Люмінесцентні волоконно -оптичні датчики температури: The Best Solution for Transformer Winding Hot Spot Monitoring-INNO

In the extreme internal environment of transformers—characterized by high voltage, сильні електромагнітні поля, and high temperatures—fluorescent fiber optic temperature sensors are widely regarded as one of the best solutions available today, especially for applications that require precise, надійний, and intrinsically safe monitoring of critical areas such as winding hot spots.

Принцип роботи флуоресцентних волоконно-оптичних датчиків температури:

The core of the fluorescent fiber optic sensor is a special fluorescent material coated at the end of the fiber or at a specific point. When excitation light of a specific wavelength (usually emitted by an LED or laser) is transmitted through the fiber to the fluorescent material, the material is excited and emits fluorescence of a specific wavelength. The characteristics of this fluorescence (decay time/lifetime) change very precisely and reproducibly with the temperature of the environment where the fluorescent material is located. The sensor measures temperature by detecting changes in fluorescence lifetime (rather than intensity). Lifetime detection means it is not affected by fluctuations in the light source, втрати волокна на вигині, or connector loss, ensuring extremely high stability and reliability.

Why Fluorescent Fiber Optic Sensors Are the Best Choice for Transformer Monitoring

Intrinsic Safety and Electrical Isolation:
The fiber itself is made of quartz glass, which is a perfect electrical insulator.
No metal parts enter the high-voltage area, completely eliminating the risk of short circuits, discharges, or even explosions caused by insulation faults or introducing metal conductors, as seen with traditional sensors (such as RTDs and thermocouples).
The sensor probe requires no power supply, only an optical signal provided at the low-voltage control room end.
Excellent Electromagnetic Interference Resistance: Optical fiber transmits optical signals and is completely immune to any form of electromagnetic interference generated during transformer operation, such as strong power frequency electromagnetic fields, гармоніка, перехідні процеси, and partial discharges. Measurement results are stable and reliable.
Висока точність і стабільність: Fluorescence lifetime temperature measurement technology is insensitive to light source fluctuations and fiber loss, achieving high measurement accuracy (typically up to ±0.5°C or better). The fluorescent material is physically and chemically stable, resistant to aging, with excellent long-term stability and minimal drift.
High Temperature and Harsh Environment Resistance: Quartz fiber and special fluorescent materials (such as certain rare-earth-doped materials) can withstand extremely high temperatures (типово >200°C, with special designs over 300°C), fully meeting the needs of transformer hot spot monitoring (hot spot temperatures can far exceed 105°C). Resistant to oil and chemical corrosion (transformer oil environment), and mechanically stable.
Пряме вимірювання гарячих точок: The fiber is extremely thin and flexible (diameter usually less than 250 microns), allowing direct embedding between winding pancakes, pressing pads, or closely against the conductor surface, увімкнення прямого, in-situ measurement of the most critical hot spot temperature. This is impossible for other non-invasive methods (such as infrared).
Multi-point Measurement: Optical signal loss in optical fibers is extremely low, making it suitable for transmitting signals from high-voltage hazardous areas to safe control rooms. The system can be designed for multi-point measurement (arranging multiple fluorescent probes on one IF-C fiber optic temperature transmitter demodulator), monitoring temperatures at different parts of the transformer.
Довгий термін служби та низький рівень обслуговування: The fiber optic sensor has a simple structure, немає рухомих частин, and in a stable transformer oil environment, its service life is very long (usually matching the transformer’s lifespan), and it is almost maintenance-free.

Comparison with Other Transformer Temperature Monitoring Methods

Метод моніторингу	Переваги	Недоліки	Suitable for Transformer Hot Spot Monitoring?
Флуоресцентний волоконно-оптичний датчик	Іскробезпека, strong EMI immunity, висока точність, висока стабільність, стійкість до високих температур, direct hot spot measurement, довгий термін служби, multi-point transmission	Relatively high initial cost, installation requires professional design (needs to be embedded during manufacturing or major overhaul)	Best choice
FBG Fiber Optic Sensor	Іскробезпека, Опір EMI, мультиплексування, висока точність	Sensitive to static strain (transformer vibration, mechanical stress affects temperature accuracy), complex and expensive demodulation equipment, gratings may degrade at high temperatures, usually higher cost than fluorescent fiber	Usable, but inferior to Fluorescent Fiber Optic Sensor
RTD/термопара	Зріла технологія, відносно низька вартість, висока точність	Requires metal wires to enter high-voltage area, risk of insulation breakdown and short circuit, susceptible to strong EMI, wires may introduce measurement errors, cannot be safely and reliably installed inside high-voltage windings, relatively short lifespan	Not suitable for critical hot spots
Інфрачервона термографія	Неконтактний, can scan surfaces	Можна вимірювати лише температуру поверхні, cannot measure internal hot spots, greatly affected by oil contamination/window transparency/emissivity, relatively low accuracy, дорогий (high-end equipment), requires shutdown or special windows	Not suitable for internal hot spots
Top Oil Temperature Gauge	Простий, невисока вартість,	Only reflects average oil temperature, seriously lags behind winding hot spot temperature, cannot provide local overheating warning	Не підходить

Why Transformers Must Use Fiber Optic Sensors (Especially Fluorescent Type)?

Transformers are the core equipment of the power grid. The winding hot spot temperature is the key factor determining their load capacity and lifespan, and is also one of the main causes of failures. Traditional temperature monitoring methods face insurmountable challenges inside transformers:

High voltage insulation risk: Introducing metal wires is a huge safety hazard.
Сильні електромагнітні перешкоди: Causes electronic sensor signal distortion or even failure.
High temperature environment: Ordinary sensors cannot operate stably for long periods.
Critical points are difficult to reach: Internal hot spots in windings require miniature, flexible sensors to embed.

Fluorescent fiber optic sensors perfectly solve all these problems:

Безпека: All-fiber, no metal, іскробезпечний.
Надійність: Імунітет до EMI, high temperature resistant, long-term stable.
Точний: Directly measure the most critical winding hot spot temperature.
Довге життя: Lifespan matches the transformer, не вимагає обслуговування.

Резюме

For transformers that require the highest safety level, the most reliable data, and the most precise hot spot temperature monitoring (especially large high-voltage and ultra-high-voltage transformers), fluorescent fiber optic temperature sensors are currently the undisputed best choice. They overcome the fatal flaws of traditional methods, providing an intrinsically safe, Захист від перешкод, високоточні, стійкий до високих температур, and long-life solution. They can be directly embedded in the winding to measure the core hot spot temperature, providing crucial data support for transformer safe operation, оптимізація навантаження, оцінка стану, and life prediction. Although the initial cost is higher and installation needs to be planned during manufacturing or major overhaul, the safety improvement, operational reliability assurance, and potential fault prevention value make it an indispensable key monitoring technology for modern intelligent transformers.