CN207019871U - A kind of loss of fibre-optical connection measurement apparatus - Google Patents

Abstract

The utility model discloses a kind of loss of fibre-optical connection measurement apparatus, it is characterized in that, including fibre holder a, fibre holder b, pump light signals source, detection optical signal source, 2x2 photoswitches, optical directional coupler, optical filter and optical signal detector, one end connection tested optical fiber 1 of the fibre holder a, other end connection 2x2 photoswitches；One end connection tested optical fiber 2 of the fibre holder b, other end connection 2x2 photoswitches；Two other port of the 2x2 photoswitches connects the public port of detection optical signal source and optical directional coupler respectively；One in remaining two ports of the optical directional coupler is connected with pump light signals source, and another connects optical signal detector by optical filter.This device can accurately measure the loss of optical fiber welding joint, easy to use, operability is good, practical, and cost is low.

Description

A kind of loss of fibre-optical connection measurement apparatus

Technical field

Optical fiber measurement field is the utility model is related to, is specifically one kind more particularly to loss of fibre-optical connection e measurement technology Loss of fibre-optical connection measurement apparatus.

Background technology

In fiber cable laying construction, fused fiber splice is an essential link, in this link, to fused fiber splice The loss control of point, directly influence the total losses index of whole section of fiber link.At present in optical cable construction, light is typically first used The loss of optical fiber fusion welding point is controlled to splice loss, splice attenuation management function in the fine automatic welding of heat sealing machine；Next to that by OTDR remote End is tested to control the loss of optical fiber fusion welding point；It is finally that two-way test is carried out to control by OTDR at fiber link both ends The loss of optical fiber fusion welding point processed.

Some following drawbacks be present in optical cable construction measuring method above：

1. when carrying out automatic welding using optical fiber splicer, current most of optical fiber splicer all possesses to being entered Capable fused fiber splice implements the function that loss is assessed, and still, this loss evaluation function is typically all to be docked by observing fibre core Quality, the factor such as the quality of core end surface carry out experience calculating, then draw the loss of optical fiber fusion welding point, therefore, pass through Loss of the optical fiber splicer to optical fiber fusion welding point is assessed, obtained optical fiber fusion welding point loss value, simply a kind of estimated value, rather than Measured value, in real work, optical fiber fusion welding point is lost optical fiber splicer assessment is simultaneously not accurate enough, under many circumstances, when Optical fiber splicer provides optical fiber fusion welding point loss value when being 0.00dB, and measured value probably reaches 0.1dB, even more greatly, institute By observing quality, the quality of core end surface that fibre core docks, to show that the loss value of optical fiber fusion welding point can only conduct therefrom A kind of approximate evaluation value, it is impossible to used as true measurement；

2. measuring optical fiber fusion welding point loss value using OTDR in optical cable construction, method the most frequently used at present has：Backward Three kinds of one way, forward direction one way, forward direction round trip method of testings, measure optical fiber fusion welding point loss value, benefit is to compare using OTDR When accurately, especially with two-way test, fiber link total losses can be not only measured, each fused fiber splice can also be tested out The loss of point loss size and each section of optical fiber, it has not been convenient to which part is when measuring, it is necessary to which OTDR instruments are placed on into light One or both ends on cable road, rather than in optical fiber fusion welding point working site.This means except being worked in optical fiber fusion welding point Scene is needed beyond configuration work personnel, it is also necessary to which configuration work personnel look after and operated at the one or both ends of lightguide cable link OTDR instruments, particularly when cable link is overlength circuit, situation is even worse, it is necessary to circuit is carried out into areal survey, otherwise may be used Because of the measurement of OTDR instruments dynamic deficiency measurement can be caused to have no idea to carry out, in addition, carrying out fiber link using OTDR During measurement, if only unidirectionally tested, due to the presence of false enhancement, measurement data is caused to be forbidden, so using When OTDR carries out fiber link measurement, it is desirable to two-way test is carried out, to ensure the accuracy of fiber link loss parameter；

3. according to another investigation statisticses, the two-way value of splicing loss that about 20%-30% is had in optical cable project continues conforms to Ask and the exceeded situation of one-way value occurs, it means that engineering staff might have 20%-30%'s when using unidirectional monitoring The repetition that situation carries out mistake continues, it is of course also possible in the presence of another situation, if use unidirectional monitoring, in optical cable Without before completing, fiber link has no through for construction, due to the presence of false enhancement, causes to damage some optical fiber fusion welding points Consumption test is inaccurate, for example obtained optical fiber fusion welding point loss is unidirectionally tested using OTDR progress and is less than 0.05dB, but light in future When carrying out two-way test after the completion of cable construction, it may find that optical fiber fusion welding point loss is more than 0.2dB at this, once occur this Situation, to ensure the loss objective of whole piece fiber link, it have to do over again, the optical fiber that fusion point is lost to exceeded place disconnects again, weight New welding.

In view of the foregoing it is apparent that the ongoing optical fiber fusion welding point loss measurement of optical cable construction at present, in operating efficiency side Face, it is impossible to make us pleasing oneself.

Utility model content

The purpose of this utility model is in view of the shortcomings of the prior art, and to provide a kind of loss of fibre-optical connection measurement apparatus. This device can accurately measure the loss of optical fiber welding joint, easy to use, operability is good, practical, and cost is low.

Realizing the technical scheme of the utility model purpose is：

A kind of loss of fibre-optical connection measurement apparatus, including fibre holder a, fibre holder b, pump light signals source, spy Light signal source, 2x2 photoswitches, optical directional coupler, optical filter and optical signal detector, the one of the fibre holder a End connection tested optical fiber 1, other end connection 2x2 photoswitches；One end connection tested optical fiber 2 of the fibre holder b, the other end Connect 2x2 photoswitches；Two other ports of the 2x2 photoswitches connects detection optical signal source and optical directional coupler respectively Public port；One in remaining two ports of the optical directional coupler is connected with pump light signals source, and another passes through light Wave filter connects optical signal detector.

The pump light signals source is used for the light pulse signal for producing 1550nm windows, and light pulse signal width range is 1n-100ns, peak optical powers scope are+30dBm-+60dBm.

The detection optical signal source is used for the light pulse signal for producing 1625nm windows, and light pulse signal width range is 1ns-100ns, peak optical powers scope are -10dBm-+20dBm.

Using the measuring method of above-mentioned loss of fibre-optical connection measurement apparatus, comprise the following steps：

(1) using fibre holder a and fibre holder b respectively in the He of sandwich tested optical fiber 1 of fiber connection points Tested optical fiber 2, fiber connection points to optical fiber bite a and to optical fiber bite b fiber lengths in the range of 0.5m-10m；

(2) control 2x2 photoswitches are in connection status 1, control pumping optical signal source and detection optical signal source, send detection Light pulse signal, does not send out pumping light pulse signal, and the detection optical signal power that optical receiver measurement receives is recorded as P₀；

(3) control 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allows the two signals between the optical fiber bite of fiber connection points to fibre holder a Tested optical fiber 1 in meet, and when the two signals meet, pumping light pulse signal have passed through fiber connection points, and detect Light pulse signal not yet passes through fiber connection points, and the detection optical signal luminous power that photo-detector measurement receives is recorded as P₂；

(4) control 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allows the two signals between the optical fiber bite of fiber connection points to fibre holder b Tested optical fiber 2 in meet, and when the two signals meet, detecting optical pulses signal have passed through fiber connection points, and pumping Light pulse signal not yet passes through fiber connection points, the detection optical signal luminous power that photo-detector measurement receives, is recorded as P₃；

(5) control 2x2 photoswitches are in connection status 2, control pumping optical signal source and detection optical signal source, send detection Light pulse signal, does not send out pumping light pulse signal, and the detection optical signal power that optical receiver measurement receives is recorded as P₁；

(6) control 2x2 photoswitches are in connection status 2, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allows the two signals between the optical fiber bite of fiber connection points to fibre holder b Tested optical fiber 2 in meet, and when the two signals meet, pumping light pulse signal have passed through fiber connection points, and detect Light pulse signal not yet passes through fiber connection points, and the detection optical signal luminous power that photo-detector measurement receives is recorded as P₄；

(7) control unit control 2x2 photoswitches are in connection status 2, and pump light signals source exports pumping light pulse signal, Optical signal source output detecting optical pulses signal is detected, allows fibre clip of the two signals in fiber connection points to fibre holder a Met in tested optical fiber 1 between holding a little, detecting optical pulses signal have passed through fiber connection points, and pumping light pulse signal is not yet By fiber connection points, the detection optical signal luminous power that photo-detector measurement receives is recorded as P₅；

(8) calculate under 1550nm windows, loss of fibre-optical connection value A is：

A=5*log (((P₃-P₀)*(P₅-P₁))/((P₂-P₀)*(P₄-P₁))。

By two fibre holders, in the left and right sides of fiber connection points, respectively by pumping light pulse signal and detection Light pulse signal is coupled in tested optical fiber or detecting optical pulses signal is taken out from tested optical fiber, and fibre holder is to pass through The mode of bending tested optical fiber is optically coupled, that is, tested optical fiber is bent to several millimeters of curvature so that pump light arteries and veins Rushing signal or detecting optical pulses signal can be coupled in tested optical fiber, or detecting optical pulses letter is taken out from tested optical fiber Number.

By the state for changing 2x2 photoswitches, thus it is possible to vary pumping light pulse signal and detecting optical pulses signal enter quilt The fine direction of light-metering, i.e.,：Pumping light pulse signal enters tested optical fiber from the left side of fiber connection points, detecting optical pulses signal from The right side of fiber connection points enters tested optical fiber；Either pumping light pulse signal enters by light-metering from the right side of fiber connection points Fibre, detecting optical pulses signal enter tested optical fiber from the left side of fiber connection points.

Optical directional coupler is used to separate pumping light pulse signal and detecting optical pulses signal, and pumping light pulse signal passes through Optical directional coupler enters 2x2 photoswitches, subsequently into light clamper, then is coupled into tested optical fiber；Detect light arteries and veins Signal is rushed through light clamper, couples and takes out from tested optical fiber, into optical directional coupler, be then passed to optical filter, then Into photo-detector.

Pumping optical signal source and detection optical signal source are controlled, allows pumping light pulse signal and detecting optical pulses signal in the time Order has certain correlation, by changing the position of the two light pulse signals in time so that pumping light pulse signal It can be arranged in tested optical fiber and meet with detecting optical pulses signal, can also be arranged not meeting in tested optical fiber；When When pumping light pulse signal and detecting optical pulses signal meet in tested optical fiber, can select arrange two signals meet part It is the fibre holder a sides in tested optical fiber tie point, i.e.,：Pumping light pulse signal and detecting optical pulses signal are by light-metering When being met in fibre, pumping light pulse signal have passed through fiber connection points, and detecting optical pulses signal not yet passes through fiber connection points, Either the fibre holder b sides in tested optical fiber tie point are：Pumping light pulse signal and detecting optical pulses signal are in quilt When being met in light-metering fibre, detecting optical pulses signal have passed through fiber connection points, and pumping light pulse signal not yet connects by optical fiber Contact.

If pumping light pulse signal and detecting optical pulses signal meet in tested optical fiber, interaction-drawing can be produced Graceful effect, detecting optical pulses signal are amplified by pumping light pulse signal；If pumping light pulse signal and detecting optical pulses signal Do not met in tested optical fiber, then detecting optical pulses signal is not amplified by pumping light pulse signal, and the two light pulses Signal is the fibre holder a sides in tested optical fiber tie point in place of meeting, and is in the optical fiber of tested optical fiber tie point Clamper b sides, it will so that the amount that detecting optical pulses signal is amplified by pumping light pulse signal is different, contain here The loss information of tested optical fiber tie point, believed by the pumping light pulse signal and detecting optical pulses that arrange different time position Number, and detecting optical pulses signal is taken out on the right side of tested optical fiber tie point, it is measured, thus obtains tested optical fiber company The loss of fibre-optical connection value of contact.

This device can accurately measure the loss of optical fiber welding joint, easy to use, operability is good, practical, into This is low.

Brief description of the drawings

Fig. 1 is the structural representation of embodiment；

When Fig. 2 is 2x2 optical switch status 1 in embodiment, pumping light pulse signal and detecting optical pulses signal are by light-metering Meet schematic diagram on the left of fine tie point；

When Fig. 3 is 2x2 optical switch status 1 in embodiment, pumping light pulse signal and detecting optical pulses signal are by light-metering Meet schematic diagram on the right side of fine tie point；

When Fig. 4 is 2x2 optical switch status 2 in embodiment, pumping light pulse signal and detecting optical pulses signal are by light-metering Meet schematic diagram on the side right side of fine tie point；

When Fig. 5 is 2x2 optical switch status 2 in embodiment, pumping light pulse signal and detecting optical pulses signal are by light-metering Meet schematic diagram on the left of fine tie point.

Embodiment

The utility model content is further elaborated with reference to the accompanying drawings and examples, but is not to the utility model Restriction.

Embodiment：

Reference picture 1, a kind of loss of fibre-optical connection measurement apparatus, including fibre holder a, fibre holder b, pump light letter Number source, detection optical signal source, 2x2 photoswitches, optical directional coupler, optical filter and optical signal detector, the optical fiber clamping Device a one end connection tested optical fiber 1, other end connection 2x2 photoswitches；One end connection tested optical fiber of the fibre holder b 2, other end connection 2x2 photoswitches；Two other port of the 2x2 photoswitches connects detection optical signal source and light direction respectively The public port of coupler；One in remaining two ports of the optical directional coupler is connected with pump light signals source, another It is individual that optical signal detector is connected by optical filter.

The pump light signals source is used for the light pulse signal for producing 1550nm windows, and light pulse signal width range is 1n-100ns, peak optical powers scope are+30dBm-+60dBm.

The detection optical signal source is used for the light pulse signal for producing 1625nm windows, and light pulse signal width range is 1ns-100ns, peak optical powers scope are -10dBm-+20dBm.

Reference picture 2, Fig. 3, Fig. 4, Fig. 5, using the measuring method of above-mentioned loss of fibre-optical connection measurement apparatus, including following step Suddenly：

(1) using fibre holder a and fibre holder b respectively in the He of sandwich tested optical fiber 1 of fiber connection points Tested optical fiber 2, fiber connection points to optical fiber bite a and to optical fiber bite b fiber lengths in the range of 0.5m-10m；

(2) control 2x2 photoswitches are in connection status 1, control pumping optical signal source and detection optical signal source, send detection Light pulse signal, does not send out pumping light pulse signal, and the detection optical signal power that optical receiver measurement receives is recorded as P₀；

(3) control 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allows the two signals between the optical fiber bite of fiber connection points to fibre holder a Tested optical fiber 1 in meet, and when the two signals meet, pumping light pulse signal have passed through fiber connection points, and detect Light pulse signal not yet passes through fiber connection points, and the detection optical signal luminous power that photo-detector measurement receives is recorded as P₂；

(4) control 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allow the two signals fiber connection points to arrive fibre holder b optical fiber bite it Between tested optical fiber 2 in meet, and when the two signals meet, detecting optical pulses signal have passed through fiber connection points, and pump Pu light pulse signal not yet passes through fiber connection points, the detection optical signal luminous power that photo-detector measurement receives, is recorded as P₃；

(5) control 2x2 photoswitches are in connection status 2, control pumping optical signal source and detection optical signal source, send detection Light pulse signal, does not send out pumping light pulse signal, and the detection optical signal power that optical receiver measurement receives is recorded as P₁；

(6) control 2x2 photoswitches are in connection status 2, pump light signals source output pumping light pulse signal, detection light letter Number source output detecting optical pulses signal, allows the two signals between the optical fiber bite of fiber connection points to fibre holder b Tested optical fiber 2 in meet, and when the two signals meet, pumping light pulse signal have passed through fiber connection points, and detect Light pulse signal not yet passes through fiber connection points, and the detection optical signal luminous power that photo-detector measurement receives is recorded as P₄；

(7) control unit control 2x2 photoswitches are in connection status 2, and pump light signals source exports pumping light pulse signal, Optical signal source output detecting optical pulses signal is detected, allows the two signals in fiber connection points to the optical fiber to fibre holder a Met in tested optical fiber 1 between bite, detecting optical pulses signal have passed through fiber connection points, and pumping light pulse signal is still Without fiber connection points, the detection optical signal luminous power that photo-detector measurement receives is recorded as P₅；

(8) calculate under 1550nm windows, loss of fibre-optical connection value A is：

A=5*log (((P₃-P₀)*(P₅-P₁))/((P₂-P₀)*(P₄-P₁))。

Detection optical signal passes through 2x2 photoswitches, and the bare fibre 1 of tested optical fiber is then coupled to by fibre holder a In, by tested optical fiber tie point, tested optical fiber bare fibre 2 after, taking-up is coupled by fibre holder b, then by 2x2 Photoswitch, optical directional coupler, optical filter, it is sent to optical signal detector and carries out measuring light power.According to selected by 2x2 photoswitches The state selected, detection optical signal can also walk another route, and detection optical signal passes through 2x2 photoswitches, then passes through optical fiber Clamper b is coupled in the bare fibre 2 of tested optical fiber, by tested optical fiber tie point, tested optical fiber bare fibre 1 after, lead to Cross fibre holder a and be coupled taking-up, then by 2x2 photoswitches, optical directional coupler, optical filter, be sent to optical signal detection Device carries out measuring light power.

Pump light signals enter 2x2 photoswitches by optical directional coupler, then by fibre holder b be coupled to by In the fine bare fibre 2 of light-metering, entered after tested optical fiber tie point in the bare fibre 1 of tested optical fiber.According to 2x2 photoswitches Selected state, pump light signals can also walk another route, and pump light signals enter 2x2 by optical directional coupler Photoswitch, then it is coupled to by fibre holder a in the bare fibre 1 of tested optical fiber, it is laggard by tested optical fiber tie point Enter into the bare fibre 2 of tested optical fiber.

By two fibre holders, pumping light pulse signal is connected from tested optical fiber respectively with detecting optical pulses signal The left and right sides of point is coupled in tested optical fiber, or detecting optical pulses signal is taken out from tested optical fiber.Fibre holder It is to be optically coupled by way of bending tested optical fiber, that is, tested optical fiber is bent to several millimeters of curvature so that pump Pu light pulse signal or detecting optical pulses signal can be coupled in tested optical fiber, or detection light is taken out from tested optical fiber Pulse signal.The coupling loss scope of fibre holder is in 10dB-25dB.

Pass through 2x2 photoswitches, thus it is possible to vary pumping light pulse signal and detecting optical pulses signal enter the side of tested optical fiber To that is,：Pumping light pulse signal enters from the left side bare fibre 1 of tested optical fiber tie point, and detecting optical pulses signal is from by light-metering The right side bare fibre 2 of fine tie point enters；Either pumping light pulse signal enters from the right bare fibre 2 in the side of tested optical fiber tie point Enter, detecting optical pulses signal enters from the left side bare fibre 1 of tested optical fiber tie point.

Optical directional coupler is used to separate or coupling pumping light pulse signal and detecting optical pulses signal, pumping light pulse letter Number by entering 2x2 photoswitches after optical directional coupler.Detecting optical pulses signal takes through fibre holder from tested optical fiber Go out, into 2x2 photoswitches, optical directional coupler, be then passed to optical filter, enter back into photo-detector.

Optical filter is used for filtering pump light signal, retains detection optical signal.

Measure start when, first by fibre holder respectively in the sandwich tested optical fiber of fiber connection points, such as Shown in Fig. 1.The length of the bare fibre 1 of tested optical fiber and the bare fibre 2 of tested optical fiber is in 0.5m~10m, if length longer one A bit, although being advantageous to measure, it is required that optical fiber reserved during optical fiber connection is longer, can be made troubles to the fine work of disk.

Control unit controls pumping optical signal source and detection optical signal source, allows pumping light pulse signal and detecting optical pulses to believe Number there is certain correlation in chronological order, by the time location for changing the two light pulse signals so that pumping light pulse Signal and detecting optical pulses signal, which can be arranged in tested optical fiber, to meet, and can also be arranged not meeting in tested optical fiber (in this case, the output in pump light signals source can also be closed).

As shown in Fig. 2 the connection status 1 of corresponding 2x2 photoswitches, pumping light pulse signal is on the right side of tested optical fiber tie point (i.e.：Fibre holder b) enters the bare fibre 2 of tested optical fiber, detecting optical pulses signal on the left of the tested optical fiber tie point (i.e.： Fibre holder a) enters the bare fibre 1 of tested optical fiber, when pumping light pulse signal and detecting optical pulses signal are in tested optical fiber In when meeting, it is the left side bare fibre 1 in tested optical fiber tie point to arrange the two signals part of meeting, i.e.,：Pump light arteries and veins When rushing signal and detecting optical pulses signal and being met at the bare fibre 1 in tested optical fiber, pumping light pulse signal have passed through optical fiber Tie point, and detecting optical pulses signal not yet passes through fiber connection points.

As shown in figure 3, the connection status 1 of corresponding 2x2 photoswitches, pumping light pulse signal is on the right side of tested optical fiber tie point (i.e.：Clamper b) enters the bare fibre 2 of tested optical fiber, detecting optical pulses signal on the left of the tested optical fiber tie point (i.e.：Clamping Device a) enters the bare fibre 1 of tested optical fiber, and it is the naked light in right side in tested optical fiber tie point in place of meeting to arrange two signals Fibre 2, i.e.,：When the bare fibre 2 of pumping light pulse signal and detecting optical pulses signal in tested optical fiber meets, detecting optical pulses letter Number fiber connection points are have passed through, and pumping light pulse signal not yet passes through fiber connection points.

As shown in figure 4, the connection status 2 of corresponding 2x2 photoswitches, pumping light pulse signal is on the left of tested optical fiber tie point (i.e.：Clamper a) enters the bare fibre 1 of tested optical fiber, detecting optical pulses signal on the right side of the tested optical fiber tie point (i.e.：Clamping Device b) enters the bare fibre 2 of tested optical fiber, and it is the naked light in right side in tested optical fiber tie point in place of meeting to arrange two signals Fibre 2, i.e.,：When the bare fibre 2 of pumping light pulse signal and detecting optical pulses signal in tested optical fiber meets, pumping light pulse letter Number fiber connection points are have passed through, and detecting optical pulses signal not yet passes through fiber connection points.

As shown in figure 5, the connection status 2 of corresponding 2x2 photoswitches, pumping light pulse signal is on the left of tested optical fiber tie point (i.e.：Clamper a) enters the bare fibre 1 of tested optical fiber, detecting optical pulses signal on the right side of the tested optical fiber tie point (i.e.：Clamping Device b) enters the bare fibre 2 of tested optical fiber, and it is the naked light in left side in tested optical fiber tie point in place of meeting to arrange two signals Fibre 1, i.e.,：When pumping light pulse signal and detecting optical pulses signal meet in tested optical fiber, detecting optical pulses signal have passed through Fiber connection points, and pumping light pulse signal not yet passes through fiber connection points.

Control unit controls pumping optical signal source and detects the connection status of optical signal source and 2x2 photoswitches, following The luminous power received in the state of difference by photo-detector measurement.

When 2x2 photoswitches are in connection status 1, the output in closing pump light signals source, detection optical signal source output detection Light pulse signal, the luminous power P that photo-detector measurement receives₀。

When 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection optical signal source Detecting optical pulses signal is exported, the time location relation of two signals causes pumping light pulse signal and detecting optical pulses signal to expire State shown in sufficient Fig. 2, i.e.,：When pumping light pulse signal and detecting optical pulses signal meet at the bare fibre 1 in tested optical fiber, Pumping light pulse signal have passed through fiber connection points, and detecting optical pulses signal not yet passes through fiber connection points.Photo-detector is surveyed Measure the luminous power P received₂。

When 2x2 photoswitches are in connection status 1, pump light signals source output pumping light pulse signal, detection optical signal source Detecting optical pulses signal is exported, the time location relation of two signals causes pumping light pulse signal and detecting optical pulses signal to expire State shown in sufficient Fig. 3, i.e.,：When pumping light pulse signal and detecting optical pulses signal meet at the bare fibre 2 in tested optical fiber, Detecting optical pulses signal have passed through fiber connection points, and pumping light pulse signal not yet passes through fiber connection points.Photo-detector is surveyed Measure the luminous power P received₃。

When 2x2 photoswitches are in connection status 2, the output in closing pump light signals source, detection optical signal source output detection Light pulse signal, the luminous power P that photo-detector measurement receives₁。

When 2x2 photoswitches are in connection status 2, pump light signals source output pumping light pulse signal, detection optical signal source Detecting optical pulses signal is exported, the time location relation of two signals causes pumping light pulse signal and detecting optical pulses signal to expire State shown in sufficient Fig. 4, i.e.,：When pumping light pulse signal and detecting optical pulses signal meet at the bare fibre 2 in tested optical fiber, Pumping light pulse signal have passed through fiber connection points, and detecting optical pulses signal not yet passes through fiber connection points.Photo-detector is surveyed Measure the luminous power P received₄。

When 2x2 photoswitches are in connection status 2, pump light signals source output pumping light pulse signal, detection optical signal source Detecting optical pulses signal is exported, the time location relation of two signals causes pumping light pulse signal and detecting optical pulses signal to expire State shown in sufficient Fig. 5, i.e.,：When pumping light pulse signal and detecting optical pulses signal meet at the bare fibre 1 in tested optical fiber, Detecting optical pulses signal have passed through fiber connection points, and pumping light pulse signal not yet passes through fiber connection points.Photo-detector is surveyed Measure the luminous power P received₅。

2x2 photoswitches are under connection status 1, pump light signals direction from clamper b to clamper a, in 1550nm windows Under mouthful, loss of fibre-optical connection value A_b-a=10*log ((P₃-P₀)/(P₂-P₀))。

2x2 photoswitches are under connection status 2, pump light signals direction from clamper a to clamper b, in 1550nm windows Under mouthful, loss of fibre-optical connection value A_a-b=10*log ((P₅-P₁)/(P₄-P₁))。

Under 1550nm windows, loss of fibre-optical connection value A：

A=(A_b-a+A_a-b)/2=5*log (((P₃-P₀)*(P₅-P₁))/((P₂-P₀)*(P₄-P₁))。

Claims (3)

1. a kind of loss of fibre-optical connection measurement apparatus, it is characterized in that, including fibre holder a, fibre holder b, pump light letter Number source, detection optical signal source, 2x2 photoswitches, optical directional coupler, optical filter and optical signal detector, the optical fiber clamping Device a one end connection tested optical fiber 1, other end connection 2x2 photoswitches；One end connection tested optical fiber of the fibre holder b 2, other end connection 2x2 photoswitches；Two other port of the 2x2 photoswitches connects detection optical signal source and light direction respectively The public port of coupler；One in remaining two ports of the optical directional coupler is connected with pump light signals source, another It is individual that optical signal detector is connected by optical filter.

2. loss of fibre-optical connection measurement apparatus according to claim 1, it is characterized in that, the pump light signals source is used to produce The light pulse signal of raw 1550nm windows, light pulse signal width range is 1n-100ns, and peak optical powers scope is+30dBm- +60dBm。

3. loss of fibre-optical connection measurement apparatus according to claim 1, it is characterized in that, the detection optical signal source is used to produce The light pulse signal of raw 1625nm windows, light pulse signal width range be 1ns-100ns, peak optical powers scope is- 10dBm-+20dBm。