OTDR device based on physical random code correlation detection and a measurement method

A technology of physical random codes and photoelectric detectors, applied in electromagnetic wave transmission systems, electrical components, transmission systems, etc., can solve the problems that OTDR spatial resolution and measurement distance cannot be improved at the same time, and the system is complex, so as to solve the problems of resolution and dynamics The range cannot be improved at the same time, the device cost is low, and the effect of increasing cost

Active Publication Date: 2019-05-24
TAIYUAN UNIV OF TECH
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Problems solved by technology

[0010] The purpose of the present invention is to provide an OTDR device and measurement method based on physical random code correlation detection, which is used to solve the defects that the traditional OTDR spatial resolution and measurement distance cannot be improved at the same time, and the defects of several improved method systems are complicated, and the design An OTDR device and measurement method for physical random code correlation detection with high spatial resolution, large dynamic range, and simple structure

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  • OTDR device based on physical random code correlation detection and a measurement method

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Embodiment Construction

[0029] Specific embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0030] Such as figure 1 As shown, an OTDR device based on physical random code correlation detection includes physical random code generator 1, microwave amplifier 2, DFB laser 3, electro-optic phase modulator 4, optical isolator 5, first optical amplifier 6, 1× 2 Fiber coupler 7, variable optical delay line 8, first photodetector 9, oscilloscope 10, optical fiber to be tested 11, optical circulator 12, second optical amplifier 13, second photodetector 14, computer 15.

[0031] Wherein, the outgoing end of physical random code generator 1 is connected with the incident end of microwave amplifier 2; Connect with the optical fiber input end of electro-optical phase modulator 4; The optical fiber output end of electro-optic phase modulator 4 is connected with the incident end of optical isolator 5; The outgoing end of optical isolator 5 is conne...

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Abstract

The invention relates to a distributed optical fiber positioning system, in particular to an OTDR (Optical Time Domain Reflectometer) device and a measurement method based on physical random code correlation detection, and solves the contradiction that the dynamic range and the spatial resolution of a traditional OTDR system cannot be improved at the same time. The device comprises a physical random code generator, a microwave amplifier, a DFB laser, an electro-optical phase modulator, an optical isolator, a first optical amplifier, a 1 * 2 optical fiber coupler, a variable optical delay line,a first photoelectric detector, an oscilloscope, a to-be-detected optical fiber, an optical circulator, a second optical amplifier, a second photoelectric detector and a computer. The system is simple in structure, convenient to operate and low in cost, the spatial resolution is determined by the code width of the physical random code, the problem that the spatial resolution is deteriorated due to the weak period of a chaotic laser signal is avoided, and adjustment of high spatial resolution acquisition is also very convenient.

Description

technical field [0001] The invention is applied to the field of optical fiber detection, relates to a distributed optical fiber positioning system, and is specifically an OTDR device and measurement method based on physical random code correlation detection, which can realize long-distance, high spatial resolution breakpoint or loss measurement. Background technique [0002] At present, optical fiber is mainly used in the field of communication, and as a physical layer transmission medium, the transmission characteristics of optical fiber play a decisive role in communication distance, information capacity and transmission speed. As modern society relies more and more on optical fiber communication technology, incidents of massive losses due to fiber optic cable failures also occur frequently. Therefore, how to quickly and accurately find the specific location and attenuation information of the fault in the optical fiber cable is of great significance in the process of produ...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H04B10/071
Inventor 张建忠李梦文张明江乔丽君王涛张晓程李健
Owner TAIYUAN UNIV OF TECH
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