The 10kW BLDC motor controller for electric vehicles is ideal for applications like electric yachts, motorcycles, ATVs, and golf carts. It supports various motor sensors (Hall, photoelectric, magnetic encoders) and communication protocols (CAN-BUS, RS485, UART). With an IP66 rating, it is built for durability in outdoor and marine environments, featuring a DC contactor control circuit and thermal protection for safe, efficient operation.
Specification
| Model |
BLDC-EZ-B481000 |
BLDC-EZ-B72800 |
| Rated Voltage |
48V |
72V |
| Rated Power |
10kW |
10kW |
| Max Voltage |
75V |
95V |
| Max Phase Current |
1000A |
800A |
| Rated Phase Current |
400A |
320A |
| Max Bus Current |
500A |
300A |
| Weight |
4.2 kg |
3.5 kg |
Features
- 10 kW BLDC electric car motor controller has built-in Bluetooth, which can monitor the status of the controller in real-time with the host software.
- 48V and 72V motor controllers support communication protocols: CAN-BUS, RS485, UART, etc.
- Electric car motor controller has the support of automatic motor matching.
- Electric car motor controller is compatible with various motor sensors: Hall, photoelectric encoder, magnetic encoder, etc.
- Precise bus current control to protect controller battery life from over-discharge.
- Motor controller torque, speed, and power can be set individually.
- Integrated DC contactor control circuits, and other modes are also available.
Wiring Diagram with DC Contactor
Wiring Diagram without DC Contactor
Dimension (Unit: mm)
Applications
10 kW electric vehicle motor controllers are suitable for cars, motorcycles, golf carts, ATVs, UTVs and yachts.
Q: What is a BLDC controller for electric vehicle?
A: A BLDC controller for an electric vehicle is an electronic device that manages the operation of the BLDC (Brushless DC) motor. It controls the motor's speed, torque, and direction by regulating the power supplied to the motor’s windings. The controller handles the electronic commutation of the motor, ensuring smooth operation without the need for brushes. It also optimizes energy efficiency by managing the flow of power from the battery to the motor and supports regenerative braking to recover energy during deceleration. Additionally, the BLDC controller monitors safety parameters like temperature, voltage, and current to protect the system from potential faults. In short, it ensures that the motor operates smoothly, efficiently, and safely within the vehicle.
