GE PL96501A0A10000: Multilin EPM 9650 Power Quality Meter

Measurement Range:Up to 600 A, 0.1% accuracy

Voltage Range:Up to 690 V AC

Frequency Range:47 Hz to 63 Hz

Accuracy Grade:Class 0.1

Data Logging:USB data export capability

Operating Temperature:-20°C to +60°C

Humidity:0% to 95% non-condensing

Display:High-resolution LCD display

Power Supply:AC 90V – 265V or DC 24V

Dimensions:245mm x 245mm x 110mm

Weight:Approximately 1.5 kg

    The GE PL96501A0A10000 MULTILIN EPM 9650 Power Quality Meter is designed with cutting-edge technology to deliver unparalleled accuracy and reliability in monitoring industrial power systems. Its comprehensive measurement capabilities include detailed analysis of voltage fluctuations, current variations, and power factor, enabling proactive maintenance and optimization of electrical systems.

    Equipped with a high-resolution color LCD display, this meter provides clear, real-time visualization of critical data, making it easier for operators to understand and respond to power quality issues. The intuitive user interface facilitates quick setup and configuration, even for non-expert users.

    Built to withstand harsh industrial environments, the meter operates within a wide temperature range, from -20°C to +70°C, ensuring continuous performance under varying conditions. It is also suitable for storage in extreme temperatures, from -40°C to +85°C, making it ideal for deployment in diverse locations.

    Featuring an RS-485 communication interface compatible with Modbus-RTU protocol, the GE PL96501A0A10000 can seamlessly integrate with existing industrial control systems, providing seamless data transfer for monitoring and diagnostics. This connectivity ensures that users can access power quality data from anywhere, enhancing operational efficiency and decision-making.

    With its robust design and advanced functionality, the GE PL96501A0A10000 MULTILIN EPM 9650 Power Quality Meter is an indispensable tool for maintaining and improving the performance of industrial power systems, leading to enhanced energy efficiency and reduced downtime.