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A passive wave division replication network optical fiber failure detection system and its detection method

A technology of optical fiber fault detection and wavelength division multiplexing, which is applied in wavelength division multiplexing systems, optical multiplexing systems, multiplexing system selection devices, etc., can solve technical false alarms, detection misjudgments, and accuracy To achieve the effect of no false alarm fault discrimination and wide gain spectrum

Active Publication Date: 2022-08-05
TAIYUAN UNIV OF TECH
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Problems solved by technology

[0004] However, when the above-mentioned technology is used for fault detection of optical fiber, the chaotic laser band generated by optical feedback has "side lobes" (that is, the length information fed back from the external cavity), which will cause detection misjudgment, which is limited by the modulation depth of electrical modulation. The bandwidth of the generated chaotic laser is too narrow to achieve higher-precision fault location; therefore, it is necessary to invent a high-precision optical fiber fault detection system based on WDM-POM to solve the false alarm (false alarm) of the existing chaotic optical time domain reflectometer technology. Judgment), the problem of short distance and poor accuracy

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  • A passive wave division replication network optical fiber failure detection system and its detection method
  • A passive wave division replication network optical fiber failure detection system and its detection method
  • A passive wave division replication network optical fiber failure detection system and its detection method

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Embodiment Construction

[0050] like figure 1 As shown, the present invention is a passive wavelength division multiplexing network optical fiber fault detection system, comprising a chaotic laser generator (1), a signal output end of the chaotic laser generator (1) and a first optical circulator (2) The second input end of the first optical circulator (2) is connected in series with the optical isolator (3) and then connected with the input end of the first fiber coupler (4); the first fiber coupling The first output end of the device (4) is serially connected to the polarization controller (5) and the optical attenuator (6) in sequence and then connected to the input end of the phase modulator (7), and the output end of the phase modulator (7) is connected to the input end of the phase modulator (7). The first input ends of the first optical circulator (2) are connected;

[0051] The modulation interface of the phase modulator (7) is also connected with a random signal generator (8);

[0052] The ...

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Abstract

The present invention is a passive wavelength division multiplexing network optical fiber fault detection system and a detection method thereof, belonging to the technical field of passive wavelength division multiplexing network optical fiber fault detection systems; the technical problem to be solved is: to provide a passive wavelength division multiplexing network optical fiber fault detection system. The improvement of the structure of the optical fiber fault detection system and the detection method using the network; the technical scheme adopted to solve the technical problem is: including a chaotic laser generator, the signal output end of the chaotic laser generator is connected with the second input end of the first optical circulator The signal output end of the first optical circulator is connected in series with the optical isolator and then connected with the input end of the first fiber coupler; The input end of the modulator is connected, the output end of the phase modulator is connected with the first input end of the first optical circulator; the modulation interface of the phase modulator is also connected with a random signal generator; the invention is applied to optical fiber fault detection.

Description

technical field [0001] The present invention is a passive wavelength division multiplexing network optical fiber fault detection system and a detection method thereof, belonging to the technical field of passive wavelength division multiplexing network optical fiber fault detection systems. technical background [0002] Optical fiber fault detection is carried out by using a passive wavelength division multiplexing network (Wavelength-division-multiplexing passive optical network, referred to as WDM-PON), which mainly uses wavelength-tunable optical pulse technology [Optics Express, vol.15, pp.1461-1466 , 2007; IEEE Photonics Technology Letters, vol.20, pp.1323-1325, 2008] and chaotic optical time domain reflectometer technology [Journal of LightwaveTechnology, vol.30, no.21, pp.3420-3426, 2012; Optical Fiber Technology,vol.20,pp.163-167,2014,Optics Communications,vol.350,pp.288-295,2015;OpticalLetters,vol.38,pp.3762-3764,2015;Optics Express,vol.23 , pp.2416-2423, 2015], co...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H04B10/071H04B10/079H04J14/02H04Q11/00
CPCH04B10/071H04B10/0791H04J14/0227H04Q11/0067H04Q2011/0083
Inventor 韩红王大铭张建国王安帮李凯凯贾志伟王龙生赵彤
Owner TAIYUAN UNIV OF TECH
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