CN202679371U - Optical network unit optical assembly with optical time domain reflection function - Google Patents

Abstract

The utility model provides an optical network unit optical assembly with an optical time domain reflection function. The optical network unit optical assembly comprises a laser for emitting uplink light, a photoelectric detector for receiving downlink light, a reflection part for reflecting a light time domain detection signal, a first light filter used for completely transmitting the uplink light and the downlink light and completely or partially reflecting the light time domain detection signal, a second light filter used for completely transmitting the unlink light and completely reflecting the downlink light, and a light interface used for being externally connected with an optical fiber, wherein the first light filter and the second light filter are aslant arranged, one surface of the first light filter faces towards the reflection part and the light interface, the other surface of the first light filter faces towards the photoelectric detector, one surface of the second light filter faces towards the laser, the other surface of the second light filter faces towards the photoelectric detector, one surface of the reflection part is a curved reflection surface, and the curved reflection surface faces towards the first light filter. Through integrating the reflection part with a reflection function for the light time domain detection signal in the optical assembly, yield and reliability are improved and volume is reduced.

Description

Optical network unit optical assembly with time domain reflection function

Technical field

The utility model relates to technical field of optical fiber communication, particularly relates to a kind of optical network unit optical assembly with time domain reflection function.

Background technology

In recent years, based on FTTx(FTTH, the FTTB of optical fiber communication, FTTC etc.) broadband network relies on it can be for the user provide voice, data and Video service at a high speed, and be able to fast development.But operator is to user's supervision and the detection and localization of optical network link case point, contradiction.At present, in the process that the optical network unit (ONU) as user side is detected, mainly be to identify by user's data traffic as the optical line terminal (OLT) of local side, can not locate accurately and monitor the user.And optical time domain reflectometer (OTDR) adopts the method for time domain measurement, emission has the light pulse of certain wavelength and injects tested optical fiber, then by the Rayleigh scattering returned in the detection fiber and the Fresnel reflection optical signal power distribution curve along time shaft, can find out the physical characteristics such as the length of tested optical fiber and loss.Simultaneously, utilize the powerful data analysis function of optical time domain reflectometer, can also realize accurately location to the case point in the optical fiber link and fault point; Also can form database in the future operator's on-line monitoring test, be convenient in the maintenance fibre circuit is carried out true of quality and trouble shoot etc.Therefore, utilizing optical time domain reflectometer that detection and location are carried out in the fault point in the fibre circuit and user side, is the test mode that generally adopts at present.But, existing user side module, reflection to the OTDR detection signal of local side on designs does not explicitly call for, device is unfixing and clear and definite to the reflection of OTDR detection signal, therefore accidentalia when the different user end depends on device package fully to its OTDR detection signal reflection power, causes most of monitoring and line fault to judge inaccurate, error is large, the situation such as erroneous judgement often occurs and fail to judge.In order to realize that optical communication network system is carried out Real Time Monitoring, need to adopt the monitoring of OTDR time domain reflection technology and location optical-fiber network breakpoint.In order to realize this technology, traditional approach is to utilize merely traditional optically flat filter to realize the reflection and transmission of multi-wavelength signals.Its shortcoming is, realizes the reflection and transmission of multi-wavelength will causing the plated film complexity of Thin Film Filter sharply to increase at single filter, and when cost increased, reflection and transmission efficient also was affected; If adopt the combining form of filter, the optical assembly construction packages already becomes increasingly complex, and affects the miniaturization of device, affects simultaneously fabrication yield and the reliability of whole optical assembly.

Summary of the invention

The utility model embodiment provides a kind of optical network unit optical assembly with time domain reflection function, to solve the problem that the optical assembly rate of finished products is low, reliability is low in the prior art, realize improving rate of finished products and the reliability of the optical network unit optical assembly with time domain reflection function, and dwindle the volume of the optical network unit optical assembly with time domain reflection function.

The utility model provides a kind of optical network unit optical assembly with time domain reflection function, comprising: be used for launching up light laser, be used for receiving descending light photodetector, be used for reverberation time domain detection signal reflection part, be used for to up light and the complete transmission of descending light and to the first filter of all or part of reflection of light time territory detection signal, be used for the second filter that reflects fully to the complete transmission of up light and to descending light and the optical interface that is used for external optical fiber; Described the first filter and described the second filter plate are obliquely installed, one surface of described the first filter is towards described reflection part and described optical interface, another surface of described the first filter is towards described photodetector, one surface of described the second filter is towards described laser, another surface of described the second filter is towards described photodetector, one surface of described reflection part is curved-surface reflection side, and described camber reflection is facing to described the first filter.

The optical network unit optical assembly with time domain reflection function that the utility model provides, reflection part by integrated reflection function to light time territory detection signal in optical assembly, and a surface of reflection part is set to curved-surface structure, the curved-surface structure of reflection part has the ability that converges light time territory detection signal, can strengthen the energy of light time territory detection signal back light network, avoided utilizing merely the filter technology on plane to realize the plated film complexity that the reflection and transmission of multi-wavelength signals exists, cost increases, original up and downlink optical signal is subjected to the problem of certain influence, improve rate of finished products and the reliability of the optical network unit optical assembly with time domain reflection function, and dwindled the volume of the optical network unit optical assembly with time domain reflection function.

Aforesaid optical network unit optical assembly with time domain reflection function, the optical axis of described laser and the optical axis of described optical interface are located along the same line, angle between the optical axis of described the first filter and described optical interface is 45 degree, and the angle between the optical axis of described the second filter and described laser is 45 degree.

Aforesaid optical network unit optical assembly with time domain reflection function, the optical axis of described photodetector is vertical with the optical axis of described laser.

Aforesaid optical network unit optical assembly with time domain reflection function also is provided with between described reflection part and described the first filter for to the whole transmissions of light time territory detection signal or part transmission and the 3rd filter that the stray light signal is reflected fully.

Aforesaid optical network unit optical assembly with time domain reflection function is provided with between described the first filter and described the second filter and the described photodetector for to the complete transmission of descending light and to light time territory detection signal and the 4th filter that disturbs lightwave signal to reflect fully.

Aforesaid optical network unit optical assembly with time domain reflection function, described the first filter, described the second filter, described the 3rd filter and described the 4th filter are the wavelength division multiplexing filter.

Aforesaid optical network unit optical assembly with time domain reflection function, described the 4th filter is vertical with the optical axis of described photodetector.

Aforesaid optical network unit optical assembly with time domain reflection function, the wavelength of the uplink optical signal of described laser emission is 1260 nm-1360nm; The wavelength of the downlink optical signal that described photodetector receives is 1480 nm-1500nm; The wavelength of territory detection signal of described light time is 1615 nm-1665nm.

Aforesaid optical network unit optical assembly with time domain reflection function also comprises metal-back; Described the first filter, described the second filter, described the 3rd filter and described the 4th filter are arranged in the described metal-back, and described laser, described photodetector and described optical interface are installed on the described metal-back.

Aforesaid optical network unit optical assembly with time domain reflection function, described reflection part and described photodetector are fixed on the described metal-back by insulating cement respectively.

Description of drawings

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, the below will do one to the accompanying drawing of required use in embodiment or the description of the Prior Art and introduce simply, apparently, accompanying drawing in the following describes is embodiment more of the present utility model, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain according to these accompanying drawings other accompanying drawing.

Fig. 1 is the structural representation that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function;

Fig. 2 is the light path principle figure one that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function;

Fig. 3 is the light path principle figure two that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function.

Embodiment

For the purpose, technical scheme and the advantage that make the utility model embodiment clearer, below in conjunction with the accompanying drawing among the utility model embodiment, technical scheme among the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, rather than whole embodiment.Based on the embodiment in the utility model, those of ordinary skills are not making the every other embodiment that obtains under the creative work prerequisite, all belong to the scope of the utility model protection.

Fig. 1 is the structural representation that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function; Fig. 2 is the light path principle figure one that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function; Fig. 3 is the light path principle figure two that the utlity model has the optical network unit optical assembly embodiment of time domain reflection function.As shown in Figure 1-Figure 3, present embodiment has the optical network unit optical assembly of time domain reflection function, comprising: be used for launching up light laser 1, be used for receiving descending light photodetector 7, be used for reverberation time domain detection signal reflection part 3, be used for to up light and the complete transmission of descending light and to the first filter 5 of all or part of reflection of light time territory detection signal, be used for the second filter 2 that reflects fully to the complete transmission of up light and to descending light and the optical interface 6 that is used for external optical fiber; The first filter 5 and the second filter plate 2 are obliquely installed, one surface of the first filter 5 is towards reflection part 3 and optical interface 6, another surface of the first filter 5 is towards photodetector 7, one surface of the second filter 2 is towards laser 1, another surface of the second filter 2 is towards photodetector 7, one surface of reflection part 3 is curved-surface reflection side, and camber reflection is facing to the first filter 5.

Particularly, the optical network unit optical assembly that present embodiment has time domain reflection function is incorporated into inside by optical interface 6 with light time territory detection signal, light time territory detection signal reflexes to reflection part 3 through the first filter 5, being reflected parts 3 reflexes on the first filter 5 again, reflexed to optical interface 6 by the first wavelength-division multiplex element 5 more at last, and return in the external optical fiber 9 by described optical interface 6, and then enter optical-fiber network, in the optical line terminal under transferring to, realize the detection and localization to this optical network unit.And set gradually described the second filter 2, the first filter 5 and optical interface 6 along the optical axis direction of laser 1.Preamble mentions, described the first filter 5 has to up light and the complete transmission of descending light, to the characteristic of all or part of reflection of light time territory detection signal.On the one hand, the good optical axis along optical interface 6 of up light positive of launching by laser 1 enters optical interface, enters optical-fiber network by optical fiber 9.On the other hand, by the first filter 5, and by the descending light of the second filter 2 reflection just along the described photodetector 7 of the optical axis directive of photodetector 7, to realize the accurate reception of 7 pairs of downlink optical signals of photodetector.The ability that the curved-surface reflection side of the reflection part 3 in the present embodiment has reflection and converges; reflection part 3 is except the shape of reflecting curved surface; the design of reflection part 3 can be changed according to needs; a kind of scheme that provides in this example is not the restriction to its global shape; adopt other global shapes; as long as have reflecting curved surface, all belong to protection range of the present utility model.And optical interface 6 can adopt SC plug-type or LC plug-type as the public input/output end port of optical device, and any also or in SC/PC tail fiber type or the SC/APC tail fiber type to be connected with the light mouth of external network, realized the single fiber bi-directional transfer function.

Wherein, the optical axis of the laser 1 in the present embodiment and the optical axis of optical interface 6 are located along the same line, and the angle between the optical axis of the first filter 5 and optical interface 6 is 45 degree, and the angle between the optical axis of the second filter 2 and laser 1 is 45 degree.Concrete, in order to make things convenient for the topology layout of each device, the optical axis of the laser 1 in the present embodiment is vertical with the optical axis of reflection part 3, the optical axis of the first filter 5 and laser 1 acutangulated be designed to 45 and spend, simultaneously, the optical axis of laser 1 is vertical with the optical axis of photodetector 7, the optical axis of the second filter 2 and laser 1 is acutangulated be designed to 45 and spend.Inject the surface of the second filter 2 with the angle of 45 degree by the up light of laser 1 emission, after its energy is seen through fully by the second filter 2, incide the surface of the first filter 5, after its energy is seen through fully by the first filter 5, incide optical interface 6, enter optical-fiber network by the optical fiber 9 that is external in optical interface 6, and then transfer in the affiliated optical line terminal.Enter into the downlink optical signal that present embodiment has the optical network unit optical assembly of time domain reflection function by optical-fiber network, at first incide the surface of the first filter 5, its energy by the 5 complete transmissions of the first filter after, incide the surface of the second filter 2, its energy is reflected with the direction perpendicular to laser 1 optical axis by the second filter 2, incide in the photodetector 7, realize the photoelectric converting function of receiving optical signals.

As shown in Figure 2, the light time territory detection signal of the first filter 5 reflections in the present embodiment can directly enter into reflection part 3, and simultaneously, the first filter 5 can see through the stray light signal fully, does not reflex on the reflection part 3.Perhaps, as shown in Figure 3, can also be provided with between the reflection part 3 in the present embodiment and the first filter 5 for to the whole transmissions of light time territory detection signal or part transmission and the 3rd filter 4 that the stray light signal is reflected fully.At this moment, the first filter 5 also can not have the ability that the stray light signal is seen through fully, all or part ofly reflexed to stray light signal on the reflection part 3 by the first filter 5 and will be reflected parts 3 and return, and again by 5 reflections of the first filter, back light interface 6 and then return optical fiber 9.

Further, consider by optical interface 6 and enter light signal in the optical network unit optical assembly that present embodiment has time domain reflection function except the downlink optical signal of optical line terminal emission, also having light time territory detection signal and wavelength is the interference lightwave signal of 1550nm-1560nm, crosstalk in order to reduce, improve the antijamming capability of photodetector 7, Effective Raise photodetector 7 receives the sensitivity of downlink optical signals, is provided with between the first filter 5 in the present embodiment and the second filter 2 and the photodetector 7 for to the complete transmission of descending light and the 4th filter 8 that light time territory detection signal and interference lightwave signal are reflected fully.Concrete, the 4th filter 8 in the present embodiment has to the complete transmission of descending light, to light time territory detection signal and the characteristic of disturbing lightwave signal to reflect fully.The 4th filter 8 is arranged between the second filter 2 and the photodetector 7, and the reflecting surface of the second filter 2 is preferably vertical with the optical axis direction of photodetector 7 with the 4th filter 8.So, both can guarantee by the reflection of the second filter 2 descending light just vertical sand shooting, incide in the photodetector 7 along the optical axis of photodetector 7 after its energy is seen through fully by the 4th filter 8 to the 4th filter 8 surfaces; Simultaneously, the light time territory detection signal that is entered by optical-fiber network and disturb lightwave signal, at first incide the surface of the first filter 5, wherein, the energy of light time territory detection signal is by the first filter 5 reflection directive reflection parts 3, after being reflected parts 3 reflections, again being entered optical-fiber network by the first filter 5 reflection directive optical interfaces 6 again, and be back in the affiliated optical line terminal optical line terminal.When the 3rd filter 4 is arranged, light time territory detection signal before arriving reflection part 3 and after being reflected parts 3 and reflecting all through the 3rd filter 4.Light time territory detection signal and interference lightwave signal by 5 transmissions of the first filter, incide the surface of the second filter 2, its energy is reflected with the direction perpendicular to laser 1 optical axis fully by the second filter 2, fully reflection occurs in the surface of inciding the 4th filter 8, avoid it to be injected in the photodetector 7, to improve the reception conversion accuracy of 7 pairs of downlink optical signals of photodetector.Wherein, the first filter 5 in the present embodiment, the second filter 2, the 3rd filter 4 and the 4th filter 8 can be the wavelength division multiplexing filter.

Further again, the wavelength of the uplink optical signal of laser 1 emission in the present embodiment is 1260 nm-1360nm; The wavelength of the downlink optical signal that photodetector 7 receives is 1480 nm-1500nm; The wavelength of light time territory detection signal is 1615 nm-1665nm.Concrete, selects every section representative value in the lightwave signal section, be respectively 1310nm, the 1490nm in the downlink optical signal, light time territory in uplink optical signal 1650nm, the 1550nm in the interference lightwave signal in detecting number.The below will describe with the lightwave signal of these several typical wavelengths.The uplink optical signal of the 1310nm wavelength of laser 1 emission, transmit from left to right along horizontal optical axis, at first through the second filter 2, after its energy is seen through fully by the second filter 2, enter again the first filter 5, then its energy enters optical interface 6 after being seen through fully by the first filter 5, by entering the exterior light network with the external optical fiber 9 of optical interface 6.1490nm, the 1550nm that is entered by the exterior light network and the light signal of 1650nm wavelength incide first the surface of the first filter 5 along horizontal optical axis through optical interface 6.The energy of 1490nm wavelength light signal is seen through fully by the first filter 5, is reflected fully to photodetector 7 on the second filter 2 surfaces, and photodetector 7 is front through the 4th filter 8 arriving.The 4th filter 8 all returns the stray light signal beyond the 1490nm wavelength light signal, enters photodetector 7 to prevent it, improves the isolation to crosstalk signal; Simultaneously 1490nm wavelength light signal is all seen through, make it enter photodetector 7, realize reception and conversion to light signal.The energy that 1650nm light time territory is detected number,, is reflected parts 3 and is reflected back through the 3rd filter 4 to reflection part 3 by 5 reflections of the first filter, again through the 3rd filter 4, after 5 reflections of the first filter, enters the exterior light network through optical interface 6.The stray light signal of 1550nm can pass through the first filter 5, and photodetector 7 is front by 8 reflections of the 4th filter arriving; Also can not pass through the first filter 5, be reflected directive reflection part 3 on its surface, reflection part 3 is front by 4 reflections of the 3rd filter arriving.

Further, the optical network unit optical assembly of present embodiment with time domain reflection function can also comprise metal-back 10; The first filter 5, the second filter 2, the 3rd filter 4 and the 4th filter 8 are arranged in the metal-back 10, and laser 1, photodetector 7 and optical interface 6 are installed on the metal-back 10.Preferably, the reflection part 3 in the present embodiment is fixed on the metal-back 10 by insulating cement 12, and photodetector 7 is fixed on the metal-back 10 by insulating cement 11.

Present embodiment has the optical network unit optical assembly of time domain reflection function, reflection part by integrated reflection function to light time territory detection signal in optical assembly, and a surface of reflection part is set to curved-surface structure, the curved-surface structure of reflection part has the ability that converges light time territory detection signal, can strengthen the energy of light time territory detection signal back light network, avoided utilizing merely the filter technology on plane to realize the plated film complexity that the reflection and transmission of multi-wavelength signals exists, cost increases, original up and downlink optical signal is subjected to the problem of certain influence, improve rate of finished products and the reliability of the optical network unit optical assembly with time domain reflection function, and dwindled the volume of the optical network unit optical assembly with time domain reflection function.Present embodiment has the optical network unit optical assembly of time domain reflection function in the optical network unit single-fiber bidirectional photoelectric device various functions of realizing user side, can effectively realize the reflection function of optical time domain reflectometer with light time domain detection signal, compare the optical network unit single-fiber bidirectional photoelectric device of existing user side, have accurate, simple to operate, the cheap characteristics of light time territory detection signal reflection, can make local side the optical network unit user of user side be realized the fault detection capability of in real time accurately on-line monitoring and optical link.

It should be noted that at last: above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although with reference to previous embodiment the utility model is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. optical network unit optical assembly with time domain reflection function, it is characterized in that, comprising: be used for launching up light laser, be used for receiving descending light photodetector, be used for reverberation time domain detection signal reflection part, be used for to up light and the complete transmission of descending light and to the first filter of all or part of reflection of light time territory detection signal, be used for the second filter that reflects fully to the complete transmission of up light and to descending light and the optical interface that is used for external optical fiber; Described the first filter and described the second filter plate are obliquely installed, one surface of described the first filter is towards described reflection part and described optical interface, another surface of described the first filter is towards described photodetector, one surface of described the second filter is towards described laser, another surface of described the second filter is towards described photodetector, one surface of described reflection part is curved-surface reflection side, and described camber reflection is facing to described the first filter.

2. the optical network unit optical assembly with time domain reflection function according to claim 1, it is characterized in that, the optical axis of described laser and the optical axis of described optical interface are located along the same line, angle between the optical axis of described the first filter and described optical interface is 45 degree, and the angle between the optical axis of described the second filter and described laser is 45 degree.

3. the optical network unit optical assembly with time domain reflection function according to claim 2 is characterized in that the optical axis of described photodetector is vertical with the optical axis of described laser.

4. the optical network unit optical assembly with time domain reflection function according to claim 1, it is characterized in that, also be provided with between described reflection part and described the first filter for to the whole transmissions of light time territory detection signal or part transmission and the 3rd filter that the stray light signal is reflected fully.

5. the optical network unit optical assembly with time domain reflection function according to claim 4, it is characterized in that, be provided with between described the first filter and described the second filter and the described photodetector for to the complete transmission of descending light and to light time territory detection signal and the 4th filter that disturbs lightwave signal to reflect fully.

6. the optical network unit optical assembly with time domain reflection function according to claim 5 is characterized in that, described the first filter, described the second filter, described the 3rd filter and described the 4th filter are the wavelength division multiplexing filter.

7. the optical network unit optical assembly with time domain reflection function according to claim 1 is characterized in that, described the 4th filter is vertical with the optical axis of described photodetector.

8. the optical network unit optical assembly with time domain reflection function according to claim 1 is characterized in that, the wavelength of the uplink optical signal of described laser emission is 1260 nm-1360nm; The wavelength of the downlink optical signal that described photodetector receives is 1480 nm-1500nm; The wavelength of territory detection signal of described light time is 1615 nm-1665nm.

9. the optical network unit optical assembly with time domain reflection function according to claim 5 is characterized in that, also comprises metal-back; Described the first filter, described the second filter, described the 3rd filter and described the 4th filter are arranged in the described metal-back, and described laser, described photodetector and described optical interface are installed on the described metal-back.

10. the optical network unit optical assembly with time domain reflection function according to claim 9 is characterized in that, described reflection part and described photodetector are fixed on the described metal-back by insulating cement respectively.

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