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Fluorescent Fiber Optic Temperature Measurement System

The Fluorescent Fiber Optic Temperature Measurement System by Zhejiang Liyi Technology is a cutting-edge solution designed for real-time monitoring of temperature in critical electrical systems. Using advanced fluorescent fiber optic technology, it offers precise, reliable, and safe temperature monitoring for switchgear cabinets, high-voltage systems, and industrial environments. Its core benefits include immunity to electromagnetic interference, resistance to high voltage, and long-term stability, making it essential for enhancing safety and operational efficiency in power systems.

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Temperature Measurement Transmitter Temperature Sensing Transducer Fluorescent Fiber Optic Temperature Measurement System High Voltage Insulation Temperature Measurement Switchgear Temperature Monitoring

Product Advantages

Technical Parameters

Product Uses

Product Operation Guide

FAQ

1. High Precision and Reliability

Measures temperatures ranging from -40°C to 200°C with an accuracy of ±1°C.

Resistant to electromagnetic interference and voltage fluctuations, ensuring stable operation even in high-voltage environments.

2. Innovative Fluorescent Fiber Technology

Converts temperature data into optical signals, eliminating the risks associated with traditional electrical measurement methods.

Tailored for harsh environments with superior insulation, corrosion resistance, and durability.

3. Flexible Installation and Customization

Supports up to 16 measurement points for comprehensive system monitoring.

Compact design allows easy installation in tight spaces like switchgear cabinets or transformers.

4. Advanced Communication Features

Equipped with RS485/Modbus communication protocols, ensuring seamless integration with SCADA and other monitoring systems.

Real-time data logging with advanced software for analysis and reporting.

5. Safety and Durability

Constructed with PTFE-insulated fiber cables, capable of withstanding high pressures up to 100kV and extreme environmental conditions.

Long-lasting performance reduces maintenance costs and improves system reliability.

Parameter	Specification
Measurement Range	-40°C to 200°C
Accuracy	±1°C
Sensor Diameter	2.5mm
Sensor Material	Aviation-grade ceramic
Communication Protocol	RS485 (Modbus)
Power Supply	AC 220V
Number of Channels	1–16 (configurable)
Fiber Cable Length	3–20 meters (customizable)
Dimensions	145mm × 54mm × 100mm (L×W×H)
Operating Conditions	High-voltage immunity, corrosion resistance

1. Switchgear Cabinets

Real-time temperature monitoring of busbars and contact points to prevent overheating and ensure operational safety.

2. High-Voltage Transformers

Safeguards critical components by providing accurate temperature readings in high-voltage environments.

3. Renewable Energy Systems

Essential for monitoring IGBT modules in solar inverters and wind turbine control systems.

4. Underground Cable Joints

Tracks temperature fluctuations to detect potential faults and prevent equipment failure.

5. Data Centers

Ensures optimal performance and longevity of electrical systems by maintaining safe temperatures.

Attach the fiber optic sensor to the target measurement points (e.g., busbars or terminals). Use clamps or adhesive as recommended.

Connect the Transmitter

Securely connect the sensor to the IF-C2B16F20 fiber optic transmitter using ST connectors.

Set Up the Software

Connect the transmitter to a monitoring computer using an RS485 interface. Install and configure the provided software for real-time data visualization.

Monitor the System

Regularly check the temperature readings and set threshold alarms for safety.

Maintenance

Ensure that fiber optic cables are free from damage, properly routed, and secured. Clean connectors periodically to maintain accuracy.

Q1: What makes fiber optic temperature measurement safer than traditional methods?
A1: Fiber optic systems are immune to electromagnetic interference, high voltage, and electrical noise, ensuring accurate and safe operation in harsh industrial environments.

Q2: How many measurement points can this system support?
A2: The system supports up to 16 measurement channels, allowing comprehensive monitoring of multiple components.

Q3: Is the system compatible with existing monitoring setups?
A3: Yes, it uses the standard RS485/Modbus protocol, making it easily integrable with SCADA and other industrial monitoring systems.

Q4: What maintenance does the system require?
A4: Minimal maintenance is needed. Regularly inspect the sensors and connectors for damage and keep them clean for optimal performance.

Q5: Can the fiber optic cables withstand harsh environments?
A5: Yes, the cables are made of PTFE with excellent durability, corrosion resistance, and insulation, capable of withstanding high-pressure and high-temperature conditions.

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