CUAV CAN PDB Carrier Board
CUAV CAN PDB Carrier Board is a new integrated flight controller CAN carrier board of CUAV, which combines the functions of the flight control carrier board and the power distribution board. When it is combined with CORE, it can provide automatic driving functions for UAVs/unmanned vehicles/unmanned ships and other equipment, and at the same time provide 10 redundant main power supplies, 5V/6A and 12V/4A power output.
Whether it is circuit design or hardware work materials, CAN PDB is the leader in flight controller carrier boards and power distribution boards. Thanks to the ultra-thick copper and thick tinned PCB, it can provide up to 180A of continuous working current for any device. The self-developed TTI algorithm achieves 0.1A current and 0.05V voltage measurement accuracy comparable to precision instruments.
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Main Functions of CUAV Carrier Board
- Support 10~62V ultra-wide voltage input
- Continuous current: 180A
- Accurately measure voltage and current, current accuracy within 110A is 0.1A, voltage accuracy is 0.05V
- 14 servo channel output
- Dual regulated output interface: It can provide up to 5V/6A, 12V/4A power output for peripherals
- Ultra-thick copper and thick tin-plated PCB can effectively reduce the heating caused by the internal resistance of the circuit under high current
- Power indicator LED, visually indicating Lipo voltage status
- Ultra low pressure drop 10 main power output
- Future upgrades support more functions such as high-precision power consumption statistics and transient power consumption push
PDB Carrier Board Advantages
- Excellent heat dissipation and current-carrying capacity: The ultra-thick copper layer PCB brings excellent current-carrying capacity, and the windowing tin plating reduces internal resistance and improves hear dissipation capacity.
- 78W UBEC regulated output: Generally, the UBEC of the distribution board only has a regulated output of 1-2A, and the CAN PDB can provide a regulated output of up to 5V/6A and 12V/4A
Hardware Parameters | |
Processor | STM32F412 100Mhz 512K Flash 256K RAM |
Input voltage | 10-60(3-15S Lipo) |
Current measurement range | 0-110A |
Maximum current range | 0-180A |
5V output | max 6A,stagle 6A |
12V output | max 4A,stable 3.5A |
Servo | 14 |
Receiver Protocol | SBUS/PWM/DSM |
CORE support | V5+ X7 X7+ X7 Pro CORE |
Support Model | Copter/Plane/Helicopter/VTOL/unmanned vehicle/Rover, etc. |
Firmware | ArduPilot 4.0.0 or above Px4 1.11.0 or above |
Screw hole | CORE for M2.5, other for M3 |
Work Temperature | 20~+100°C |
Main interface | |
USB | 1 (type-c) |
UART | 5(Include gps/uart4/telem1/telem2/debug) |
CAN bus | 2 |
I2C bus | 3 |
SBUS/DSM IN | 1(dupont connector) |
PPM_IN | 1 |
PWM OUT | 14(Dupont connector) |
ADC3.3 | 1 |
ADC6.6 | 1 |
SBUS OUT | 1(useless when install X7/X7 pro/X7+ core) |
RSSI | 3.3V analog voltage |
DSU7 | 1 |
Size & Weight | |
Size | 12cm(L)×10cm(W)×1.2cm(H) |
Weight | 163g(include cable) |
Cable Length | 30cm(not include connector) |
Screw hole | CORE for M2.5, other for M3 |
For installation and configuration, you can visit CUAV CAN PDB Board Manual
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