CN109557617A - Tunable filter - Google Patents

Abstract

The present invention provides a kind of tunable filter, including two fixing pieces, two optical fiber connectors and piezoelectric ceramics, fixing piece is provided through installation through-hole along optical path direction, optical fiber connector includes connection shell, fibre core and fiber stub, fiber stub is fixed on connection shell, fibre core passes through connection shell along optical path direction and protrudes into fiber stub, shell is connected to be fixedly mounted in installation through-hole, piezoelectric ceramics is provided through receiving opening along optical path direction, piezoelectric ceramics along optical path direction is connected between fixing piece, installation through-hole and receiving opening are sequentially communicated, the exit end of two fiber stubs is positioned opposite in receiving opening.By the way that piezoelectric ceramics is connected between fixing piece, and it is the exit end of the exit end of the first fiber stub and the second fiber stub is positioned opposite in receiving opening, then F-P resonant cavity is formed, and utilize the piezoelectric effect characteristic of piezoelectric ceramics, it realizes accurate adjusting subtle to the distance between fixing piece, makes filter accurately adjustable filtering.

Description

Tunable filter

Technical field

The present invention relates to optical filter field more particularly to a kind of tunable filters.

Background technique

With the development and maturation of fiber grating sensing technology, wavelength interrogation technique is had been to be concerned by more and more people and again Depending on.Wavelength demodulation system based on tunable optical fiber FP filter has the advantages that at low cost, response is fast, high resolution, It is widely used.And core devices of the tunable optical fiber FP filter as whole system, performance superiority and inferiority very great Cheng The performance of entire demodulating system is determined on degree.In optical communication system, tunable FP filter is mainly used for wavelength-division multiplex Demultiplexing and signal demodulation etc., filter oneself become mainstream device.In addition, FP device also acts as the signal in fiber amplifier Filter also has important application in optical fiber laser and spectrum analysis.With other kinds of adjustable light wave-filter-sound Optical filter, Mach-Zenhder filter, distributed feed-back cloth loudspeaker lattice laser tunable optic filter are compared, tunable FP filtering Utensil has many advantages, and if insertion loss is low, tuned speed is fast, tunable range is wide, fineness is high and flexible structure, can make At different structure to meet the needs of different free spectral ranges.

There is also many problems and shortcomings in the practical application of tunable optical fiber FP filter, as vulnerable to temperature change It influences, 1 degree Celsius of variation of ambient temperature, often causes the variation of at least several nanometers of optical fiber FP filter wavelength.The prior art Middle scheme is to realize temperature control using a sealing space installation refrigerator or thermostat, certainly will increase structure in this way Complexity, it is difficult to realize small-sized encapsulated.

Summary of the invention

Simple and frequency domain stable regulation the tunable filter the object of the present invention is to provide a kind of structure.

In order to achieve the object of the present invention, the present invention provides a kind of tunable filter, including the first fixing piece, the first optical fiber Connector, the second fixing piece, the second optical fiber connector and piezoelectric ceramics, the first fixing piece are provided through first along optical path direction Installation through-hole, the first optical fiber connector include that the first connection shell, the first fibre core and the first fiber stub, the first fiber stub are solid On the first connection shell, the first fibre core passes through the first connection shell along optical path direction and protrudes into the first fiber stub for fixed setting In, the first connection shell is fixedly mounted in the first installation through-hole, and the second fixing piece is provided through the second installation along optical path direction Through-hole, the second optical fiber connector include the second connection shell, the second fibre core and the second fiber stub, and the fixation of the second fiber stub is set It sets on the second connection shell, the second fibre core passes through the second connection shell along optical path direction and protrudes into the second fiber stub, the Two connection shells are fixedly mounted in the second installation through-hole, and piezoelectric ceramics is arranged in a ring, and piezoelectric ceramics runs through along optical path direction to be set It is equipped with receiving opening, piezoelectric ceramics along optical path direction is connected between the first fixing piece and the second fixing piece, and the first installation is logical Hole, receiving opening and the second installation through-hole are sequentially communicated, the exit end of the exit end of the first fiber stub and the second fiber stub It is positioned opposite in receiving opening.

By above scheme as it can be seen that by the way that piezoelectric ceramics is connected between fixing piece, and by the outgoing of the first fiber stub The exit end of end and the second fiber stub is positioned opposite in receiving opening, then forms F-P resonant cavity, and piezoelectricity is utilized to make pottery The piezoelectric effect characteristic of porcelain realizes accurate adjusting subtle to the distance between fixing piece, to realize the exit end of fiber stub The accurate adjusting of spacing makes filter accurately adjustable filtering using accurate adjustable frequency domain.

Further scheme is that the first fixing piece is provided with the first bulge loop in the first end face towards the second fixing piece, The first end of piezoelectric ceramics is connect with the first end face of the first fixing piece, and the first bulge loop protrudes into receiving opening.

Further scheme is that the second fixing piece is provided with the second bulge loop in the second end face towards the first fixing piece, The second end of piezoelectric ceramics is connect with the second end face of the second fixing piece, and the second bulge loop protrudes into receiving opening.

Further scheme is the inner wall clearance fit of the first bulge loop and receiving opening.

Further scheme is the inner wall clearance fit of the second bulge loop and receiving opening.

Therefore the limit of piezoelectric ceramics is fixedly mounted by bulge loop, in piezoelectric ceramics deformation, the shifting of fixing piece Dynamic is coaxially to be axially moveable, and then guarantees the concentricity of filter device.

Further scheme is that the first installation through-hole is provided with the first convex edge radially inwards, and the first optical fiber is inserted Core passes through the first convex edge.

Further scheme is that the second installation through-hole is provided with the second convex edge radially inwards, and the second optical fiber is inserted Core passes through the second convex edge.

Therefore by convex along the positioning to fiber stub, then guarantee that fiber stub is coaxial when opposite Degree lowers light loss.

Further scheme is that the first fixing piece is made of steel, stainless steel or quartz.

Further scheme is that the second fixing piece is made of steel, stainless steel or quartz.

Therefore fixing piece can be used the lower material of thermal expansion coefficient and be made, such as steel, stainless steel or quartz, make The expansion for obtaining fixing piece is not influenced by environment temperature or operating temperature, then guarantees to filter accurate and job stability.

Detailed description of the invention

Fig. 1 is the structure chart of tunable filter first embodiment of the present invention.

Fig. 2 is the explosive view of tunable filter first embodiment of the present invention.

Fig. 3 is the cross-sectional view of tunable filter first embodiment of the present invention.

Fig. 4 is the structure chart of tunable filter second embodiment of the present invention.

Fig. 5 is the explosive view of tunable filter second embodiment of the present invention.

Fig. 6 is the cross-sectional view of tunable filter second embodiment of the present invention.

The invention will be further described with reference to the accompanying drawings and embodiments.

Specific embodiment

Tunable filter first embodiment:

Referring to figs. 1 to Fig. 3, tunable filter 1 includes the first fixing piece 11, the first optical fiber connector 12, the second fixing piece 13, the second optical fiber connector 14 and piezoelectric ceramics 15, the first optical fiber connector 12 include the first connection shell 122, the first fibre core 121 and first fiber stub 124, the first connection shell 122 is provided with mounting groove 123, the first fiber stub 124 is fixed at On the mounting groove 123 of first connection shell 122, the first fiber stub 124 is arranged along optical path direction, the first fiber stub 124 Axial parallel with optical path direction, the first fibre core 121 passes through the first connection shell 122 along optical path direction and protrudes into the first fiber stub In 124, the end of the first fibre core 121 extends to the exit end of the first fiber stub 124, the signal light of the first fibre core 121 transmission It is exported in the exit end of the first fiber stub 124.

First fixing piece 11 can be made of steel, stainless steel or quartz, and the first fixing piece 11 is arranged in cylindrical body, and first is fixed Part 11 is provided through the first installation through-hole 111 and positioning through hole 114 along optical path direction, the first installation through-hole 111 radially towards The first convex for being inside provided with annular is located at the first installation through-hole 111 and positioning through hole 114 along 112 along 112, first convexes Between, the first installation through-hole 111 is provided with opening outwardly, and positioning through hole 114 is provided with opening towards piezoelectric ceramics 15,

First fixing piece 11 is provided with the first bulge loop 113, the first bulge loop 113 in the first end face towards the second fixing piece 13 Positioned at the periphery of positioning through hole 114, the diameter of the first installation through-hole 111 is greater than and the diameter of positioning through hole 114, in the first bulge loop 113 radial outside, the first end of the first fixing piece 11 are smooth end face.The first peace is fixedly mounted in first connection shell 122 It fills in through-hole 111, the first fiber stub 124 passes through the first convex and protrudes into receiving opening 151 along 112 and positioning through hole 114.

Second optical fiber connector 14 includes the second connection shell 142, the second fibre core 141 and the second fiber stub 144, and second Connection shell 142 is provided with mounting groove 143, and the second fiber stub 144 is fixed at the mounting groove of the second connection shell 142 On 143, the second fiber stub 144 arranges that the axial direction of the second fiber stub 144 is parallel with optical path direction along optical path direction, second Fibre core 141 passes through the second connection shell 142 along optical path direction and protrudes into the second fiber stub 144, the end of the second fibre core 141 Extend to the exit end of the second fiber stub 144, outgoing of the signal light that the second fibre core 141 transmits in the second fiber stub 144 End output.

Second fixing piece 13 can be made of steel, stainless steel or quartz, and the second fixing piece 13 is arranged in cylindrical body, and second is fixed Part 13 is provided through the second installation through-hole 131 and positioning through hole 134 along optical path direction, the second installation through-hole 131 radially towards The second convex for being inside provided with annular is located at the second installation through-hole 131 and positioning through hole 134 along 132 along 132, second convexes Between, the second installation through-hole 131 is provided with opening outwardly, and positioning through hole 134 is provided with opening towards piezoelectric ceramics 15, and second Fixing piece 13 is provided with the second bulge loop 133 in the second end face towards the first fixing piece 11, and the second bulge loop 133 is located at positioning through hole The diameter of 134 periphery, the second installation through-hole 131 is greater than and the diameter of positioning through hole 134, outside in the diameter of the second bulge loop 133 Side, the second end of the second fixing piece 13 are smooth end face.Second connection shell 122 is fixedly mounted in the second installation through-hole 131, Second fiber stub 124 passes through the second convex and protrudes into receiving opening 151 along 132 and positioning through hole 134.

Piezoelectric ceramics 15 is arranged in a ring, and piezoelectric ceramics 15 is provided through receiving opening 151, piezoelectricity pottery along optical path direction Porcelain 15 along optical path direction is connected between the first end face of the first fixing piece 11 and the second end face of the second fixing piece 13, and first Bulge loop 113 protrudes into receiving opening 151 and the inner wall clearance fit with receiving opening 151, the second bulge loop 133 protrude into receiving opening In 151, and the inner wall clearance fit with receiving opening 151.First installation through-hole 111, positioning through hole 114, receiving opening 151, Positioning through hole 134 and the second installation through-hole 131 are sequentially communicated, the exit end of the first fiber stub 124 and the second fiber stub 144 Exit end it is positioned opposite in receiving opening 151.The exit end of first fiber stub 124 and the second fiber stub 144 go out Penetrating has gap between end, form F-P between the exit end of the first fiber stub 124 and the exit end of the second fiber stub 144 Resonant cavity.

By applying voltage in piezoelectric ceramics 15, so that deformation occurs for piezoelectric ceramics comprising along the deformation of optical path direction, Then the distance between the first fixing piece 11 and the second fixing piece 13 are had adjusted, going out for the first fiber stub 124 is finally had adjusted The distance between the exit end of end and the second fiber stub 144 is penetrated, to realize the subtle accurate adjusting to filtered band.

Therefore by the way that piezoelectric ceramics is connected between fixing piece, and by the exit end of the first fiber stub and The exit end of two fiber stubs is positioned opposite in receiving opening, then forms F-P resonant cavity, and utilizes the pressure of piezoelectric ceramics Electrical effect characteristic realizes accurate adjusting subtle to the distance between fixing piece, thus realize the exit end spacing of fiber stub It is accurate to adjust, using accurate adjustable frequency domain, make filter accurately adjustable filtering.The limit of piezoelectric ceramics is fixed by bulge loop Installation, in piezoelectric ceramics deformation, the movement of fixing piece is coaxially to be axially moveable, and then guarantees the coaxial of filter device Degree.By convex along the positioning to fiber stub, then guarantees concentricity of fiber stub when opposite, lower light loss. Fixing piece can be used the lower material of thermal expansion coefficient and be made, such as steel, stainless steel or quartz so that the expansion of fixing piece not by Environment temperature or operating temperature influence, and then guarantee to filter accurate and job stability.

Tunable filter second embodiment:

Referring to fig. 4 to fig. 6, tunable filter 2 includes the first fixing piece 21, the first optical fiber connector 22, the second fixing piece 23, the second optical fiber connector 24 and piezoelectric ceramics 25, the first optical fiber connector 22 include connection shell 222,221 and of the first fibre core First fiber stub 224, connection shell 222 are provided with mounting groove 223, and the first fiber stub 224 is fixed at connection shell On 222 mounting groove 223, the first fiber stub 224 is arranged along optical path direction, the axial direction of the first fiber stub 224 and optical path side To parallel, the first fibre core 221 passes through connection shell 222 along optical path direction and protrudes into the first fiber stub 224, the first fibre core 221 end extends to the exit end of the first fiber stub 224, and the signal light of the first fibre core 221 transmission is in the first fiber stub 224 exit end output.

First fixing piece 21 can be made of steel, stainless steel or quartz, and the first fixing piece 21 is arranged in cylindrical body, and first is fixed Part 21 is provided through the first installation through-hole 211 and positioning through hole 224 along optical path direction, the first installation through-hole 211 radially towards The first convex for being inside provided with annular is located at the first installation through-hole 211 and positioning through hole 214 along 212 along 212, first convexes Between, the first installation through-hole 211 is provided with opening outwardly, and positioning through hole 214 is provided with opening towards piezoelectric ceramics 25,

First fixing piece 21 is provided with the first bulge loop 213, the first bulge loop 213 in the first end face towards the second fixing piece 23 Positioned at the periphery of positioning through hole 214, the diameter of the first installation through-hole 211 is greater than and the diameter of positioning through hole 214, in the first bulge loop 213 radial outside, the first end of the first fixing piece 21 are smooth end face.It connects shell 222 and is fixedly mounted first and installs and lead to In hole 211, the first fiber stub 224 passes through the first convex and protrudes into receiving opening 251 along 212 and positioning through hole 214.

Second optical fiber connector 24 includes connection ring 242, the second fibre core 241 and the second fiber stub 244, connection ring 242 Optical path is provided with location hole, the second fiber stub 244 arranges that the second fiber stub 244 passes through connection ring 242 along optical path direction And be fixedly connected with connection ring 242, the second fibre core stretches in the second fiber stub along optical path direction, the end of the second fibre core 241 Portion extends to the exit end of the second fiber stub 244, signal light the going out in the second fiber stub 244 of the second fibre core 241 transmission End output is penetrated, the hole wall of the second installation through-hole 231 is provided with internal screw thread, and the outer surface of connection ring 242 is provided with external screw thread, outer spiral shell Line and screw-internal thread fit then realize that connection ring is mounted in the second installation through-hole 231 with being threadedly engaged, so that connection ring 242 It can be moved in the second installation through-hole 231 along optical path direction.

Second fixing piece 23 can be made of steel, stainless steel or quartz, and the second fixing piece 23 is arranged in cylindrical body, and second is fixed Part 23 is provided through the second installation through-hole 231 and positioning through hole 234 along optical path direction, the second installation through-hole 231 radially towards The second convex for being inside provided with annular is located at the second installation through-hole 231 and positioning through hole 234 along 232 along 232, second convexes Between, the second installation through-hole 231 is provided with opening outwardly, and positioning through hole 234 is provided with opening towards piezoelectric ceramics 25, and second Fixing piece 23 is provided with the second bulge loop 233 in the second end face towards the first fixing piece 21, and the second bulge loop 233 is located at positioning through hole The diameter of 234 periphery, the second installation through-hole 231 is greater than and the diameter of positioning through hole 234, outside in the diameter of the second bulge loop 233 Side, the second end of the second fixing piece 23 are smooth end face.Connection ring 242 is mounted on the second installation through-hole 231 with being threadedly engaged Interior, the second fiber stub 224 passes through the second convex and protrudes into receiving opening 251 along 232 and positioning through hole 234.

Piezoelectric ceramics 25 is arranged in a ring, and piezoelectric ceramics 25 is provided through receiving opening 251, piezoelectricity pottery along optical path direction Porcelain 25 along optical path direction is connected between the first end face of the first fixing piece 21 and the second end face of the second fixing piece 23, and first Bulge loop 213 protrudes into receiving opening 251 and the inner wall clearance fit with receiving opening 251, the second bulge loop 233 protrude into receiving opening In 251, and the inner wall clearance fit with receiving opening 251.First installation through-hole 211, positioning through hole 224, receiving opening 251, Positioning through hole 234 and the second installation through-hole 231 are sequentially communicated, the exit end of the first fiber stub 224 and the second fiber stub 244 Exit end it is positioned opposite in receiving opening 251.The exit end of first fiber stub 224 and the second fiber stub 244 go out Penetrating has gap between end, form F-P between the exit end of the first fiber stub 224 and the exit end of the second fiber stub 244 Resonant cavity.

First the can be then realized by being rotatablely connected ring 242, so that the second fiber stub 241 is moved along optical path direction Spacing between one fiber stub 224 and the second fiber stub 244 is, it can be achieved that large range of frequency range is adjusted, also, can also be led to It crosses and applies voltage in piezoelectric ceramics 25, so that deformation occurs for piezoelectric ceramics comprising along the deformation of optical path direction, then have adjusted The distance between first fixing piece 21 and the second fixing piece 23 finally have adjusted the exit end and second of the first fiber stub 224 The distance between the exit end of fiber stub 244, to realize the subtle accurate adjusting to filtered band.

Therefore by the way that piezoelectric ceramics is connected between fixing piece, and by the exit end of the first fiber stub and The exit end of two fiber stubs is positioned opposite in receiving opening, then forms F-P resonant cavity, and utilizes the pressure of piezoelectric ceramics Electrical effect characteristic realizes accurate adjusting subtle to the distance between fixing piece, in addition can also pass through the optical path direction of connection ring It is mobile that fiber stub spacing is adjusted, to realize that a wide range of of the exit end spacing of fiber stub is adjusted and subtle accurate tune Section keeps the filtering adjustable extent of filter big and accurate high using accurate adjustable frequency domain.

Claims (9)

1. tunable filter characterized by comprising

First fixing piece, first fixing piece are provided through the first installation through-hole along optical path direction；

First optical fiber connector, first optical fiber connector include the first connection shell, the first fibre core and the first fiber stub, First fiber stub is fixed on the first connection shell, and first fibre core passes through described along optical path direction First connection shell protrudes into first fiber stub, and first installation through-hole is fixedly mounted in the first connection shell It is interior；

Second fixing piece, second fixing piece are provided through the second installation through-hole along optical path direction；

Second optical fiber connector, second optical fiber connector include the second connection shell, the second fibre core and the second fiber stub, Second fiber stub is fixed on the second connection shell, and second fibre core passes through described along optical path direction Second connection shell protrudes into second fiber stub, and second installation through-hole is fixedly mounted in the second connection shell It is interior；

Piezoelectric ceramics, the piezoelectric ceramics are arranged in a ring, and the piezoelectric ceramics is provided through receiving opening along optical path direction, The piezoelectric ceramics along optical path direction is connected between first fixing piece and second fixing piece, first installation Through-hole, the receiving opening and second installation through-hole are sequentially communicated, the exit end of first fiber stub and described The exit end of two fiber stubs is positioned opposite in the receiving opening.

2. tunable filter according to claim 1, it is characterised in that:

First fixing piece is provided with the first bulge loop in the first end face towards second fixing piece, the piezoelectric ceramics First end is connect with the first end face of first fixing piece, and first bulge loop protrudes into the receiving opening.

3. tunable filter according to claim 2, it is characterised in that:

Second fixing piece is provided with the second bulge loop in the second end face towards first fixing piece, the piezoelectric ceramics Second end is connect with the second end face of second fixing piece, and second bulge loop protrudes into the receiving opening.

4. tunable filter according to claim 2, it is characterised in that:

The inner wall clearance fit of first bulge loop and the receiving opening.

5. tunable filter according to claim 3, it is characterised in that:

The inner wall clearance fit of second bulge loop and the receiving opening.

6. tunable filter according to claim 1, it is characterised in that:

First installation through-hole is provided with the first convex edge radially inwards, and first fiber stub passes through described first Convex edge.

7. tunable filter according to claim 6, it is characterised in that:

Second installation through-hole is provided with the second convex edge radially inwards, and second fiber stub passes through described second Convex edge.

8. tunable filter according to any one of claims 1 to 7, it is characterised in that:

First fixing piece is made of steel, stainless steel or quartz.

9. tunable filter according to any one of claims 1 to 7, it is characterised in that:

Second fixing piece is made of steel, stainless steel or quartz.