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SKU: SR750-P5-G5-HI-A20-R

GE 750-P5-G5-HI-A20-R Multilin Feeder Management Relay

The GE 750-P5-G5-HI-A20-R is a robust Multilin feeder management relay featuring dual-processor architecture for precise protection and monitoring. This panel-mount device offers comprehensive metering, oscillography, and communication capabilities for critical distribution systems.

Product Overview

The GE 750-P5-G5-HI-A20-R functions as a high-performance feeder management relay within the Multilin 750 series. Engineers utilize this device to provide comprehensive protection, control, and monitoring for electrical distribution feeders. By integrating advanced processing capabilities into a compact 19-inch rack-mount chassis, the relay secures critical power infrastructure against faults while delivering precise operational data.

Technical Specifications

  • Model Number: 750-P5-G5-HI-A20-R
  • Series: Multilin 750
  • Application: Feeder and Transformer Management
  • Processor Architecture: Dual-processor (32-bit control / 16-bit communications)
  • Metering Functions: Voltage, Current, Frequency
  • Mounting: 19-inch Panel Mount
  • Communication: Integrated Ethernet and serial support
  • Dimensions: 20.8 cm x 22.0 cm x 24.6 cm
  • Weight: 7.6 kg

Functional Characteristics

The 750-P5-G5-HI-A20-R employs a dual-processor architecture to maintain system stability. The primary 32-bit microprocessor handles high-speed analog sampling and relay logic, which ensures rapid fault detection. Furthermore, a secondary 16-bit communications processor manages user interface requests and network data exchanges, which prevents command processing delays. Consequently, operators maintain full control and visibility of the distribution network even during high-traffic communication periods.

System Integration and Maintenance

Maintenance technicians rely on the integrated oscillography and trip counting features to streamline diagnostic workflows. Because the relay samples and archives AC input data, users reconstruct fault sequences with high accuracy during post-event analysis. Moreover, the device supports extensive metering capabilities, which eliminates the need for auxiliary monitoring instrumentation in many panel configurations. Furthermore, the robust design ensures long-term operational reliability, thereby assisting facility managers in reducing unplanned downtime and improving overall distribution system performance.