Share on:
1. Closed Loop control, constant torque output
2. Input voltage range: AC180V ~ 250V
3. Photoelectric isolation of input and output signals
4. Electrical stop to ensure the quickly action of motor
5. Install protection, fast response, high control accuary
6. start with strong torque, do not slow down while loading, power compesation,
7. Over load radio larger then 2times, torque always can achieve the max in low speed
8. Provide over-voltage protection, lost-voltage protection, over-current protection, over-temperature protection, illegal hall signal and other fault alarm
9. CE certification: EMC+LVD
Function
1. Three speed adjustment mathods Analog voltage speed adjustment , external digital signal speed adjustment and communication order controlling adjustment
2. Motor operate/stop control (EN) by terminal
3. Motor rotation direction control ( F/R ) by terminal
4. Break the motor to stop ( BK )
5. Speed signal output (PG)
6. Alarm output (ALM)
Parameter
DBLS-09 220V 1500W high voltage LED display BLDC motor driver for industrial
characteristics | symbol | Value | Unit |
Rated Voltage | U | 220 | VDC |
Under Voltage | U | 180 | VDC |
Over Voltage | U | 250 | VDC |
Continuous Current | Idauer | 8 | A |
Peak Current | Imax | 15 | A |
Variable Speed Range |
| 0~80000 | RPM |
Efficiency |
| 90 | % |
Power for hall sensor | VCC | 5.0 | VDC |
Alarm |
| I-Alarm Hall-Alarm Vmax-Alarm Vmin-Alarm Stall-Alarm |
|
Run/stop(EN) | Logic level | Low -10~0.5V High 3~30V | V |
DIR | Logic level | Low -10~0.5V High 3~30V | V |
BAK | Logic level | Low -10~0.5V High 3~30V | V |
PG | Logic level | Low -10~0.5V High 3~30V | V |
Hall sensor input | Logic level | 0~5 | V |
Temperature protection | Common style | <-10 or >70 | ℃ |
Industry style | <-40~>85 | ℃ | |
Operating temperature | Common style | -10~+70 | ℃ |
Industry style | -40~+85 | ℃ | |
Dimensions |
| 190*180*80 | MM |
Weight | 2.0 | kg |
Connection Diagram of motor and driver
Protection type
When the motor is running abnormally, the digital tube will display:
(1) OL motor locked.
(2) OC over current.
(3) HE hall signal failure.
(4) LV under voltage input .
(5) HU over voltage input.
(6) EE IPM failure protection.
(7) OT motor too hot