ardupilot/libraries/AP_HAL_ChibiOS/hwdef/Pixhawk1
Andrew Tridgell c36d76c213 HAL_ChibiOS: convert Pixhawk1 to new sensor config
saves 26k of flash, making 1M boards work for longer
2019-05-30 15:39:57 +10:00
..
PixhawkLabeled.jpg HAL_ChibiOS: added Pixhawk1 docs 2018-11-18 15:56:42 +11:00
README.md HAL_ChibiOS: added Pixhawk1 docs 2018-11-18 15:56:42 +11:00
hwdef-bl.dat HAL_ChibiOS: added Pixhawk1 build target 2018-07-27 10:02:31 +10:00
hwdef.dat HAL_ChibiOS: convert Pixhawk1 to new sensor config 2019-05-30 15:39:57 +10:00

README.md

Pixhawk1 Flight Controller

The Pixhawk1 flight controller was originally produced by 3DR. A number of vendors now sell boards with the same layout as the original board.

Features

  • STM32F427 microcontroller
  • MPU6000 and LSM303D/L3GD20 IMUs
  • MS5611 SPI barometer
  • builtin SPI LSM303D magnetometer
  • microSD card slot
  • 5 UARTs plus USB
  • 14 PWM outputs
  • I2C and CAN ports
  • Spektrum satellite connector
  • External Buzzer
  • builtin RGB LED
  • external safety Switch
  • external SPI port
  • voltage monitoring for servo rail and Vcc
  • dedicated power input port for external power brick
  • external USB connectors (micro USB and DF13)

Pinout

Pixhawk1 Board

UART Mapping

  • SERIAL0 -> USB
  • SERIAL1 -> UART2 (Telem1)
  • SERIAL2 -> UART3 (Telem2)
  • SERIAL3 -> UART4 (GPS)
  • SERIAL4 -> UART8 (GPS2)
  • SERIAL5 -> UART7 (spare)

The Telem1 and Telem2 ports have RTS/CTS pins, the other UARTs do not have RTS/CTS.

The GPS2/spare port (labelled serial5) has two UARTs on one 6 pin connector. The spare port was originally used as a debug console, but debug is now on USB, so this port is free for any UART protocol.

Connectors

The original Pixhawk1 uses DF13 connectors, and has 14 ports

TELEM1, TELEM2 ports

Pin Signal Volt
1 (red) VCC +5V
2 (blk) TX (OUT) +3.3V
3 (blk) RX (IN) +3.3V
4 (blk) CTS +3.3V
5 (blk) RTS +3.3V
6 (blk) GND GND

GPS port

Pin Signal Volt
1 (red) VCC +5V
2 (blk) TX (OUT) +3.3V
3 (blk) RX (IN) +3.3V
4 (blk) CAN2 TX +3.3V
5 (blk) CAN2 RX +3.3V
6 (blk) GND GND

SERIAL 4/5 port

Pin Signal Volt
1 (red) VCC +5V
2 (blk) TX (#4) +3.3V
3 (blk) RX (#4) +3.3V
4 (blk) TX (#5) +3.3V
5 (blk) RX (#5) +3.3V
6 (blk) GND GND

ADC 6.6V

Pin Signal Volt
1 (red) VCC +5V
2 (blk) ADC IN up to +6.6V
3 (blk) GND GND

ADC 3.3V

Pin Signal Volt
1 (red) VCC +5V
2 (blk) ADC IN up to +3.3V
3 (blk) GND GND
4 (blk) ADC IN up to +3.3V
5 (blk) GND GND

I2C

Pin Signal Volt
1 (red) VCC +5V
2 (blk) SCL +3.3 (pullups)
3 (blk) SDA +3.3 (pullups)
4 (blk) GND GND

CAN

Pin Signal Volt
1 (red) VCC +5V
2 (blk) CAN_H +12V
3 (blk) CAN_L +12V
4 (blk) GND GND

SPI

Pin Signal Volt
1 (red) VCC +5V
2 (blk) SPI_SCK 3.3V
3 (blk) SPI_MISO +3.3V
4 (blk) SPI_MOSI +3.3V
5 (blk) !SPI_NSS +3.3V
6 (blk) !GPIO +3.3V
7 (blk) GND GND

POWER

Pin Signal Volt
1 (red) VCC +5V
2 (blk) VCC +5V
3 (blk) CURRENT up to +3.3V
4 (blk) VOLTAGE up to +3.3V
5 (blk) GND GND
6 (blk) GND GND

SWITCH

Pin Signal Volt
1 (red) VCC +3.3V
2 (blk) !IO_LED_SAFETY GND
3 (blk) SAFETY GND

RC Input

RC input is configured on the RCIN pin, at one end of the servo rail, marked PPM in the above diagram. This pin supports all RC protocols. In addition there is a dedicated Spektrum satellite port which supports software power control, allowing for binding of Spektrum satellite receivers.

PWM Output

The Pixhawk1 supports up to 14 PWM outputs. First first 8 outputs (labelled "MAIN") are controlled by a dedicated STM32F100 IO controller. These 8 outputs support all PWM output formats, but not DShot.

The remaining 6 outputs (labelled AUX1 to AUX6) are the "auxillary" outputs. These are directly attached to the STM32F427 and support all PWM protocols as well as DShot.

The 8 main PWM outputs are in 3 groups:

  • PWM 1 and 2 in group1
  • PWM 3 and 4 in group2
  • PWM 5, 6, 7 and 8 in group3

The 6 auxillary PWM outputs are in 2 groups:

  • PWM 1, 2, 3 and 4 in group1
  • PWM 5 and 6 in group2

Channels within the same group need to use the same output rate. If any channel in a group uses DShot then all channels in the group need to use DShot.

Battery Monitoring

The board has a dedicatd power monitor port on a 6 pin DF13 connector. The correct battery setting parameters are dependent on the type of power brick which is connected.

Compass

The Pixhawk1 has a LSM303D builtin SPI compass, but due to interference the board is usually used with an external I2C compass as part of a GPS/Compass combination.

GPIOs

The 6 auxillary PWM ports can be used as GPIOs (relays, buttons, RPM etc). To use them you need to limit the number of these pins that is used for PWM by setting the BRD_PWM_COUNT to a number less than 6. For example if you set BRD_PWM_COUNT to 4 then AUX5 and AUX6 will be available for use as GPIOs.

The numbering of the GPIOs for PIN variables in ArduPilot is:

  • AUX1 50
  • AUX2 51
  • AUX3 52
  • AUX4 53
  • AUX5 54
  • AUX6 55

Analog inputs

The Pixhawk1 has 6 analog inputs on the FMU, plus servo rail voltage and RSSI monitoring on the IO controller.

  • ADC Pin2 -> Battery Voltage
  • ADC Pin3 -> Battery Current Sensor
  • ADC Pin4 -> Vdd 5V supply sense
  • ADC Pin13 -> ADC 3.3V Port pin1
  • ADC Pin14 -> ADC 3.3V Port pin2
  • ADC Pin15 -> ADC 6.6V port
  • ADC Pin103 -> RSSI voltage monitoring

Loading Firmware

The board comes pre-installed with an ArduPilot compatible bootloader, allowing the loading of *.apj firmware files with any ArduPilot compatible ground station.