IS200TDBTH6ABC GE Printed Circuit Board Assembly

Product Description

IS200TDBTH6ABC is a discrete simplex circuit board component designed specifically for GE’s Mark VI Speedtronic series control systems.This circuit board component plays a core role in the control system,used to manage steam,gas,and hydraulic turbines of various complexities and sizes.

Product parameters

Input voltage:24VDC,48VDC.

Output voltage:24VDC.

Maximum output current:10A.

Working temperature range:-40℃~+85℃.

Product specifications

Dimensions:100mm x 50mm x 20mm.

Weight:0.3kg.

Input channel:8.

Maximum I/O point:384.

Communication protocols:Modbus,Ethernet,OPC.

Product series

IS200TDBTH6ABC belongs to GE’s Mark VI Speedtronic series,which is a control system designed specifically for steam,gas,and hydraulic turbines of various sizes and complexities.

Features

High performance:Adopting advanced processor technology and optimized design,it has the ability to quickly respond to various computing and data processing needs.

High reliability:Adopting high-quality materials and manufacturing processes,ensuring stable operation for a long time even in harsh working environments.

Easy to expand:Supports multiple different extension interfaces and protocols,facilitating communication and data exchange with other devices.

Easy to maintain:With an easy-to-use user interface and operating methods,it facilitates device configuration,operation,and troubleshooting.

Function

IS200TDBTH6ABC plays a crucial role in GE’s Mark VI Speedtronic series control systems.It is responsible for handling and controlling the core functions of the system,ensuring the normal operation and performance optimization of the turbine.

Purpose

This circuit board component is mainly used in GE’s Mark VI Speedtronic series control systems to manage the operation of steam,gas,and hydraulic turbines.It is a key component in the entire control system,ensuring the stability and reliability of the system.

Application field

IS200TDBTH6ABC is widely used in energy,manufacturing,and other industrial fields,especially in scenarios that require efficient,reliable,and precise control of turbines.For example,it can be used for steam turbine control in power plants,gas turbine control in the oil and gas industry,and so on.