As a general guide:
| Motor Driver ICs series | |
|---|---|
| ECN301*1 | Home air-conditioning, indoor fans, domestic boiler combustion fans, air purifies, bathroom dries, etc. |
| ECN302*1 | Home air-conditioner outdoor fan. |
| ECN306*2 | White Goods and package air-conditioner, automatic doors, etc. |
| Gate Driver ICs series | |
|---|---|
| ECN303*3 | Pumps, dishwashers, etc. |
| ECN305*4 | Washing machines, air-conditioner compressor, refrigerators, general purpose inverters, etc. |
Inverter Ics can be connected directly to a DC voltage supply. For example, in AC100V/AC200V, the voltage of DC141V/DC282V is applied to IC. The following effects are acquired when it was enabled to drive a motor by the high voltage that is not in motor drive IC of the conventional low-voltage system.
| Low vs HIGH-Voltage BLDC Motor Control | |||
|---|---|---|---|
| No. | LOW-Voltage Brushless DC | HIGH-Voltage Brushless DC | HIGH-Voltage Advantages |
| 1 | Regulate Line down to LOW-Voltage | Not Needed | NO Voltage Regulator losses |
| 2 | Diode Bridge Rectifier | LOWER Diode Bridge Current | LESS LOSS in Diodes due to LOWER Current |
| 3 | LOW-Voltage Controller but, HIGHER Current IGBTs | HIGH-Voltage controller with LOWER Current IGBTs | REDUCED IGBT Power Dissipation due to LOWER Current |
| 4 |
LOW-Voltage Motor
( |
HIGH-Voltage Motor
( |
LOWER LOSS in Motor Resistance due to LOWER Current |
Additional System Advantages of the HIGH-Voltage BLDC Motor Control Series
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