Acoustic Sensing with Correlation and Coherent Detection using an Integrated Coherent Transceiver
Konferenz: Photonische Netze - 24. ITG-Fachtagung
09.05.2023-10.05.2023 in Berlin
Tagungsband: ITG-Fb. 310: Photonische Netze
Seiten: 4Sprache: EnglischTyp: PDF
Autoren:
Sandmann, Andre; Azendorf, Florian; Alnairat, Saif; Eiselt, Michael (ADTRAN, Meiningen, Germany)
Inhalt:
Fiber optic sensing is becoming an important means to physically secure today’s network infrastructure. However, a network-wide deployment of the monitors will require cost reduction of the interrogator system, which can only be achieved by highly integrated system components. In this contribution, we report on the use of an in-house designed single-chip coherent transceiver for acoustic fiber sensing. The transceiver on the basis of silicon photonics contains a high-speed dual-polarization IQ-modulator as well as a coherent receiver with balanced photodiodes and trans-impedance amplifiers, as defined by the OIF integrated coherent transmit-receive optical sub assembly (IC-TROSA) implementation agreement. The laser, used for transmission and as local oscillator, is provided external to the photonic integrated circuit and can be chosen according to the line-width requirements of the sensing system. The acoustic sensing demonstration is using a correlation-based optical time domain reflectometry with coherent detection. This method is able to detect, besides the amplitude information, the phase of the back-scattered signal, which has a significantly higher sensitivity to environmental effects on the fiber, like temperature and strain. As a proof of concept, sensing of an acoustic signal after a fiber span of 20 km is demonstrated by evaluating the obtained phase information, providing information on external dynamic events up to a frequency of 1.75 kHz.