Na buli iyaya ni iVakatakilakila ni katakata ni Fiber Optic, iVakarau ni Dikevi ni Draki, Kenadau OEM/ODM Volau ni volau ni nona, Dauveivoli, Dauvolivolitaki.vakacurumi.

I-meli: fjinnonet@gmail.com |

Bulago

E cake 10 buli ni ivakarau ni ivakarau ni ivakarau ni waiwai ni isema ni mata ni livaliva

iVakatakilakila ni katakata ni kakaseresere ni kakaseresere, iVakarau ni dikevi vakavuku, Veisoliyaka na buli waqa ni mata e Jaina

iVakarau ni ivakarau ni draki ni fiber optic iYaya ni ivakarau ni draki ni kakana matanivola Veisoliyaka na ivakarau ni ivakarau ni ivakarau ni fluorescence fiber optic

Why do we need temperature measurement for aging cabinets

With the development of AC/DC transmission towards high voltage and large capacity, power grid companies have put forward higher requirements for the current carrying capacity of high-voltage electrical equipment. Users hope to use products that are stable, reliable, and have better comprehensive performance. Electrical equipment has strict requirements for operating temperature, and there have been a large number of cases of equipment overheating due to short circuits and other reasons, resulting in serious losses in substations. Real time monitoring of the operating temperature of electrical equipment, especially core electrical equipment, is particularly important to avoid losses caused by overheating of electrical equipment.

The reason for the temperature rise in the aging cabinet

When conducting aging tests on electronic product aging cabinets, due to the large number of electronic products installed inside the cabinet, and the fact that the electronic products themselves dissipate heat, the temperature controllability inside the cabinet is poor. It is necessary to monitor the temperature inside the cabinet in real time to avoid high temperatures that can easily cause the failure of the tested product and result in losses. The existing temperature measurement technology for aging cabinets uses traditional thermocouples for temperature measurement, which has low monitoring efficiency and poor accuracy. The high and low temperature aging test of electronic products is a necessary means to eliminate early failures and control product quality. The uniformity of temperature distribution inside the aging cabinet is an important technical indicator of the aging cabinet, which will directly affect the aging results of electronic products placed in different aging cabinet areas.

Traditional temperature measurement technology for electronic aging cabinets

When conducting aging tests on electronic product aging cabinets, due to the large number of electronic products installed inside the cabinet, and the fact that the electronic products themselves dissipate heat, the temperature controllability inside the cabinet is poor. It is necessary to monitor the temperature inside the cabinet in real time to avoid high temperatures that can easily cause the failure of the tested product and result in losses. The existing temperature measurement technology uses traditional thermocouples for inspection, which have low monitoring efficiency and poor accuracy.

Fiber optic sensing technology for aging cabinets

Ena kena vakatorocaketaki tikoga na kila ni tekinolaji, na nodra gadrevi na tamata me baleta na sensor technology sa tubu cake talega ena veisiga yadua. iVakatakilakila ni kakaseresere e veirauti kei na ituvaki ni kena dau vakilai vakalevu, isau lailai, iwalewale rawarawa ni vakavakarau, ka sega ni dau yaco na tudei vinaka. Ena iwalewale ni kena vakilai kei na kena kilai, na yalomatua kei na tudei sa ka bibi duadua e vakayarayarataki vakamisini, while the preparation process and cost are important influencing factors in industrial production. Ena gauna vata oqori, fiber optic sensors that combine these advantages are receiving increasing attention and favor.

Aging cabinet fluorescent fiber optic temperature measurement system

The aging cabinet fiber optic temperature measurement system can use fluorescent fiber optic temperature sensors. The cost of fluorescent fiber optic sensors is controllable, and single point multi-point temperature monitoring can comprehensively detect the situation of each point of the monitored object, with a large detection range; Secondly, the fiber optic probe is integrated with the signal channel and transmits optical signals. It is resistant to radio frequency and electromagnetic interference, flame and explosion, corrosion, high voltage and strong electromagnetic fields, and radiation, and can work in various harsh environments.

The fiber optic temperature measurement system of the new aging cabinet can accurately measure the temperature of various hotspots inside the aging cabinet by installing 3-point or 6-point sensors ni katakata ni fiber optic inside the cabinet. Fiber optic temperature sensors are arranged inside the cabinet to collect real-time temperature information inside the cabinet; The fluorescent fiber optic temperature sensor ultimately transmits temperature information to the fiber optic temperature measurement transmitter for analysis and calculation, and is ultimately centrally controlled by the controller; After real-time monitoring of temperature information, the controller can adopt control methods such as real-time display and alarm to avoid product failures caused by temperature changes inside the cabinet.

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