# mRo Pixhawk Flight Controller (Pixhawk 1) ::: warning PX4 does not manufacture this (or any) autopilot. Contact the [manufacturer](https://store.mrobotics.io/) for hardware support or compliance issues. ::: The _mRo Pixhawk®_ is a hardware compatible version of the original [Pixhawk 1](../flight_controller/pixhawk.md). It runs PX4 on the [NuttX](https://nuttx.apache.org/) OS. ::: tip The controller can be used as a drop-in replacement for the 3DR® [Pixhawk 1](../flight_controller/pixhawk.md). The main difference is that it is based on the [Pixhawk-project](https://pixhawk.org/) **FMUv3** open hardware design, which corrects a bug that limited the original Pixhawk 1 to 1MB of flash. ::: ![mRo Pixhawk Image](../../assets/flight_controller/mro/mro_pixhawk.jpg) Assembly/setup instructions for use with PX4 are provided here: [Pixhawk Wiring Quickstart](../assembly/quick_start_pixhawk.md) ::: tip This autopilot is [supported](../flight_controller/autopilot_pixhawk_standard.md) by the PX4 maintenance and test teams. ::: ## Key Features - Microprocessor: - 32-bit STM32F427 Cortex® M4 core with FPU - 168 MHz/256 KB RAM/2 MB Flash - 32 bit STM32F100 failsafe co-processor - 24 MHz/8 KB RAM/64 KB Flash - Sensors: - ST Micro L3GD20 3-axis 16-bit gyroscope - ST Micro LSM303D 3-axis 14-bit accelerometer / magnetometer - Invensense® MPU 6000 3-axis accelerometer/gyroscope - MEAS MS5611 barometer - Interfaces: - 5x UART (serial ports), one high-power capable, 2x with HW flow control - 2x CAN - Spektrum DSM / DSM2 / DSM-X® Satellite compatible input up to DX8 (DX9 and above not supported) - Futaba® S.BUS compatible input and output - PPM sum signal - RSSI (PWM or voltage) input - I2C - SPI - 3.3 and 6.6V ADC inputs - External microUSB port - Power System: - Ideal diode controller with automatic failover - Servo rail high-power (7 V) and high-current ready - All peripheral outputs over-current protected, all inputs ESD protected - Weight and Dimensions: - Weight: 38g (1.31oz) - Width: 50mm (1.96") - Thickness: 15.5mm (.613") - Length: 81.5mm (3.21") ## Availability - [Bare Bones](https://store.mrobotics.io/Genuine-PixHawk-1-Barebones-p/mro-pixhawk1-bb-mr.htm) - Just the board (useful as a 3DR Pixhawk replacement) - [mRo Pixhawk 2.4.6 Essential Kit!](https://store.mrobotics.io/Genuine-PixHawk-Flight-Controller-p/mro-pixhawk1-minkit-mr.htm) - Everything except for telemetry radios - [mRo Pixhawk 2.4.6 Cool Kit! (Limited edition)](https://store.mrobotics.io/product-p/mro-pixhawk1-fullkit-mr.htm) - Everything you need including telemetry radios ## Building Firmware ::: tip Most users will not need to build this firmware! It is pre-built and automatically installed by _QGroundControl_ when appropriate hardware is connected. ::: To [build PX4](../dev_setup/building_px4.md) for this target: ```sh make px4_fmu-v3_default ``` ## Debug Ports See [3DR Pixhawk 1 > Debug Ports](../flight_controller/pixhawk.md#debug-ports) ## Pinouts See [3DR Pixhawk 1 > Pinouts](../flight_controller/pixhawk.md#pinouts) ## Serial Port Mapping | UART | Device | Port | | ------ | ---------- | --------------------- | | UART1 | /dev/ttyS0 | IO debug | | USART2 | /dev/ttyS1 | TELEM1 (flow control) | | USART3 | /dev/ttyS2 | TELEM2 (flow control) | | UART4 | | | UART7 | CONSOLE | | UART8 | SERIAL4 | ## Schematics The board is based on the [Pixhawk-project](https://pixhawk.org/) **FMUv3** open hardware design. - [FMUv3 schematic](https://github.com/pixhawk/Hardware/raw/master/FMUv3_REV_D/Schematic%20Print/Schematic%20Prints.PDF) -- Schematic and layout ::: info As a CC-BY-SA 3.0 licensed Open Hardware design, all schematics and design files are [available](https://github.com/pixhawk/Hardware). :::