[email protected]
+1 832 946 3166
Instagram

IS200IGPAG2AED

IS200IGPAG2AED - Gate Drive Power Supply Board

IS200IGPAG2AED - Gate Drive Power Supply Board IS200IGPAG2AED - Gate Drive Power Supply Board

World Of Controls understands the criticality of your requirement and works towards reducing the lead time as much as possible.

IS200IGPAG2AED - Gate Drive Power Supply Board is available in stock which ships the same day.

IS200IGPAG2AED - Gate Drive Power Supply Board comes in UNUSED as well as REBUILT condition.

To avail our best deals for IS200IGPAG2AED - Gate Drive Power Supply Board, contact us and we will get back to you within 24 hours.

Request For Quote
Contact Us

Featured Product

SPECIFICATIONS

Part No.: IS200IGPAG2AED
Manufacturer: General Electric
Country of Manufacture: United States of America (USA)
Number of Plug Connectors: 8
Number of Terminal Connectors: 2
Product Type: Gate Drive Power Supply Board
Availability: In Stock
Series: EX2100

Functional Description

IS200IGPAG2AED is a Gate Drive Power Supply Board developed by GE. It is a part of EX2100 excitation system. It provide power supply functionalities to the gate drive, thereby enabling precise and controlled power delivery to the system's critical components. This board's design and functionalities are meticulously crafted to meet the stringent performance requirements and operational demands of the EX2100 excitation system.

IGPA Features

  • LED Indicators: Features two sets of LEDs positioned on opposite sides. Each set includes one amber LED and one green LED, providing visual status indicators essential for monitoring operational states.
  • Right Side Configuration: The right side of the board primarily hosts the LEDs, several terminal connectors, and a single vertical 9-pin male header connector. It includes outlined positions for additional components that are not populated on the board.
    Inductors and Capacitors

Safety and Compliance

  • EN 50081-2: Generic Emissions Standards
  • EN 50082-2:1994: Generic Immunity Industrial Environment
  • EN 50178: Gas Contaminants codes
  • EN 50178:1994: Elevation code
  • IEC 529:1989-11 (IP-20): Dust Contaminants code

System Features

  • The exciter stands as a versatile and adaptable modular system capable of diverse configurations to cater to various output currents and ensure multiple levels of system redundancy. This adaptability facilitates assembling the exciter system in a manner that suits specific requirements. Notably, this system offers a spectrum of available output currents and several redundancy levels, with options that encompass power drawn from potential, compound, or auxiliary sources.
  • These flexible configurations encompass choices such as employing single or multiple bridges, warm backup bridges, as well as the availability of simplex or redundant controls. Such variability allows for customization based on operational needs and preferences, ensuring a tailored approach to system design.
  • An illustrative overview of the turbine generator excitation system is provided in Figure 1-1, depicting the architecture's key components and their interconnections. To power the exciter, there are two primary sources: either from a power potential transformer linked to the generator terminals or via an excitation transformer connected to an auxiliary bus.
  • Feedback mechanisms within the exciter system rely significantly on two primary inputs: generator line current and stator output voltage. These inputs serve as pivotal feedback parameters, guiding and influencing the exciter's operations. In response, the exciter regulates its output in terms of DC voltage and current, effectively controlling the exciter field.
  • An additional layer of sophistication in the exciter system architecture involves its compatibility with Ethernet LAN (Unit Data Highway) communication. This communication capability allows seamless interaction and integration with other GE equipment. These include the GE Control System Toolbox (commonly referred to as "toolbox") used for configuration purposes, the turbine control system, the LCI Static Starter, and the HMI (operator interface).
  • This compatibility with an Ethernet LAN facilitates streamlined communication and coordination between the exciter system and other integral components within the larger operational framework. It enables efficient data exchange, thereby enhancing overall system functionality and performance. This interconnectedness signifies a holistic approach to system design, emphasizing interoperability and collaboration among various elements within the broader operational setup.

The WOC team is always available to help you with your EX2100 requirements. For more information, please contact WOC.

Frequently Asked Questions

What is IS200IGPAG2AED?
It is a Gate Drive Power Supply Board developed by GE under the EX2100 series.

What power options does the exciter system offer?
It supports power from potential, compound, or auxiliary sources, allowing configurations with single or multiple bridges, warm backup bridges, and simplex or redundant controls.

How is power supplied to the exciter?
Power is drawn either from a power potential transformer connected to the generator terminals or from an excitation transformer linked to an auxiliary bus.

What are the key feedback mechanisms for the exciter?
Primary feedback sources include generator line current and stator output voltage. The exciter system adjusts DC voltage and current to control the exciter field based on this feedback.