CN101852902A - Optical transceiver, optical communication sub-module and insulated sleeve thereof - Google Patents

Abstract

The invention relates to an insulated sleeve of an optical communication sub-module. The insulated sleeve comprises a body and a first clamping part, wherein the body is sleeved on an outer sleeve part of the optical communication module, and the first clamping part is formed on the outer surface of the body and clamped with a second clamping part of an accommodation chamber of an optical transceiver shell so that the optical communication sub-module is clamped in the accommodation chamber. The invention simultaneously discloses an optical communication sub-module comprising the insulated sleeve as well as an optical transceiver.

Description

Optical transceiver, optical communication sub-module and insulating sleeve thereof

Technical field

The present invention is about a kind of optical transceiver, optical communication sub-module and exhausted source sleeve pipe thereof, and wherein this insulating sleeve is set on the optical communication sub-module, in order to the housing and the optical communication sub-module of electrically isolated optical transceiver.

Background technology

Optical fiber communication as signal carrier, can obtain broad frequency range with light, can transmit a large amount of information.

The light emission secondary module of existing optical transceiver is by the metal sleeve of light emission secondary module, shield electromagnetic interference.Metal sleeve is connected to the grounding pin of light emission secondary module, and the grounding parts with printed circuit board (PCB) electrically connects again, can be with the electromagnetic interference noise that brings out on the metal sleeve by grounding pin ground connection.

Yet, the metal sleeve of light emission secondary module fixes in the metal shell of optical transceiver, make the metal shell of light emission secondary module and optical transceiver (cross talk) phenomenon of crosstalking, and influence the electromagnetic compatibility (EMC) and the Electrostatic Discharge protective capacities of optical transceiver.

Summary of the invention

Because above-mentioned problem, purpose of the present invention is for providing a kind of optical transceiver, optical communication sub-module and exhausted source sleeve pipe thereof, wherein this insulating sleeve is set on the optical communication sub-module, housing and optical communication sub-module in order to electrically isolated optical transceiver, avoid optical communication sub-module to become electromagnetic interference source, and improve the electromagnetic compatibility (EMC) and the electro-static discharge protective ability of optical transceiver.

For reaching above-mentioned purpose, the invention provides a kind of insulating sleeve of optical communication sub-module, it comprises the body and first holding section.Body is in order in the outer sleeve portion that is set in this optical communication sub-module, and first holding section is formed on the outside surface of this body, in order to engage with second holding section of the accommodation chamber of the housing of optical transceiver, optical communication sub-module is fixed in accommodation chamber.

The invention provides a kind of optical communication sub-module also is provided, it comprises outer sleeve portion and insulating sleeve.Insulating sleeve is set in the outer sleeve portion, and fixes in the accommodation chamber of the housing of optical transceiver by insulating sleeve, and the housing of optical transceiver and optical communication sub-module are electrically completely cut off.

The present invention also provides a kind of optical transceiver, and it comprises housing and optical communication sub-module.Housing has an accommodation chamber, and optical communication sub-module comprises insulating sleeve, is set on the optical communication sub-module, and fixes in accommodation chamber by insulating sleeve, makes the housing of optical transceiver and this optical communication sub-module electrically isolated.

From the above, optical transceiver provided by the invention, optical communication sub-module and exhausted source sleeve pipe thereof, wherein this insulating sleeve is set on the optical communication sub-module, housing and optical communication sub-module in order to electrically isolated optical transceiver, make the housing of laser diode and optical transceiver electrically isolated, the electromagnetic interference (EMI) that optical communication sub-module produces can produce shield effectiveness by its metal sleeve, and the electromagnetic interference noise on the metal sleeve is transmitted to the grounding parts of circuit board via the grounding pin of this optical communication sub-module, avoid optical communication sub-module to become electromagnetic interference source, and improve the electromagnetic compatibility (EMC) and the Electrostatic Discharge protective capacities of optical transceiver.In addition, when optical transceiver was subjected to extraneous electrostatic influence, static can be transmitted to the ground of system via housing, screw and electrostatic protection element, to promote the antistatic capacity of optical transceiver.

Description of drawings

Fig. 1 is the synoptic diagram of the optical transceiver of first embodiment of the invention;

Fig. 2 is the side view of the optical communication sub-module of first embodiment of the invention;

Fig. 3 is the sectional view of the optical communication sub-module of Fig. 2 along AA ' line segment;

Fig. 4 is the side view of the optical communication sub-module of second embodiment of the invention; And

Fig. 5 is the sectional view of the optical communication sub-module of Fig. 4 along BB ' line segment.

The main element symbol description

1: optical transceiver 10: housing

101: 103: the second holding sections of accommodation chamber

20,20 ': optical communication sub-module 21,21 ': insulating sleeve

211,211 ': 212: the first holding sections of body

215: accommodate cavity 23,23 ': outer sleeve portion

232: the second sleeves of 231: the first sleeves

25: inner sleeve

26: fiber optic tap (fiber stub) 27: light source module

271: laser diode 272: the light source sleeve part

274: base 275: grounding pin

28: hollow cavity 29: the switching tube

30: circuit board 301: grounding parts

40: screw

Embodiment

Hereinafter with reference to relevant drawings, a kind of optical transceiver, optical communication sub-module and insulating sleeve thereof according to the preferred embodiment of the present invention are described.

First embodiment

Fig. 1 is the synoptic diagram of the optical transceiver of first embodiment of the invention, and this optical transceiver 1 mainly comprises housing 10, optical communication sub-module 20 and circuit board 30.This housing 10 has accommodation chamber 101, and optical communication sub-module 20 comprises insulating sleeve 21, and insulating sleeve 21 is set on the optical communication sub-module 20, and fixes in accommodation chamber 101 by insulating sleeve 21, makes housing 10 and optical communication sub-module 20 electrically isolated.This optical communication sub-module 20 is preferably light emission secondary module.

As shown in Figure 1; this optical transceiver 1 also comprises screw 40; its screw hole by circuit board 23 locks on housing 10; in order to electrically connect the electrostatic protection element (not shown) on this housing 10 and the circuit board 30; this electrostatic protection element other end ground connection, this electrostatic protection element is preferably an electrostatic protection diode.When optical transceiver 1 was subjected to extraneous electrostatic influence, static can be via housing 10, screw 40 and electrostatic protection element conduction ground connection.

Fig. 2 is the side view of the optical communication sub-module of first embodiment of the invention, and Fig. 3 is the sectional view of the optical communication sub-module of Fig. 2 along AA ' line segment.This optical communication sub-module 20 mainly comprises insulating sleeve 21 and outer sleeve portion 23.

This insulating sleeve 21 is set in the outer sleeve portion 23 of optical communication sub-module 20, and insulating sleeve 21 is preferably a ring-shaped sleeve, and its material is preferably the material that plastics, bakelite or surface treatment become to have insulation characterisitic.This insulating sleeve 21 comprises the body 211 and first holding section 212, body 211 has a perforation in order in the outer sleeve portion 23 that is set in optical communication sub-module 20, first holding section 212 is formed on the outside surface of body 211, in order to engage, optical communication sub-module 20 is fixed in accommodation chamber 101 with second holding section 103 of the accommodation chamber 101 of the housing 10 of optical transceiver 1.This outer sleeve portion 23 is made of metal material, and the housing 10 of optical transceiver 1 is a metal shell, and insulating sleeve 21 is in order to the housing 10 and optical communication sub-module 20 of electrically isolated optical transceiver 1.Wherein this first holding section 212 is preferably the annular recessed portion that ring is located at the outside surface of this body 211, and this second holding section 103 is preferably an arcuation protuberance, and ring is located in this accommodation chamber 101.

Below illustrate further other elements of optical communication sub-module 20, insulating sleeve 21 of the present invention can be applicable to various optical communication sub-modules, not as limit.This optical communication sub-module 20 also comprises inner sleeve 25, fiber optic tap (fiber stub) 26 and light source module 27.Outer sleeve portion 23 comprises first sleeve 231 and second sleeve 232, and this first sleeve 231 engages with second sleeve 232, and first sleeve 231 is a metal with the material of this second sleeve 232.This inner sleeve 25 is arranged on the inboard of first sleeve 231 and second sleeve 232, inner sleeve 25 is preferably a C jacket ring, its material is preferably stupalith, first sleeve 231, inner sleeve 25 and second sleeve, the 232 common hollow cavities 28 that form, this fiber optic tap 26 is arranged on the inboard of this hollow cavity 28, optical fiber can insert the outside of this hollow cavity 28 with plugging, because this inner sleeve 25 is provided with a profile groove (not shown), when optical fiber is inserted into inner sleeve 25, inner sleeve 25 can be strutted, make easily plug in inner sleeve 25 of optical fiber.This inner sleeve 25 coats this fiber optic tap 26 and optical fiber (not shown), after the light signal that light source module 27 is sent is coupled with fiber optic tap 26, can transfer to optical fiber exactly, is gone out by Optical Fiber Transmission.This optical communication sub-module 20 also comprises switching tube 29, and in order to connect this first sleeve 231 of this light source module 27 and this outer sleeve portion 23, the light signal that this light source module 27 is sent after fiber optic tap 26 couplings, transfers to optical fiber, is gone out by Optical Fiber Transmission.

This light source module 27 mainly comprises laser diode 271 and light source sleeve part 272, and light source sleeve part 272 is in order to accommodate this laser diode 271, and the material of light source sleeve part 272 is a metal.This laser diode 271 comprises base 274 and grounding pin 275, and the material of base 274 is a metal.One end of grounding pin 275 and the base 274 of laser diode 271, light source sleeve part 272 and outer sleeve portion 23 electrically connect, grounding pin 275 other ends are electrically connected to the grounding parts 301 of circuit board 30, and the electromagnetic interference (EMI) noise that makes optical communication sub-module 20 generations is via grounding pin 275 ground connection.

Second embodiment

Fig. 4 is the side view of the optical communication sub-module of second embodiment of the invention, and Fig. 5 is the sectional view of the optical communication sub-module of Fig. 4 along BB ' line segment.This optical communication sub-module 20 ' comprises insulating sleeve 21 ', outer sleeve portion 23 ' and light source module 27.

This optical communication sub-module 20 ' is described as follows with these optical communication sub-module 20 differences.This insulating sleeve 21 ' is set in the outer sleeve portion 23 ' of optical communication sub-module 20 '.This insulating sleeve 21 ' mainly comprises the body 211 ' and first holding section 212, and body 211 ' has a perforation, and a side of perforation is set in this outer sleeve portion 23 ', and opposite side has the cavity of accommodating 215, can insert for optical fiber with plugging and accommodate cavity 215.First holding section 212 is formed on the outside surface of body 211 ', in order to engage with second holding section 103 of the accommodation chamber 101 of the housing 10 of optical transceiver 1, optical communication sub-module 20 ' is fixed in accommodation chamber 101.This outer sleeve portion 23 ' is made of metal material, and the housing 10 of optical transceiver 1 is a metal shell, and insulating sleeve 21 ' is the housing 10 and optical communication sub-module 20 ' in order to electrically isolated optical transceiver 1.

The outer sleeve portion 23 ' of this optical communication sub-module 20 ' is connected with the light source sleeve part 272 of light source module 27, and the light signal that laser diode 271 is sent is gone out by Optical Fiber Transmission.Other of optical communication sub-module 20 are partly identical with optical communication sub-module 20, no longer in addition for giving unnecessary details.

In sum, optical transceiver provided by the invention, optical communication sub-module and exhausted source sleeve pipe thereof, wherein this insulating sleeve is set on the optical communication sub-module, housing and optical communication sub-module in order to electrically isolated optical transceiver, make laser diode 271 electrically isolated with the housing of optical transceiver, the electromagnetic interference (EMI) that optical communication sub-module produces can produce shield effectiveness by its metal sleeve, and the electromagnetic interference noise on the metal sleeve is transmitted to the grounding parts of circuit board via the grounding pin of this optical communication sub-module, avoid optical communication sub-module to become electromagnetic interference source, and improve the electromagnetic compatibility and the static discharge of optical communication sub-module) protective capacities.In addition, when optical transceiver was subjected to extraneous electrostatic influence, static can be transmitted to the ground of system via housing, screw and electrostatic protection element, to promote the antistatic capacity of optical transceiver.

The above only is an illustrative, but not is restricted.Anyly do not break away from spirit of the present invention and category, and, all should comprise in the present invention its equivalent modifications of carrying out or change.

Claims (32)

1. the insulating sleeve of an optical communication sub-module, it comprises:

One body is in an outer sleeve portion that is set in this optical communication sub-module; And

One first holding section is formed on the outside surface of this body, in order to engage with one second holding section of an accommodation chamber of a housing of an optical transceiver, this optical communication sub-module is fixed in this accommodation chamber.

2. insulating sleeve according to claim 1, wherein this insulating sleeve is a ring-shaped sleeve, the material of this insulating sleeve is the material that plastics, bakelite or surface treatment become to have insulation characterisitic.

3. insulating sleeve according to claim 1, wherein this first holding section is an annular recessed portion that is located at the outside surface of this body, this second holding section is an arcuation protuberance that is located in this accommodation chamber.

4. according to claim 1 or 3 arbitrary described insulating sleeves, wherein this body has a perforation, and a side of this perforation is set in this outer sleeve portion, and opposite side has the cavity of accommodating, and can insert this for an optical fiber with plugging and accommodate cavity.

5. optical communication sub-module, it comprises:

One outer sleeve portion; And

One insulating sleeve is set in this outer sleeve portion, and fixes in an accommodation chamber of a housing of an optical transceiver by this insulating sleeve, and this housing of this optical transceiver and this optical communication sub-module are electrically completely cut off.

6. optical communication sub-module according to claim 5, wherein this insulating sleeve comprises:

One body is in order to be set in this outer sleeve portion; And

One first holding section is formed on the outside surface of this body, in order to engage with one second holding section of this accommodation chamber of this housing of this optical transceiver, this optical communication sub-module is fixed in this accommodation chamber.

7. optical communication sub-module according to claim 5, wherein this outer sleeve portion is made of metal material, and this housing of this optical transceiver is a metal shell.

8. optical communication sub-module according to claim 5, wherein this insulating sleeve is a ring-shaped sleeve, the material of this insulating sleeve is the material that plastics, bakelite or surface treatment become to have insulation characterisitic.

9. according to the arbitrary described optical communication sub-module of claim 5 to 8, wherein this first holding section is an annular recessed portion that is located at the outside surface of this body, and this second holding section is an arcuation protuberance that is located in this accommodation chamber.

10. insulating sleeve according to claim 5, wherein this body has a perforation, and a side of this perforation is set in this outer sleeve portion, and opposite side has the cavity of accommodating, and an optical fiber can insert this with plugging and accommodate cavity.

11. optical communication sub-module according to claim 5, wherein this outer sleeve portion comprises one first sleeve and one second sleeve, this first sleeve and second spigot and faucet joint, and the material of this first sleeve and this second sleeve is a metal.

12. optical communication sub-module according to claim 11, it also comprises an inner sleeve and a fiber optic tap, this inner sleeve is arranged on the inboard of this first sleeve and this second sleeve, the common hollow cavity that forms of this first sleeve, this inner sleeve and this second sleeve, this fiber optic tap is arranged on the inboard of this hollow cavity, and an optical fiber can insert the outside of this hollow cavity with plugging.

13. optical communication sub-module according to claim 12, wherein this inner sleeve is provided with a profile groove, it is a C jacket ring, and coat this fiber optic tap and this optical fiber, when optical fiber is inserted into inner sleeve, inner sleeve can be strutted, optical fiber is easily plugged in this inner sleeve, the material of this inner sleeve is a stupalith.

14. according to the arbitrary described optical communication sub-module of claim 10 to 13, it also comprises a light source module, is connected with this outer sleeve portion, this light source module comprises a laser diode and a light source sleeve part, and this light source sleeve part is in order to accommodate this laser diode.

15. optical communication sub-module according to claim 14, wherein this laser diode comprises a base and a grounding pin, the material of this base is a metal, one end of this grounding pin and this base of this laser diode, this light source sleeve part and this outer sleeve portion electrically connect, and the other end is electrically connected to a grounding parts of a circuit board.

16. optical communication sub-module according to claim 14, it also comprises a switching tube, in order to the light source sleeve part that connects this light source module and this first sleeve of this outer sleeve portion, the light signal that this light source module is sent, after this fiber optic tap coupling, transfer to this optical fiber, go out by this Optical Fiber Transmission.

17. optical communication sub-module according to claim 16, wherein this switching tube is a metal with the material of this light source sleeve part.

18. an optical transceiver, it comprises:

One housing has an accommodation chamber; And

One optical communication sub-module comprises an insulating sleeve, is set on this optical communication sub-module, and fixes in this accommodation chamber by this insulating sleeve, makes this housing of this optical transceiver and this optical communication sub-module electrically isolated.

19. optical transceiver according to claim 18, wherein this housing is a metal shell.

20. optical transceiver according to claim 18, wherein this insulating sleeve is a ring-shaped sleeve, and the material of this insulating sleeve is the material that plastics, bakelite or surface treatment become to have insulation characterisitic.

21. optical transceiver according to claim 18, wherein this optical communication sub-module also comprises an outer sleeve portion, and sheathed on it for this insulating sleeve, this outer sleeve portion is made of metal material.

22. optical transceiver according to claim 21, wherein this insulating sleeve comprises:

One body is in an outer sleeve portion that is set in this optical communication sub-module; And

One first holding section is formed on the outside surface of this body, in order to engage with one second holding section of this accommodation chamber of this housing, this optical communication sub-module is fixed in this accommodation chamber.

23. optical transceiver according to claim 22, wherein this first holding section is an annular recessed portion that is located at the outside surface of this body, and this second holding section is an arcuation protuberance that is located in this accommodation chamber.

24. optical transceiver according to claim 22, wherein this body also has a perforation, and a side of this perforation is set in this outer sleeve portion, and opposite side has the cavity of accommodating, and an optical fiber can insert this with plugging and accommodate cavity.

25. optical transceiver according to claim 21, wherein this outer sleeve portion comprises one first sleeve and one second sleeve, this first sleeve and second spigot and faucet joint, and the material of this first sleeve and this second sleeve is a metal.

26. optical transceiver according to claim 25, it also comprises an inner sleeve and a fiber optic tap, this inner sleeve is arranged on the inboard of this first sleeve and this second sleeve, the common hollow cavity that forms of this first sleeve, this inner sleeve and this second sleeve, this fiber optic tap is arranged on the inboard of this hollow cavity, and an optical fiber can insert the outside of this hollow cavity with plugging.

27. optical transceiver according to claim 26, wherein this inner sleeve is provided with a profile groove, is a C jacket ring, and coats this fiber optic tap and this optical fiber, when optical fiber is inserted into inner sleeve, inner sleeve can be strutted, and optical fiber is easily plugged in inner sleeve.

28. according to the arbitrary described optical transceiver of claim 21 to 27, wherein this optical communication sub-module also comprises a light source module, be connected with this outer sleeve portion, this light source module comprises a laser diode and a light source sleeve part, and this light source sleeve part is in order to accommodate this laser diode.

29. optical transceiver according to claim 28, it also comprises a switching tube, in order to this light source sleeve part of connecting this light source module and this first sleeve of this outer sleeve portion, the light signal that this light source module is sent, after this fiber optic tap coupling, transfer to this optical fiber, go out by this Optical Fiber Transmission.

30. optical transceiver according to claim 28, wherein this laser diode comprises a base and a grounding pin, the material of this base is a metal, and an end of this grounding pin and this base of this laser diode, this light source sleeve part and this outer sleeve portion electrically connect.

31. optical transceiver according to claim 30, it also comprises a circuit board, and it comprises a grounding parts, and the other end of this grounding pin is electrically connected to this grounding parts of this circuit board.

32. optical transceiver according to claim 22; it also comprises a circuit board, an electrostatic protection element and a screw; this circuit board comprises a screw hole; this screw is locked on this housing by this screw hole; this screw electrically connects this electrostatic protection element on this housing and this circuit board, and the static of this housing that begins is received and ground connection by this electrostatic protection element.

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