JP2007183314A - Data link module - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data link module in which bothersome operations involved in linking devices are reduced. <P>SOLUTION: The data link module includes: a cable in which one or more wires and a plurality of optical fibers are bundled such that the optical fibers are arranged in a plane; a substrate disposed at one end of the cable such that one end face thereof faces the direction in which the cable extends; signal medium conversion elements, which are disposed on the substrate and near the one end face so as to optically connectable to the end faces of the optical fibers, and convert an electric signal and optical signal one to the other; electric terminals disposed corresponding to one or more wires and electrically connectable to the wires; and an electric connector disposed on the substrate and near an end face opposite the one end face, electrically connected to the signal medium conversion elements and electric terminals, and connectable to other connectors. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a data link module that connects devices using a cable in which optical fibers and electric wires are combined into one.

  In recent years, with an increase in communication speed, a data link module that connects devices using a cable in which an optical fiber for transmitting an optical signal and an electric wire for supplying a control signal or power supply are combined into one. Is being used.

As the above-described data link module, a configuration in which an electrical connector for electrical connection and an optical connector for optical connection are respectively attached to both ends of the cable has been proposed (see Patent Document 1).
JP-A-2005-51729

  However, when the transmission of electrical signals and optical signals between devices is performed with the proposed data link module, there is a problem that at least four couplings are required, which is troublesome.

  In view of the circumstances described above, an object of the present invention is to provide a data link module in which troublesomeness when connecting devices is reduced.

In order to achieve the above object, the data link module of the present invention comprises:
A cable in which one or more electric wires and a plurality of optical fibers are bundled together in a state in which the plurality of optical fibers are arranged in a plane;
A substrate disposed at one end of the cable with one end surface facing the direction in which the cable extends;
A position close to the one end surface on the substrate, and a position where one of the front and back surfaces of the substrate is optically coupled to each of the end surfaces of the plurality of optical fibers constituting the cable. A plurality of signal medium conversion elements responsible for conversion between an electrical signal and an optical signal,
It is electrically connected to this electric wire arranged corresponding to one or more electric wires constituting the cable at a position near the one end surface on the other surface of the front and back surfaces of the substrate. An electrical terminal;
Electricity coupled to another connector electrically connected to each of the plurality of signal medium conversion elements and each of the electrical terminals, disposed at a position close to the end surface opposite to the one end surface of the substrate. And a connector.

  In the data link module of the present invention, both an optical signal and an electrical signal can be transmitted, but a coupling portion with the outside is integrated into an electrical connector. Therefore, according to the data link module of the present invention, the number of couplings can be reduced by half compared to the conventional case where both electrical coupling and optical coupling are required, and the troublesomeness when connecting the devices is reduced. be able to.

  In the data link module of the present invention, the end faces of the plurality of optical fibers arranged in a plane on the cable are optically connected to the signal medium conversion elements arranged on one of the front and back surfaces of the substrate. Thus, according to the data link module of the present invention, it is possible to suppress the thickness of the substrate on which the signal medium conversion elements are arranged, and to suppress the occurrence of transmission errors due to the kinking of the optical fiber. it can.

Here, the optical fiber insertion hole through which the tip portion on the one end side of the plurality of optical fibers constituting the cable is inserted, and the tip end on the one end side of one or more electric wires constituting the cable A ferrule having an insertion hole for an electric wire through which a portion is inserted;
The plurality of optical fibers are optically coupled to the plurality of signal medium conversion elements and the one or more optical fibers are coupled to the ferrules fixed to the substrate. It is preferable to provide a fitting portion that electrically connects each of the electric wires to each of the electric terminals.

  In this way, the cable can be easily replaced.

  In addition, the cable has a shield that covers the whole of one or more electric wires and a plurality of optical fibers constituting the cable, the metal housing covering the substrate, and the shield and the housing It is also a preferable aspect to include a connection member that connects the two.

  In this way, adverse effects due to electromagnetic noise can be reduced and the load on the cable can be prevented from being applied directly to the electric wire and the optical fiber.

  According to the data link module of the present invention, it is possible to reduce troublesomeness when connecting devices.

  Hereinafter, embodiments of the present invention will be described.

  FIG. 1 is an external view of an embodiment of the data link module of the present invention.

  The data link module 1 shown in FIG. 1 includes a cable 3 in which eight electric wires and four optical fibers are bundled together, and connectors 2 attached to both ends of the cable 3. It transmits both electrical signals and optical signals between devices.

  In FIG. 1, an electrical connector portion 24 that is a portion to be connected to the outside, which will be described in detail later, is shown at the tip of the connector 2.

  FIG. 2 is an exploded perspective view of the connector shown in FIG.

  FIG. 2 shows a state in which the connector 2 includes a housing body 26 and a lid 25 and a substrate 20 accommodated in the housing body 26 and the lid 25.

  The board 20 is disposed at a position on the board body 21 and the end face of the board body on the side to which the cable 3 shown in FIG. LED (Light Emitting Diode) portion 22, electrical terminal portion 23 provided on the back surface of the substrate body 21, and the opposite side of the end surface of the substrate body 21 to which the cable 3 is connected It is comprised with the electrical connector part 24 for the coupling | bonding with the other apparatus arrange | positioned in the position near the end surface.

  Electrical wirings (not shown in FIG. 2) are mounted on the front and back surfaces of the substrate body 21. The LED 222 of the LED unit 22 (see FIG. 3) and the electrical terminal 231 of the electrical terminal unit 23 (see FIG. 3) Are electrically connected to the electrical wiring of the substrate body 21. Note that FIG. 2 shows a wire 221 that connects the LED 222 of the LED section 22 and the electrical wiring mounted on the substrate body.

  In addition, on the front and back surfaces of the substrate body 21, electrical wiring mounted on the front and back surfaces of the substrate body 21 for connecting the electrical connector portion 24 to the end surface opposite to the end surface to which the cable 3 is connected Connected contacts 211 are provided, and the electrical connector portion 24 is electrically connected to the LEDs 222 and the electrical terminals 231 via the contacts 211. The substrate body 21 is provided with a hole 21a used for positioning when incorporated in the housing.

  On the inner bottom surface of the housing body 26, a boss portion 261 having a thread groove cut therein is provided, which is inserted into a hole 21 a provided in the substrate body 21. The lid 25 is covered with the boss 261 inserted through the hole 21a of the main body 21, and a set screw (not shown) is screwed into the hole 25a provided in the lid. A fixing screw 262 for fixing the coupling with the mating connector is inserted into a hole 26b provided in the housing body 26 at a position sandwiching the electrical connector portion 24.

  3 is a cross-sectional view of a connection portion between the connector and the cable shown in FIG.

  FIG. 3 shows the LED unit 22 fixed to the surface of the substrate body 21, and the LED unit 22 includes an LED 222 and a frame 220.

  FIG. 3 shows an electric terminal portion 23 fixed to the back surface of the substrate body 21, and the electric terminal portion 23 includes an electric terminal 231 and a frame 230.

  3 shows the optical fiber 31, the electric wire 32, the optical fiber insertion hole 30a through which the end of the optical fiber 31 is inserted, and the electric wire through which the end of the electric wire 32 is inserted. The plastic ferrule 30 provided with the insertion hole 30b is shown.

  Here, the frame portion 220 of the LED portion 22 and the frame 230 of the electric terminal portion 23 are provided with fitting portions 22a and 23a for fitting with the ferrule 30 described above, and the fitting portions 22a and 23a By fitting the ferrule 30, the optical fiber 31 is optically coupled to the LD 222, and the electric wire 32 is electrically connected to the electrical terminal 231.

  In the data link module 1 of the present embodiment, optical and electrical transmission can be performed, but a connection portion with the outside is integrated into the electrical connector portion 24. Therefore, according to the data link module 1 of the present embodiment, it is possible to reduce the number of couplings by half compared to the conventional case where both electrical coupling and optical coupling are required, and troublesomeness when connecting devices. Can be reduced. Moreover, in this data link module 1, since the connection between the connector 2 and the cable 3 can be performed only by fitting the fitting portions 22a and 23a and the ferrule 30, the cable 3 can be easily replaced. You can do it.

  Here, in the LED section 22, four LEDs 222 are arranged in the direction from the far side to the near side in FIG. 3 and connected to the electrical wiring on the surface of the substrate body 21. This is to reduce the thickness of the LED portion 22. For the same purpose, in the electrical terminal portion 23, eight electrical terminals 231 are arranged in the direction from the far side to the near side in FIG. Connected to the electrical wiring.

  FIG. 4 is a cross-sectional view of the cable shown in FIG.

  FIG. 4 shows a cross section of the cable 3. The cable 3 includes four sets of two wires 32 wrapped in an aluminum foil 321 in one set and four sets arranged in a plane in the cable. The optical fiber 31 is covered with a metal shield 33 and the shield 33 is covered with a sheath 34. A core member 35 is inserted into the cable 3 so that the four optical fibers 33 are arranged in a plane in the cable.

  In this data link module 1, the LEDs 222 and the electrical terminals 231 are arranged on the substrate so that the thickness of the substrate 20 is as small as possible, and the optical fibers 31 are arranged in a plane on the cable side accordingly. By being in a state, occurrence of transmission errors due to kinking of the optical fiber 31 is suppressed.

  In addition, the electric wires 32 in the cable are covered by an aluminum foil 321 in pairs, and are further covered by a metal shield 33, thereby shielding electromagnetic noise.

  FIG. 5 is a diagram illustrating a state of connection between the board and the cable.

  FIG. 5A shows a case where the fitting portions 22a and 23a of the LED portion 22 fixed to the substrate body 21 and the ferrule 30 are seen from the lid side.

  FIG. 5A shows a state where the sheath 34 in the vicinity of the end of the cable 3 is peeled off and the shield 33 is exposed.

  FIG. 5B shows a state in which the substrate 21 in the state shown in FIG. 5 is accommodated in the housing main body 26 and the exposed shield 33 is connected to the edge 260 of the housing main body 26 by the fasteners 27. Yes.

  FIG. 5C shows a cross-sectional view of the cable 3 connected to the edge 260 of the housing body 26 by the fastener 27 shown in FIG. 5B.

  As shown in FIG. 5, in the data link module 1 of the present embodiment, the shield 33 of the cable 3 is connected to the housing body 26 of the connector 2 made of metal. An adverse effect due to noise can be suppressed.

  In the embodiment described above, the connection between the connector 2 and the cable 3 has been described with reference to an example in which the fitting portions 22a and 23a of the connector 2 and the ferrule 30 of the cable 3 are fitted. The present invention is not limited to this, and may be directly connected without passing through the ferrule 30, and the cable 3 is not covered with a shield, and the housing body 26 has a fastener 27. May not be connected.

It is an external view of one embodiment of the data link module of the present invention. It is a disassembled perspective view of the connector shown in FIG. It is sectional drawing of the connection part of the connector and cable shown in FIG. It is sectional drawing of the cable shown in FIG. It is a figure which shows the mode of the connection of a board | substrate and a cable.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Data link module 2 Connector 20 Board | substrate 21 Board | substrate main body 211 Contact 22 LED part 22a, 23a Fitting part 220, 230 Frame 221 Wire 222 LED
DESCRIPTION OF SYMBOLS 23 Electrical terminal part 231 Electrical terminal 24 Electrical connector part 25 Cover 26 Housing main body 260 Edge part 3 Cable 30 Ferrule 30a Optical fiber insertion hole 30b Electric wire insertion hole 31 Optical fiber 32 Electric wire 321 Aluminum foil 33 Shield 34 Sheath 35 Core material

Claims (3)

A cable in which one or more electric wires and a plurality of optical fibers are bundled together in a state in which the plurality of optical fibers are arranged in a plane;
A substrate disposed at one end of the cable with one end face facing the cable extending direction;
A position close to the one end surface on the substrate, and a position optically coupled to each end surface of each of the plurality of optical fibers constituting the cable, on one of the front and back surfaces of the substrate A plurality of signal medium conversion elements responsible for conversion between an electrical signal and an optical signal,
It is electrically connected to the electric wire arranged corresponding to one or more electric wires constituting the cable at a position near the one end surface on the other surface of the front and rear surfaces of the substrate. An electrical terminal;
Electricity coupled with another connector electrically connected to each of the plurality of signal medium conversion elements and each of the electric terminals, disposed at a position close to the end surface opposite to the one end surface of the substrate. A data link module comprising a connector. A plurality of optical fibers constituting the cable, an optical fiber insertion hole through which a tip portion on the one end side is inserted, and a tip portion on the one end side of one or more electric wires constituting the cable are inserted. A ferrule having an insertion hole for the formed electric wire,
The plurality of optical fibers are optically coupled to the plurality of signal medium conversion elements, and the one or more optical fibers are coupled to the ferrules fixed to the substrate. The data link module according to claim 1, further comprising a fitting portion that electrically connects each of the electric wires to each of the electric terminals. The cable has a shield that covers the whole of one or more electric wires and a plurality of optical fibers constituting the cable,
The data link module according to claim 1, further comprising: a metal housing that covers the substrate; and a connection member that connects the shield and the housing.

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