The BLDC motor controller is equipped with an intelligent microprocessor, and it enables smooth and precise motor control, offering compatibility with 60° or 120° Hall position sensors and any pole count. Ideal for electric motorcycles, scooters, and other vehicles, this controller supports high-torque motors and delivers efficient, reliable performance with speeds up to 40,000 RPM, ensuring optimal operation across a range of demanding applications.
Specification
| Model |
BLDC-KBL/BLDC-KEB |
| Matching BLDC Motor Model |
BLDC-600R1 (600W BLDC Motor)
BLDC-750R3 (750W BLDC Motor)
BLDC-1000R1 (1 kW BLDC Motor)
BLDC-2300R3 (2.3 kW BLDC Motor)
BLDC-3000R3 (3 kW BLDC Motor)
BLDC-3800R3 (3.8 kW BLDC Motor)
BLDC-5000R3 (5 kW BLDC Motor)
BLDC-10KR2 (10 kW BLDC Motor) |
| Size |
200*146*62 mm |
| Weight |
For 400W to 750W motor: 2 kg
For 1kW to 3kW motor: 2.5-4 kg
For 4kW to 6kW motor: 5-7 kg
For 7kW to 9kW motor: 8-10 kg
For 10kW to 12W motor: 11-13 kg
For 13kW to 15kW motor: 14-17 kg |
| Frequency of Operation |
16.6kHz |
| Standby Current |
<0.5mA |
| 5V Sensor Supply Current |
40mA |
| Controller supply voltage range |
PWR, 18V to 120V |
| Supply Current |
PWR, 150mA |
| Controller Rated Current |
1.5-2 times the rated current of the motor |
| With CAN bus function (Optional) |
Yes, the controller supports CAN function, which provides communication based on CAN 2.0B extended frame and SAE J1939 protocol standard for vehicles. It can be used in vehicles, ships, AGVs and other equipment to exchange data with ECU and get speed and RPM feedback via CAN bus.
CAN bus communication rate: 250K
Download CAN Protocal |
| Analog Brake and Throttle Input |
0-5 Volts. Producing 0-5V signal with 3-wire pot. |
| Full Power Operating Temperature Range |
0℃ to 50℃ |
| Operating Temperature Range |
-30℃ to 90℃ |
| Protection Grade |
IP65 |
| Peak Phase Current, 10 seconds |
50-120A (according to the model) |
| Continuous Phase Current Limit |
5-50A (according to the model) |
| Maximum Battery Current |
Configurable |
| Basic Functions |
- Fault detection and protection. It can identify faults via LED twinkling code.
- Battery voltage real-time monitoring. It will stop work when battery voltage is too high or too low.
- Built in current detection and over current protection.
- The controller is equipped with temperature measurement and protection functions. At low and high temperatures, the current is cut to protect the controller and the battery.
- Support 5V sensor power supply.
- 3 switch inputs. Connect to GND for valid signal. The default is the pedal safety switch input (to be configured via the customer software), the brake switch input and the reversing switch input.
- The Boost switch can be configured. The controller will output the maximum current, when the switch is turned on.
- The Economy switch can be configured. Limiting the maximum drive current to the controller is half the normal case, when the switch is turned on.
- 12V brake signal input can be configured.
- 3-phase Hall position sensor input, open collector output and the controller provides pull-up resistor.
|
Note: Power, voltage, speed, shaft, motor length, and motor lead of BLDC motors can be customized.
Features
- Specifically designed for electric motorcycles, scooters, and similar vehicles.
- Powered by a high-performance and intelligent microprocessor.
- Incorporates high-speed, low-loss synchronous rectification PWM modulation.
- Offers precise current limiting and torque control for smooth operation.
- Provides higher starting current for faster acceleration and quicker startup.
- Includes battery protection with low voltage alerts and current attenuation to prevent damage.
- Features over-temperature protection that automatically reduces current to protect the system.
Dimension (Unit: mm)
Q: Does the controller offer any safety features?
A: Yes, the BLDC motor controller comes with built-in safety features to ensure reliable operation. It includes overcurrent protection and thermal protection to prevent overheating and damage from excessive current. These safety mechanisms help maintain the controller's performance and protect both the motor and system components during operation, ensuring long-lasting reliability.
