The GE PQMI-T20-C-A is A power quality monitoring instrument with multiple functions and application scenarios. The following is a specific description of its parameters, specifications, dimensions, weight, series, characteristics and functions:
Parameters and specifications:
Speed frequency response: up to 1.2KHZ.
Pulse input frequency: up to 4MPPS.
Overload capacity: 300% overload capacity.
Size and weight:
Weight: Approximately 1.2kg.
Series:
The GE PQMII-T20-C-A is A model in the GE PQMII family.
Features:
High precision measurement: It can measure key power parameters such as current, voltage, active power, reactive power, energy use, power cost, power factor and frequency.
Waveform analysis: With waveform analysis function, can be used to diagnose waveform distortion or distortion problems in power systems.
Recording function: It can monitor and record voltage drops and voltage peaks, and can store up to 500 voltage events, helping to analyze the stability and power quality problems of the grid.
Control functions: Includes programmable set points and assignable output relays that allow users to add control functions for specific applications, such as over/under current or voltage alarms, unbalance monitoring, and more.
Communication protocol: Supports DNP 3.0 communication protocol standards, and can be seamlessly integrated with modern energy management systems or other automation systems to achieve remote monitoring and management.
Servo system characteristics: Standard 2500 line encoder, optional 17-bit absolute encoder. With automatic inertia identification and vibration suppression functions, the system followability is optimized and the stability is improved.
Functions:
Industrial power monitoring: It can be installed on production lines, factory facilities or important equipment to monitor the stability and quality of the power system.
Commercial building monitoring: Can be used to monitor power quality across a building or in a specific area, helping managers identify power issues and optimize energy use.
Utility monitoring: Widely used by power companies or public utilities to monitor parameters such as grid load, voltage fluctuations, and power factor.
Renewable energy systems: Help monitor and optimize power quality during energy generation and delivery.
