GE T8110B ICS Triplex Trusted TMR Processor

GE T8110B ICS Triplex Trusted TMR Processor

Product Overview

The T8110B processor is a member of the ICS Triplex family, which employs advanced hardware and software technologies to achieve a fault-tolerant architecture with triple modular redundancy (TMR). This design enables the T8110B processor to automatically switch to a standby module in the event of a failure, ensuring continuous and stable system operation.

Key Features

Triple Module Redundancy (TMR): The T8110B processor adopts a triple module redundancy design, where each processing module operates independently and monitors each other. When one of the modules fails, the other two modules will immediately take over its work, thus ensuring the continuity and reliability of the system.

Hardware-Implemented Fault Tolerance (HIFT): The T8110B processor is hardware-implemented for fault tolerance, which means that faults are recognised and responded to very quickly, and faults can be detected and dealt with in almost real time.

Fast Fault Handling and Recovery: Thanks to TMR and HIFT technologies, the T8110B processor is able to quickly switch to a standby module after detecting a fault, thus greatly reducing fault recovery time.

Comprehensive Fault Recording and Diagnostics: The T8110B processor provides a fault history with timestamps, as well as indicators and serial diagnostic ports on the front panel for easy fault diagnostics and recording.

Flexible communication interfaces: T8110B processor is equipped with a variety of communication interfaces, such as RS232, RS422/485, etc., to facilitate data exchange and communication with other devices and systems.

Support IEC 61131-3 programming language: T8110B processor supports a full set of IEC 61131-3 programming language, which enables users to carry out flexible programming and configuration according to their needs.

Application Scenarios

T8110B processor is widely used in industrial automation field, especially in the occasions that require high reliability and fault tolerance. For example, in chemical, oil and gas industries, T8110B processor can be used to monitor and control key process parameters to ensure the stability and safety of the production process. In addition, the T8110B processor plays an important role in areas such as power systems, pressure vessel monitoring, environmental monitoring, and security systems.

Technical Specifications

The specific technical specifications of the T8110B processor may vary depending on the product version and configuration. However, in general, it may include parameters such as processor type, memory size, number of communication interfaces, and operating temperature range. Users can choose the appropriate product version and configuration according to their needs.

Precautions

When installing and using the T8110B processor, be sure to follow the instructions and regulations in the product manual to ensure proper connection and configuration of the device.

Check and maintain the T8110B processor regularly to ensure its normal operation and stable performance.

When performing troubleshooting and maintenance, be sure to disconnect the power supply and wait until the device is fully discharged before operating to ensure personal safety.

Main Functions

Power system monitoring and control:

The power interface board can be used for power system monitoring and control equipment to ensure the safe, stable and reliable operation of the power system.

Power plant automation:

In the power plant, it can be used to connect and manage the power supply of the mastering system and monitoring equipment to improve the automation level of the power plant.

Power transformer and distribution:

Applicable to substations and distribution stations, it is used to govern the power supply of transformers, circuit breakers and other equipments to ensure the high efficiency of power transmission and distribution.

Industrial Process Mastering:

In manufacturing and chemical workshops, this power interface board can be used for power management of automation systems, inner and control equipment to enhance productivity and safety.

Building Automation:

It can be used in building automation system, power supply to lighting, air conditioning, security equipment, etc., to achieve intelligent management of building equipment.

Railway flag signal system:

In the railway system, it is used in the power management of railway flag signal equipment and control system to ensure the stable operation of railway signal system.

Smart Grid:

In the smart grid, the power interface board can be used to connect and manage the digital power equipment and promote the intelligent development of the power grid.

Traffic Flag Signal System:

In the traffic flag signal system of routes and intersections, it is used to supply power to the flag master and equipment to ensure the normal display of traffic signals.

Aerospace:

In aviation and aerospace, the power interface board can be used in the control system of aircraft and spacecraft to provide stable and reliable power support.