20170713160730-4736

Betaflight BLHeli_32Bit 35A ESC, an ESC that supports DShot1200

Betaflight new member BLEeli_32 ESC has come, we call it Betaflight BLHeli_32 35A ESC.

This ESC is a collaboration between FPVMODEL, Betaflight, Airbot and BLHeli.

Features and Specifications

  • Built in Current Sensor
  • Voltage Rating: 2S-6S
  • Current Rating (burst): 35A (45A)
  • TX pin available for future Telemetry support (connect to FC and you would get current sensing, motor RPM, ESC temperature etc)
  • DShot1200 support
  • Programmable RGB LED
  • Weight: 4.6g

Components

Apart from the ESC, it also comes with several electrical wires, two 16AWG Silicon wires for power, three 20AWG wires for signal and one 26AWG red wire. All these wires are 10cm long.

ESC Dimension

  • Length: 37mm (including the signal tab), 34mm (excluding the signal tab)
  • Width: 16mm
  • Height (thickest part): 7mm

A new additional setting”LED Control” in BLHeliSuite GUI, it is made to configure the colour of the LED on the ESC.

 

At the moment, it’s not doing anything fancy, it’s simply just a On/Off indicator: when the ESC is being powered the LED turns on.

Wish you good performance with Betaflight BLHeli_32 35A ESC.

 

 

 

BLH

X-Racer Quadrant BLHeli_32 ESC:25A or 35A, what’s your choice?

Now in the quadcopter industry, BLHeli_32 has gain much attention.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.

Benefit from the Dshot 1200 and BLHeli_32 firmware,  several BLHeli_32 ESCs have earned more popularity.

Today we focus on the new X-Racer Quadrant 32Bit BLHeli_32 ESC. There are two categories: 25A and 35A. Both of them follow the design of previous 4-in-1 design of X-Racer Quadrant. It is not a single board, but four tiny ESCs can be installed separately on the arms, or installed together like a PCB under the flight controller.

X-Racer Quadrant 2-6S 32Bit BLHeli_32 ESCs:

  • With 25AMp constant RMS, 30A max.
  • Less than 3 grams each piece and about 11.5 grams for a set of 4 pieces.
  • Small in size: 18 x 24mm
  • Compatible to BetaflightF3 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.

The new X-Racer Quadrant 35A is also flashed with the latest BLHeli_32 program. Dshot up to at least Dshot1200, and at rates up to at least 32kHz is now supported.

  • Rated at 35A current with a max of 50 amps of current load (Less than 10s).
  • Small in size: 20 x 24mm
  • 3 grams each piece and about 12 grams for a set of 4 pieces.
  • Compatible to BetaflightF3 Flight Controller

Also these two ESCs have other common features:

  • Use the latest BLHeli_32 firmware.
  • Dshot up to at least Dshot1200.
  • At rates up to at least 32kHz is supported.
  • Four tiny ESCs can be installed separately on the arms, or installed together like a PCB under the flight controller.
  • 2-6s Lipo input.

 

11

What is BLHeli_32?

BLHeli_32 is a new firmware for 32 bit ESCs that has recently been announced by Steffen, the contributor for the original BLHeli and BLHeli_S projects.

Its worth noting that despite the fact it shares the name with its BLHeli counterparts, the code is in fact written from scratch and is closed source. This means the code will not be released to the community, similar to how the KISS ESC code is not released.

This firmware should bring significant improvements to ESC performance at the moment, compared to BLHeli_S. Here are a few of the advantages:

  • 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.
  • 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.
  • 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.
  • Programmable brake on stop force. Which allows control of the braking of fixed wing props.
  • Improved direction change in bidirectional mode.
  • More functionality coming 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.
  • Runs D-Shot 1200 straight out of the box (up to at least a rate of 32kHz supported)