I finally received my Raspberry Pi Zero, just in time to get into the DIY challenge of building a smart drone with the Pi Zero and APM under 100$. I called this project: MINI-Zee
How this can be done?
Well first of all, thanks to Victor and the team at Erle Robotics for releasing the plans and software of their PXFmini. This is a real inspiration for building my own board, because all the parts are available at a cheap price and are relatively easy to assemble and interconnect using through-hole breadboard, providing you are very experienced with this type of build.
Bill of Material (US$ - Transport & taxes excl.):
Raspberry Pi Zero 5.
MPU 9205 (SPI 9 dof IMU) 8.
MS 5611 (SPI Baro) 9.
PCA 9685 (16 channel PWM Servo Driver) 5.
3.3 v. regulator 1.
BEC 3 amps 3.
Breadboard, Resistors, Connectors, Misc. 7.
HobbyKing Spec FPV250 V2 Quad Copter
ARF Combo Kit - Mini Sized FPV 60.
*This is Banggood price; I had an ADAFRUIT –PWM on hand, and I really recommend going with ADAFRUIT, because of all the effort they put on making a great tutorial and drivers for this product. Note: Just like Erle prototype , the USB WIFI, GPS and the Radio Control are excluded.
A) Hardest part: Get a RASPBERRY PI ZERO (Where is my Zero site)
B) Hardware - See BOM
C) Board Schematics : Erle pxfmini
D) Board Software: Erle pxfmini
E) LOAD LATEST Raspbian-Jessie
Disable serial Login (Allow GPS on serial Port)
Enable , I2C, SPI , Serial
Disable Console = Auto Log on a shell
F) LOAD RT-PREEMPT
Load Test Result: TEST: T: 0 ( 1136) P:80 I:500 C: 100000 Min: 16 Act: 31 Avg: 32 Max: 157
G) MAKE ArduCopter
Special MINI-ZEE release:
1) The MPU 9205 is mounted on the Z-Axis, so we need to change :
CONFIG_HAL_BOARD_SUBTYPE == HAL_BOARD_SUBTYPE_LINUX_PXFMINI
, defaultrotation(ROTATION_YAW_270) = to ROTATION_NONE
2) The PCA9585 has no external clock, and the ESC are connected to ports 1-2-3-4, so we need to change:
static RCOutput_PCA9685 rcoutDriver(PCA9685_PRIMARY_ADDRESS, true, 3, RPI_GPIO_27); -to-
static RCOutput_PCA9685 rcoutDriver(PCA9685_PRIMARY_ADDRESS, false, 0, RPI_GPIO_27);
H) Fly the MINI-ZEE == Add these to /etc/rc.local
wait till network is up and DHCP assigned address
while ! ifconfig | grep 192.168.2. >> /home/pi/bootlog; do
echo “no network, waiting…” >> /home/pi/bootlog
echo “Starting ArduCopter” >> /home/pi/bootlog
sudo /home/pi/ardupilot/ArduCopter/ArduCopter.elf -A udp:192.168.gcu-address:14550 -B /dev/ttyAMA0 > /home/pi/startup_log &
I) FIRST FLY LOG:
Thanks to the damping platform, the vibration level is within specs. Video is available for anyone interested..
This project took about 20 hours to complete. As you can see, I really enjoyed doing some hardcore DIY to demonstrate that it is still possible to build your own flight controller from a Linux Based system. I do not recommend to try this as a first project, but if you are interested, give it a try but remember that in DIY_LAND, you're on your own... do not expect any type of support or advice , so the best deal to fly a Raspberry Pi Zero is to get a ready to fly PXFmini.