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Description

BLDC motor controller compatible with 3S systems. Will initially be standalone, connecting to 12V -> 5V @ 4A Buck Converter + ELRS Board externally and then later physically integrated into another board revision for an all-in-one fixed wing solution.

Depending on the cost and performance of the board, it may be integrated elsewhere. Design target parameters are also being pulled from Houston spec in Houston: Configuration.

Electrical Designer: Kenny Na (WARG EE F24 Co-op)

Requirements

  • Powered by a 3S (12V) battery input.

    • In the context of integrating with the ELRS board, an XT60 connector should be provided, and additional PWM input from a header pin should be placed (unsure of this requirement given we want to use DSHOT).

    • 3x solder pads for BLDC connection.

    • Supports DSHOT input.

      • More resistant to noise in transmission versus PWM, as DSHOT is a digital protocol.

    • An “OPTO” ESC, meaning no BEC is included.

  • Must use the AM32 open-source firmware for motor control. (https://am32.ca)

    • This uses a sinusoidal algorithm to control the BLDC. (no FOC)

    • Has a strict MCU compatibility list (we would preferably use a smaller ST chip)

    • Sensorless operation using back EMF. No Hall sensing or current sense

  • Designed around an target motor (in Houston): https://innov8tivedesigns.com/cobra-cm-2217-20-brushless-motor-kv-950.html

    • Standard 3-phase brushless DC motor with 12 stator windings and 14 exterior magnet poles, meaning 4 coil windings per phase. Designed for 3S/4S power source.

      • With a higher density of magnet poles in the rotor, smoother torque is able to be produced by the motor. The rotor being on the outside gives more torque as well.

    • Maximum continuous current of 20 Amps.

      • Should be accounted for during FET selection.

Components

Microcontroller Selection

Compatibility with AM32

AM32 provides a list of supported microcontrollers in their GitHub repository’s README file. Additionally, there is an MCU “target compatibility list” that can be found inside of the code. These were used to guide the selection of an appropriate MCU.

image-20241115-012953.pngimage-20241115-013153.png

Comparison Table

Microcontroller

Option 1

Option 2

Option 3

Name

STSPIN32F0

STM32L431

STM32F051

Price/unit

$4.34

$5.20

$5.59

Pros

Integrated MCU with STM32F031, DC-DC, LDO, and gate driver for BLDC applications. Capable of FOC and Hall sensor feedback.

Price can’t really be compared to other options.

Physical size of ESC would be more compact since gate driver is integrated.

Existing design part of WARG, cheaper option

Used in previous ESC design from WARG, rated as “overkill” by others

Cons

FET Selection

Main things to keep in consideration are the 20A max continuous current requirement, and any peak/transient current draw requirements from the motor.

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