Unterschiede zwischen den Revisionen 15 und 16

Current Project status

$/!\$ I am still experimenting and working on the first version of the tool. Also this documentation is not complete yet.

The current implementation is very basic, it is a "command-line" tool without any graphical user-interface.

Currently the tool was only tested on PC/Windows with FC 1.3 hardware.

What is the VibrationTest Tool?

The tool measures the vibration generated by the motors using the MK build-in sensors.

This allows to balance motor/prop assemblies and to experiment with different motor-mounts.

The standard FlightControl program supports a command that allows to monitor the MK sensors. The MKTool uses this command to generate graphs of analog values. In a first approach I used this standard command to monitor vibrations. The problem is that is mechanism only allows to sample the values only 30 times a second. In order to get reliable results one needs to monitor the values for a long time (a minute for example) and hope that one has catched the peaks of the signal.

This new approach is based on dedicated FlightControl software that allows to monitor one sensor for a short period of time as fast as possible. This allows to grab a reliable signal in a very short time.

This is an example of the signal measured by the Roll-ACC sensor:

attachment:test.jpg

How do I install the tool?

Option 1: Install Python

The tool is written in Python. In case you have heard of python, have look in [http://en.wikipedia.org/wiki/Python_(programming_language) Wikipedia]. In order to run the tool, you need to install support for Python on your PC. It you do not have Python installed on you PC, I propose you install: [http://www.activestate.com/activepython/ ActivePython for Windows] and [http://sourceforge.net/projects/pyserial/files/ PySerial (support for serial port access)]

Python is also available for Linux and MAC.

Once you have Python support on your PC all you need to is place the files VibrationTest.py and mkProto.py from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=/VibrationTest/trunk/VibrationTest/#_VibrationTest_trunk_VibrationTest_ SVN] together in a directory.

Option 2: Get compiled version

It should be possible to compile python applications to a windows executable. I did not investigate this approach yet.

Installing the FlightControl software

The VibrationTest tool works in combination with a special version of the FlightControl software. It must be flashed in the FC board before using the test and you need to reinstall your regular software version afterwards. This just takes a few minutes. Switching the software is done the usual way, using the MKTool.

You can grab the latest version of the VibrationTest-FC.hex file from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=/VibrationTest/trunk/Executables/FlightCtrl/#_VibrationTest_trunk_Executables_FlightCtrl_ SVN]

How do I use the tool?

Attach you MK to the table :)

The command line parameters

VibrationTest.py COMPORT MOTORS SPEEDS CHANNELS [-m MINSPEED] [-s NBSAMPLES] [-n NAME] [-d FILENAME] [-v]
 COMPORT         Serial port to use. e.g. COM4
 MOTORS          Motors to activate during test. Multiple motors can be used at the same time. e.g. 1,2,3,4
 SPEEDS          Indicates at what speeds the motors need to be tested.
                   Format 1:  e.g. 50,110,140            Tests at speeds 50, 110 and 140
                   Format 2:  e.g. 100-200:50            Tests at speeds 100, 150 and 200
 CHANNELS        Channels to monitor. e.g. 5,6,7
                   Channel 0 = GyroYaw
                   Channel 1 = GyroRoll
                   Channel 2 = GyroNick
                   Channel 3 = Pressure
                   Channel 4 = Batt
                   Channel 5 = AccTop
                   Channel 6 = AccRoll
                   Channel 7 = AccNick
 -m MINSPEED     Minimum speed of the motor(s)
 -s NBSAMPLES    Number of samples
 -n NAME         Name of the test
 -d FILENAME     File to which the measured values will be logged in
 -v              Verbose

General procudure

Example 1

Finding what sensor provides best information at what speed:

VibrationTest.py COM5 3 100-200:20 6,7
      Speed=100 U=11.3V Channel=AccRoll    Min=492 Max=505 pp= 13 **
      Speed=100 U=11.3V Channel=AccNick    Min=498 Max=507 pp=  9 *
      Speed=120 U=11.3V Channel=AccRoll    Min=489 Max=503 pp= 14 **
      Speed=120 U=11.3V Channel=AccNick    Min=497 Max=507 pp= 10 **
      Speed=140 U=11.2V Channel=AccRoll    Min=469 Max=519 pp= 50 **********
      Speed=140 U=11.2V Channel=AccNick    Min=495 Max=508 pp= 13 **
      Speed=160 U=11.1V Channel=AccRoll    Min=478 Max=517 pp= 39 *******
      Speed=160 U=11.1V Channel=AccNick    Min=493 Max=511 pp= 18 ***
      Speed=180 U=10.9V Channel=AccRoll    Min=479 Max=511 pp= 32 ******
      Speed=180 U=10.9V Channel=AccNick    Min=493 Max=514 pp= 21 ****
      Speed=200 U=10.7V Channel=AccRoll    Min=479 Max=515 pp= 36 *******
      Speed=200 U=10.7V Channel=AccNick    Min=493 Max=513 pp= 20 ****
VibrationTest.py COM5 3 130-160:10 6
      Speed=130 U=11.1V Channel=AccRoll    Min=484 Max=511 pp= 27 *****
      Speed=140 U=11.1V Channel=AccRoll    Min=469 Max=524 pp= 55 ***********
      Speed=150 U=11.1V Channel=AccRoll    Min=475 Max=520 pp= 45 *********
      Speed=160 U=11.1V Channel=AccRoll    Min=479 Max=518 pp= 39 *******

So, lets concentrate on channel 6 at speed 140.

Now, the preliminary balancing of the prop:

VibrationTest.py COM5 3 140 6 -d motor3.txt -n 0s0
  0s0 Speed=140 U=11.0V Channel=AccRoll    Min=470 Max=521 pp= 51 **********
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s0
  1s0 Speed=140 U=11.0V Channel=AccRoll    Min=482 Max=513 pp= 31 ******
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 2s0
  2s0 Speed=140 U=11.0V Channel=AccRoll    Min=475 Max=520 pp= 45 *********

For now, 1 sticker seems best.

Now, lets rotate the prop:

VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s0
  1s0 Speed=140 U=10.9V Channel=AccRoll    Min=481 Max=513 pp= 32 ******
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s60
 1s60 Speed=140 U=10.9V Channel=AccRoll    Min=480 Max=512 pp= 32 ******
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s120
1s120 Speed=140 U=10.9V Channel=AccRoll    Min=477 Max=514 pp= 37 *******
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s180
1s180 Speed=140 U=10.9V Channel=AccRoll    Min=482 Max=509 pp= 27 *****
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s240
1s240 Speed=140 U=10.9V Channel=AccRoll    Min=482 Max=510 pp= 28 *****
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s300
1s300 Speed=140 U=10.9V Channel=AccRoll    Min=482 Max=514 pp= 32 ******
VibrationTest.py COM5 3 140 6,6,6 -d motor3.txt -n 1s360
1s360 Speed=140 U=10.9V Channel=AccRoll    Min=482 Max=515 pp= 33 ******

Rotating the prop by 180 degrees produces best results, now lets try to balance the prop again:

VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s180
1s180 Speed=140 U=10.9V Channel=AccRoll    Min=483 Max=509 pp= 26 *****
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 0s180
0s180 Speed=140 U=10.9V Channel=AccRoll    Min=472 Max=519 pp= 47 *********
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 1s180
1s180 Speed=140 U=10.9V Channel=AccRoll    Min=483 Max=510 pp= 27 *****
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 2s180
2s180 Speed=140 U=10.9V Channel=AccRoll    Min=489 Max=508 pp= 19 ***
VibrationTest.py COM5 3 140 6 -d motor3.txt -n 3s180
3s180 Speed=140 U=10.9V Channel=AccRoll    Min=483 Max=512 pp= 29 *****

So, 2 stickers is best

VibrationTest.py COM5 3 140 6 -d motor3.txt -n 2s180
2s180 Speed=140 U=10.9V Channel=AccRoll    Min=488 Max=508 pp= 20 ****
VibrationTest.py COM5 3 140 6,6,6 -d motor3.txt -n end
  end Speed=140 U=10.8V Channel=AccRoll    Min=487 Max=510 pp= 23 ****

Now, we can perform a sweep in order to compare with the starting-point:

VibrationTest.py COM5 3 100-200:20 6,7
       Speed=100 U=11.1V Channel=AccRoll    Min=493 Max=501 pp=  8 *
       Speed=100 U=11.1V Channel=AccNick    Min=499 Max=507 pp=  8 *
       Speed=120 U=11.1V Channel=AccRoll    Min=489 Max=507 pp= 18 ***
       Speed=120 U=11.1V Channel=AccNick    Min=497 Max=508 pp= 11 **
       Speed=140 U=11.0V Channel=AccRoll    Min=489 Max=507 pp= 18 ***
       Speed=140 U=11.0V Channel=AccNick    Min=498 Max=509 pp= 11 **
       Speed=160 U=10.9V Channel=AccRoll    Min=482 Max=508 pp= 26 *****
       Speed=160 U=10.9V Channel=AccNick    Min=496 Max=510 pp= 14 **
       Speed=180 U=10.7V Channel=AccRoll    Min=489 Max=505 pp= 16 ***
       Speed=180 U=10.7V Channel=AccNick    Min=495 Max=508 pp= 13 **
       Speed=200 U=10.6V Channel=AccRoll    Min=482 Max=508 pp= 26 *****
       Speed=200 U=10.6V Channel=AccNick    Min=491 Max=509 pp= 18 ***

-  ⇤ ← Revision 15 vom 29.08.2009 23:15 → 
  Größe: 9566
  Autor: LegoM
  Kommentar: Kategorie ergänzt
+   ← Revision 16 vom 31.08.2009 13:55 → ⇥
  Größe: 9490
  Autor: fredericg
  Kommentar:
-Gelöschter Text ist auf diese Art markiert.
+Hinzugefügter Text ist auf diese Art markiert.
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+= Current Project status =
/!\ '''I am still experimenting and working on the first version of the tool. Also this documentation is not complete yet.'''


The current implementation is very basic, it is a "command-line" tool without any graphical user-interface.

Currently the tool was only tested on PC/Windows with FC 1.3 hardware.
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 The tool measures the vibration generated by the motors using the MK build-in sensors.
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 This new approach is based on dedicated FlightControl software that allows to monitor one sensor for a short period of time as fast as possible. This allows to grab a reliable signal in a very short time.
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-= Current Project status =
The current implementation is very basic, it is a "command-line" tool without any graphical user-interface.

I am still experimenting and working on the first version of the tool.

Currently the tool was only tested on PC/Windows with FC 1.3 hardware.
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-The tool is written in Python. In case you have heard of python, have look in [http://en.wikipedia.org/wiki/Python_(programming_language) Wikipedia].
In order to run the tool, you need to install support for Python on your PC. 
It you do not have Python installed on you PC, I propose you install:
[http://www.activestate.com/activepython/ ActivePython for Windows] and 
[http://sourceforge.net/projects/pyserial/files/ PySerial (support for serial port access)]
+The tool is written in Python. In case you have heard of python, have look in [http://en.wikipedia.org/wiki/Python_(programming_language) Wikipedia]. In order to run the tool, you need to install support for Python on your PC.  It you do not have Python installed on you PC, I propose you install: [http://www.activestate.com/activepython/ ActivePython for Windows] and  [http://sourceforge.net/projects/pyserial/files/ PySerial (support for serial port access)]
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-Once you have Python support on your PC all you need to is place the files VibrationTest.py and mkProto.py from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=%2FVibrationTest%2Ftrunk%2FVibrationTest%2F#_VibrationTest_trunk_VibrationTest_ SVN] together in a directory.
+Once you have Python support on your PC all you need to is place the files VibrationTest.py and mkProto.py from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=/VibrationTest/trunk/VibrationTest/#_VibrationTest_trunk_VibrationTest_ SVN] together in a directory.
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-You can grab the latest version of the VibrationTest-FC.hex file from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=%2FVibrationTest%2Ftrunk%2FExecutables%2FFlightCtrl%2F#_VibrationTest_trunk_Executables_FlightCtrl_ SVN]
+You can grab the latest version of the VibrationTest-FC.hex file from [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=/VibrationTest/trunk/Executables/FlightCtrl/#_VibrationTest_trunk_Executables_FlightCtrl_ SVN]
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+== General procudure ==
== Example 1 ==
Finding what sensor provides best information at what speed:
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-== General procudure ==

== Example 1 ==

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+Rotating the prop by 180 degrees produces best results, now lets try to balance the prop again:
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-Rotating the prop by 180 degrees produces best results, now lets try to balance the prop again:
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+So, 2 stickers is best
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-So, 2 stickers is best
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+Now, we can perform a sweep in order to compare with the starting-point:
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+= Links =
 * [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=/VibrationTest/#_VibrationTest_ VibrationTest Project in Subversion]
 * Mail FredericG: [[MailTo(admin AT rc-flight DOT be)]]
[[BR]] /!\ ToDo:
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-= Links =
 * [http://svn.mikrokopter.de/mikrowebsvn/listing.php?repname=Projects&path=%2FVibrationTest%2F#_VibrationTest_ VibrationTest Project in Subversion]
 * Mail FredericG: [[MailTo(admin AT rc-flight DOT be)]]


[[BR]]
/!\ ToDo:
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