CN205724366U - Circle asymmetric semiconductor laser array - Google Patents
Circle asymmetric semiconductor laser array Download PDFInfo
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- CN205724366U CN205724366U CN201620618574.XU CN201620618574U CN205724366U CN 205724366 U CN205724366 U CN 205724366U CN 201620618574 U CN201620618574 U CN 201620618574U CN 205724366 U CN205724366 U CN 205724366U
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- semiconductor laser
- laser chip
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- ridge structure
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01S—DEVICES USING THE PROCESS OF LIGHT AMPLIFICATION BY STIMULATED EMISSION OF RADIATION [LASER] TO AMPLIFY OR GENERATE LIGHT; DEVICES USING STIMULATED EMISSION OF ELECTROMAGNETIC RADIATION IN WAVE RANGES OTHER THAN OPTICAL
- H01S5/00—Semiconductor lasers
- H01S5/40—Arrangement of two or more semiconductor lasers, not provided for in groups H01S5/02 - H01S5/30
- H01S5/4025—Array arrangements, e.g. constituted by discrete laser diodes or laser bar
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01S—DEVICES USING THE PROCESS OF LIGHT AMPLIFICATION BY STIMULATED EMISSION OF RADIATION [LASER] TO AMPLIFY OR GENERATE LIGHT; DEVICES USING STIMULATED EMISSION OF ELECTROMAGNETIC RADIATION IN WAVE RANGES OTHER THAN OPTICAL
- H01S5/00—Semiconductor lasers
- H01S5/02—Structural details or components not essential to laser action
- H01S5/024—Arrangements for thermal management
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- Condensed Matter Physics & Semiconductors (AREA)
- General Physics & Mathematics (AREA)
- Electromagnetism (AREA)
- Optics & Photonics (AREA)
- Semiconductor Lasers (AREA)
Abstract
This utility model relates to semiconductor laser array technical field, is specifically related to a kind of circle asymmetric semiconductor laser array.It includes base, and base is configured with at least one ring-type ridge structure, and the central shaft of any two ridge structure all overlaps;The side of arbitrary ridge structure is the most symmetrically provided with semiconductor laser chip.This utility model by by semiconductor laser chip with circle symmetrical by the way of arrange, it is possible to preferably obtain and possess good circle symmetry characteristic Output of laser.
Description
Technical field
The present invention relates to semiconductor laser array technical field, specifically, relate to a kind of circle asymmetric semiconductor laser
Device array.
Background technology
Visible light lasers light source used by existing laser display and lighting field mainly have diode pumped solid state laser and
Semiconductor laser two kinds.Along with semiconductor laser power constantly promotes, swashing existing for diode pumped solid state laser
Light speckle is high, operating environment requirements is harsh, high in cost of production shortcoming more highlights, therefore the development trend of lasing light emitter increasingly trends towards
Semiconductor laser.
At present, semiconductor laser packaged type mainly has single tube LD, Bar bar and three kinds of shapes of semiconductor laser array
Formula.Wherein, single tube LD light power is relatively low, so that make up the under powered shortcoming of monomer by quantity, but quantity increases
Also heat dissipation problem is made to highlight while adding;Bar bar packaged type, power is of a relatively high, but along with display and lighting requirement
Brightness is more and more higher, and the light power of Bar bar encapsulation still can not preferably meet actual application;Semiconductor laser array
Can in the least volume integrated dozens of luminescence chip, it is possible to preferably formed tens of watts laser output, use
Very convenient, thus use the most wide in range.But, above-mentioned three kinds of packaged types are the mode that single colored chip individually encapsulates, because of
Semiconductor laser, when being used for showing field, is frequently encountered the occasion needing trichroism laser simultaneously to export, thus relates to
To three laser arrays the most homochromy carry out closing the problem of light, and the beam shaping of complexity during this, can be used to close light
Optical system, is inconvenient for.On the other hand, existing semiconductor laser array uses rectanglar arrangement mode mostly, although square
The packaging technology of shape arrangement mode is simple, circuit board arrangement is succinct, but, owing to the fast axle of all semiconductor laser chips is equal
In one direction, therefore the most inevitably need to use cylindrical lens in later stage shaping, thus add shaping light path
Complexity so that subsequent treatment cost is difficult to reduce.
Although it addition, along with scientific and technological progress, semiconductor laser technology becomes better and approaching perfection day by day, but semiconductor laser is small-sized
All the time it is difficult to breakthrough bottleneck on the direction that change, densification are applied, traces it to its cause, it may be that existing semiconductor laser array is adopted
Array way can not bring preferably job stability for integrated laser chip.
Apart from the above, semiconductor laser implement body application such as field of projector in, use LASER Light Source time equal
Need it is carried out dodging, to obtain a light distribution uniform given shape hot spot such that it is able to irradiate uniformly
Imager chip.Existing dodging mainly has compound eye lens group technology and even light pipe technology, and wherein, compound eye lens group technology needs
Collimated incident hot spot that will be bigger, therefore LASER Light Source does not has advantage with this light-uniforming technology;And even light pipe technology is divided into solid light pipe
With hollow light pipe two class, they are respectively arranged with pluses and minuses.Owing to existing semiconductor laser exists above-mentioned various defects, thus cause
Even light pipe needs when mating with LASER Light Source LASER Light Source carries out the operation such as shaping, incident angle adjustment, it is therefore desirable to specially join
A set of shaping, angular adjustment apparatus, not only operate complicated and relatively costly.
Summary of the invention
In order to overcome the problem of existing laser array later stage shaping complexity, the invention provides a kind of circle symmetrical half
Conductor laser array.
According to the round asymmetric semiconductor laser array of the present invention, it includes base, base is configured with at least one ring
The ridge structure of shape, at least one ridge structure described has same central shaft;The equal centrosymmetry in side of arbitrary ridge structure
Be provided with semiconductor laser chip.
In the round asymmetric semiconductor laser array of the present invention, it is possible to by being symmetrically provided with semiconductor laser chip
Mode so that the output beam of laser array can preferably present round symmetry characteristic, it is possible to saves follow-up shaping and is adopted
Cylindrical lens so that assembly technology is greatly simplified, manufacturing cost is greatly lowered.The present invention has broken traditional rectangular row
The thinking set of cloth, it is possible to by using such as cos semiconductor laser chip to carry out justifying symmetric arrays so that although single luminescence
Chip also maintains XY directional divergence angular difference, but array Integral luminous mode shows as circle symmetric mode, so that the later stage
Shaping light path is the most succinct.
It addition, semiconductor laser chip can be arranged on base by multiple ridge structures of concentric circles, and each
The multiple semiconductor laser chips arranged on individual ridge structure all can centered by symmetrical arrangement, thus preferably so that arrangement
After laser beam parameter the most symmetrical.
As preferably, chassis interior is provided with temperature sensor, and temperature sensor is for gathering the work of semiconductor laser chip
Make temperature corresponding generation temperature signal.
In the round asymmetric semiconductor laser array of the present invention, it is possible at chassis interior, temperature sensor is set, it is thus possible to
Enough operating temperatures detecting semiconductor laser chip the most in real time such that it is able to the real-time duty to laser array
It is adjusted, preferably ensure that its job stability.
As preferably, base position is provided with electric interfaces, and electric interfaces includes the confession for powering to semiconductor laser chip
Electrical interface, and for reading the data-interface of temperature signal.
In the round asymmetric semiconductor laser array of the present invention, power supply interface can have multiple, and multiple semiconductor laser
Chip the quantity of corresponding power supply interface can be divided into many groups, and the semiconductor laser chip of each of which group all can be connected or also
Connection is attached from different power supply interfaces after connecting, and is enable to by being powered different power supply interfaces, and
The laser array making the present invention can be operated with different states, and then can relatively be flexibly applied to actual production
In.
As preferably, can be provided with in base such as fixing the substrate of ridge structure, be provided with inside substrate for pacifying
Put the circuit board of semiconductor laser chip.
In the round asymmetric semiconductor laser array of the present invention, it is possible to side arranges a laminar substrate on circuit boards, substrate
Setting makes ridge structure to be preferably fixed on base, and can preferably isolate circuit board and setting on circuit
Semiconductor laser chip such that it is able to play preferably protective effect.
As preferably, semiconductor laser chip welds with substrate eutectic.
In the round asymmetric semiconductor laser array of the present invention, semiconductor laser chip can weld with substrate eutectic, from
And can be preferably to semiconductor laser chip, it is ensured that the job stability of semiconductor laser chip.
As preferably, semiconductor laser chip is connected with circuit board gold thread.
In the round asymmetric semiconductor laser array of the present invention, semiconductor laser chip can be connected with circuit board gold thread,
So that semiconductor laser chip can preferably be electrically connected with circuit board.
As preferably, the spacing between arbitrary neighborhood semiconductor laser chip is 2~5mm.
In the round asymmetric semiconductor laser array of the present invention, the spacing between arbitrary neighborhood semiconductor laser chip can be
2~5mm, this set is while being obtained in that preferable light intensity, preferably reducing base volume, additionally it is possible to preferably solve adjacent
Interference problem between semiconductor laser chip and heat dissipation problem.
As preferably, arbitrary ridge structure is configured to centrosymmetric polygon.
In the round asymmetric semiconductor laser array of the present invention, ridge structure can be configured to centrosymmetric polygon,
So that all one or more semiconductor laser chip can be arranged preferably according to demand on ridge structure side every day, from
And preferably simplify assembly technology.
As preferably, corresponding semiconductor laser chip is arranged at the outside of corresponding ridge structure.
In the round asymmetric semiconductor laser array of the present invention, semiconductor laser chip can be located at outside ridge structure
Side, so that the semiconductor laser chip on each ridge structure can preferably be isolated, it is ensured that the stability of work.
In the round asymmetric semiconductor laser array of the present invention, by using the ridge structure of concentric annular that quasiconductor is swashed
Optical chip is supported so that while semiconductor laser chip is easily installed, and also allows for by adjusting ridge structure
Number of rings and overall power is preferably adjusted.
In order to overcome the existing laser array later stage to close light, the problem of shaping complexity, present invention also offers one
White semiconductor laser array.
White semiconductor laser array according to the present invention, it includes base, base is configured with at least one ring-type
Ridge structure, at least one ridge structure described has same central shaft;The side of arbitrary ridge structure is the most symmetrically
Being provided with semiconductor laser chip, semiconductor laser chip includes red light semiconductor laser chip, Green-emitting semiconductor laser chip, with
And blue-light semiconductor laser chip.
In the white semiconductor laser array of the present invention, it is possible to by same according to certain power proportions in an array
Time encapsulation redgreenblue semiconductor laser chip so that semiconductor laser array can simultaneously or timesharing output RGB
Laser, can preferably obtain through simple even photosystem and be applicable to display or the white light source of illumination, it is to avoid be complicated whole
Shape combined optical system so that assembly technology is greatly simplified.
It addition, the arrangement mode of redgreenblue semiconductor laser chip can use any of the above-described kind of round asymmetric semiconductor
The arrangement structure of laser array such that it is able to bring identical technique effect.
As preferably, chassis interior is provided with temperature sensor, and temperature sensor is for gathering the work of semiconductor laser chip
Make temperature corresponding generation temperature signal.
In the white semiconductor laser array of the present invention, it is possible at chassis interior, temperature sensor is set such that it is able to
Detect the operating temperature of semiconductor laser chip the most in real time such that it is able to the real-time duty to laser array is entered
Row sum-equal matrix, preferably ensure that its job stability.
As preferably, base position is provided with electric interfaces, and electric interfaces includes the confession for powering to semiconductor laser chip
Electrical interface, and for reading the data-interface of temperature signal.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
It is respectively adopted different power supply interfaces individually to power.
In the white semiconductor laser array of the present invention, power supply interface can have multiple, and semiconductor laser chip energy
Enough being divided into many groups corresponding to the quantity of power supply interface, wherein, the semiconductor laser chip in arbitrary group can be same color
Semiconductor laser chip such that it is able to by different power supply interfaces is powered, and preferably obtain different laser.
As preferably, it is provided with the substrate for fixing ridge structure in base, is provided with inside substrate for disposing quasiconductor
The circuit board of laser chip.
As preferably, semiconductor laser chip welds with substrate eutectic.
As preferably, semiconductor laser chip is connected with circuit board gold thread.
As preferably, the spacing between arbitrary neighborhood semiconductor laser chip is 2~5mm.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
Quantity than for 1:0.86:0.52.
In the white semiconductor laser array of the present invention, red light semiconductor laser chip, Green-emitting semiconductor laser chip,
And the power of blue-light semiconductor laser chip is 1:0.86:0.52 than preferably, this kind of power ratio makes it possess preferably
While ground heat dispersion, it is also made to be obtained in that the white laser of preferable colour temperature when cooperation.
The white semiconductor laser array of the present invention, has broken the thinking set of single colored chip encapsulation, it is possible to by adopting
Load in mixture the mode of encapsulation with the most trichroism COS chip, simultaneously or timesharing exports redgreenblue to reach a laser array
The ability of laser, eliminates follow-up shaping combined optical system, and structure is greatly simplified.When carrying out chip package, it is possible to alternate envelope
Filling trichroism laser chip, the quantity of RGB chip can use different ratio according to required white light colour temperature difference.This
When bright white semiconductor laser array directly applies to projection light machine, it is not necessary to carry out shaping and close bundle, be directly entered even light light
Road, greatly simplify light channel structure.
It addition, in the white semiconductor laser array of the present invention, all semiconductor laser chips can also use such as
The modes such as existing rectangular package array, butterfly array of packages, TO encapsulation are packaged.
In order to overcome existing laser array to need the problem of complicated orthopedic systems when even light pipe, the present invention is also
Provide a kind of even light pipe of self-luminous laser.
The even light pipe of self-luminous laser according to the present invention, it includes by connecting the even smooth tube body that support connects as one
And array laser, array laser includes base, and the nearly even smooth tube body side of base is configured with the ridge knot that at least one is ring-type
Structure, at least one ridge structure described has same central shaft, and the side of arbitrary ridge structure is the most symmetrically provided with and partly leads
Volumetric laser chip, semiconductor laser chip includes red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue light half
Conductor Laser chip.
In the even light pipe of self-luminous laser of the present invention, its array laser can use any of the above-described kind of white semiconductor to swash
Light device array, and corresponding technique effect can be brought.Meanwhile, also in that array laser uses any of the above-described kind of white light half
The structure of conductor laser array so that defeated laser is without carrying out the conjunction light of complexity, shaping such that it is able to be directly entered even light
Guan Zhong, it is achieved dodging.It is thus possible to the regulation apparatus for shaping preferably saved between array laser and even light pipe, thus relatively
Good simplifies whole projecting light path.
As preferably, chassis interior is provided with temperature sensor, and temperature sensor is for gathering the work of semiconductor laser chip
Make temperature corresponding generation temperature signal.
As preferably, base position is provided with electric interfaces, and electric interfaces includes the confession for powering to semiconductor laser chip
Electrical interface.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
It is respectively adopted different power supply interfaces individually to power.
In the even light pipe of self-luminous laser of the present invention, the semiconductor laser chip of each color all can be divided into many groups list
Solely power supply such that it is able to preferably obtain the white light of different-colour.
As preferably, electric interfaces also includes the data-interface for reading temperature signal.
As preferably, it is provided with the substrate for fixing ridge structure in base, is provided with inside substrate for disposing quasiconductor
The circuit board of laser chip.
As preferably, semiconductor laser chip welds with substrate eutectic, and semiconductor laser chip is connected with circuit board gold thread.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
Power than for 1:0.86:0.52.
As preferably, the spacing between arbitrary neighborhood semiconductor laser chip is 2~5mm.
In the even light pipe of self-luminous laser of the present invention, the spacing between arbitrary neighborhood semiconductor laser chip can be 2~
5mm, this set is while being obtained in that preferable light intensity, preferably reducing base volume, additionally it is possible to preferably solve adjacent half
The interference problem of conductor Laser chip chamber and heat dissipation problem.
In the even light pipe of self-luminous laser of the present invention, even smooth tube body can be designed as hollow light pipe according to real needs
Or solid light pipe, and different according to the dimension scale of projection chip, the exiting surface of even smooth tube body can be designed as 4:3 and
Two kinds of ratios of 16:9, the arrangement that array laser also is able to according to light pipe 4:3 and 16:9 carries out adapting simultaneously encapsulates, it is thus possible to
The preferable optical uniformity of the enough output light preferably ensureing even light pipe.
In order to overcome existing laser array volume relatively big and be unfavorable for optical element standardization, miniaturization etc.
Problem, present invention also offers a kind of integrated laser chip.
Integrated laser chip according to the present invention, it housing including being configured to frame-shaped, it is provided with Jie at housing lower ending opening
Matter substrate, is provided with transparent output window at housing upper end open;Connection line it is laid with, above dielectric substrate at dielectric substrate
Array has that be connected and the light-emitting area semiconductor laser chip just to output window with connection line;Also draw at dielectric substrate
Having pin, pin is for powering to semiconductor laser chip by connection line.
In the integrated laser chip of the present invention, it is possible to multiple semiconductor laser chips are integrated in a chip, from
And preferably achieve the microminaturization of Laser Devices, it is provided simultaneously with preferably reliability so that the standardization journey of laser chip
Degree is preferably promoted.By the integrated laser chip of the present invention so that laser chip can be such as IC chip one
Sample, as the optical element of standard, optical engineer can select required as Electronics Engineer from Standard-part Database's
Integrated laser chip, be directly inserted in special PCB use, thus greatly advance optical element standardization
Development.
In the integrated laser chip of the present invention, dielectric substrate can use the material possessing good heat radiating ability and insulating capacity
Material is made such that it is able to preferably promote its job stability.
As preferably, dielectric substrate is arranged over the supporting construction for supporting semiconductor laser chip.
As preferably, supporting construction includes that at least one ring-type ridge structure, at least one ridge structure described have
Same central shaft, the side of arbitrary ridge structure is the most symmetrically provided with semiconductor laser chip.
In the integrated laser chip of the present invention, its supporting construction can use the ridge of any one concentric annular above-mentioned to tie
Structure such that it is able to bring corresponding technique effect, and semiconductor laser chip can use centrosymmetric mode to arrange,
It is thus possible to obtain the laser possessing preferably circle symmetry characteristic, and then the light path orthopedic systems of complexity can be saved, reduce its system
Make difficulty, it is thus achieved that less volume.
As preferably, the material of output window is glass or high light-passing plastic material.
In the integrated laser chip of the present invention, the material of output window can be such as glass or high light-passing plastic material,
So that laser can preferably export.
As preferably, the glass that the material of output window is flat glass or surface processes through binary optical.
In the integrated laser chip of the present invention, the material of output window can be that flat glass or surface are at binary optical
The glass of reason, so that laser can preferably export.
As preferably, semiconductor laser chip include red light semiconductor laser chip, Green-emitting semiconductor laser chip and
Blue-light semiconductor laser chip.
In the integrated laser chip of the present invention, semiconductor laser chip can include red light semiconductor laser chip, green glow
Semiconductor laser chip and blue-light semiconductor laser chip such that it is able to preferably simultaneously or the different laser of timesharing output,
Make its range of application more extensive.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
It is respectively adopted different pins individually to power.
As preferably, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue-light semiconductor laser chip
Power than for 1:0.86:0.52.
In the integrated laser chip of the present invention, red light semiconductor laser chip, Green-emitting semiconductor laser chip and blue light
The power of semiconductor laser chip is 1:0.86:0.52 than preferably, and this kind of power ratio makes it possess preferably thermal diffusivity
While energy, it is also made to be obtained in that the white laser of preferable colour temperature when cooperation.
In the integrated laser chip of the present invention, protection circuit can also be encapsulated at dielectric substrate such that it is able to preferably
Noise spectra of semiconductor lasers chip is protected.And package casing can be for multiple shapes such as circle shell-type, flat or dual inline types
Formula.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of circle asymmetric semiconductor laser array in embodiment 1;
Fig. 2 is the schematic diagram of white semiconductor laser array in embodiment 3;
Fig. 3 is the schematic diagram of the even light pipe of self-luminous laser in embodiment 4;
Fig. 4 is the schematic diagram of integrated laser chip in embodiment 5;
Fig. 5 is the bowing to schematic diagram of Fig. 4;
Fig. 6 is that the perpendicular of Fig. 4 cuts open schematic diagram.
Detailed description of the invention
For further appreciating that present disclosure, the present invention is described in detail in conjunction with the accompanying drawings and embodiments.It is to be understood that
, embodiment be only the present invention explained and and non-limiting.
Embodiment 1
As it is shown in figure 1, present embodiments provide a kind of circle asymmetric semiconductor laser array, it includes base 110.Its
In, base 110 is configured with multiple ring-type ridge structure 150, the central shaft of any two ridge structure 150 all overlaps;Appoint
The side of one ridge structure 150 is the most symmetrically provided with semiconductor laser chip.
In the present embodiment, it is provided with the substrate 120 for fixing ridge structure 150 in base 110, is provided with inside substrate 120
For disposing the circuit board of semiconductor laser chip.Semiconductor laser chip welds with substrate 120 eutectic, semiconductor laser chip
It is connected with circuit board gold thread.What base 110 inside contacted with substrate 120 is provided with temperature sensor, and the temperature in the present embodiment passes
Sensor uses thermocouple temperature sensor, and temperature sensor is for gathering the operating temperature of semiconductor laser chip corresponding product
Raw temperature signal.
It addition, be additionally provided with electric interfaces 140 at base 110, electric interfaces 140 include being connected with circuit board for half
The power supply interface of conductor Laser chip power supply, and for reading the data-interface of temperature signal.In the present embodiment, power supply interface
Being provided with multiple, different power supply interfaces is corresponding respectively to be supplied to all semiconductor laser chips being located on different ridge structure 150
Electricity, it is achieved thereby that the semiconductor laser chip being located on ridge structure 150 is individually powered, and then can be the most right
The luminous power of the laser array in the present embodiment is adjusted.
In the present embodiment, the ridge structure 150 of innermost layer is configured to column, due to the size of innermost layer ridge structure 150
Less, it is configured to column and can save manufacturing cost on the contrary, and be easy to assembling.Although it should be noted that, the present embodiment is attached
Figure (Fig. 1) illustrate only 3 ridge structures 150 being configured to concentric ring, but in actual production, ridge structure 150
Depending on quantity should show power demand.
In the present embodiment, innermost layer ridge structure 150 is configured to centrosymmetric right prism, and remaining ridge structure 150 is equal
It is configured to centrosymmetric polygon, and the spacing of arbitrary neighborhood ridge structure 150 is equal.Wherein, semiconductor laser chip
It is located in the outer side edges of ridge structure 150, and the spacing between arbitrary neighborhood semiconductor laser chip can be individual in 2~5mm
Any value (being 2.5mm in the present embodiment).
Embodiment 2
Providing a kind of white semiconductor laser array in the present embodiment, it is with the difference of embodiment 1: half
Conductor Laser chip includes that red light semiconductor laser chip 131, Green-emitting semiconductor laser chip 132, and blue-light semiconductor swash
The semiconductor laser chip of same color is set on optical chip 133, and same ridge structure 150.
It addition, in the present embodiment, red light semiconductor laser chip 131, Green-emitting semiconductor laser chip 132 and blue light
The power of semiconductor laser chip 133 is than for 1:0.86:0.52.
Embodiment 3
As in figure 2 it is shown, the present embodiment also provide a kind of white semiconductor laser array its different from embodiment 2 it
Place is: the rectangular shape of semiconductor laser chip is arranged, and ridge structure 150 includes multiple rectangular blocks that array is rectangular.
It addition, in the present embodiment, red light semiconductor laser chip 131, Green-emitting semiconductor laser chip 132 and blue light
Semiconductor laser chip 133 interphase distribution.
Embodiment 4
As it is shown on figure 3, present embodiments provide a kind of even light pipe of self-luminous laser, it includes being connected as by connection support
The even smooth tube body of one and array laser.
Array laser in the present embodiment can use the laser array in embodiment 1 or in embodiment 2.This enforcement
The integrally constructed tubulose of connection support in example, and include the first connecting portion and and the array laser being connected with even smooth tube body
The second connecting portion connected, the first connection part structure becomes the channel-shaped corresponding with even smooth tube body junction gabarit, the second connecting portion
It is configured to the channel-shaped corresponding with array laser junction gabarit.
Embodiment 5
As shown in Fig. 4, Fig. 5, Fig. 6, present embodiments provide a kind of integrated laser chip, it shell including being configured to frame-shaped
Body 310.Wherein, it is provided with dielectric substrate 320 at housing 310 lower ending opening, at housing 310 upper end open, is provided with transparent output window
Mouth 350;Being laid with connection line at dielectric substrate 320, on dielectric substrate 320, square array has that be connected with connection line and luminous
Face just semiconductor laser chip 340 to output window 350;Also leading to pin 360 at dielectric substrate 320, pin 360 is used
In being powered to semiconductor laser chip 340 by connection line.
In the present embodiment, dielectric substrate 320 is arranged over the supporting construction for supporting semiconductor laser chip 340
330, supporting construction 330 is configured to be positioned at the straight quadrangular shape at dielectric substrate 320 center, and the side of straight quadrangular shape is evenly equipped with many
Individual semiconductor laser chip 340.
In the present embodiment, at housing 310 upper end open, it is configured with step groove, so that output window 350 can be preferable
Ground embeds at housing 310 upper end open.It addition, the material of output window 350 is flat glass material.
Embodiment 6
Also providing a kind of integrated laser chip in the present embodiment, it is with the difference of embodiment 5: supporting construction
330 use the multiple ring-type ridge structure 150 in embodiments 2, and the kind of semiconductor laser chip 340 and with multiple
Ring-type ridge structure 150 connected mode is the most same as in Example 2.
It addition, in the present embodiment, the material of output window 350 is high light-passing plastic material.
Embodiment 7
Also providing a kind of integrated laser chip in the present embodiment, it is with the difference of embodiment 6: output window
The material of 350 is the glass material that surface processes through binary optical.
Below being schematically described the present invention and embodiment thereof, this description does not has restricted, institute in accompanying drawing
Show is also one of embodiments of the present invention, and actual structure is not limited thereto.So, if the common skill of this area
Art personnel enlightened by it, in the case of without departing from the invention objective, without creatively designing and this technical scheme
Similar frame mode and embodiment, all should belong to protection scope of the present invention.
Claims (9)
1. justify asymmetric semiconductor laser array, it is characterised in that: include that base (110), base are configured with at least one on (110)
Individual ring-type ridge structure (150);The side of arbitrary ridge structure (150) is the most symmetrically provided with semiconductor laser chip.
Round asymmetric semiconductor laser array the most according to claim 1, it is characterised in that: base (110) is internal to be provided with
Temperature sensor, temperature sensor is for gathering the operating temperature of semiconductor laser chip corresponding generation temperature signal.
Round asymmetric semiconductor laser array the most according to claim 2, it is characterised in that: base (110) place is provided with electricity
Gas interface (140), electric interfaces (140) includes the power supply interface for powering to semiconductor laser chip, and is used for reading
The data-interface of temperature signal.
Round asymmetric semiconductor laser array the most according to claim 1, it is characterised in that: base is provided with use in (110)
In the substrate (120) of fixing ridge structure (150), substrate (120) inner side is provided with the circuit for disposing semiconductor laser chip
Plate.
Round asymmetric semiconductor laser array the most according to claim 4, it is characterised in that: semiconductor laser chip and base
Plate (120) eutectic welds.
Round asymmetric semiconductor laser array the most according to claim 4, it is characterised in that: semiconductor laser chip and electricity
Road sheet metal line connects.
7. according to described round asymmetric semiconductor laser array arbitrary in claim 1~6, it is characterised in that: arbitrary neighborhood
Spacing between semiconductor laser chip is 2~5mm.
8. according to described round asymmetric semiconductor laser array arbitrary in claim 1~6, it is characterised in that: arbitrary ridge
Structure (150) is configured to centrosymmetric polygon.
Round asymmetric semiconductor laser array the most according to claim 8, it is characterised in that: corresponding semiconductor laser chip
It is arranged at the outside of corresponding ridge structure (150).
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CN2015106296668 | 2015-09-29 | ||
CN201510629666.8A CN105186287A (en) | 2015-09-29 | 2015-09-29 | Circular symmetric semiconductor laser array |
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CN201510629666.8A Withdrawn CN105186287A (en) | 2015-09-29 | 2015-09-29 | Circular symmetric semiconductor laser array |
CN201620618574.XU Expired - Fee Related CN205724366U (en) | 2015-09-29 | 2016-06-21 | Circle asymmetric semiconductor laser array |
CN201610455139.4A Pending CN106558833A (en) | 2015-09-29 | 2016-06-21 | Circle asymmetric semiconductor laser array |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106558833A (en) * | 2015-09-29 | 2017-04-05 | 北京为世联合科技有限公司 | Circle asymmetric semiconductor laser array |
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---|---|---|---|---|
CN113193479B (en) * | 2021-04-25 | 2022-08-02 | 深圳市星汉激光科技股份有限公司 | Tower-type structure laser source |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN2566292Y (en) * | 2002-09-03 | 2003-08-13 | 钱定榕 | Light beam distributor |
JP2009194101A (en) * | 2008-02-13 | 2009-08-27 | Fuji Xerox Co Ltd | Plane emission-type semiconductor laser device and laser therapy equipment using the same |
CN101640380A (en) * | 2009-09-02 | 2010-02-03 | 中国科学院长春光学精密机械与物理研究所 | Two-dimensional vertical-cavity surface-emitting laser array with high light beam quality |
CN102022624A (en) * | 2009-09-10 | 2011-04-20 | 方础光电科技股份有限公司 | Laser module |
CN105186287A (en) * | 2015-09-29 | 2015-12-23 | 北京为世联合科技有限公司 | Circular symmetric semiconductor laser array |
-
2015
- 2015-09-29 CN CN201510629666.8A patent/CN105186287A/en not_active Withdrawn
-
2016
- 2016-06-21 CN CN201620618574.XU patent/CN205724366U/en not_active Expired - Fee Related
- 2016-06-21 CN CN201610455139.4A patent/CN106558833A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106558833A (en) * | 2015-09-29 | 2017-04-05 | 北京为世联合科技有限公司 | Circle asymmetric semiconductor laser array |
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CN105186287A (en) | 2015-12-23 |
CN106558833A (en) | 2017-04-05 |
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