Abstract
The parameters affecting the stability of Raman backscattering optical fiber temperature fire alarm systemwere analyzed, and methods to improve stability were applied. A new wavelength division multiplier (WDM) was used to extract the Raman scattering signal from a data fiber, which can reduce peak insertion loss and increase isolation significantly. Measures were taken to keep APD (avalanche photo diode) working at a constant temperature and at a low reverse voltage so as to maintain the avalanche multiplication at a constant gain. A special data acquisition card for Raman signal processing was adopted to improve time resolution. The result shows that the stability of the system was improved with the application of these measures.
Abstract
The parameters affecting the stability of Raman backscattering optical fiber temperature fire alarm systemwere analyzed, and methods to improve stability were applied. A new wavelength division multiplier (WDM) was used to extract the Raman scattering signal from a data fiber, which can reduce peak insertion loss and increase isolation significantly. Measures were taken to keep APD (avalanche photo diode) working at a constant temperature and at a low reverse voltage so as to maintain the avalanche multiplication at a constant gain. A special data acquisition card for Raman signal processing was adopted to improve time resolution. The result shows that the stability of the system was improved with the application of these measures.
Open Access
JUSTC
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