Developer

ArduIMU quadcopter part III

Hi all, I have a new drone in the family...

This tiny drone is able to do completely automatic flights, it can perform altitude hold (based on sonar sensor) and obstacle avoiding based on IR distance sensors (you could see the "black stange eyes" on the photo). It´s your personal droid...

Look at the video (the "tennis game" part it´s funny. Thanks to Ramon for the idea!!)

There are some new features in this thrid part... This is the list:

For outdoor configuration:

- GPS library support (actually UBLOX or NMEA)

- Position hold based on GPS

For indoor configuration:

- 4x IR distance sensors to detect obstacles (1.5m range)

- Obstacle avoiding (using distance sensors)

Common:

- Altitude hold based on Sonar (LV-EZ0)

- Automatic flight pattern (experimental).

--- Automatic takeoff

--- Position hold [outdoor] or obstacle avoiding [indoor] during a predefined time

--- Automatic descend

--- Automatic landing

- Added XBee for telemetry (and debug)

And some improvements in the code:

- New "radio test mode" to test radio equipment

- Revised control routines

Development

For the GPS position hold I had to implement the navigation algorithms for the quadcopter because it´s really different that the one used for planes...For this navigation it´s necesary to have the magnetometer to cancel the yaw drift in hover conditions. One thing I have observed is that you can only fly this tiny drone on very calm days because it´s too light for the wind... so it´s better suitted as an indoor drone. Then I started to think how to make a cheap way to navigate on indoor enviroments... I have one sharp IR disntace sensor so I start making some tests mounting the sensor in a servo to make a 180º scan. The idea was to mount 2 (or 4) of this sensors in the moving head.
On the tests I found that in this little machine the moving head caused some inestability, so I decided to mount 4 sensors in a fixed way. OK, this the cheap DIY version of an EXPENSIVE laser range finder, but it works...
there are many thing to improve and test, but it´s a promising start...


Details

Sonar module is an LV-EZ0. Because we don´t have any analog input available I use the PWM interface in a Port Change pin (PCINT20) to use an interrupt to read the sensor. (It´s recommended some solder skills to make this modification).

For the IR range finder (Sharp GP2Y0A02) I needed to use a separate Arduino Pro mini (again we don´t have any analog input free). This module connects to the ArduIMU via Serial port so we need to choose between GPS of range finder (outdoor-indoor decision).


On this III part, the hardware (ArduIMU) really show it´s limits... it´s not a problem of CPU power, it´s a problem of the limited I/O as I said before, so it´s time to move to the big brother, the new ArduPilot Mega Hardware... this new platform will be fantastic for this projects...


Behind the scenes

During the test of position hold I have some crashes (nothing important, only some broken propellers...) and there was a moment in that the quad performs not so good, so I start searching the reason. Again I suspect that it could be a vibrations problem so I decided to make a modified code to test the vibration on each motor.

As you can see I have problems on left motor, so I change this prop, also add a new layer of doubled sided foam tape to the ArduIMU and problem gone.

The code is here: Quad1_mini_test_motor_vibrations.zip (If you want to use it read the instrucctions)


Respect to the IR distance sensor, the first version was a moving head with a servo but this had some problems with vibrations that affect stability and also has a poor scanning rate, here is a photo of this prototype. Finally I decided to use 4 fixed sensors.

Codes

Some parts of this codes are still experimental but you can get it here:

Outdoor code (GPS): Quad_mini_1_27.zip . GPS libraries : GPS_libraries.zip

Indoor code (IR sensors): Quad_mini_1_29_rangefinder.zip External Arduino pro mini code: IR_distance1.zip


Old posts of this project: http://www.diydrones.com/profiles/blogs/arduimu-quadcopter-part-ii


Jose.




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Comments

  • I sure got my $139 worth out of my Parallax o'scope. 2 ch and trigger.
  • I would like to get the Ping board to work.
  • Here s my pics. BTW a Parallax Ping board does not work.
    Earl

    Pardon the bad focus...took with an iPhone.
  • oops, I meant pin 2 of the chip !
    Earl
  • I see, pin 31 on the chip !
    Almost ready to test on Dark Star.
    Watching on scope for now
    Earl
  • Developer
    Actually if you even look that Jose's picture on Details section on this page, you will see brown line soldered to the leg of the chip. And there is also a comment about "need soldering skills" above the picture :)

    Would be actually good if Jordi would put always a small soldering pad close to unused pins if there is space. Just like this one, there is even space close to pins 1 and 2 to put small pad. This whole site is about hacking electronics so we are also hacking these ;)

    Jordi... remember this on next pcb designs..

    --jp
  • Developer
    Checked it for you, it looks like you need to solder it directly to chip. There is no solder pad at edge of the board. According to schematics and datasheet we are talking of pin PD4 still on MLF chip. PD4 is located on lefthand side 2nd from top. If you keep your IMU on your hand in a way that text is up normal way. There is a small dot/circle on microchip on top left corner.

    That corner is pin 1 corner, pin 1 is first on left side of the chip, pin 2 (PD4) is under it and so on.. pin numbers are going in counterclockwise (CCW).

    So you need to solder your input on that leg.

  • Developer
    Earl,

    IMU board has atmega328 so if you look schematics and chip pinout you will find it. PCINT20 is one of the pins.
    Just like on atmega168/328 DIP version it is on pin Nr.6 e.g PD4 pin (PCINT20/XCK/T0).

    http://arduino.cc/en/Hacking/PinMapping168

    --jp
  • Could you clarify this ?
    Where on the IMU board to put the sonar signal ?

    [ Details

    Sonar module is an LV-EZ0. Because we don´t have any analog input available I use the PWM interface in a Port Change pin (PCINT20) to use an interrupt to read the sensor. (It´s recommended some solder skills to make this modification). ]

    Earl
  • great project ...
    since you build all project levels

    can you change the rc controller by laptop and simple transmitter/receiver
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