• Open Source Flight Controller Fmuv5x New F7 Drone Development Board (With M9N GPS) For Pixhawk 5X
  • Open Source Flight Controller Fmuv5x New F7 Drone Development Board (With M9N GPS) For Pixhawk 5X
  • Open Source Flight Controller Fmuv5x New F7 Drone Development Board (With M9N GPS) For Pixhawk 5X

Open Source Flight Controller Fmuv5x New F7 Drone Development Board (With M9N GPS) For Pixhawk 5X

Availability: Out Of Stock

  • Price:$403.26
  • Price in reward points: 4033 Reward Points: 40
  • Quantity 3+ units 10+ units 30+ units 50+ units More
    Price /Unit $395.19 $387.13 $375.03 $358.90 Contact US
Quantity:

Open Source Flight Controller Fmuv5x New F7 Drone Development Board (With M9N GPS) For Pixhawk 5X

Description:

It is the latest update to the successful family of flight controllers for Pixhawk, based on the FMUv5X Open Standard and the Bus Standard for Pixhawk Autopilot. It comes with the latest PX4 for Autopilot pre-installed, triple redundancy, temperature-controlled, isolated sensor domain, delivering incredible performance and reliability.

Inside it, you can find a STM32F7, paired with sensor technology for Bosch and InvenSense, giving you flexibility and reliability for controlling any autonomous vehicle, suitable for both academic and commercial applications. The 5X's F7 microcontroller has 2MB flash memory and 512KB RAM. The PX4 for Autopilot takes advantage of the increased power and RAM. Thanks to the updated processing power, developers can be more productive and efficient with their development work, allowing for complex algorithms and models.

The FMUv5X open standard includes high-performance, low-noise IMUs on board, designed for better stabilization. Triple redundant IMU & double redundant barometer on separate buses. When the PX4 for Autopilot detects a sensor failure, the system seamlessly switches to another to maintain flight control reliability.

An independent LDO powers every sensor set with independent power control. A newly designed vibration isolations to filter out high-frequency vibration and reduce noise to ensure accurate readings, allowing vehicles to reach better overall flight performances. External sensor bus (SPI5) has two chip select lines and data-ready signals for additional sensors and payload with SPI-interface, and with an integrated Ethernet PHY (LAN8742AI-CZ-TR) for Microchip, high-speed communication with mission computers via ethernet is now supported. Support for INA226 SMBus Power module.

It is perfect for developers at corporate research labs, startups, academics (research, professors, students), and commercial application.

Key Design Points:
- Modular flight controller: separated IMU, FMU, and Base system connected by a 100-pin & a 50-pin for Pixhawk Autopilot Bus connector, designed for flexible and customizable systems
- Redundancy: 3x IMU sensors & 2x Barometer sensors on separate buses, allowing parallel and continuous operation even in the event of a hardware failure
- Triple redundancy domains: Completely isolated sensor domains with separate buses and separate power control
- Newly designed vibration isolation system to filter out high frequency vibration and reduce noise to ensure accurate readings
- Ethernet interface for high-speed mission computer integration
- Automated sensor calibration eliminating varying signals and temperature
- IMUs are temperature-controlled by onboard heating resistors, allowing optimum working temperature of IMUs
- Additional GPIO line and 5V for the external NFC reader
- Secure element for secure authentication of the drone (SE050)

Technical Specifications:
- FMU Processor: STM32F765. 32 Bit for Arm Cortex-M7, 216MHz, 2MB memory, 512KB RAM
- IO Processor: STM32F100. 32 Bit for Arm Cortex-M3, 24MHz, 8KB SRAM
- On-board sensors: Accel/Gyro: ICM-20649; Accel/Gyro: ICM-42688P; Accel/Gyro: ICM-20602; Mag: BMM150; Barometer: 2x BMP388

Electrical Data:
- Max input voltage: 6V
- USB Power Input: 4.75~5.25V
- Servo Rail Input: 0~36V

Mechanical Data:
- Dimensions: Flight Controller Module: 38.8 x 31.8 x 14.6mm/1.5 x 1.3 x 0.6"; Standard Baseboard: 52.4 x 103.4 x 16.7mm/2.1 x 4.1 x 0.7"
- Weights: Flight Controller Module: 23g/0.05 lb; Standard Baseboard: 51g/0.1 lb

Interfaces:
- 16-PWM servo outputs
- R/C input for Spektrum/DSM
- Dedicated R/C input for PPM and S.Bus input
- Dedicated analog/PWM RSSI input and S.Bus output
- 4 general purpose serial ports. 3 with full flow control; 1 with separate 1A current limit; 1 with I2C and additional GPIO line for external NFC reader
- 2 GPS ports. 1 full GPS plus Safety Switch Port; 1 basic GPS port
- 1 I2C port
- 1 Ethernet port. Transformerless Applications; 100Mbps
- 1 SPI bus. 2 chip select lines; 2 data-ready lines; 1 SPI SYNC line; 1 SPI reset line
- 2 CAN Buses for CAN peripheral. CAN Bus has individual silent controls or ESC RX-MUX control
- 2 Power input ports with SMBus
- 1 AD & IO port. 2 additional analog input; 1 PWM/Capture input; 2 Dedicated debug and GPIO lines

Package Included:
- 1 x Flight Controller Module
- 1 x Standard Baseboard
- 1 x Power Distribution Board
- 1 x PM02D Power Module
- 1 x Cable Set
- 1 x M9N GPS

Write a review

Note: We will keep it confidential.
Note: HTML is not translated!
 
Captcha