Almost exactly one year after the first PX4 announcement, we would like to introduce our newest member of the family, Pixhawk! For those familiar with the existing PX4 electronics, it is the all-in-one board combining PX4FMU + PX4IO, combined with a processor and sensor update and a number of new features. The current board revisions will however remain in full service and active development and are fully compatible. Pixhawk is designed for improved ease of use and reliability while offering unprecedented safety features compared to existing solutions.
Pixhawk is designed by the PX4 open hardware project and manufactured by 3D Robotics. It features the latest processor and sensor technology from ST Microelectronics which delivers incredible performance and reliability at low price points.
The flexible PX4 middleware running on the NuttX Real-Time Operating System brings multithreading and the convenience of a Unix / Linux like programming environment to the open source autopilot domain, while the custom PX4 driver layer ensures tight timing. These facilities and additional headroom on RAM and flash will allow Pixhawk the addition of completely new functionalities like programmatic scripting of autopilot operations.
The PX4 project offers its own complete flight control stack, and projects such as APM:Copter and APM:Plane have ported their software to run as flight control applications. This allows existing APM users to seamlessly transition to the new Pixhawk hardware and lowers the barriers to entry for new users to participate in the exciting world of autonomous vehicles.
The flagship Pixhawk module will be accompanied by new peripheral options, including a digital airspeed sensor, support for an external multi-color LED indicator and an external magnetometer. All peripherals are automatically detected and configured.
Features
32 bit ARM Cortex M4 Processor running NuttX RTOS
14 PWM / Servo outputs (8 with failsafe and manual override, 6 auxiliary,
high-power compatible)
Abundant connectivity options for additional peripherals (UART, I2C, CAN)
Integrated backup system for in-flight recovery and manual override with
dedicated processor and stand-alone power supply
Backup system integrates mixing, providing consistent autopilot and manual
override mixing modes
Redundant power supply inputs and automatic failover
External safety switch
Multicolor LED main visual indicator
High-power, multi-tone piezo audio indicator
microSD card for long-time high-rate logging
32bit STM32F427 Cortex M4 core with FPU
168 MHz
256 KB RAM
2 MB Flash
32 bit STM32F103 failsafe co-processor
ST Micro L3GD20H 16 bit gyroscope
ST Micro LSM303D 14 bit accelerometer / magnetometer
MEAS MS5611 barometer
5x UART (serial ports), one high-power capable, 2x with HW flow control
2xCAN
Spektrum DSM / DSM2 / DSM-X® Satellite compatible input
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 and Protection
Ideal diode controller with automatic failover
Servo rail high-power (up to 10V) and high-current ready (10A +)
All peripheral outputs over-current protected, all inputs ESD protected
- Monitoring of system and servo rails, over current status monitoring of peripherals
Dimensions
Weight: 38g (1.31oz)
Width: 50mm (1.96")
Thickness: 15.5mm (.613")
Length: 81.5mm (3.21")
Availability
This announcement is a service to our users and developers to allow them to plan their hardware roadmaps in time, and to show what we're currently working on. The board will not be immediately available, but 3D Robotics is taking pre-orders for Pixhawk now, and will begin shipping in late October [Update 11/11: the current expected ship date is late Nov]. The price is $199.99.
Comments
Renaud: You don't want to hard mount autopilots. Instead, they should be mounted on vibration-damping foam, which will be included.
would be nice if at last the casing could have 4 legs/ mounting holes to fix it on the airframe...
Joe: Pixhawk is design to be mounted on vibration-damping insulation (there are pads on the bottom and it will come with double-stick foam mounting squares). Design files will be posted before the product is shipped.
Compare this to Lisa/S, full professionally drawn Schematics months before it will be available to buy.
Ilya: yes, the standard Pixhawk kit will include the necessary cables, buzzer, switch/external LED, Power Module, etc.
The board is intended to be placed inside a copter with an external GPS/mag and arming button/LED. Those labels would not be seen during operation, but rather only during setup.
The pretty case is useless without mounting lugs IMHO, my future is not Moongel and cable ties.
Is the pretty impractical case just there so you don't show what is inside, only way to find out is to own one ?
Having just purchased PX4 and APM 2.5 AND GPS and not finding correct schematics for my now old GPS, I am NOT buying anything else from 3DR until 3DR take off their siege mentality tin foil hat and publish accurate schematics and all information BEFORE I commit to buy. 3DR attitude is very strange for an Open Source Software and Hardware project, I am being sarcastic, obviously this is not done in the full Open Source spirit.
Todd: Design files will be released along with the product, in October.
Jordi: Correct. Videos showing it in action will be posted along with more reveals over the next few weeks.
When will the open hardware designs be released (at https://github.com/PX4/Hardware or elsewhere)?
It seems the translucent window is for the RGB status LED.
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