CN109186598A - One kind being used for the unpiloted navigation chip of new-energy automobile - Google Patents

Abstract

The invention discloses one kind to be used for the unpiloted navigation chip of new-energy automobile, including pump light source, first medium optical waveguide, second medium optical waveguide, gyro chip based on active cascade surface phasmon resonant cavity, output optical fibre and Photoelectrical detector, the gyro chip based on active cascade surface phasmon resonant cavity includes source level connection surface annular phasmon resonant cavity, tunable coupled output, X branch, modulator and Y-branch, the first medium optical waveguide, directional coupler is connected between second medium optical waveguide, and light field is constituted with the gyro chip of active cascade surface annular phasmon resonant cavity and is coupled.Of the invention is used for the unpiloted navigation chip of new-energy automobile, realize real chip surface phasmon laser gyro, realize the miniaturization of gyro chip, the difficulty that laser light source and modulator integrate in laser gyro system is substantially reduced, the integrated level and stability of laser gyro system are improved.

Description

One kind being used for the unpiloted navigation chip of new-energy automobile

Technical field

The present invention relates to a kind of chips, and in particular to a kind of navigation chip.

Background technique

New-energy automobile refers to using unconventional vehicle fuel as a source of power, or using conventional vehicle fuel, Using new vehicle-mounted power plant, the dynamic Control of comprehensive vehicle and the advanced technology of driving aspect, the technical principle elder generation of formation Into, the automobile with new technology, new construction, on new-energy automobile, it will usually be equipped with all kinds of onboard navigation systems, to automobile into Row positioning, while guiding drive route, reaches the destination convenient for car owner, and existing onboard navigation system is mainly by touch screen, micro- Processor and navigation module composition, it is more advanced at present to surely belong to laser gyro chip, laser gyro have dynamic range it is big, It is the ideal element of inertia system especially strap-down inertial system, largely without the superiority such as acceleration effect, structure be simple Applied to military and civilian field, the principle of laser gyro is Sagnac effect, and the optical resonance at it intracavitary is at least run The light wave that a pair is propagated in opposite directions, when it is rotated around sensitive axes relative to inertial space, the frequency of opposite traveling wave generates division, shape The directly proportional beat frequency in slewing rate, thus the rotation letter that can be obtained laser gyro relative to inertial space by measuring beat frequency Breath, laser gyro are the one kind for developing comparative maturity in moment gyroscope field, have been widely used for positioning, tracking and navigation etc. Field, with the continuous development of science and technology, Technology for Modern Equipment system constantly put forward new requirements laser gyro, are miniaturized, are high-precision Degree, low cost have become the trend of current laser gyro development.

Summary of the invention

Goal of the invention: in view of the above-mentioned deficiencies in the prior art, it is an object of the present invention to provide it is a kind of for new-energy automobile without The navigation chip that people drives is easy to use.

Technical solution: of the present invention a kind of for the unpiloted navigation chip of new-energy automobile, including pump light It is source, first medium optical waveguide, second medium optical waveguide, the gyro chip based on active cascade surface phasmon resonant cavity, defeated Optical fiber and Photoelectrical detector out, the gyro chip based on active cascade surface phasmon resonant cavity includes source cascade list Face ring shape phasmon resonant cavity, tunable coupled output, X branch, modulator and Y-branch, the first medium optical waveguide, Directional coupler, and the gyro core with active cascade surface annular phasmon resonant cavity are connected between second medium optical waveguide Piece constitutes light field coupling, and the active cascade surface annular phasmon resonant cavity includes the first resonant cavity, the second resonant cavity, the Three resonant cavities and gain media, the pump light source is set to the surface of first medium optical waveguide, second medium optical waveguide, described First resonant cavity and the second resonant cavity are connected or adjacent at region as the first coupler, first resonant cavity and third resonant cavity It is connected or adjacent to be the second coupler at region, second resonant cavity and tunable coupled output are connected or adjacent at region For third coupler, the third resonant cavity and tunable coupled output are connected or adjacent at region as the 4th coupler, institute It states and is equipped with slit between tunable coupled output, X branch, modulator and Y-branch, the Y-branch output port is through output light Fibre is connect with Photoelectrical detector.

The active cascade surface annular phasmon resonant cavity, tunable coupled output, X branch, the first modulator, Second modulator and Y-branch are made of surface plasmon waveguide.

The surface plasmon waveguide includes substrate, metal core layer, top covering and under-clad layer, and the under-clad layer is set to upper Between covering and substrate, metal core layer is equipped between the under-clad layer and substrate, the under-clad layer is identical with top covering refractive index, And its contact surface is Raman scattering.

Doped with gain media between the under-clad layer and substrate of the active cascade surface annular phasmon resonant cavity, and The size of the first resonant cavity in active cascade surface annular phasmon resonant cavity is greater than the second resonant cavity, third resonant cavity Size, second resonant cavity, the size of third resonant cavity are identical.

The dual-mode laser of the active cascade surface annular phasmon resonant cavity output passes through third coupler, the 4th coupling Enter the curved surface phasmon waveguide of tunable coupled output, the curved surface phasmon waveguide after clutch coupling In first metal core layer one end connect with first electrode contact by first electrode lead, the other end passes through second electrode lead The connection of second electrode contact.

By changing in the first electrode contact, second electrode contact and curved surface phasmon waveguide circuit circuit Voltage value, adjust the waveguide of curved surface phasmon in the first metal core layer and its temperature of surrounding cladding layers, to third coupler, 4th coupler coupling performance is tuned.

The modulator is Thermo-optical modulator, and the Thermo-optical modulator includes the first modulator and the second modulator, described Second metal core layer one end of first modulator is connect by third contact conductor with third electrode contacts, and the other end passes through the 4th Contact conductor is connect with the 4th electrode contacts, third metal core layer one end of second modulator by the 5th contact conductor with The connection of 5th electrode contacts, the other end are connect by the 6th contact conductor with the 6th electrode contacts, the in first modulator Third metal core layer is to pass the waveguide core layer of light and the modulator electrode that conducts electricity simultaneously in two metal core layers and the second modulator, the heat The first top covering and the first under-clad layer in optical modulator are thermoluminescent material.

The pump light source vertical irradiation first medium optical waveguide, second medium optical waveguide, the first medium optical waveguide, It is single inclined that second medium optical waveguide motivates the gain media in the active cascade surface annular phasmon resonant cavity to be formed in turn Shake laser, it is described list polarization laser by third coupler, the 4th coupler along tunable coupled output the first metal core Layer four beam laser of output, the four beams laser passes through X respectively and branches into the first modulator and the second modulator, then passes through Y points Enter Photoelectrical detector by output optical fibre after branch coupling output.

It is equidistant slit between the tunable coupled output, X branch, modulator and Y-branch, the slit is 0.8 ~1.5 μm.

The under-clad layer is connected with top covering by wavy surface, and the gain media is solid state gain medium.

The utility model has the advantages that one kind of the invention is used for the unpiloted navigation chip of new-energy automobile, swashed by pump light source Encourage dielectric optical waveguide, and then motivate the solid state gain medium in ring resonator covering, ultimately form based on cascade surface etc. from The laser of excimer resonant cavity, the laser of output have narrow linewidth and a single polarization characteristic, and the transmission optical path in chip by Surface plasmon waveguide realizes that single polarization transfer characteristics of surface plasmon waveguide can effectively reduce gyro noise, improves Gyro Precision and stability, active cascade surface annular phasmon resonance-cavity laser, X branch, modulator and Y-branch are integrated In same chip, real chip surface phasmon laser gyro is realized, improves the stability of gyro, simultaneously The miniaturization of gyro chip is also achieved, the difficulty that laser light source and modulator integrate in laser gyro system is substantially reduced, mentions The high integrated level and stability of laser gyro system.

Detailed description of the invention

Fig. 1 is the laser gyro structural schematic diagram based on active cascade surface annular phasmon resonant cavity；

Fig. 2 is surface plasmon waveguide cross section structure schematic diagram；

Fig. 3 is tunable coupled output structural schematic diagram；

Fig. 4 is Thermo-optical modulator structural schematic diagram.

Specific embodiment

Technical solution of the present invention is described in detail below, but protection scope of the present invention is not limited to the implementation Example.

As shown in Figures 1 to 4, one kind of the invention is used for the unpiloted navigation chip of new-energy automobile, including pumping Light source 1, first medium optical waveguide 2, second medium optical waveguide 3, the gyro core based on active cascade surface phasmon resonant cavity Piece 42, output optical fibre 4 and Photoelectrical detector 43, the gyro chip 42 based on active cascade surface phasmon resonant cavity include Source level joins surface annular phasmon resonant cavity 5, tunable coupled output 6, X branch 7, modulator 8 and Y-branch 9, and first is situated between Be connected with directional coupler 10 between matter optical waveguide 2, second medium optical waveguide 3, and with active cascade surface annular phasmon The gyro chip of resonant cavity 5 constitutes light field coupling, and active cascade surface annular phasmon resonant cavity 5 includes the first resonant cavity 11, the second resonant cavity 12, third resonant cavity 13 and gain media, pump light source 1 are set to first medium optical waveguide 2, second medium The surface of optical waveguide 3, the first resonant cavity 11 and the second resonant cavity 12 are connected or adjacent at region as the first coupler 14, and first Resonant cavity 11 and third resonant cavity 13 are connected or adjacent to be the second coupler 15 at region, and the second resonant cavity 12 is coupled with tunable Output end 6 is connected or adjacent to be third coupler 16 at region, and third resonant cavity 13 connect or leans on tunable coupled output 6 It is the 4th coupler 17 near field, slit, Y is equipped between tunable coupled output 6, X branch 7, modulator 8 and Y-branch 9 9 output port of branch is connect through output optical fibre 4 with Photoelectrical detector 43.

Active cascade surface annular phasmon resonant cavity 5, tunable coupled output 6, X branch 7, the first modulator 18, the second modulator 19 and Y-branch 9 are made of surface plasmon waveguide.

Surface plasmon waveguide includes substrate 20, metal core layer 21, top covering 22 and under-clad layer 23, and under-clad layer 23 is set to Between top covering 22 and substrate 20, metal core layer 21,22 folding of under-clad layer 23 and top covering are equipped between under-clad layer 23 and substrate 20 It is identical to penetrate rate, and its contact surface is Raman scattering.

Doped with gain media between the under-clad layer 23 and substrate 20 of active cascade surface annular phasmon resonant cavity 5, And the size of the first resonant cavity 11 in active cascade surface annular phasmon resonant cavity 5 is greater than the second resonant cavity 12, third The size of resonant cavity 13, the second resonant cavity 12, the size of third resonant cavity 13 are identical.

The dual-mode laser that active cascade surface annular phasmon resonant cavity 5 exports passes through third coupler 16, the 4th coupling Clutch coupling 17 enters the curved surface phasmon waveguide 24 of tunable coupled output 6, curved surface phasmon wave after closing It leads 25 one end of the first metal core layer in 24 to connect by first electrode lead 26 with first electrode contact 27, the other end passes through the The connection of two contact conductors, 28 second electrode contact 29.

By changing first electrode contact 27,24 circuit loop of second electrode contact 29 and the waveguide of curved surface phasmon Middle voltage value adjusts the first metal core layer 25 and its temperature of surrounding cladding layers in curved surface phasmon waveguide 24, to third Coupler 16,17 coupling performance of the 4th coupler are tuned.

Modulator 8 is Thermo-optical modulator, and Thermo-optical modulator includes the first modulator 18 and the second modulator 19, the first modulation 30 one end of the second metal core layer of device 18 is connect by third contact conductor 31 with third electrode contacts 32, and the other end passes through the 4th Contact conductor 33 is connect with the 4th electrode contacts 34, and 35 one end of third metal core layer of the second modulator 19 is drawn by the 5th electrode Line 36 is connect with the 5th electrode contacts 37, and the other end is connect by the 6th contact conductor 38 with the 6th electrode contacts 39, and first adjusts The waveguide core layer and biography to pass light simultaneously of third metal core layer 35 in second metal core layer 30 and the second modulator 19 in device 18 processed Electrical modulation electrode, the first top covering 40 and the first under-clad layer 41 in Thermo-optical modulator are thermoluminescent material.

1 vertical irradiation first medium optical waveguide 2 of pump light source, second medium optical waveguide 3, first medium optical waveguide 2, second Dielectric optical waveguide 3 motivates the gain media in active cascade surface annular phasmon resonant cavity 5 to form single polarization laser in turn, Single polarization laser is defeated along the first metal core layer 25 of tunable coupled output 6 by third coupler 16, the 4th coupler 17 Four beam laser out, four beam laser pass through X branch 7 respectively and enter the first modulator 18 and the second modulator 19, then pass through Y-branch 9 Enter Photoelectrical detector 43 by output optical fibre 4 after coupling output.

It is equidistant slit between tunable coupled output 6, X branch 7, modulator 8 and Y-branch 9, slit is 0.8~1.5 μm。

Under-clad layer 22 is connected with top covering 23 by wavy surface, and gain media is solid state gain medium.

As described above, must not be explained although the present invention has been indicated and described referring to specific preferred embodiment For the limitation to invention itself.It without prejudice to the spirit and scope of the invention as defined in the appended claims, can be right Various changes can be made in the form and details for it.

Claims (10)

1. one kind is used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: including pump light source, first medium light Waveguide, second medium optical waveguide, the gyro chip based on active cascade surface phasmon resonant cavity, output optical fibre and photoelectricity are visited Instrument is surveyed, the gyro chip based on active cascade surface phasmon resonant cavity includes source level connection surface annular phasmon Resonant cavity, tunable coupled output, X branch, modulator and Y-branch, the first medium optical waveguide, second medium optical waveguide Between be connected with directional coupler, and constitute light field coupling with the gyro chip of active cascade surface annular phasmon resonant cavity It closes, the active cascade surface annular phasmon resonant cavity includes the first resonant cavity, the second resonant cavity, third resonant cavity and increasing Beneficial medium, the pump light source be set to first medium optical waveguide, second medium optical waveguide surface, first resonant cavity and Second resonant cavity is connected or adjacent at region be the first coupler, and first resonant cavity and third resonant cavity are connected or adjacent to area It is the second coupler at domain, second resonant cavity is connected or adjacent at region couple for third with tunable coupled output Device, the third resonant cavity and tunable coupled output are connected or adjacent at region as the 4th coupler, the tunable coupling It closes and is equipped with slit between output end, X branch, modulator and Y-branch, the Y-branch output port is visited through output optical fibre and photoelectricity Survey instrument connection.

2. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: described active Cascade surface annular phasmon resonant cavity, tunable coupled output, X branch, the first modulator, the second modulator and Y points Branch is made of surface plasmon waveguide.

3. according to claim 2 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: the surface Phasmon waveguide includes substrate, metal core layer, top covering and under-clad layer, and the under-clad layer is set between top covering and substrate, Metal core layer is equipped between the under-clad layer and substrate, the under-clad layer is identical with top covering refractive index, and its contact surface is to draw Graceful scattering.

4. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: described active Doped with gain media between the under-clad layer and substrate of cascade surface annular phasmon resonant cavity, and active cascade surface is annular The size of the first resonant cavity in phasmon resonant cavity is greater than the size of the second resonant cavity, third resonant cavity, and described second is humorous Chamber, the size of third resonant cavity of shaking are identical.

5. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: described active The dual-mode laser of cascade surface annular phasmon resonant cavity output can by entering after third coupler, the coupling of the 4th coupler Tune the curved surface phasmon waveguide of coupled output, the first metal core layer in the curved surface phasmon waveguide One end is connect by first electrode lead with first electrode contact, and the other end is connected by second electrode lead second electrode contact It connects.

6. according to claim 5 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: pass through change Voltage value in the first electrode contact, second electrode contact and curved surface phasmon waveguide circuit circuit adjusts bending First metal core layer and its temperature of surrounding cladding layers in surface plasmon waveguide couple third coupler, the 4th coupler Performance is tuned.

7. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: the modulation Device is Thermo-optical modulator, the Thermo-optical modulator include the first modulator and the second modulator, the second of first modulator Metal core layer one end is connect by third contact conductor with third electrode contacts, and the other end passes through the 4th contact conductor and the 4th electricity Third metal core layer one end of the connection of pole contact, second modulator is connected by the 5th contact conductor and the 5th electrode contacts It connects, the other end is connect by the 6th contact conductor with the 6th electrode contacts, the second metal core layer and the in first modulator Third metal core layer is to pass the waveguide core layer of light and conduct electricity modulator electrode simultaneously in two modulators, the in the Thermo-optical modulator One top covering and the first under-clad layer are thermoluminescent material.

8. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: the pumping Light source vertical irradiation first medium optical waveguide, second medium optical waveguide, the first medium optical waveguide, second medium optical waveguide into And the gain media in the active cascade surface annular phasmon resonant cavity is motivated to form single polarization laser, single polarization Laser exports four beam laser, institute along the first metal core layer of tunable coupled output by third coupler, the 4th coupler State four beam laser and pass through X respectively and branch into the first modulator and the second modulator, then by after Y-branch coupling output by defeated Optical fiber enters Photoelectrical detector out.

9. according to claim 1 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: described adjustable It is equidistant slit between humorous coupled output, X branch, modulator and Y-branch, the slit is 0.8~1.5 μm.

10. according to claim 4 be used for the unpiloted navigation chip of new-energy automobile, it is characterised in that: under described Covering is connected with top covering by wavy surface, and the gain media is solid state gain medium.