CN206402230U - Optical assembly, the detecting devices using the optical assembly - Google Patents

Abstract

The application provides a kind of optical assembly, the detecting devices using the optical assembly, to solve in the prior art can not be the problem of remotely detecting to the malfunctions of PON terminals.Specifically, the photodetector detected to the reflection echo of 1490 nano wave length downlink optical signals in PON is added on the basis of existing PON light power meters using the detecting devices of the optical assembly, and provides the device that the optical signal power aggregation of data detected according to upstream ends photodetector, downstream end photodetector and reflection end photodetector determines PON terminal fault states.Application scheme simplifies fault detect flow, realizes quick network failure positioning, improves the intelligent level of fault detect.

Description

Optical assembly, the detecting devices using the optical assembly

Technical field

The application is related to PON technical field, specially a kind of optical assembly, the detecting devices using the optical assembly.

Background technology

Fiber optic communication is the communication mode for transmitting information in optical fiber using light wave, because laser has high direction The remarkable advantages such as property, high coherence, high monochromaticity, the light wave in fiber optic communication is mainly laser, laser-optical fiber is done so being called Communication.The principle of fiber optic communication is：First have to the information (such as voice) of transmission to become electric signal in transmitting terminal, be then modulated to On the laser beam that laser is sent, the intensity of light is set to change with the amplitude (frequency) of electric signal and change, and sent by optical fiber Go out；In receiving terminal, detector receives and electric signal is converted it into after optical signal, demodulated recovery prime information.Fiber optic communication Have become the prevailing transmission means of modern communication networks.

In general, communication network includes backbone network and access network two large divisions.(Fiber To Thex, optical fiber connects FTTx Enter) it is intelligent acess network technology of new generation, for connecting telecom operators and terminal user.FTTx network can be active Fiber optic network (Active Optical Network, AON) or passive optical-fiber network (Passive Optical Network, PON), because the cost of Active Optical Fiber network is of a relatively high, using seldom actually in access network, so at present Generally signified FTTx network applications is all passive optical-fiber network.FTTx network structure can be that point-to-point (P2P) also may be used To be point-to-multipoint (P2MP), P2P cost is higher, is generally only used for VIP user or has the user of specific demand, most FTTx networks use P2MP structure.

PON technologies are the FTTx (Fiber To The x, intelligent acess) generally acknowledged in the industry at present best solutions, PON is positioned at " last one kilometer " often said, that is, service provider, telecommunications local side and commercial user or domestic consumer it Between solution, this technology can make multiple users to share simple optical fibers, so that ODN (Optical Distribution Network, optical distribution network) in need not use other active devices, that is, do not need light-electricity-light Conversion, the point-to-multipoint framework of this list greatly reduces network installation, management and maintenance cost.

In PON installation and debugging work, the not only construction of early stage field wiring, installation, or later maintenance, detection are all needed Detect, analyze and determine the various states of optical terminus, such as the optical modem of user's family whether normal work, whether there is under Whether row signal, optical modem shut down, optical modem whether abnormal failure, user's family bending loss of optical fiber mistake Greatly, optical fiber head comes off.At present, confirm that malfunction is required for construction maintenance personnel to enter and investigated in access customer man, it is impossible to Realize in the long-range detection of (such as in corridor) to user's PON SOT states of termination.

Currently, in the fault detect of PON using it is most popular be PON light power meters, PON light power meters are used to detect Up 1310 nano wave length optical signal and descending 1490 nano wave length, the intensity of 1550 nano wave length optical signals, its main application Be detection PON, system, communication whether normal work.

Fig. 1 shows the core optical assembly of the PON light power meters of prior art, the PON light power meter core optical assembly bags Upstream ends optical fiber interface 1, broadband optical splitter 2, downstream end optical fiber interface 3, upstream ends photodetector 4 and downstream end photoelectricity is included to visit Survey device 5.

Upstream ends optical fiber interface 1 is the SC/PC fibre-optical splices of user's optical fiber, for concatenating ONT Optical Network Terminal (i.e. ONT) Or the input of optical network unit (i.e. ONU), user's optical signals enter PON light power meters by upstream ends optical fiber interface 1； Downstream end optical fiber interface 3 is the SC/PC fibre-optical splices of network side optical, the output end for concatenating optical line terminal (i.e. OLT), Network optical signals enter PON light power meters by downstream end optical fiber interface 3.

Broadband optical splitter 2 includes 2 uplink optical fibers interfaces and 2 downlink optical fiber interfaces, is connect respectively with upstream ends optical fiber Mouthful 1, downstream end optical fiber interface 3, upstream ends photodetector 4 and downstream end photodetector 5 are attached, for realize by Row/downlink optical signal is divided into two-way, respectively enters network side/user's optical fiber and upstream ends/downstream end photodetector.

The power that upstream ends photodetector 4 is used to detect the 1310 nano wave length optical signals transmitted from upstream ends is strong Degree, downstream end photodetector 5 is used to detect 1490 nano wave lengths transmitted from downstream end and 1550 nano wave length light letter Number power level.

Fig. 2 shows the PON light power meters of prior art, and liquid crystal display is added outside above-mentioned core optical assembly (i.e. LCD) is used for the power data for showing the uplink and downlink optical signal that PON is detected.

But PON light power meters do not possess the ability judged PON terminal unit status, such as the following two kinds Scene：Optical fiber is not attached to optical terminus and optical terminus shutdown, and the testing result of PON light power meters is all to be not detected by 1310 nanometers Wavelength uplink optical signal, it is clear that the state of both optical terminus cannot be distinguished by for PON light power meters.

Utility model content

The purpose of the application is to provide a kind of optical assembly, the detecting devices using the optical assembly, existing to solve The problem of which kind of network failure state is PON terminals be in can not be remotely judged in technology.

To achieve the above object, this application provides a kind of optical assembly, described optical assembly, including broadband optical splitter, on Row end photodetector, downstream end photodetector, upstream ends optical fiber interface and downstream end optical fiber interface, the upstream ends optical fiber Interface is connected with the uplink optical fibers interface of the broadband optical splitter, under the downstream end optical fiber interface and the broadband optical splitter Row optical fiber interface is connected, and the downstream end photodetector is connected with the downlink optical fiber interface of the broadband optical splitter, the light Component also includes reflection end photodetector and wavelength division multiplexer, uplink optical fibers interface and the wavelength-division of the broadband optical splitter The input connection of multiplexer, the output end of the wavelength division multiplexer respectively with the upstream ends photodetector and the reflection Hold photodetector connection.

Further, the broadband optical splitter includes 2 uplink optical fibers interfaces and 2 downlink optical fiber interfaces.

Further, the splitting ratio of described broadband optical splitter is between 30:70 to 5:Between 95.

Further, the reflection echo loss that described downstream end photodetector is produced to downlink optical signal is more than the 8th Threshold value.

Present invention also provides a kind of detecting devices using the optical assembly, the equipment includes：Decision maker and light Component, the decision maker is used for upstream ends photodetector, downstream end photodetector and reflection according to the optical assembly The detection data of end photodetector is judged, determines PON terminal network states；The optical assembly, including broadband optical splitter, Upstream ends photodetector, downstream end photodetector, upstream ends optical fiber interface and downstream end optical fiber interface, the upstream ends light Fine interface is connected with the uplink optical fibers interface of the broadband optical splitter, the downstream end optical fiber interface and the broadband optical splitter Downlink optical fiber interface is connected, and the downstream end photodetector is connected with the downlink optical fiber interface of the broadband optical splitter, described Optical assembly also includes reflection end photodetector and wavelength division multiplexer, uplink optical fibers interface and the ripple of the broadband optical splitter The input connection of division multiplexer, the output end of the wavelength division multiplexer respectively with the upstream ends photodetector and described anti- Penetrate end photodetector connection.

Further, the detecting devices also includes display device, for showing the PON terminal networks state.

Compared with prior art, the technical scheme of the application is added to PON nets on the basis of existing PON light power meters The photodetector that the reflection echo of 1490 nano wave length downlink optical signals is detected in network, and there is provided according to upstream ends light The optical signal power aggregation of data that electric explorer, downstream end photodetector and reflection end photodetector are detected determines PON The device of terminal fault state.Whether application scheme solves existing PON light power meters and can only detect network system and communicate The deficiency of normal work, simplifies fault detect flow, realizes quick network failure positioning, improves the intelligence of fault detect Level can be changed.Application scheme creatively solves construction maintenance personnel can not judge PON terminal without registering one's residence and checking The problem of failure, it is to avoid a variety of losses brought because needs are registered one's residence and checked and engineering extension, develop in PON extremely fast Violent coming years, with great market value.

Brief description of the drawings

By reading the detailed description made to non-limiting example made with reference to the following drawings, the application's is other Feature, objects and advantages will become more apparent upon：

Fig. 1 is the structural representation of the PON light power meter core optical assemblies of prior art；

Fig. 2 is the structural representation of the PON light power meters of prior art；

The structural representation for the optical assembly that Fig. 3 provides for the embodiment of the present application；

The structural representation of the detecting devices for the use optical assembly that Fig. 4 is provided for the embodiment of the present application；

Description of reference numerals：1st, upstream ends optical fiber interface, 2, broadband optical splitter, 3, downstream end optical fiber interface, 4, upstream ends Photodetector, 5, downstream end photodetector, 6, reflection end photodetector, 7, wavelength division multiplexer.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is carried out clear, complete Site preparation is described, it is clear that described embodiment is only some embodiments of the present application, rather than whole embodiments.It is based on Embodiment in the application, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of the application protection.

Fig. 3 shows the optical assembly that the embodiment of the present application is provided, and the optical assembly includes upstream ends optical fiber interface 1, broadband point Light device 2, downstream end optical fiber interface 3, upstream ends photodetector 4 and downstream end photodetector 5, in addition to reflection end photoelectricity are visited Device 6 and wavelength division multiplexer 7 are surveyed, the upstream ends optical fiber interface 1 is connected with the uplink optical fibers interface of the broadband optical splitter 2, institute The downlink optical fiber interface that downstream end optical fiber interface 3 is stated with the broadband optical splitter 2 is connected, the downstream end photodetector 5 with The downlink optical fiber interface connection of the broadband optical splitter 2, uplink optical fibers interface and the wavelength-division multiplex of the broadband optical splitter 2 The input connection of device 7, the output end of the wavelength division multiplexer 7 respectively with the upstream ends photodetector 4 and the reflection End photodetector 6 is connected.

The reflection end photodetector 6 is used to detect that 1490 nano wave length downlink optical signals are produced on optical terminal equipment The power level of echo.The wavelength of optical signal that regulation is used in fiber to the home network only have three kinds, i.e., 1310 nanometer, 1490 nanometers With 1550 nanometers, wherein 1310 nanometers of wavelength that to be uplink optical signal use, it is impossible to be used in the echo detecting of downlink optical signal, 1490 nanometers and 1550 nanometers are wavelength that downlink optical signal can be used, may be without using 1550 nanometers in actual track The optical signal of wavelength and cause no reflection echo, and the optical signal of 1490 nano wave lengths is the descending light letter for being bound to use Number, therefore reflection echo signal is obtained using the detection to 1490 nano wave length downlink optical signals.

The wavelength division multiplexer 7 is used to believe 1310 nano wave length uplink optical signals and the descending echo light of 1490 nano wave lengths Number separated.

Described upstream ends optical fiber interface 1 and downstream end photodetector 5 all can be to 1490 nano wave length downlink optical signals Reflection echo is produced, and the 1490 nano wave length echoes that downstream end photodetector 5 is produced are an interference sources, the reflection echo Can being routed to along 5-broadband of downstream end photodetector optical splitter 2-wavelength division multiplexer, 7-reflection end photodetector 6 Up to reflection end photodetector 6, so as to produce interference to the detection data of reflection end photodetector 6.Therefore, it is anti-in order to reduce The energy of ripple is emitted back towards, it is necessary to control 1490 nano wave length downlink optical signal reflection echos of the generation of downstream end photodetector 5 Loss is more than 50 decibels, so can guarantee that the 1490 nano wave length reflection echos that reflection end photodetector is detected are derived from Upstream ends optical fiber interface 1, rather than from downstream end photodetector 5.Therefore, the value of the 8th described threshold value is generally 50dB。

Delustring processing is carried out to described downstream end photodetector 5 can reduce the anti-of the 1490 nano wave length echoes produced Power is penetrated, can be to plate anti-reflection film and/or in coupling on downstream end photodetector 5 in device coupling process by the way of Adjustment coupling angle during conjunction.On the detector after plating anti-reflection film, the power of transmission can be increased, reflection power is reduced；Coupling Adjustment coupling angle, can reduce the reflection of echo during conjunction.

The splitting ratio recommended range of the broadband optical splitter 2 is 30:70 to 5：95 are advisable.Typically, it is contemplated that avoid The test equipment influence big to the generation of practical communication link, therefore 10:90 can be an optimal selection, because this ratio is taken into account Less insertion loss (for communication link) and appropriately sized detection power.

The major avenues of approach of optical signal is 3-broadband of downstream end optical fiber interface point in the optical assembly of described PON state Light 2-upstream ends of device optical fiber interface 1, is the main road part of the broadband optical splitter 2 of big splitting ratio, it is ensured that relatively low insertion is damaged Consumption, has ensured normal fiber optic communication work.

In the optical assembly of described PON state the downstream end detection path of optical signal be downstream end optical fiber interface 3- Broadband 2-downstream end of optical splitter photodetector 5, the 90% of 1490 nano wave length downlink optical signals of downstream end pass through upstream ends Optical network unit, the only 10% defeated detector 5 for having arrived downstream end are output to, the detector is used for the light for detecting descending 1490nm Power level, the return loss that downstream end photodetector 5 is more than 50dB is designed, and effectively eliminates the detector echo to light net The influence of network elementary echo.

In the optical assembly of described PON state the upstream ends detection path of optical signal be upstream ends optical fiber interface 1- Broadband optical splitter 2-wavelength division multiplexer, 7-upstream ends photodetector 4, the path is same to send into 90% uplink optical signal In communication network, 10% uplink optical signal energy is only taken to be used to detect, because upstream ends optical fiber interface 1 has accessed optical-fiber network list Member, so when the path of broadband 2-wavelength division multiplexer of optical splitter 7 optical signal in, the up light splitting letter of existing 1310 nano wave length Number, also there are the descending echo optical signal of 1490 nano wave lengths, broadband optical splitter 2-wavelength division multiplexer, 7-upstream ends photodetection The path of device 4 takes out the uplink optical signal of 1310 nano wave length therein by wavelength division multiplexer 7, and sends into the spy of upstream ends photoelectricity Device 4 is surveyed to be detected.

In the optical assembly of described PON state the reflection end detection path of optical signal be upstream ends optical fiber interface 1- Broadband optical splitter 2-wavelength division multiplexer, 7-reflection end photodetector 6, the path is by 1490 nano wave length downlink optical signals Echo reflection signal feeding reflection end photodetector 6 is detected.

Fig. 4 shows the detecting devices of the use of the embodiment of the present application offer optical assembly, and the detecting devices includes：Light group Part, decision maker and display device.

Described optical assembly is used to detect PON data.

Described decision maker be used for according to the upstream ends photodetector of the optical assembly, downstream end photodetector and The detection data of reflection end photodetector is judged, determines PON terminal network states, is to the PON terminal networks shape The one kind for the method that state judges is implemented.

Described display device is used to show the PON terminal networks state, and a kind of feasible display device is liquid crystal Show device (Liquid Crystal Display, LCD).

The detecting devices of the use optical assembly provided using the embodiment of the present application, can produce PON terminal test Instrument, as long as the network side optical in optical cable case in corridor to be inserted to the downstream end optical fiber interface of instrument, user's optical fiber is inserted Enter the upstream ends optical fiber interface of instrument, you can the state to PON terminals optical network unit or ONT Optical Network Terminal is analyzed and sentenced It is fixed.

Compared with prior art, the technical scheme of the application is added to PON nets on the basis of existing PON light power meters The photodetector that the reflection echo of 1490 nano wave length downlink optical signals is detected in network, and there is provided according to upstream ends light The optical signal power aggregation of data that electric explorer, downstream end photodetector and reflection end photodetector are detected determines PON The device of terminal fault state.Whether application scheme solves existing PON light power meters and can only detect network system and communicate The deficiency of normal work, simplifies fault detect flow, realizes quick network failure positioning, improves the intelligence of fault detect Level can be changed.Application scheme creatively solves construction maintenance personnel can not judge PON terminal without registering one's residence and checking The problem of failure, it is to avoid a variety of losses brought because needs are registered one's residence and checked and engineering extension, develop in PON extremely fast Violent coming years, with great market value.

Here, it will be appreciated by those skilled in the art that the regular job of the noun of locality is binding operation person and user are practised Used and Figure of description and set up, their appearance should not influence the protection domain of the application.

The application is described in detail above in association with accompanying drawing embodiment, those skilled in the art can be according to upper State it is bright the application is made many variations example.Thus, some of embodiment details should not constitute the restriction to the application, this Protection domain of the scope that application will be defined using appended claims as the application.

Claims (6)

1. a kind of optical assembly, including broadband optical splitter, upstream ends photodetector, downstream end photodetector, upstream ends optical fiber Interface and downstream end optical fiber interface, the upstream ends optical fiber interface are connected with the uplink optical fibers interface of the broadband optical splitter, institute The downlink optical fiber interface that downstream end optical fiber interface is stated with the broadband optical splitter is connected, the downstream end photodetector with it is described The downlink optical fiber interface connection of broadband optical splitter, wherein, the optical assembly also includes reflection end photodetector and wavelength-division multiplex Device, the uplink optical fibers interface of the broadband optical splitter is connected with the input of the wavelength division multiplexer, the wavelength division multiplexer Output end is connected with the upstream ends photodetector and the reflection end photodetector respectively.

2. optical assembly according to claim 1, wherein, described broadband optical splitter includes 2 uplink optical fibers interfaces and 2 Downlink optical fiber interface.

3. optical assembly according to claim 1 or 2, wherein, the splitting ratio of described broadband optical splitter is between 30:70 to 5: Between 95.

4. optical assembly according to claim 1 or 2, wherein, described downstream end photodetector is produced to downlink optical signal Raw reflection echo loss is more than the 8th threshold value.

5. a kind of detecting devices using the optical assembly, wherein, the detecting devices includes：

Optical assembly any one of Claims 1-4；

Decision maker, for the upstream ends photodetector according to the optical assembly, downstream end photodetector and reflection end light The detection data of electric explorer is judged, determines PON terminal network states.

6. detecting devices according to claim 5, wherein, the detecting devices also includes：

Display device, for showing the PON terminal networks state.