Product parameter:
| VB Package |
Configuration |
VCE |
VGE |
VGEth(V) |
ICE |
VCEsat15V |
Technology |
| TO3P |
IGBT+FRD |
600/650 |
±30V |
5 |
60A |
1.7 |
FS |
**VCE(V):** The maximum voltage between collector and emitter is 600/650V, indicating the maximum voltage the device can withstand under normal operating conditions.
- **VGE(±V):** The maximum voltage between gate and emitter is ±30V, representing the maximum voltage between the gate and emitter.
- **VGEth(V):** The rated gate-emitter threshold voltage is 5V, indicating that the device begins to conduct when the gate voltage exceeds this value.
- **VCEsat (V)typ@ VGE=15V:** When the gate voltage is 15V, the collector-emitter saturation voltage is 1.7V, representing the minimum voltage drop across the device in the conducting state.
- **ICE (A):** The collector current is 60A, representing the maximum operating current the device can withstand.
- **Technology:** Utilizes FS technology, indicating the fabrication type of the device.
Domain and module applications:
1. **Industrial Electronic Control Modules**: Due to its high voltage and current characteristics, it is suitable for various industrial electronic control modules, such as variable frequency drives, motor controllers, etc. For instance, in motor control systems, it can be used to drive high-power motors, achieving precise speed regulation and operational control.
2. **Power Electronic Conversion Modules**: Within power electronic conversion modules, this device can be utilized in equipment such as switch-mode power supplies, inverters, etc., to facilitate energy conversion and regulation. For example, in solar inverters, it can be employed as a power switching element to convert the DC power generated by solar panels into AC power.
3. **Electric Vehicle Drive Modules**: With its high voltage and current capabilities, it is suitable for electric vehicle drive modules, such as those found in electric cars, electric motorcycles, etc. For instance, in the motor control system of electric vehicles, it can be used as a motor drive to achieve power output and operational control.
4. **Industrial Automation Systems**: In various industrial automation systems, such as PLC control systems, robot control systems, etc., this device can be used to realize various control and motion functions. For example, in robot control systems, it can be employed as a motor drive to achieve various robot movements and action controls.
* Please note: the above is only an example application scenario, the specific application depends on the requirements and conditions of the system design. When using this device, consult its data sheet for detailed technical specifications and features
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