CN205681419U - Optical module multichannel automatization device for adjusting and measuring - Google Patents

Abstract

This utility model openly one optical module multichannel automatization regulating and measuring system, including light emission module debugging apparatus and Optical Receivers device for adjusting and measuring；Light emission module debugging apparatus includes multichannel debugging board, multichannel debugging board adaptation at least two is by mode transfer block, photoswitch A is connected by mode transfer block, photoswitch A connects the input of optical branching device, two outfans of optical branching device connect light power meter and oscillograph respectively, connect light power meter and oscillograph is all connected with computer A, computer A Connection Service device, multichannel debugging board and Error Detector A, Error Detector A connecting multi-channel debugging board；Optical Receivers device for adjusting and measuring includes multichannel commissioning plate, multichannel commissioning plate adaptation at least two, by commissioning module, is connected photoswitch B, photoswitch B by commissioning module and connects light source, multichannel commissioning plate connects computer B, described computer B Connection Service device and Error Detector B.This utility model can improve the commissioning efficiency of optical module.

Description

Optical module multichannel automatization device for adjusting and measuring

Technical field

This utility model relates to optical communication field, particularly relates to a kind of optical module multichannel automatization device for adjusting and measuring.

Background technology

Along with the demand of high quality communication service drastically increases, the optical module demand in optical communication system is also increased dramatically.

The debugging main project of optical module includes:

1, products configuration information (chip configuration), producer and protocol information write and verification；

2, TX end: launch luminous power, extinction ratio；

3, RX end: the most just APD part is carried out fast electric pressure point setting；

4, calibration DDM module monitors amount (includes module temperature, supply voltage, Bias electric current, launches luminous power, connect automatically Receive luminous power)；

System test parameter includes:

1, luminous power is launched, extinction ratio, eye pattern magin, spectrum, launch the parameters such as shutoff；

2, receiving sensitivity, receives alarm, receives and goes the parameters such as alarm；

3, DDM monitoring parameter precision, blocks current etc.；

Wherein time-consuming amount is big, loaded down with trivial details, and the most operation of equipment utilization is receiving end debugging, debugging of making a start, and receiving end test is made a start Test.Therefore, production efficiency is improving in optical module production firm, reduces and produces equipment cost and cost of labor, improving product product The aspects such as matter have urgent demand.

Utility model content

This utility model aims to provide a kind of optical module multichannel automatization regulating and measuring system, it is possible to increase the commissioning of optical module Efficiency.

For reaching above-mentioned purpose, this utility model realizes by the following technical solutions:

Optical module multichannel automatization regulating and measuring system disclosed in this utility model, including light emission module debugging apparatus and light Receiver module device for adjusting and measuring；Described light emission module debugging apparatus includes multichannel debugging board, and described multichannel debugging board is adaptive At least two by mode transfer block, described connected photoswitch A, described photoswitch A by mode transfer block and connects the input of optical branching device, described Two outfans of optical branching device connect light power meter and oscillograph respectively, and described connection light power meter and oscillograph are all connected with meter Calculation machine A, described computer A Connection Service device, multichannel debugging board and Error Detector A, described Error Detector A connecting multi-channel is debugged Plate；Described Optical Receivers device for adjusting and measuring includes multichannel commissioning plate, and described multichannel commissioning plate adaptation at least two is by commissioning Module, described connected photoswitch B, described photoswitch B by commissioning module and connects light source, multichannel commissioning plate connection computer B, institute State computer B Connection Service device and Error Detector B.

Preferably, described photoswitch A, photoswitch B are 1*N photoswitch.

Preferably, described by mode transfer block, be 8 by commissioning module.

Preferably, described photoswitch A, photoswitch B are 1*8 photoswitch.

Preferably, described optical branching device is 1*2 optical branching device.

The beneficial effects of the utility model are as follows:

1,1/4 (most 8 tunnels) before operator's plug-in module and optical fiber number of times are only, such operator can be with 1 to many Operation is greatly improved commissioning efficiency, reduces labor intensity；

2, improve utilization rate of equipment and installations, reduce operator's quantity.

Accompanying drawing explanation

Fig. 1 is the theory diagram of light emission module debugging apparatus；

Fig. 2 is the theory diagram of Optical Receivers device for adjusting and measuring；

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, to this reality It is further elaborated with novel.

As shown in Figure 1 and Figure 2, optical module multichannel automatization regulating and measuring system disclosed in this utility model, including light emission mould Block debugging apparatus and Optical Receivers device for adjusting and measuring；Light emission module debugging apparatus includes multichannel debugging board, and multichannel is debugged Plate adaptation at least two, by mode transfer block, is connected photoswitch A, photoswitch A by mode transfer block and connects the input of optical branching device, light branch Two outfans of device connect light power meter and oscillograph respectively, connect light power meter and oscillograph is all connected with computer A, calculate Machine A Connection Service device, multichannel debugging board and Error Detector A, Error Detector A connecting multi-channel debugging board；Optical Receivers commissioning fills Putting and include multichannel commissioning plate, multichannel commissioning plate adaptation at least two, by commissioning module, is connected photoswitch B by commissioning module, Photoswitch B connects light source, and multichannel commissioning plate connects computer B, computer B Connection Service device and Error Detector B.

Wherein, photoswitch A, photoswitch B all use 1*N photoswitch, preferably 1*8 photoswitch；Optical branching device uses 1*2 light Shunt；By mode transfer block, it is 8 by commissioning module.

Certainly, this utility model also can have other various embodiments, spiritual and essence without departing substantially from this utility model In the case of, those of ordinary skill in the art can make various corresponding change and deformation according to this utility model, but these phases Change and the deformation answered all should belong to the scope of the claims appended by this utility model.

Claims (5)

1. optical module multichannel automatization regulating and measuring system, it is characterised in that: include light emission module debugging apparatus and light-receiving mould Block device for adjusting and measuring；Described light emission module debugging apparatus includes multichannel debugging board, described multichannel debugging board adaptation at least two Individual by mode transfer block, the described input being connected photoswitch A, described photoswitch A connection optical branching device by mode transfer block, described smooth branch Two outfans of device connect light power meter and oscillograph respectively, and described connection light power meter and oscillograph are all connected with computer A, Described computer A Connection Service device, multichannel debugging board and Error Detector A, described Error Detector A connecting multi-channel debugging board；Described Optical Receivers device for adjusting and measuring includes multichannel commissioning plate, and described multichannel commissioning plate adaptation at least two is by commissioning module, institute Stating and connected light source by commissioning module connection photoswitch B, described photoswitch B, multichannel commissioning plate connects computer B, described calculating Machine B Connection Service device and Error Detector B.

Optical module the most according to claim 1 multichannel automatization regulating and measuring system, it is characterised in that: described photoswitch A, light Switch B is 1*N photoswitch.

Optical module the most according to claim 1 multichannel automatization regulating and measuring system, it is characterised in that: described by mode transfer block, It is 8 by commissioning module.

Optical module the most according to claim 3 multichannel automatization regulating and measuring system, it is characterised in that: described photoswitch A, light Switch B is 1*8 photoswitch.

Optical module the most according to claim 1 multichannel automatization regulating and measuring system, it is characterised in that: described optical branching device is 1*2 optical branching device.