Official Pixhawk® 4 Mini with GPS
Latest official Pixhawk design.
Full featured FMUv5 F7 flight controller: dual IMU, 5 UARTs, 11 PWM, 2x I2C ports, 3x SPI buses, 1 CAN.
Faster MCU: 216MHz Cortex®-M7 (Pixhawk 3 was 180MHz, Pixhawk 2.1 was 168 MHz), fully addressable 2MB memory and 512KB RAM.
Excellent build quality: aluminum enclosure, Dronecode connectors and pinout, and top quality components (no need to wait for IMU heating)
The Pixhawk® 4 Mini is the latest official autopilot in the Pixhawk® family. It is an F7 generation flight controller compliant with the Dronecode PX4 FMUv5 reference flight controller Design, meaning the Pixhawk® 4 Mini features Dronecode compliant pinout connectors and power supply design, making it safe to use with Dronecode standard hardware sold by reputable drone equipment manufacturers.
Tom’s take: “It’s an official release hardware in the Pixhawk family, that follows Dronecode standards. It provides the reliability and performance you expect for your unmanned vehicle. With the aluminum case, this thing looks and feels amazing. This is the new flagship ArduPilot compatible autopilot from Holybro you will want for 2019.”
Craft and Theory is focused on quality hardware that is compatible with ArduPilot and works from the start. We try our best to accompany you in your build (via our forum, by email or phone) and can assure you that you will save a lot of time and frustration when you buy our products for your ArduPilot powered vehicle. We’re engineers with a passion for drones and all things autonomous.
Pixhawk® 4 Mini
Designed by Holybro, quality drone electronics manufacturer, in partnership the makers of the original Pixhawk®, now Auterion. The Pixhawk® 4 Mini is an aluminum clad full featured flight controller that is the latest iteration in the Pixhawk family. It is compact and rugged, yet very pleasant to the eye. It uses high quality electronic components and connectors including the core interfaces used in modern unmanned vehicles. It is fully supported by ArduPilot
Holybro is a registered trademark of Holybro, registered in the U.S. and other countries.
Pixhawk and its logo are registered trademarks of Lorenz Meier. Used under license.
This is why you will want to upgrade to the Pixhawk® 4 Mini:
STM32F765, 32 Bit Arm® Cortex®-M7, 216MHz, 2MB memory, 512KB RAM. More processing power and memory for smoother flights and more room for new firmware functions.
A REALLY GREAT design with an aluminum case and three LEDs that make it one of the best looking drone flight controller on the market today.
The latest on-board sensor technology from Bosch® and InvenSense® that provide low noise and high precision such that no IMU heating is required. ArduPilot makes full use of the multiple sensors for redundancy and improved accuracy.
- Accel/Gyro: ICM-20689
- Accel/Gyro: BMI055
- Magnetometer: IST8310
- Barometer: MS561
Features standard servo connectors for easy connections to commercial ESCs.
ArduPilot on Pixhawk® 4 mini Benefits
- ChibiOS real-time operating system
- DShot1200 protocol available for the fastest ESC response
- ESC telemetry enabling motor feedback, current and ESC temperature monitoring
- Ardupilot’s advanced pin control code allows:
- 11 PWM outputs instead of 8 PWM
- Native SBUS input on “PPM” pin
- Port labeled “RCIN” can be used as an extra standard serial port
Tridge, one of the ArduPilot project leaders, said on a recent Ardupilot partner call that he recommends the Pixhawk® 4 Mini as one of the quality autopilots available now and that it should make any user happy. This is one of the most recent Chibios hardware ports that Tridge has worked on and he said he was excited to see it released.
Main FMU Processor
- STM32F765,32 Bit Arm® Cortex®-M7, 216MHz, 2MB memory, 512KB RAM
Yes, this is an F7!
The board comes pre-installed with an ArduPilot compatible bootloader, allowing the loading of *.apj firmware files with any ArduPilot compatible ground station.
- Power Brick Input: 7~42V (up to 10S LiPo）
- Power Brick Output: 4.75~5.5V, Max 3A
- Backup power input through JST-GH 4 pin usb port
- Integrated voltage & current sensor for flight controller
- PCB Maximum Continuous Current:120A
- Max current sensing: 120A
- Servo Rail Input: 0~24V,
Holybro GPS (optional)
- Ublox Neo-M8N GPS/GLONASS receiver;
- Integrated IST8310 magnetometer
- MicroSD card slot
- 11 PWM outputs (ArduPilot allows 3 Capture pins to be used as PWM outputs)
- All PWM outputs can also be used as GPIOs (relays, buttons, RPM etc)
- 4 dedicated PWM/Capture inputs on FMU
- RC input configured on the port marked “PPM.” This connector supports all RC protocols (including SBUS, DSM, ST24, SRXL and PPM).
- Dedicated R/C input for Spektrum / DSM and S.Bus with analog / PWM RSSI input
- 5 UARTs + 1 USB
- Includes 4 general purpose serial ports with JST-GH connectors with Dronecode pinout. ArduPilot allows the “RCIN” port to be used a serial port. A serial port is available inside the case.
- SERIAL0 -> USB
- SERIAL1 -> UART2 (Telem1)
- SERIAL2 -> UART4 (Telem2)
- SERIAL3 -> UART1 (GPS)
- SERIAL4 -> UART6 (RCIN port)
- SERIAL5 -> UART7 (debug, but available as a general purpose UART with ArduPilot)
- 2x I2C ports
- 3x SPI buses
- 1x CANBus port
The Pixhawk4-Mini has 4 analog inputs
- ADC Pin0 -> Battery Voltage
- ADC Pin1 -> Battery Current Sensor
- ADC Pin10 -> ADC 5V Sense
- ADC Pin11 -> ADC 3.3V Sense
-40 ~ 85°c
Power Management Board
PCB Current: 120A continuous
UBEC Current: 3A Max
Power input: DC 7V~42V(2S~10S)
Power output: DC 5.1V~5.3V
Mounting hole: 30.5mm*30.5mm
The Power Management Board (PMB) serves the purpose of a power module as well as a
power distribution board. In addition to providing regulated power to Pixhawk 4 Mini and
the ESCs, it sends information to the autopilot about the battery’s voltage and current draw.
To power the Pixhawk 4 Mini, connect the output of the PMB to the POWER port of the
Pixhawk 4 Mini using a 6-wire cable. The connections of the PMB, including power
supply and signal connections to the ESCs and servos, are explained in the image and
Only one ESC and one servo are illustrated. For multiple ESCs and servos, repeat the pattern on the other MAIN OUT pins.