IS200RAPAG1B

BD,RACK POWER SUPPLY

Product DESCRIPTION

Part Number

IS200RAPAG1B

Manufacturer

General Electric

Country of Manufacture

As Per GE Manufacturing Policy

Series

Mark VI/VIe

Function

Module

Availability

In Stock

services we provide

Testing & Repair

Repair and Testing of circuit boards to diagnose ensure functionality to maintain current inventory and retain obsolete circuit boards/modules.

Training

Controls including HMI Training for Engineers, Technicians and Operators with wide variety of practical equipment including Management and Health & Safety.

Purchase

You upgrade equipment and we purchase your surplus inventory to maximize the value of unused or end of life assets.

TECHNICAL SPECIFICATIONS FOR GE - IS200RAPAG1B

IS200RAPAG1B is a Rack Power Supply Board manufactured and designed by General Electric and is part of the Mark VI Series used in gas turbine control systems. The system is available in simplex or triple modular redundant (TMR) control configurations, with single or multiple racks and local or remote I/O. The I/O interface is intended for direct interface to the turbine's sensors and actuators, eliminating the need for interposing instrumentation and the reliability and maintenance issues that come with it. This board is connected to the Innovation Series rack via a P1 backplane connector. This connector has three rows of 32 pins each. A complete description of pin connections can be found in the associated manuals. This is the board's sole connector. The MKVI includes an Operator Interface built on a PC running Microsoft Windows and supporting CIMPLICITY graphics and the GE Control System Toolbox.

FEATURES:

RAPA is a feature-rich parallel-style bus host processor designed specifically for the Innovation Series board rack. This versatile board offers a range of capabilities and components to enhance its performance and functionality.

At the front panel of the board, you will find two LED indicators labeled IPOK and MPOK. These indicators provide visual feedback and status information, allowing users to quickly assess the operational state of the board. They are designed to provide clear and concise signals regarding the input/output and the overall performance of the processor.

The board also features four TP test points, accessible through a long and narrow opening. These TP test points, namely N15, P5, P15, and DCOM, enable signal measurement and analysis. Users can connect measurement equipment to these test points to monitor and troubleshoot signals passing through the board, facilitating diagnostics and maintenance tasks.

For convenient operation and control, the board incorporates a reset switch that allows users to initiate a reset process when needed. This switch provides a straightforward means to reset the board without the need for additional tools or complex procedures.

In terms of hardware components, it includes two transformers of different sizes. These transformers play a crucial role in converting and distributing electrical power throughout the board, ensuring efficient and reliable operation. Additionally, a single 1 amp, 250V fuse is included to protect the board against overcurrent conditions and safeguard other components from potential damage.

The board is equipped with a single backplane connector, which serves as the interface for connecting the board to the Innovation Series board rack. This connector enables the board to communicate and exchange data with other modules in the rack, facilitating seamless integration and collaboration within the system.

Incorporates a serial 1024-bit memory device, which provides storage capacity for critical data and instructions required for the board's operation. This memory device enables the board to efficiently store and retrieve information as needed during its processing tasks.

Several transistors are also present on the board, contributing to its circuitry and enhancing its electrical performance. These transistors play a vital role in amplifying and controlling electrical signals, ensuring accurate and reliable data processing within the board.

To maintain optimal operating temperatures, it integrates two heat sinks. These heat sinks dissipate heat generated by the board's components, preventing overheating and ensuring stable performance even under demanding operating conditions.

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