Project Description

BLDC Motor Driver

NSPBLDS4810 brushless DC motor driver is the latest high-tech product of our company for medium-power brushless motor. This product uses a large-scale integrated circuit to replace the original hardware design, with higher anti-interference and fast response. This product is suitable for driving any three-phase brushless DC motor, Hall or no Hall sensor, with peak current below 10A and power supply voltage between DC10V~50V. This driver features low temperature operation at high current. The products are used in a series of electrical automation control fields such as knitting equipment, medical equipment, food packaging machinery and electric power tools.


Current loop design, high torque at low speed, smooth operation

High torque high speed output, the maximum speed reaches 10000rpm/min(depend on speed of motor)

Speed control: 0-5V analog , PWM(10Hz-500Hz)

With signal input terminals EN (start/stop), DIR (direction)

With protection function of over current, over voltage, under voltage and motor block

This product can achieve the following functions

Speed open loop operation with hall sensor

Speed close loop operation with hall sensor

Speed open loop operation without hall sensor

Speed close loop operation without hall sensor

The above functions can be set directly on the drive panel.(Hall or without hall can be identified automatically)

Electrical Performance

(Ambient Tj=25℃)

Power supply DC10V~50V
Rated current ≤10A
Rated power Max 480W
Insulation resistance ﹥500MΩ  at normal temperature
Insulation strength 0.5KV, 1min at normal temperatures and pressures

Working Environment

Cooling natural cooling or forced air cooling
Working environment Situation  avoid dust, oil mist and corrosive gases
Temperature 0℃~+50℃
Humidity ﹤80%RH, no condensation, no frost
vibration ﹤0.5G(4.9m/s2 )10Hz-60Hz, non-continuous operation
Storage temperature -20℃~+65℃
Size 96*57*24mm
Weight ≈0.3Kg
[Note] Due to the drastic changes in the temperature of the storage and transportation environment, condensation or frosting is likely to occur. The driver only can be powered on when the temperature of the driver is consistent with the ambient temperature after being placed in this environment for more than 12 hours.

Instructions for the terminal

Function  Mark  Description
 Control +5V power supply positive(Built-in power output)
VSP External speed control signal, 0-100% of the motor speed adjustment through external potentiometer to change VSP voltage, 0~5V
FG Motor speed pulse output, motor actual speed can be converted by measuring the frequency of this signal
DIR Motor CW/ CCW rotation control ,CCW when connect DIR to GND,CW when not connect DIR to GND
EN Motor enable control, EN is connected to GND, allowing the drive to run; EN is not connected,prohibiting the drive from running.
GND Control signal power ground
Hall +5V  Hall power supply positive
HA  Hall sensor signal A phase input
HB  Hall sensor signal B phase input
HC  Hall sensor signal C phase input
GND  HALL power ground
Motor and power U、V、W motor three-phase output signals
GND、V+  DC10V~50V power supply input


Speed control mode (VSP) 1. Connect with external potentiometer to adjust speed: connect the two fixed ends of the external potentiometer (5K~10K) to the GND and +5V terminals of the driver respectively. By connecting regulating terminal to the VSP terminal. The speed can be controlled by external potentiometer, or inputting analog voltage to VSP terminal through other control units (such as PLC, MCU, etc.). The voltage range of the VSP port is DC 0V~+ 5V, corresponding to the speed of motor from 0 to max speed.
2. Input PWM signal to adjust speed: connect PWM signal positive terminal to VSP terminal and negative terminal to GND. By setting the +5V PWM signal with the frequency of 10Hz-500Hz, through PWM duty cycle change to achieve speed adjustment.
Speed signal output(FG)


The drive provides speed pulse signal of motor which is proportional to motor speed.

Speed calculation method: motor speed (RPM) = F÷N×60

F = Actual frequency measured on the FG pin with the frequency meter

N = motor poles pair (2 pairs pole motor N=2; 4 pairs pole motor N=4)

For example, if the user selects a 4pairs poles motor, when the output FG signal is 200 Hz, motor speed = 200 ÷ 4 × 60 = 3000 rpm.


CW/ CCW rotation


By controlling the high and low level transitions of DIR terminal to control rotation of the motor.

Note: In order to avoid huge impact to motor and mechanical equipment when motor changes direction suddenly at high speed, the drive decelerate the motor until it stops when DIR terminal receives commutation signal, then the motor changes direction and accelerates to the set speed.




By controlling the high and low level transitions of EN terminal to control RUN/STOP of the motor. Motor runs normally when EN is in low level and stops when in high. When the start/stop is used to control the motor to stop, the motor stops naturally. Its motion law is related to load inertia. Factory setting is EN for allowed operation.

 Detailed error codes table

Indicator light Description Note
1 stop one time when flickering twice Under  voltage Fault
2 stop one time when flickering three times Over voltage Fault
3 stop one time when flickering four times Over current Fault
4 stop one time when flickering five times Block rotation fault The motor is not running or the motor wire is not connected
5 stop one time when flickering six times short circuit fault Motor coil open circuit or motor wire open circuit

Wiring diagram