CN109560871A - A kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design - Google Patents

Abstract

The present invention relates to technical field of data transmission, and disclose a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design, including lower coverboard, the top movable of the lower coverboard are connected with coverboard, offer groove of uncapping at the top of the upper coverboard.This is the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, signal source is directly docked by setting signal transfer connector, V-By-One electric signal is directly transferred to optical-electric module, V-By-One electric signal is changed into 8 tunnels or 16 road optical signals by photoelectric conversion module, protocol transparent is transferred to the other end by optical fiber, 8 tunnels or 16 road electric signals are gone back to by the optical-electric module on right side again, achieve the effect that transmission rate is fast, protocol transparent transmission is realized by whole system, it can make the reduction of the cost of the optical-electric module and photoelectricity line, to which effective solution is at high cost, the problem of being unfavorable for the assembling of total system and being unable to satisfy multichannel.

Description

A kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design

Technical field

The present invention relates to technical field of data transmission, specially a kind of photoelectricity for image transmitting interface V-By-One design Module and photoelectricity line.

Background technique

Optical signal transmission refers to that the optical signal for issuing laser is transmitted to optical fiber by optical device, is transmitted by optical fiber To receiving end, to realize that signal transmits in a fiber, plays and improve transmission rate, capacity and the transmission of these purposes of transmission range System, the way by V-by-One technology combined with optical fiber transmission technique, begins trying in some television manufacturers, so at present All current ways are all by video transmission protocol of more standard, such as the agreement of HDMI or DP etc. afterwards.

103376576 A of Chinese patent CN proposes V-by-One interface ultra high-definition image signal source, exports 16LANE's V-by-One signal, for being read in SD card after driving the ultra high-definition liquid crystal display of V-by-One interface, signal source to power on by ARM Test chart is simultaneously write on DDR3 memory bar by FPGA, then reads the test chart on DDR3 memory bar simultaneously by ARM control FPGA It is output on 16 channel LVDS signals, the V-by-One letter that V-by-One chip THCV215 is converted into 16LAN is finally turned by LVDS It number is output on V-by-One interface, signal source has RS232 communication interface, can be used for the automatic test of liquid crystal display screen drive board System, but its cost in this way can be higher, V-By-One is converted into any other agreement, requires independent electronic chip and volume Outer current power dissipation, and it is unfavorable for total system assembling, multiple translation-protocols cause design circuit that can increase, and its channel It can not change, so propose that a kind of optical-electric module for image transmitting interface V-By-One design and photoelectricity line solve among the above The problem of proposed.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of photoelectricity moulds for image transmitting interface V-By-One design Block and photoelectricity line, it is fast and the advantages that save cost and space to have a signal conversion rate, solve it is at high cost, be unfavorable for whole system The assembling of system and the problem of be unable to satisfy multichannel.

(2) technical solution

To realize that above-mentioned signal conversion rate is fast and saving the purpose of cost and space, the present invention provides following technical side Case: a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design, including lower coverboard, the top of the lower coverboard Portion is connected with coverboard, offers groove of uncapping at the top of the upper coverboard, the right side of the lower coverboard and is located at upper casing It is fixedly connected with sealing ring on the right side of plate, insulation lantern ring, the inside of the lower coverboard are fixedly connected on the right side of the sealing ring It is fixedly connected with the cable sheath extended to outside insulation lantern ring, the inside of the cable sheath is fixedly connected with 8 tunnels or 16 Road optical fiber is fixedly installed with signal transfer connector on the left of the lower coverboard, and the bottom of the signal transfer connector is fixedly connected There are firm plate, the lower coverboard and upper coverboard to be flexibly connected by mounting screw, the inside of the lower coverboard is fixedly installed with electricity Road plate, the inside of the circuit board offer mounting groove, and the top movable of the circuit board, which is connected with, extends to lower casing intralamellar part Threaded rod, be connected with connection end on the right side of the circuit board, be fixedly installed with photoelectricity at the top of the circuit board Module, the signal transfer connector are fixedly connected with circuit board by connection sheet.

Preferably, shape is in cuboid or square after the lower coverboard and upper casing board group fill, and its quadrangle is equal Cambered, V-BY-ONE signaling protocol directly needs not move through the conversion of any other signaling protocol and is directly converted by electric signal Optical signal has photoelectric conversion module and optical fiber cable in optical-electric module.

Preferably, it is eight tunnels or 16 tunnels that the signal transfer connector, which can receive V-By-One signal, has 8 in cable sheath Root or 16 optical fiber.Preferably, the area of the optical device covering of the optical-electric module is one square centimeter or hereinafter, and light It is eight tunnels or 16 tunnels that electric module, which can receive or issue V-By-One signal,.

Preferably, the lower coverboard, upper coverboard, signal transfer connector, circuit board and optical-electric module form main optical-electric module, And the left and right ends of cable sheath are fixedly connected to main optical-electric module.(3) beneficial effect

Compared with prior art, the present invention provides it is a kind of for image transmitting interface V-By-One design optical-electric module and Photoelectricity line, have it is following the utility model has the advantages that

1, it should be the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, and pass through setting signal transfer connector Signal source is directly docked, V-By-One electric signal is directly transferred to optical-electric module, photoelectric conversion module is by V-By-One telecommunications 8 tunnels or 16 road optical signals number are changed into, protocol transparent is transferred to the other end by optical fiber, then turns by the optical-electric module on right side 8 tunnels or 16 road electric signals are returned, have achieved the effect that transmission rate is fast.

2, it should be the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, association is realized by whole system Transparent transmission is discussed, the reduction of the cost of the optical-electric module and photoelectricity line can be made, is one in the area of optical-electric module optical device covering Square centimeter perhaps can transmit 8 tunnels or 16 road optical signals in size below, so that effective solution is at high cost, no Conducive to the assembling of total system and the problem of be unable to satisfy multichannel.

Detailed description of the invention

Fig. 1 be it is proposed by the present invention it is a kind of be image transmitting interface V-By-One design optical-electric module and photoelectricity cable architecture Schematic diagram；

Fig. 2 is structure sectional view proposed by the present invention；

Fig. 3 is the structure top view that the present invention proposes lower coverboard.

In figure: 1 lower coverboard, coverboard on 2,3 are uncapped groove, 4 sealing rings, 5 insulation lantern rings, 6 cable sheaths, 61 soft PVC Layer, 62 cable endotheliums, 63 outer tensile layers, cable protection layer in 64, tensile layer, 66 cable moccasins, 67 cable ontologies, 7 letters in 65 Number transfer connector, 8 firm plates, 9 mounting screws, 10 circuit boards, 11 mounting grooves, 12 threaded rods, 13 connection ends, 14 photoelectricity Module, 15 connection sheets.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Please refer to Fig. 1-3, a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design, including lower casing Plate 1, the top movable of lower coverboard 1 are connected with coverboard 2, and the top of upper coverboard 2 offers groove 3 of uncapping, the right side of lower coverboard 1 And the right side for being located at upper coverboard 2 is fixedly connected with sealing ring 4, the right side of sealing ring 4 is fixedly connected with insulation lantern ring 5, lower coverboard 1 Inside be fixedly connected with extend to insulation lantern ring 5 outside cable sheath 6, the inside of cable sheath 6 be fixedly connected 8 or 16 optical fiber cables, the left side of lower coverboard 1 are fixedly installed with signal transfer connector 7, and signal transfer connector 7 can receive V-By-One Signal is eight tunnels or 16 tunnels, and the bottom of signal transfer connector 7 is fixedly connected with firm plate 8, and lower coverboard 1 and upper coverboard 2 pass through Mounting screw 9 is flexibly connected, and the inside of lower coverboard 1 is fixedly installed with circuit board 10, and the inside of circuit board 10 offers mounting groove 11, the top movable of circuit board 10 is connected with the threaded rod 12 extended to inside lower coverboard 1, and the right side of circuit board 10 is flexibly connected There is route connecting pin 13, the top of circuit board 10 is fixedly installed with optical-electric module 14, after lower coverboard 1 and upper coverboard 2 assemble Shape is in cuboid or square, and its quadrangle is cambered, V-BY-ONE signaling protocol directly need not move through it is any its He converts and is directly converted into optical signal by electric signal signaling protocol, there is photoelectric conversion module and optical fiber cable in optical-electric module 14, The area of the optical device covering of optical-electric module 14 is one square centimeter or hereinafter, and optical-electric module can receive or sending V-By- One signal is eight tunnels or 16 tunnels, and lower coverboard 1, upper coverboard 2, signal transfer connector 7, circuit board 10 and optical-electric module 14 form Main optical-electric module, and the left and right ends of cable sheath 6 are fixedly connected to main optical-electric module, signal transfer connector 7 and circuit board 10 are fixedly connected by connection sheet 15, should be the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, by whole A system realizes protocol transparent transmission, can make the reduction of the cost of the optical-electric module and photoelectricity line, in optical-electric module optical device The area of covering is can transmit 8 tunnels or 16 road optical signals in one square centimeter perhaps size below, thus effectively It solves the problems, such as assembling that is at high cost, being unfavorable for total system and is unable to satisfy multichannel.

Working principle: it should be the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, and pass through setting signal Transfer connector directly docks signal source, and V-By-One electric signal is directly transferred to optical-electric module, and photoelectric conversion module is by V-By- One electric signal changes into 8 tunnels or 16 road optical signals, and protocol transparent is transferred to the other end, then the light for passing through right side by optical fiber Electric module goes back to 8 tunnels or 16 road electric signals, has achieved the effect that transmission rate is fast.

In conclusion should be the optical-electric module and photoelectricity line of image transmitting interface V-By-One design, pass through whole system Protocol transparent transmission is realized, the reduction of the cost of the optical-electric module and photoelectricity line can be made, in the covering of optical-electric module optical device Area is one square centimeter perhaps can transmit 8 tunnels or 16 road optical signals in size below, thus effective solution at This height, the assembling for being unfavorable for total system and the problem of be unable to satisfy multichannel.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (5)

1. a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design, including lower coverboard (1), feature exists In: the top movable of the lower coverboard (1) is connected with upper coverboard (2), offers groove of uncapping at the top of the upper coverboard (2) (3), the right side of the lower coverboard (1) and be located at upper coverboard (2) on the right side of be fixedly connected with sealing ring (4), the sealing ring (4) Right side be fixedly connected with insulation lantern ring (5), the inside of the lower coverboard (1) be fixedly connected with extends to insulation lantern ring (5) outside The cable sheath (6) in portion, the inside of the cable sheath (6) are fixedly connected with 8 or 16 optical fiber cables, the lower coverboard (1) Left side be fixedly installed with signal transfer connector (7), the bottom of the signal transfer connector (7) is fixedly connected with firm plate (8), The lower coverboard (1) and upper coverboard (2) are flexibly connected by mounting screw (9), and the inside of the lower coverboard (1) is fixedly installed with The inside of circuit board (10), the circuit board (10) offers mounting groove (11), the top movable connection of the circuit board (10) Have and extend to the internal threaded rod (12) of lower coverboard (1), is connected with connection end on the right side of the circuit board (10) (13), it is fixedly installed with optical-electric module (14) at the top of the circuit board (10), the signal transfer connector (7) and circuit board (10) it is fixedly connected by connection sheet (15).

2. a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design according to claim 1, Be characterized in that: shape is in cuboid or square after the lower coverboard (1) and upper coverboard (2) assembling, and its quadrangle is equal Cambered, V-BY-ONE signaling protocol directly needs not move through the conversion of any other signaling protocol and is directly converted by electric signal Optical signal, optical-electric module (14) is interior photoelectric conversion module and optical fiber cable.

3. a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design according to claim 1, Be characterized in that: it is eight tunnels or 16 tunnels that the signal transfer connector (7), which can receive V-By-One signal, and cable sheath has 8 in (6) Root or 16 optical fiber.

4. a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design according to claim 1, Be characterized in that: the area of the optical device of the optical-electric module (14) covering be one square centimeter or hereinafter, and optical-electric module can Receiving or issue V-By-One signal is eight tunnels or 16 tunnels.

5. a kind of optical-electric module and photoelectricity line for image transmitting interface V-By-One design according to claim 1, It is characterized in that: the lower coverboard (1), upper coverboard (2), signal transfer connector (7), circuit board (10) and optical-electric module (14) composition Main optical-electric module, and the left and right ends of cable sheath (6) are fixedly connected to main optical-electric module.