GE IS200DAMEG1A Gate Drive Amp/Interface Card
General info
| Manufacture | GE |
| Item No | IS200DAMEG1A |
| Article number | IS200DAMEG1A |
| Series | Mark VI |
| Origin | United States(US) |
| Dimension | 180*180*30(mm) |
| Weight | 0.8 kg |
| Customs Tariff Number | 85389091 |
| Type | Gate Drive Amp/Interface Card |
Detailed data
GE IS200DAMEG1A Gate Drive Amp/Interface Card
The IS200DAMEG1A is the interface between the control power switching devices and the innovative series control rack. The card plays a key role in power electronic systems, enabling the precise switching of these high power devices, controlling applications such as motor drives, power converters, inverters and excitation systems.
The IS200DAMEG1A amplifies low-level control signals received from the Mark VI control system and converts them to high-voltage signals suitable for driving the gates of power devices.
It ensures precise real-time switching of IGBTs, MOSFETs, and thyristors to control motor speed, power conversion, and excitation systems. The interface card allows seamless operation of these systems to optimize performance and efficiency.
The IS200DAMEG1A board will be used with drives that use phase legs; this particular board will only have one board available for all three phases. Each phase leg will also use a variety of different IGBTs; this particular board will only have one IGBT module for all three phases.
Frequently asked questions about the product are as follows:
-What types of power devices can the IS200DAMEG1A drive?
It is used to drive IGBTs, MOSFETs and thyristors, which are commonly used in high-power applications such as motor drives, power converters and inverters.
-Is the IS200DAMEG1A suitable for high-speed applications?
The IS200DAMEG1A provides precise and high-speed gate drive signals for applications that require real-time switching of power devices.
-How does the IS200DAMEG1A provide fault protection?
There are overvoltage, overcurrent and short-circuit protection mechanisms to ensure that the connected power devices and control systems remain safe under normal operation and fault conditions.
