FPV Model just released some information about its X-Racer Quadrant 2-6S 25A 32Bit BLHeli ESC. This new X-Racer Quadrant is the first 4-in-1 BLHeli_32 ESC in the world. If you are interested in the design, please check it out at https://www.fpvmodel.com/x-racer-quadrant-2-6s-25a-32bit-blheli-esc_g1287.html.
This 4-in-1 BLHeli_32 ESC is still under the final phase of production, FPV Model will officially release it by the end of May.
Features of New X-Racer Quadrant:
1. Uses the latest BLHeli_32 firmware.
2. Dshot up to at least Dshot1200.
3. At rates up to at least 32kHz is supported.
4. Four tiny ESCs can be installed separately on the arms, or installed together like a PCB under the flight controller.
5. 2-6s Lipo input.
6. With 25AMp constant RMS, 30A max.
7. Only 2.5 grams each piece and 10 grams for a set of 4 pieces.
The new X-Racer Quadrant 25A BLHeli_32 ESC has followed the design of previous 4-in-1 design of X-Racer Quadrant 25A 4-6S. It is not a single board, but four tiny ESCs can be installed separetely on the arms, or installed together like a PCB under the flight controller.
The new X-Racer Quadrant 25A is flashed with the latest BLHeli_32 program. Dshot up to at least Dshot1200, and at rates up to at least 32kHz is now supported.
BLHeli_32 is the 3rd generation of BLHeli firmware after BLHeli and BLHeli_S. BLHeli_32 runs on an ARM 32bit MCU, initially it will be on a Cortex-M0 running at 48MHz, but there are MCUs out there that can run a lot faster.
So what can the increased MCU speed do?
First of all, it can run input signals with lower latency at faster rates.
Dshot up to at least Dshot1200, and at rates up to at least 32kHz is now supported.
Secondly it allows packing of more functionality.
– Like programmable pwm frequency, up to 48kHz, that can run motors even smoother, and also allows for moving of small but potentially disturbing humps in the throttle response. All ESCs have these bumps, with BLHeli_32 they can now be moved in the rpm range, to a place where the system has low sensitivity to them.
– Like auto timing. Which is not the option to choose if you’re after max power. But if you want the most efficient running with very good robustness against desync, it is the perfect choice.
– Like voltage and current limiting. Which is implemented in the code, and will be supported on some ESCs. Voltage limiting is desirable for fixed wing crafts. And current limiting adds protection against ESC failure.
– Like programmable brake on stop force. Which allows control of the braking of fixed wing props.
– Like improved direction change in bidirectional mode.
– Like more to come in the future. Such as setup from the FC by using Dshot commands. Such as telemetry functionality. There is room to grow performance and functionality.