Product Introduction

The Gallium Arsenide Optical Fiber Temperature Demodulator is designed to provide a light source for gallium arsenide optical fiber temperature sensors. It converts the optical signals returned by the sensors into digital signals for display, storage, and processing. Additionally, it communicates with external devices, outputting temperature signals, system status, and processed switching signals to third-party equipment. This is a high-precision instrument that integrates advanced optics, optical signal processing circuits, electrical circuitry, and embedded systems.

Working Principle

The Gallium Arsenide Optical Fiber Temperature Demodulator is an intelligent demodulation host specifically developed for laboratory scenarios. Built on an ARM + QT hardware and software platform, it offers a visually appealing and user-friendly interface, with convenient operation. Its all-metal integrated casing is compact and lightweight. The optical interface and display screen are aligned in the same direction, allowing for quick optical fiber insertion and easy operation and configuration. The device features self-diagnostic, self-adaptive, and self-calibration functions, enabling it to evaluate the working status of the sensor, interpret temperature readings, and monitor the sensor's temperature measurement performance. This helps prevent improper temperature readings caused by sensor or system malfunctions.

The device is equipped with LAN and Wi-Fi connectivity, allowing direct connection to a computer or integration with a network gateway. When paired with temperature acquisition software, it supports real-time temperature collection and display on a PC. With 8GB of built-in storage, it can export collected temperature data in CSV format, making it suitable for use in both laboratory and mobile environments.

Specifications

Physical Structure

Applications

Scientific Research and Laboratories
Used in various experimental setups to measure temperature with high precision, ensuring reliable data for research and development.

Industrial Process Monitoring
Ideal for environments with high temperatures or electromagnetic interference, such as power plants, chemical processing, and metallurgy.,

Medical Equipment
Applied in medical devices requiring precise and non-invasive temperature monitoring, such as MRI-compatible systems.

Aerospace and Defense
Used for temperature monitoring of critical components in aircraft, spacecraft, and military equipment under extreme conditions.

Energy Sector
Suitable for temperature measurement in energy generation and distribution systems, including solar panels, wind turbines, and nuclear reactors.

Electronics and Semiconductor Manufacturing
Monitors temperature in sensitive manufacturing processes, such as wafer fabrication and chip testing.

Oil and Gas Industry
Provides temperature monitoring in hazardous and high-pressure environments, such as pipelines and drilling rigs.

Environmental Monitoring
Used for temperature tracking in ecosystems, weather stations, and other outdoor monitoring setups.

Q&A

Q1: What is the purpose of the gallium arsenide optical fiber temperature demodulator?
A1: The device is designed to provide a light source for gallium arsenide optical fiber temperature sensors, convert the returned optical signals into digital signals, and display, store, and process temperature data.

Q2: What communication protocols does the device support?
A2: The device supports Modbus TCP/IP and Modbus RTU communication protocols for integration with external systems.

Q3: Can the device store temperature data?
A3: Yes, the device has built-in storage of 10GB and supports data export in CSV format for further analysis.