IS230STCC2ASTTC2AG01

GE CIRCUIT BOARD

Product DESCRIPTION

Part Number

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.

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

TECHNICAL SPECIFICATIONS FOR GE - IS230STCC2ASTTC2AG01

IS230STCC2ASTTC2AG01 is a Simplex Thermocouple Input Board developed by GE. It is part of Mark VIe control system. The Simplex Thermocouple Input (STTC) terminal board is a vital component designed to interface thermocouples with the system. Here's a detailed expansion on its features and specifications: The board is equipped to accept inputs from up to 12 thermocouples. These thermocouples are wired to a Euro-block type terminal block, providing a reliable connection interface for thermocouple wiring.

Features

Signal Conditioning and Cold Junction Reference: Similar to the larger board, the board features on-board signal conditioning and cold junction reference. This ensures consistency and accuracy in thermocouple measurements, enhancing the reliability and precision of temperature data acquisition.

Mounting Options: Designed for flexible mounting options, accommodating both DIN-rail and flat mounting configurations. This versatility allows for easy integration into various system architectures and installation setups.

Compatibility with I/O Pack: Accepts a single I/O pack, enabling additional functionality or expansion capabilities as needed. This scalability ensures that the system can adapt to changing requirements and accommodate future growth.

Euro-Block Type Terminal Block: The terminal block used on the board is of the Euro-block type, offering a secure and standardized connection interface for thermocouple wiring. This terminal block design facilitates easy installation and maintenance of thermocouple connections.

Application Specificity: Optimized for simplex applications, providing a reliable solution for thermocouple input requirements in various industrial settings. Its design and features cater to the specific needs of temperature monitoring and control applications.

Plant Data Highway (PDH)

Connectivity and Applications: The PDH serves as a communication link connecting the CIMPLICITY HMI/data server with remote operator stations, printers, historians, and other customer computers. It enables seamless data exchange and access to plant information across different locations within the facility.

Media and Data Transfer Speed: The PDH utilizes Unshielded Twisted Pair (UTP) or fiber-optic Ethernet media for data transmission. It supports data transfer rates of 10/100 Mbps, providing fast and reliable communication between devices connected to the network.

Protocol: Communication within the PDH network is based on the TCP/IP protocol, a widely adopted standard for data transmission over networks. This protocol ensures compatibility, reliability, and efficient data exchange between devices on the PDH network.

Redundancy and Fault Tolerance: Redundant cables are often required in PDH installations to ensure fault tolerance and uninterrupted operation. Redundancy is essential for critical systems where downtime must be minimized. However, despite redundant cables, the PDH forms a single logical network to streamline management and administration.

Hardware Components: The hardware infrastructure of the PDH typically includes two redundant Ethernet switches. These switches provide the necessary connectivity and routing capabilities to facilitate communication within the PDH network. Optional fiber-optic outputs may be included to extend network reach, particularly for longer distances to central control rooms or remote locations within the plant.

Integration with UDH: In smaller systems, the PDH and the Unit Data Highway (UDH) may physically share the same network infrastructure. However, it's crucial to ensure that there is no peer-to-peer control on the UDH to maintain network integrity and prevent conflicts between communication protocols and data traffic.

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