GE T60-E00-HCH-F8F-H6T-M8F-P6T-UXX-W6T Transformer Protection System

# of Data Logging Channels:1 to 16

# of User Programmable LEDs:48 plus trip and alarm

Breaker Flashover Operating Quantity:phase current, voltage, and voltage difference

Noise:0 dB

Phase Directional Overcurrent Sensitivity Threshold:0.05 pu

Power Consumption:Typical = 15 to 20 W/VA, Maximum = 45 W/VA

RTD Input Accuracy:±2°C

# of Teleprotection Input Points:16

Breaker Failure Mode:1-pole, 3-pole

DCMA Output Driving Signal:any FlexAnalog quantity

Humidity Operating Up to:95%

Load Encroachment Angle Accuracy:±2°

Operating Temperature:–40 to 60°C

RTD Input Types:3-wire: 100 Ω Platinum, 100 and 120 Ω Nickel, 10 Ω Copper

    The GE T60-E00-HCH-F8F-H6T-M8F-P6T-UXX-W6T Transformer Protection Relay integrates advanced technology to offer superior performance and reliability. It is designed for a wide range of applications in industrial settings where protection, control, and monitoring of transformer systems are crucial.

    With its robust design, this relay ensures safe and efficient operation under various environmental conditions, including high humidity and extreme temperatures. Its user-friendly interface and programmable features make it easy to configure and maintain, reducing downtime and operational costs.

    The device is equipped with multiple data logging channels and teleprotection input points, providing real-time monitoring and data analysis capabilities. These features enable proactive maintenance and quick response to system anomalies, enhancing overall system reliability.

    The GE T60-E00-HCH-F8F-H6T-M8F-P6T-UXX-W6T also includes advanced safety mechanisms like breaker flashover operation and directional overcurrent sensitivity, ensuring the integrity of the transformer system and protecting against potential failures.

    Designed with versatility in mind, this relay supports a variety of RTD input types, allowing seamless integration into existing systems. Its compact form factor and modular design make installation and expansion straightforward, supporting long-term scalability and adaptability.