ZS-X11H DC Brushless Motor Drive Module- 400W 9/60V
The 400W DC Brushless Motor Drive Module with Hall Effect is designed for high-performance, three-phase brushless motors. It supports a wide voltage range of 9-60V and offers robust control features, including support for PLC 0-5V analog control and PWM control. Ideal for a variety of industrial and DIY applications, this module ensures stable performance with overcurrent protection and the ability to handle high power. With an integrated potentiometer for speed control and a standard heat sink for effective cooling, this module is user-friendly and easy to install.
Specifications of DC Brushless Motor Drive Module - 400W 9/60V
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Product Name: 400W Brushless DC Motor Driver with Hall Effect
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Model: ZS-X11H
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Working Voltage: 9-60V
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Maximum Current: Rated 16A, Peak 20A
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Maximum Power: 400W
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Overcurrent Protection: Yes
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Product Size: 63x45x31mm
How to Use
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Interface Connections:
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Connect the MA MB MC phase line outputs to the motor.
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Use the 5V GND terminal for the motherboard's 5V power supply.
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Connect the VCC GND to the main DC power supply.
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For direction control, connect the direction control interface to the forward/reverse control signal.
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Use the speed control input for adjusting speed via an external 0-5V analog signal or onboard potentiometer.
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Connect the Ha Hb Hc +5V GND for Hall signal input, ensuring correct polarity.
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Special Instructions:
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For PWM signal input, remove the jumper cap and set the PWM signal to 0 momentarily for stability.
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When using analog input, the onboard potentiometer can adjust the speed.
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Forward/reverse rotation and brake are controlled via a high-level signal.
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Debugging:
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Ensure proper connections of the motor’s phase lines and Hall signals.
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If unsure, test with low voltage (7-12V) and low current (1-2A) and adjust Hall signal wires until the motor operates smoothly.
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Precautions
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No Fuse: Install a fuse in the power supply circuit as the module does not include one.
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Power Polarity: Reverse connection of power supply poles can cause irreversible damage to the board.
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Overcurrent Protection: The module has overcurrent protection, but avoid artificial short-circuits to prevent damage.
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Matching: Ensure the motor’s voltage, current, and power ratings are compatible with the drive module to avoid damage.