JPH0719975U - Pin jack and pin plug - Google Patents

Abstract

(57) [Abstract] [Purpose] A function that enables electrical digital signal system paths for connecting digital audio equipment to be directly connected by electrical cables, and that can also be replaced with optical digital signal system paths. Provide the pin jack and pin plug you have. [Configuration] A power supply contact piece 14 is provided separately from the signal contact piece 13 on the pin jack. The plug P ₂ is provided with a power source pin conductor 24 that contacts the power source contact piece 14, a pin-shaped signal conductor 22 and an electric-optical converter (or an optical-electrical converter) 25.
The electric-optical converter (or opto-electric converter) 2 is generated by the electric power obtained through the power source contact piece 13 and the power source pin conductor 24.
5 is operated to convert an electric digital signal given through the signal contact piece 13 and the pin-shaped signal conductor 22 into an optical signal and send it to the optical fiber 26. At the receiving side, it is converted into an electric signal by an optical-electrical converter, This electric signal is input to the device through the pin-shaped signal conductor 22 and the signal contact piece 13.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a pin jack and a pin plug which can be used, for example, when a signal is sent from a CD player or the like to an amplifier, or when a video signal is sent from a portable television camera to a television receiver through an RF modulator.

[0002]

[Prior art]

 In the case of a digital audio device, for example, an analog signal system and a digital signal system are provided between the CD player and the amplifier, and the digital signal system is provided with an electric signal system path and an optical transmission system path. Looking at the characteristics of each of these signal systems, the digital signal system is superior in view of the deterioration of sound quality. Further, considering that the electrical and magnetic noises are prevented from being mixed in, the optical digital transmission system is superior.

[0003]

[Problems to be solved by the device]

 As a system for transmitting a signal from a digital reproducing apparatus to another device such as an amplifier, it can be seen that the optical digital transmission system is excellent because of the reason described above. However, the conventional optical fiber connector is expensive, so that the connecting optical fiber cable device (with the plugs attached at both ends) is expensive. Therefore, in general, the electric digital transmission system is mainly used because the connecting cable device is provided at a low cost. However, the electric digital transmission system has a drawback that it is vulnerable to noise as described above.

A first object of the present invention is to provide a pin jack and a pin plug which can realize an optical digital transmission system at a low cost. A second object of the present invention is to form a power supply path by using the pin jack and the pin plug according to the present invention when connecting to another device which is not equipped with a power source. Therefore, it is possible to provide a pin jack and a pin plug having a structure in which both a signal path and a power supply path can be constituted by a combination of a pair of pin jack and pin plug.

[0005]

[Means for Solving the Problems]

 In this invention, the pin jack is provided with a power supply contact piece in addition to the signal contact piece, and the power supply contact piece is brought into contact with the power supply conductor provided on the pin plug side so that power can be supplied to the pin plug. An electro-optical converter is installed on the pin plug side to convert an electric digital signal to an optical digital signal, and this optical digital signal is transmitted by an optical fiber cable.At the transmission destination, the opto-electric converter is mounted on the pin plug. However, this optical-electrical converter is also operated by using the power supply provided to the plug through the power supply contact piece provided in the jack, and this optical-electrical converter converts the optical digital signal into an electric digital signal and It has a structure to supply electrical signals to equipment.

According to the configuration of the present invention, the electric-optical converter or the optical-electric converter mounted on the pin plug side can be operated by changing the structure in which only the power supply contact piece is provided on the pin jack. Therefore, since the electric digital signal system can be operated as an optical digital signal system, an excellent transmission system path in which noise is not mixed can be constructed. Since the connector can consist of a pin jack and a pin plug, it can be manufactured at a lower cost than an optical fiber connector.

[0007]

【Example】

FIG. 1 shows an embodiment of this invention. In the figure, J indicates a pin jack according to the present invention, and P ₁ indicates a pin plug which has been conventionally used. Hereinafter, this conventional pin plug P ₁ will be referred to as a standard pin plug. P ₂ indicates a plug according to this invention.

The pin jack J is a cylindrical (generally cylindrical) power source body 10, a ground conductor 11 fitted to the outer peripheral surface of the insulating body 10, and a signal exposed and supported in a central hole 12 of the insulating body 10. It is composed of a contact piece 13, a ground terminal 11A derived from the ground conductor 11, and a signal terminal 13A derived from the signal contact piece 13. The structure so far is the same as the conventional pin jack. A feature of the pin jack J according to the present invention is that a power supply contact piece 14 is provided inside the insulating body 10 behind the signal contact piece 13.

The standard pin plug P ₁ is composed of a tubular ground conductor 21 fitted to the outer circumference of the ground conductor 11 and a pin-shaped signal conductor 22 insulated and planted at the axial center position of the tubular ground conductor 21. The cylinder 20 refers to the plug body. A plurality of slits (not shown) are formed in the tubular ground conductor 21 in a direction parallel to the axis, and the tubular ground conductor 21 is configured to be elastically deformable in the radial direction. It is structured to maintain the combined state. When the standard pin plug P ₁ is inserted into the pin jack J, the pin signal conductor 22 does not reach the power source contact piece 14 and does not contact.

On the other hand, in addition to the structure of the standard pin plug P ₁ , the pin plug P _{2 according to the present invention} has a pin-shaped signal conductor 22 centered in the hollow portion of the pin-shaped signal conductor 22 formed by a cylindrical conductor via an insulator 23. And a structure in which a power source pin conductor 24 that contacts the power source contact piece 14 is provided on the jack J, and the rear end side of the pin-shaped signal conductor 22 and the power source pin conductor 24, that is, the plug body. The structure is characterized in that an electric-optical converter (or an optical-electrical converter) 25 is mounted on the rear end side of 20. The electro-optical converter (or opto-electric converter) 25 includes a printed circuit board 25A, a circuit component 25B such as an IC mounted on the printed circuit board 25A, an electro-optical conversion element (or opto-electric conversion element) 25C. Composed of and.

An end surface of the optical fiber cable 26 is arranged so as to face the electro-optical conversion element (or opto-electric conversion element) 25C. In the example of the figure, the electro-optical conversion element (or the opto-electric conversion element 25C is mounted on a support plate embedded in the printed circuit board 25A, whereby the direction of the optical axis is set in the direction parallel to the printed circuit board 25A. The case where the optical fiber cable 26 is structured to be led out in a direction orthogonal to the plug insertion / removal direction is shown.

By thus guiding the optical fiber cable 26 in a direction orthogonal to the plug insertion / removal direction, the optical fiber cable 26 can be easily routed without requiring a large space on the back side of the device, and the optical fiber cable 26 can be easily routed. Unnecessary force or local bending force applied to the cable 26 can be eliminated. FIG. 2 shows an embodiment in which the pin plugs P ₂ according to the present invention are attached to both ends of the optical fiber cable 26. The pin plug P _2A attached to one end of the optical fiber cable 26 is a transmission pin plug having an electro-optical converter housed inside the plug body 20, and the pin plug P _2B attached to the other end is an opto-electric converter. The pin plug for reception is shown. As described above, by attaching the transmitting pin plug P _2A containing the electric-optical converter and the receiving pin plug P _2B containing the optical-electrical converter to both ends of the optical fiber cable 26, an electric digital transmission system is provided. The path can be replaced with an optical digital transmission path.

[0013]

[Effect of device]

 As described above, according to the pin jack and the pin plug according to the present invention, the power is supplied to the device requiring the power supply through the pin plug only by changing the simple structure in which the power supply contact piece 14 is added. be able to. In particular, the electrical digital signal system path can be replaced by an optical digital signal system path by using a combination of pin plugs according to the present invention. By replacing with an optical digital signal path, it is possible to prevent electrical noise from being mixed in the middle of the process. Further, there is an advantage in that the device on the sending side and the device on the receiving side can be electrically insulated by replacing the device with the optical digital transmission system.

Further, for example, as shown in FIG. 3, when a video signal is transmitted from a portable television camera 30 with a recording function to a television receiver (not shown) via an RF modulator 31, conventionally, the portable television camera 30 is used. In addition to the audio signal pin jack 32 and the video pin jack 33, a power supply jack 34 is also provided. The RF modulator 31 is provided with an audio pin plug 35, a video pin plug 36, and a power supply plug 37. Power is supplied from the portable TV camera 30 to the RF modulator 31 through the power supply jack 34 and the plug 37. The pin jack J and the plug (electric-optical converter or optical-electrical converter) according to the present invention are built-in. The power jack 34 and the power plug 37 can be omitted by using be able to.

Further, since the pin jack J and the pin plug P _{2 according} to the present invention have the same standard as that of the pin jack and the pin plug which have been widely used from the past, they have high versatility and can be manufactured at low cost.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a diagram showing an application example of the present invention.

FIG. 3 is a perspective view for explaining an example in which the effect is obtained by applying the present invention.

[Explanation of symbols]

J Pin jack according to this invention P ₁ Standard pin plug used conventionally ₂ Pin according to this invention 10 Insulating body 11 Ground conductor 12 Center hole 13 Signal contact piece 14 Power contact piece 20 Plug body 21 Tubular ground conductor 22 pin Signal conductor 23 insulator 24 power source pin conductor 25 electric-optical converter (or optical-electrical converter)

Claims (4)

[Scope of utility model registration request] 1. A. A cylindrical insulating body, a ground conductor fitted to the outer periphery of the cylindrical insulating body, and a signal exposed on the peripheral surface of the center hole of the insulating body and supported to contact a pin-shaped signal conductor of a standard pin plug. A jack configured with an armature, B. A pin jack characterized in that a power supply contact piece is provided on the back side of the position of the signal contact piece in the plug insertion / removal direction. 2. A. A tubular ground conductor that fits with the ground conductor of the pin jack to connect and disconnect the ground circuit, and a pin-shaped signal conductor that is electrically insulated and supported from the tubular ground conductor at the axial center position of the tubular ground conductor. In addition to the configuration of the standard pin plug configured by The pin-shaped signal conductor is formed by a tubular conductor,
A power source pin conductor that comes into contact with a power source contact piece provided on the pin jack is mounted in the hollow portion of the pin-shaped signal conductor formed by the tubular conductor through an insulator, and the power source pin conductor is used to A pin plug that makes it possible to extract power from the pin jack. 3. The pin plug according to claim 2, wherein an electric-optical converter is attached to the plug body, electric power is supplied to the electric-optical converter through the power supply conductor, and an electric signal taken out from the pin jack. A pin plug having a structure in which an optical signal is converted into an optical signal and the optical signal is transmitted through an optical fiber cable. 4. The pin plug according to claim 2, wherein an optical-electrical converter is attached to the plug body, the electric power is supplied to the optical-electrical converter, and an optical signal sent through an optical fiber cable is electrically converted. A plug which converts the signal into a signal and inputs the electrical signal to a device to which the pin jack is attached through a signal conductor and a signal contact piece provided on the pin jack.