Product Details

GE IS420UCSBH1A is a key component of the Mark VIe control system produced by General Electric (GE) and belongs to the UCSB (Universal Control System Board) controller. It is a high-performance and highly reliable industrial controller designed specifically for executing specific application control logic

Main features

Independent operation: The UCSB controller is a self-contained computer that can run application control logic without the need for additional hardware support

No I/O backplane: Unlike traditional controllers, UCSB controllers do not contain any application I/O, and all I/O networks are directly connected to the controller

High reliability: The hardware and software architecture ensures that no application inputs are lost during controller power outage maintenance or repair

Easy to update: Flash memory can be easily updated, making software upgrades and maintenance convenient

Compact design: compact in size, saving panel space

Product Parameters (Partial)

Processor: High performance microprocessor (please refer to the product manual for specific models)

Storage: Flash memory (please refer to the product manual for specific capacity)

Communication interface: Supports multiple communication protocols, such as Ethernet, etc

Working voltage: According to system requirements

Working temperature: According to system requirements

Product specifications

Compliant with standards: Compliant with relevant international standards and industry norms

Protection level: Select according to installation environment and requirements

EMC Performance: Meets EMC requirements to ensure electromagnetic compatibility

Series

IS420UCSBH1A belongs to GE's Mark VIe control system series

Features

High performance: capable of handling complex control logic

High reliability: suitable for critical applications

Flexible configuration: It can be configured according to different application requirements

Easy to maintain: Flash updates are convenient

Function

Execute application control logic: Implement various control algorithms to control industrial processes

Data processing: Processing various data from sensors and actuators

Network communication: Communicating with other devices

Purpose:

Power plant: used to control equipment such as steam turbines and boilers

Industrial process control: used for automation control of various industrial processes

Application Fields

Power industry: power plants, substations, etc

Petrochemical industry: Process control in petrochemical production

Metallurgical industry: metallurgical process control