CN205193317U - A integration optical -electric module for photoelectric conversion part - Google Patents
A integration optical -electric module for photoelectric conversion part Download PDFInfo
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- CN205193317U CN205193317U CN201520926780.2U CN201520926780U CN205193317U CN 205193317 U CN205193317 U CN 205193317U CN 201520926780 U CN201520926780 U CN 201520926780U CN 205193317 U CN205193317 U CN 205193317U
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- photoelectric conversion
- glass capillary
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- electric module
- conversion part
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Abstract
The utility model provides an integration optical -electric module for photoelectric conversion part, relates to the photoelectric coupling's of broadcasting and TV and communication trade light receiving and sending product integrated optical -electric module. The integration optical -electric module includes photoelectric conversion chip (1), leading -in optic fibre (2), set up one glass capillary (3), the glass capillary sets up a through -hole (31), the front end that the glass capillary is run through in through -hole (31) is with terminal, the end of glass capillary sets up breach (33) that can place photoelectric conversion chip, leading -in optic fibre inserts the through -hole and extends the terminal end of glass capillary and fixed, the terminal end of glass capillary sets up an inclined plane (35), the end of leading -in optic fibre the terminal end department of glass capillary and set up one with glass capillary end inclined plane the same end inclined plane of angle, place on photoelectric conversion chip's (1) light sense mouth the terminal end of glass capillary. The utility model provides high conversion efficiency has reduced manufacturing cost, is fit for batch production.
Description
Technical field
The utility model relates to the application of the photoelectric coupling of broadcasting and TV and communications industry light-receiving and transmission product, particularly for the integrated optical-electric module of photoelectric conversion part.
Background technology
Optical communication industry is receiving and is launching the detector (reception) of link application coaxial packaging and laser instrument (transmission) has come reception and transmission work, needs the accuracy requirement that the TO base of precise measure, pipe cap, metalwork, ceramic insertion core and inflated with nitrogen seal weld, laser spot welder, manual coupling table etc. ensure optically-coupled.Parts size precision is high, expensive, also needs a large amount of manual operationss.The naked fine grinding technics of existing employing, naked fine coupling table needs more than 6 DOF, and grinding and coupling procedure are wasted time and energy not environmentally, and efficiency is extremely low.Existing photoelectric conversion chip erects attachment on circuit boards, but chip setting attachment process difficulty is large.Especially FTTH market, requires cost advantage and miniaturization and low-power reception.
Summary of the invention
The purpose of this utility model is to provide the integrated optical-electric module for photoelectric conversion part that a kind of cost of manufacture is low, stay-in-grade, conversion efficiency is high.
The purpose of this utility model can realize like this, designs a kind of integrated optical-electric module for photoelectric conversion part, and comprise photoelectric conversion chip, import optical fiber, photoelectric conversion chip is fixed on substrate; One glass capillary is set, glass capillary arranges a through hole, through hole runs through front end and the end of glass capillary, the end of glass capillary arranges the breach that can place photoelectric conversion chip, through hole is above breach, import optical fiber insertion through hole extend glass capillary end termination and fix, glass capillary end termination arranges an inclined-plane, importing the termination of optical fiber in glass capillary end end arranges a termination inclined-plane identical with glass capillary end termination bevel angle, and glass capillary end termination is placed on the light sensation mouth of photoelectric conversion chip.
Further, breach is at least switched to through hole, and the termination importing optical fiber is placed on the light sensation mouth of photoelectric conversion chip.
Further, through hole arranges insertion in insertion end and leads mouth, and mouth is led in insertion and through hole junction is provided with transition chamfering.
Further, through hole is arranged along glass capillary length direction.
The utility model by direct for photoelectric conversion chip plane attachment on circuit boards, eliminates TO base, pipe cap; The glass capillary of custom-designed grinding angle is fixed on circuit boards after coupling completes, and adopts UV glue to be filled between kapillary and chip, eliminates metalwork, ceramic insertion core and laser spot welder.The utility model reduces production cost, is applicable to batch production.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the utility model preferred embodiment;
Fig. 2 is the schematic diagram of the glass capillary of the utility model preferred embodiment.
Embodiment
Below in conjunction with embodiment, the utility model will be further described.
As shown in Figure 1 and Figure 2, a kind of integrated optical-electric module for photoelectric conversion part, comprise photoelectric conversion chip 1, import optical fiber 2, photoelectric conversion chip 1 is fixed on substrate, one glass capillary 3 is set, glass capillary arranges a through hole 31, through hole 31 runs through front end and the end of glass capillary, the end of glass capillary arranges the breach 33 that can place photoelectric conversion chip, through hole 31 is above breach 33, import optical fiber insertion through hole extend glass capillary end termination and fix, glass capillary end termination arranges an inclined-plane 35, importing the termination of optical fiber in glass capillary end end arranges a termination inclined-plane identical with glass capillary end termination bevel angle, glass capillary end termination is placed on the light sensation mouth of photoelectric conversion chip 1.
Breach 33 is at least switched to through hole 31, and the termination importing optical fiber is placed on the light sensation mouth of photoelectric conversion chip 1.Breach 33 is switched to through hole 31, and the side importing optical fiber 2 termination is exposed, and allows the termination importing optical fiber 2 press close to the photosensitive area of photoelectric conversion chip 1, more reduces the loss of light signal.
Through hole 31 arranges insertion in insertion end and leads mouth 37, and insert the bore of leading mouth 37 and be greater than the bore importing optical fiber 2, insertion is led mouth 37 and is provided with transition chamfering with through hole 31 junction; Insertion is led arranging of mouth 37 and is facilitated lead-in light fibre 2 to be inserted in through hole 31.
Through hole 31 is arranged along glass capillary length direction.Preferably, through hole 31 is arranged on the axle center district of glass capillary 3, is convenient to drilling of through hole 31, also facilitates glass capillary 3 to adjust with coordinating of miscellaneous part simultaneously.
The angle a on described inclined-plane is 15 ° ~ 50 °; Preferably, the angle a on inclined-plane is 25 ° ~ 40 °.Effective inclined-plane forms minute surface, reduces the loss of light reflection while can effectively increasing fiber reflection area.
Arranging UV glue point of fixity 6, UV glue 6 between glass capillary 3 and substrate can be fixed on substrate by glass capillary 3 fast, and several seconds set time of UV rubber ultraviolet light line was by tens seconds.UV glue is a kind of ultraviolet fast curing adhesive, has epoxy and non-epoxy.
Importing optical fiber 2 termination being in glass capillary end termination is pasted onto on the light sensation mouth of photoelectric conversion chip 1 by bonding agent 7.Cementing agent 7 adopts the binding material that shrinkage factor is little, high temperature resistant, light transmission is good, the materials such as such as heat-curable epoxy resin, 200 DEG C of continuous workings, also can bear the high temperature of a few hours 300-400 DEG C and performance is constant, transmittance is good, the dissolving of the anti-multi-solvents of energy and chemicals and etch.
Be provided with encapsulating glue-line 5, glass capillary end and photoelectric conversion chip be locked in and encapsulate in glue-line 5.Encapsulating glue-line 5 adopts that shrinkage factor is little, hardness is high, bonding strength is high, the epoxide resin material of high-temp resisting high-humidity resisting.Except epoxy resin, as long as parameter meets, shrinkage factor is little, hardness is high, bonding strength is high, the glue of high-temp resisting high-humidity resisting requirement can use.
Meet the bonding agent of parameter request, UV glue, encapsulating compound all have commercially available.
The effect of glass capillary 3 has 2 points: 1, solve a grinding difficult problem, because optical fiber is very soft, the fibre core peelling off protective seam is glass material, very crisp, and diameter only has 125 microns, easily broken.Bare fibre technique will solve the clamping problem of soft and crisp optical fiber, and cost intensive and consumptive material are not environmentally.Adopting after kapillary can clamping ends, and solve the problem that optical fiber is soft and crisp, customization grinding clamp can be produced in batches.2, a coupling table clamping difficult problem is solved, bare fibre be coupled time because of optical fiber from circuit board very close to, cannot clamping ends position, circuit board outer position can only be clamped in, but now optical fiber is extended with 3 ~ 4 centimetres, the optical fiber being in free state can be arbitrary shape, need sextuple above coupling table just can complete coupling, but efficiency is extremely low.Optical fiber can be shifted because of the surface tension of glue again when rear glue is fixed even if be coupled.Adopting after kapillary can clamping ends, only needs the three-dimensional platform of X, Y, Z just can complete coupling, substantially increases efficiency, and can not be shifted when putting glue.
The utility model by direct for photoelectric conversion chip plane attachment on circuit boards, eliminates TO base, pipe cap; The glass capillary of custom-designed grinding angle is fixed on circuit boards after coupling completes, and adopts UV glue to be filled between kapillary and chip, eliminates metalwork, ceramic insertion core and laser spot welder.The utility model reduces production cost, is applicable to batch production.
Claims (10)
1., for an integrated optical-electric module for photoelectric conversion part, comprise photoelectric conversion chip (1), import optical fiber (2), photoelectric conversion chip (1) is fixed on substrate, it is characterized in that: a glass capillary (3) is set, glass capillary arranges a through hole (31), through hole (31) runs through front end and the end of glass capillary, the end of glass capillary arranges the breach (33) that can place photoelectric conversion chip, through hole (31) is in breach (33) top, import optical fiber insertion through hole extend glass capillary end termination and fix, glass capillary end termination arranges an inclined-plane (35), importing the termination of optical fiber in glass capillary end end arranges a termination inclined-plane identical with glass capillary end termination bevel angle, glass capillary end termination is placed on the light sensation mouth of photoelectric conversion chip (1).
2. the integrated optical-electric module for photoelectric conversion part according to claim 1, it is characterized in that: breach (33) is at least switched to through hole (31), the termination importing optical fiber is placed on the light sensation mouth of photoelectric conversion chip (1).
3. the integrated optical-electric module for photoelectric conversion part according to claim 1, it is characterized in that: through hole (31) arranges insertion in insertion end and leads mouth (37), the bore that mouth (37) is led in insertion is greater than the bore importing optical fiber (2), and insertion is led mouth (37) and is provided with transition chamfering with through hole (31) junction.
4. the integrated optical-electric module for photoelectric conversion part according to claim 1, is characterized in that: through hole (31) is arranged along glass capillary length direction.
5. the integrated optical-electric module for photoelectric conversion part according to claim 4, is characterized in that: through hole (31) is arranged on the axle center district of glass capillary (3).
6. the integrated optical-electric module for photoelectric conversion part according to claim 1, is characterized in that: the angle of inclined-plane (35) is 15 ° ~ 50 °.
7. the integrated optical-electric module for photoelectric conversion part according to claim 1, is characterized in that: arrange UV glue point of fixity (6) between glass capillary (3) and substrate.
8. the integrated optical-electric module for photoelectric conversion part according to claim 2, is characterized in that: importing optical fiber (2) termination being in glass capillary end termination is pasted onto on the light sensation mouth of photoelectric conversion chip (1) by bonding agent (7).
9. the integrated optical-electric module for photoelectric conversion part according to claim 1, is characterized in that: be provided with encapsulating glue-line (5), glass capillary end and photoelectric conversion chip be locked in and encapsulate in glue-line.
10. the integrated optical-electric module for photoelectric conversion part according to claim 6, is characterized in that: the angle of inclined-plane (35) is 25 ° ~ 40 °.
Priority Applications (1)
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CN201520926780.2U CN205193317U (en) | 2015-11-18 | 2015-11-18 | A integration optical -electric module for photoelectric conversion part |
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CN201520926780.2U CN205193317U (en) | 2015-11-18 | 2015-11-18 | A integration optical -electric module for photoelectric conversion part |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105278059A (en) * | 2015-11-18 | 2016-01-27 | 深圳市万和电子有限公司 | An integrated photoelectric module used for a photoelectric conversion part and a manufacturing method thereof |
CN107065085A (en) * | 2017-05-25 | 2017-08-18 | 中国科学院半导体研究所 | Photoelectric conversion device |
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2015
- 2015-11-18 CN CN201520926780.2U patent/CN205193317U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105278059A (en) * | 2015-11-18 | 2016-01-27 | 深圳市万和电子有限公司 | An integrated photoelectric module used for a photoelectric conversion part and a manufacturing method thereof |
CN107065085A (en) * | 2017-05-25 | 2017-08-18 | 中国科学院半导体研究所 | Photoelectric conversion device |
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