
{{QUOTE|When you route the wire leads in your model make sure that there is no tension passed to the MICROBEAST PLUS. Make sure that MICROBEAST PLUS is able to move freely, so no vibrations get passed onto the unit by the wire leads. It is not recommended to bundle or tie down the leads close to the MICROBEAST PLUS. On the other hand the wires must be attached so that they are unable to move the MICROBEAST PLUS during the flight caused by g-force. In particular, do not use any shrink tubing or fabric hose to bundle or encase the wiring in close proximity to the point at which the cables are plugged into the MICROBEAST PLUS. This makes the cables stiff and inflexible and can cause vibrations being transmitted to MICROBEAST PLUS.}}<br />
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Latest revision as of 19:31, 10 July 2019


Setup menu point B is for selecting the servo update frequency (pulse rate) for the swashplate servos. To optimize the performance of MICROBEAST PLUS the rule is: the higher the better! With high update frequency the system will recalculate correctional movements more often and in consequence will send new commands to the servos with a higher frequency. Nevertheless, this will cause the servos to make more position changes at a given timeframe. In case your servo is not built for this kind of application this can cause an unusual high power consumption of the receiver power supply and cause the servos getting very hot. When this happens, reduce frequency immediately to prevent your servos from getting damaged. Only go as high as recommended by the servo manufacturer, or even lower when the servo is not capable of handling such high frequency in field use.

When using a servo that allows a higher frequency as MICROBEAST PLUS offers or that allows a maximum frequency which is not choosable, please select the next lower frequency that is closest to the given frequency or set the frequency with StudioXm PC Software or mobile App. Note: Using a lower frequency is always possible. Only too high frequencies can damage the servo and/or will cause the servo to not work properly. Here you can find a list of parameters for the most common servos. Please understand that we can not list all servo types. We also can not guarantee the accuracy of this data. Ask the manufacturer of the servos or your servo dealer for detailed information.

If you do not know the maximum pulse rate tolerated by your servos do not select more than 50Hz driving frequency. A higher driving frequency can lead to failure of the servos!
With high frequencies, some servos run in a jerky manner, especially the fast ones with coreless or brushless servos. This is due to the high update rate that the servo receives. This is not critical and will not impact flight performance.



Adjustment on the device

To select the desired servo frequency move the rudder stick repeatedly in one direction until the Status-LED lights in the correct color at SETUP MENU point B:

Status-LED Swashplate servo frequency
purple 50 Hz
red flashing 65 Hz
red 120 Hz
blue flashing 165 Hz
blue 200 Hz


Note: When you set a different frequency using the StudioX or StudioXm App the Status LED will be off. You can change back to a preset setting by tapping the rudder stick as described, but this will remove your custom setting!


Setup with StudioXm

Choose a preset frequency by clicking one of the provided buttons for Menu Point B (Swashplate frequency) or set a custom frequency by directly changing the value with the dial or buttons.

<img class="ios" src="freakware%202019-07-09%20031.PNG">

<img class="ios" src="freakware%202019-07-09%20035.PNG">



Servo connection

After setting the correct update frequency plug in the swashplate servos, but do not install the servo horns yet as the servos could bind and get damaged on first power up!



With electronic swashplate mixing the two aileron servos have to be connected to CH2 (=left) and CH3 (=right). With a mechanical mixed head (H1) the aileron servo connects to CH2 and collective pitch servo to CH3. Plug the the elevator servo into CH1 port. When using a scale helicopter with 90 degrees eCCPM you can connect a second elevator servo to CH7 output on the MICROBEAST PLUS. Note that CH7 only is a signal output, so you must power the servo from elsewhere, i.e. by getting power from the SYS-port or CH5 using a Y-adapter (for + and - only!). Anyhow, with large scale helicopters we recommend to use a separate power distribution unit to which you connect the servos. This will be the better option in regards to robust and fail safe power distribution.

When you route the wire leads in your model make sure that there is no tension passed to the MICROBEAST PLUS. Make sure that MICROBEAST PLUS is able to move freely, so no vibrations get passed onto the unit by the wire leads. It is not recommended to bundle or tie down the leads close to the MICROBEAST PLUS. On the other hand the wires must be attached so that they are unable to move the MICROBEAST PLUS during the flight caused by g-force. In particular, do not use any shrink tubing or fabric hose to bundle or encase the wiring in close proximity to the point at which the cables are plugged into the MICROBEAST PLUS. This makes the cables stiff and inflexible and can cause vibrations being transmitted to MICROBEAST PLUS.