siostam tomhais teòthachd fibre optic utilizes the characteristics of fiber optic fluorescence temperature measurement, which is immune to electromagnetic radiation fields, to accurately measure the temperature of the object to be heated in the microwave cavity in ultra-high frequency, strong electromagnetic field, and heavy interference environments; And accurate temperature measurement was achieved through the probe of the fluorescent temperature sensor." />

Neach-dèanamh de Sensor Teòthachd Fibre Optic, Siostam sgrùdaidh teòthachd, Proifeiseanta OEM/ODM Factaraidh, Slàn-reicear, Supplier.customized.

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Uidheam ath-shuidheachadh magnetach dìonach bho eadar-theachd electromagnetic Sensor Teòthachd Fibre Optic

Uidheam ath-shuidheachadh magnetach dìonach bho eadar-theachd electromagnetic Sensor Teòthachd Fibre Optic Uidheam ath-shuidheachadh magnetach dìonach bho eadar-theachd electromagnetic Sensor Teòthachd Fibre Optic

Microwave belongs to ultra-high frequency electromagnetic waves and has a strong electromagnetic field. When using conventional temperature sensors (such as thermocouples, PT100 thermoelectric resistors, etc.) for temperature measurement, metal temperature probes and wires generate induced currents under the high-frequency electromagnetic field, causing serious interference to the accuracy and stability of temperature measurement, resulting in temperature value errors or unstable temperature measurement. Uime sin, the fluorescence fiber temperature measurement system independently developed by Fuzhou INNO is a non-interference temperature sensor in the microwave field. The microwave siostam tomhais teòthachd fibre optic utilizes the characteristics of fiber optic fluorescence temperature measurement, which is immune to electromagnetic radiation fields, to accurately measure the temperature of the object to be heated in the microwave cavity in ultra-high frequency, strong electromagnetic field, and heavy interference environments; And accurate temperature measurement was achieved through the probe of the fluorescent temperature sensor. Fiber optic temperature sensors are inherently safe, resistant to strong electromagnetic interference, have good electrical insulation, stable performance, strì an aghaidh creimeadh, and long service life; High temperature measurement accuracy, wide temperature measurement range, and flexible configuration of temperature measurement channels; Easy installation, flexible networking, standardized data transmission, high cost-effectiveness, and stable quality; The preferred product for temperature monitoring of high-frequency and microwave equipment.

Sensor teòthachd fibre optic, Siostam sgrùdaidh tuigseach, Neach-dèanamh fibre optic air a chuairteachadh ann an Sìona

Tomhas teòthachd fluorescent fibre optic Inneal tomhais teòthachd flùraiseach fibre optic Siostam tomhais teòthachd fibre optic fluorescence sgaoilte

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