GE PQM-T20-A Power Quality Meter

Product Overview: The GE PQM-T20-A is a high-precision power quality meter designed for monitoring and analyzing electrical parameters in industrial, commercial, and infrastructure settings. It provides comprehensive measurement and analysis capabilities to ensure the reliability and efficiency of power systems. Technical Specifications:
  • Measurement Functions:

GE PQMII-T20

Product Introduction

The GE PQMII - T20 is a high - precision three - phase power quality meter from GE Multilin’s PQMII series, designed for continuous monitoring, analysis and energy management of electrical power systems. It precisely measures a full set of electrical parameters, performs in - depth harmonic analysis up to the 63rd harmonic, and captures transient events like voltage sags, swells, and flicker with high - speed sampling. It is equipped with 4 isolated 4 - 20mA analog outputs, 4 programmable relay outputs, 4 digital inputs, and multiple communication interfaces, enabling seamless integration with SCADA, PLC, and energy management systems.

GE PQMII-T20

Technical Specifications:

  • Measurement Standards: IEC 61000-4-30 Class A compliant for power quality monitoring
  • Voltage Inputs: 3-phase or single-phase configurations, typical ranges up to 690 V AC
  • Current Inputs: Compatible with Rogowski coils, CTs (current transformers), or clamp sensors
  • Sampling Rate: High-speed sampling for transient and waveform capture
  • Frequency Range: 45 Hz to 65 Hz (extendable for special applications)
  • Voltage Accuracy: ±0.1% of reading
  • Current Accuracy: ±0.5% of reading
  • Harmonic Analysis: Up to 63rd harmonic for voltage and current

GE PQMII-T20-C

Product Overview

The GE PQMII-T20-C is a high-precision power quality meter from the PQM II Series, engineered for continuous monitoring, analysis, and control of three-phase electrical systems in industrial, commercial, and utility applications. It delivers comprehensive measurement of voltage, current, power, energy, frequency, harmonics, and power quality events (sags, swells, transients) with industry-leading accuracy. The unit supports 20 current inputs and 4 voltage inputs for multi-circuit monitoring, integrates 4 isolated analog outputs, 4 relay outputs, and 4 switch inputs for control/alarming, and offers Modbus RTU communication via RS232/RS485. It includes advanced features such as 63rd harmonic analysis, voltage disturbance recording (VDR), event logging, and waveform capture to diagnose power quality issues and protect critical assets.

GE PQMII-T20-C-A

Product Introduction

The GE PQMII-T20-C-A is a high-precision three-phase power quality meter from GE Multilin’s PQMII series, tailored for industrial and utility applications requiring advanced power monitoring, harmonic analysis, and energy management. It delivers comprehensive measurement of electrical parameters, in-depth harmonic analysis up to the 63rd harmonic, and high-speed capture of voltage sags, swells, flicker, and transient events. It is equipped with 1 isolated 4-20mA analog input, 4 isolated 4-20mA analog outputs, 4 digital inputs, and 4 programmable relay outputs, alongside multiple communication interfaces for seamless integration with SCADA, PLC, and energy management systems.

GE PWB68A993125

Product Overview

The GE PWB68A993125 is a dedicated industrial control printed circuit board designed for SCR (Silicon Controlled Rectifier) gate driving, signal filtering, and electrical interface management in industrial automation, HVAC, and power control systems. It integrates SCR gate drive circuits, signal filtering stages, and terminal blocks to enable precise switching and regulation of SCR-based power circuits, ensuring stable load control and protection against electrical noise/interference. The board supports direct connection to standard industrial sensors, controllers, and SCR power modules, and operates reliably in harsh industrial environments with wide temperature ranges and electrical noise immunity. It serves as a critical interface between control systems (PLCs, DCS) and power switching components, facilitating seamless integration and enhanced system safety.

GE RANGE-80 TO 20°C

Product Introduction

The GE HygroPro series dew point transmitter with measurement range -80°C to 20°C is a high-precision moisture monitoring device engineered for industrial applications requiring accurate and reliable dew/frost point measurement in gases. It utilizes advanced sensor technology to deliver stable readings across the -80°C to 20°C range, with rapid response to moisture changes and robust performance in harsh environments. The transmitter features a Type 4X/IP67-rated enclosure for protection against dust and water ingress, ensuring durability in outdoor, offshore, and industrial settings.

GE RHUB200-5

  • Frequency Bands: 5.8 GHz (5.725 - 5.850 GHz), 4.9 GHz (4.940 - 4.990 GHz), 2.4 GHz (2.400 - 2.4835 GHz).
  • Data Rate: Up to 48 Mbps.
  • Channel Bandwidth: 5, 10, or 20 MHz.
  • Duplex Technique: TDD.
  • Modulation: OFDM - BPSK, QPSK, 16 - QAM.
  • RF Dynamic Range: More than 50 dB.
  • Ethernet Interface: 10/100 BaseT, auto - negotiation, IEEE 802.3u.
  • MAC Addresses: Up to 2048.
  • Audio Channel: 2 Mbps or 64 kbps, Ethernet 10BaseT (64 kbps) G.711.

GE RS-FS-9001

Product Overview

The GE RS-FS-9001 is a high-performance ultraviolet (UV) flame sensor from the Reuter-Stokes Flame Tracker™ series, engineered for industrial high-risk environments requiring reliable flame presence detection. It uses a silicon carbide (SiC) photodiode to capture long-wavelength UV radiation emitted by flames, which penetrates fuel mist, steam, and water vapor better than traditional UV sensors. The two-wire design with 4–20 mA output enables seamless integration with safety controllers, DCS, or PLC systems for rapid alarm triggering and safety shutdowns. It operates reliably in extreme temperatures (with optional water cooling), high pressure, and heavy vibration, making it ideal for combustion systems where false alarms or missed detection could lead to catastrophic incidents. The sensor replaces legacy models like 362A1052P001 and meets global safety certifications for hazardous area use.

GE RS-FS-9001 362A1052P004 – Complete Technical Profile

Technical Specifications:
  • Designed as part of the Mark VI or Mark Vie control system family, which are widely recognized for their application in gas and steam turbine controls.
  • Supports various input/output configurations tailored to handle signals from sensors, actuators, and other field devices integral to turbine operations.
  • Capable of operating within specific voltage ranges and environmental conditions suitable for industrial settings.
  • Equipped with robust communication capabilities that facilitate integration with broader plant networks and SCADA systems.

GE RS-FS-9001 362A1052P404

Product Introduction

The GE RS-FS-9001 362A1052P404 is a high-performance ultraviolet (UV) flame detector engineered for industrial combustion safety systems, specifically designed for gas turbine flame tracking and critical combustion process monitoring. It employs a silicon carbide (SiC) photodiode sensor to detect UV radiation emitted by flames, delivering rapid response to flame presence or absence and minimizing false alarms through advanced spectral filtering and dynamic threshold algorithms. The detector operates on a 2-wire loop-powered configuration, providing a 4-20mA analog output that integrates seamlessly with control systems, PLCs, and safety shutdown devices. It features a stainless steel body with a 3/4" NPT female connector, ensuring durability and protection against harsh industrial environments, including high temperatures, corrosive atmospheres, and vibration.

GE RV33-1 Drive Control Power Board

Product Overview The GE RV33-1 is a robust drive control power board designed for motor and drive applications in industrial environments. It provides reliable power and control signals, ensuring stable operation of motors and actuators. The board is engineered to withstand harsh conditions, including vibration, shock, and extreme temperatures, making it suitable for demanding industrial settings.