KR100852260B1 - Flat hihg-definition multimidia interface cable - Google Patents

Abstract

A flat high-definition multimedia interface cable is provided to improve workability and minimize a defective rate by performing connection of an electrode of a socket or connection of an electrode of a PCB(Printed Circuit Board) through an automation process. A flat high-definition multimedia interface cable includes a plurality of signal lines and a plurality of ground lines. The signal lines are used for transmitting image signals and sound signals. The signal lines and the ground lines are arranged in parallel. The signal lines and the ground lines are surrounded by a shielding film(112). The shielding film has a multilayer structure made of first polyester, first aluminum, second polyester, and second aluminum.

Description

Flat high-definition multimedia interface cable {Flat Hihg-Definition Multimidia Interface cable}

The present invention relates to a flat high-definition multimedia interface cable, and more particularly, parallel to the signal line and the ground line for transmitting audio and video signals to form a flat HDMI cable, the polyester / aluminum / polyester / aluminum The present invention relates to a flat high definition multimedia interface cable capable of securing signal interference and signal transmission strength between signal lines and enabling an automated process to improve work productivity by forming a shielding layer formed of a multilayer structure.

In general, a high-definition multimidia interface (HDMI) is a typical standard for video and audio signal transmission. Digital and audio signals can be converted into one video and audio signal cable without compression. Transmission standard that can be connected to the product.

In particular, since video and audio signal transmission cables are capable of multichannel transmission (5.1 channels) for audio signals, they are smaller in size than digital video interface (DVI) cables and have a copyright protection standard called High Bandwidth Digital Content Protection (HDCP). Since it is built-in, it should be HDCP certified between player and display for normal video output, and because multi-channel audio is also supported, DVI cable is used only for home appliances, while HDMI cable is used for audio and video home appliances. Can be.

The cable according to the HDMI standard has video and audio lines on the same cable. In particular, the cable consists of 12 signal lines and ground lines divided into four groups for video signal transmission, and 7 signal lines for audio signal transmission. have.

1 is a perspective view showing the configuration of an HDMI cable according to the prior art, Figure 2 is a view showing the signal line arrangement inside the HDMI cable according to the prior art.

The HDMI cable consists of twelve signal and ground lines divided into four groups for transmitting video signals, and seven signal lines for audio signals, surrounded by an aluminum shield and a cable jacket. In this case, the 12 signal lines and the ground line for transmitting the video signal are composed of four core wires surrounded by a red sheath, four core wires surrounded by a white sheath, and four uncoated bare cores. Each one includes one group, and the red signal line and the white signal line are twisted with each other in order to secure signal interference and signal transmission strength therebetween. Since the HDMI cable has to transmit high-capacity data at high speed, the signal lines must satisfy the signal interference and signal transmission strength characteristics of each other, and for this purpose, the signal lines have to be twisted realistically.

However, the HDMI cable according to the prior art connects the sockets at both ends for connection with other electronic devices. To this end, the twisted signal line has to be loosened again. It is necessary to visually check the color by hand and select the signal lines that meet the characteristics, and because each signal line must be soldered by hand, it is impossible for automated production suitable for mass production and productivity is lowered, thus making it difficult to secure cost competitiveness. there was.

The present invention is to solve the above problems, the signal line and the ground line for transmitting the video signal constituting the HDMI cable and the signal line for transmitting the sound signal line are arranged in parallel with each other, polyester / aluminum / polyester / By forming a shielded film made of aluminum multilayer structure to form a flat HDMI cable, it satisfies the signal interference and signal transmission strength characteristics between the signal lines and enables the automation of the soldering process for connection with the socket connected to both ends of the HDMI cable. It is an object of the present invention to provide a flat high-definition multimedia interface cable that can improve the work productivity and minimize the defect rate.

In order to achieve the above object, a flat high definition multimedia interface cable according to the present invention is a high definition multimedia interface cable for simultaneously transmitting a video signal and an audio signal, and a plurality of signal lines and ground lines for transmitting the video signal and the audio signal are provided. The plurality of signal lines and the ground lines are arranged in parallel with each other, and the plurality of signal lines and the ground lines are surrounded by a shielding film formed of a multilayer structure of first polyester / first aluminum / second polyester / second aluminum.

Flat high-definition multimedia interface cable according to the present invention, because the signal line and the ground line in the cable is arranged in parallel with each other formed in a flat form, so that the connection between the electrode of the socket or the PCB electrode at both ends of the cable by an automated process As a result, it is possible to minimize the simultaneous failure rate which improves the work productivity.

EMBODIMENT OF THE INVENTION Hereinafter, although the Example of this invention is described in detail, this invention is not limited to a following example, unless the summary is exceeded.

3 is a view showing the configuration of a flat HDMI cable according to the present invention, Figure 4 is a cross-sectional view showing the internal configuration of a flat HDMI cable according to the present invention, Figure 5 surrounds a signal line in the flat HDMI cable according to the present invention It is a figure which shows the structure of a shielding film.

Referring to FIG. 3, the flat HDMI cable 100 according to the present invention includes 12 signal lines (R, W) and ground lines (N) divided into four groups for transmitting a video signal, and a voice signal. Seven signal lines (G, B, BL) for the configuration is surrounded by the cable jacket (110). At this time, the 12 signal lines (R, W) and the ground line (N) for transmitting the video signal is surrounded by the four signal lines (R) surrounded by the red coating 120 and the white coating (120) in the outer diameter of the core wire 130 It consists of four signal lines (W) and four uncoated bare cores (N), and the seven signal lines (G, B, BL) for transmitting audio signals have a black coating (120) on the outer diameter of the core wire (130). It consists of three signal lines B enclosed, two signal lines G enclosed by the green coating 120, and two signal lines BL enclosed by the blue coating 120.

Referring to FIG. 4, in the cable jacket 110, twelve signal lines and ground lines for transmitting an image signal include two red and white (R, W) signal lines and one ground line (N) as one group (a). Four signal line groups are arranged side by side, and seven signal lines b for transmitting audio signals are arranged side by side. All signal lines and ground lines are surrounded by a shielding film 112 made of aluminum film in order to secure signal interference and signal transmission strength between the signal lines. The signal and ground lines for transmitting an image signal are each shielded by one group (a). Zigzag 112 is separated from adjacent signal lines.

The flat HDMI cable according to the present invention can transmit high capacity data at high speed while securing signal interference and signal transmission strength between signal lines by the following configuration.

The core wire and ground wire constituting the signal line in the flat HDMI cable 100 have a diameter of 0.2 to 0.5 mm, and when copper is used as the core wire material, the difference depends on the coating material, but the outer diameter D of the signal wire is the core wire 130. 2.5 to 3.5 times the diameter.

The arrangement interval P between the two signal lines W and R for transmitting the video signal is such that the interval between two core lines positioned at the centers of the two signal lines W and R is within 1.5 times the diameter of the signal line. The naked core (N), i.e. the ground line, is arranged as close as possible to the white signal line (W).

On the other hand, the signal lines (B, G, BL) for transmitting the voice signal may be arranged in close contact or spaced apart arbitrarily.

The signal line and the ground line having such a configuration are surrounded by the shielding film 112 in order to secure signal interference or signal transmission intensity generated during high frequency passage. At this time, the four signal line groups for transmitting the video signal is separated from the adjacent signal line group by passing a single signal line group zigzag through the shielding film 112, respectively, and the signal lines for transmitting the audio signal must be isolated and shielded each signal line Since there is no, the whole is surrounded by the shielding film (112). When the signal line and the ground line are surrounded by the shielding film 112 and then heat-laminated, the shielding film 112 is compressed to the surface of the signal line and the ground line.

In the present invention, unlike the single-layer aluminum film used in the prior art, by using the shielding film 112 formed of a multilayer structure of first polyester / first aluminum / first polyester / first aluminum, signal interference and signal transfer strength between signal lines are used. All signal and ground lines can be arranged side by side while ensuring At this time, the first polyester in contact with the signal line and the ground line is fused to the signal line and the ground line during lamination to serve as an adhesive.

6 shows a state in which the flat HDMI cable 100 according to the present invention is connected to the PCB 200, since the signal line and the ground line are arranged side by side in contact with the PCB or the electrode formed in the socket connected to both ends of the cable. There is no need to select signal lines for each function, and soldering can be performed in an automated process. The soldering process may be replaced by placing the ends of the cores 130 from which the sheath 120 is removed at the contacts of the PCB and thermally fusion bonding. In this case, a jig for placing each core wire at a predetermined position of the PCB may be used. By using 19 cores can be welded at the same time, production error can be greatly reduced.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

1 is a perspective view showing the configuration of an HDMI cable according to the prior art.

FIG. 2 is a view showing an arrangement of signal lines constituting the HDMI cable shown in FIG.

3 is a view showing the configuration of a flat HDMI cable according to the present invention.

4 is a cross-sectional view showing an internal configuration of a flat HDMI cable according to the present invention.

5 is a view showing the configuration of a shielding film surrounding the signal line inside the flat HDMI cable according to the present invention.

6 is a view showing a state in which the flat HDMI cable according to the invention connected to the PCB.

<Description of the symbols for the main parts of the drawings>

100: HDMI cable 110: cable jacket

112: shielding film 113: first polyester

114: first aluminum 115: second polyester

116: second aluminum 120: sheath

130: core wire 200: PCB

Claims (8)

In the high-definition multimedia interface cable for transmitting video and audio signals at the same time, A plurality of signal lines and ground lines for transmitting a video signal and an audio signal are arranged in parallel with each other, and the plurality of signal lines and the ground lines are formed of the first polyester / first aluminum / second polyester / second aluminum. Flat high-definition multimedia interface cable characterized in that it is surrounded by a shielding film formed of a multi-layer structure. The method of claim 1, The signal line is a flat high-definition multimedia interface cable, characterized in that the outer wire is surrounded by the outer sheath, the ground wire is composed of a bare core core. The method of claim 2, Flat core high-definition multimedia interface cable, characterized in that the core and the core core diameter is 0.2 to 0.5mm. The method of claim 2, The outer diameter of the coated signal line is a flat high-definition multimedia interface cable, characterized in that 2.5 to 3.5 times the core diameter. The method of claim 2, The video signal is transmitted through four signal line groups having two signal lines covered with white and red and one ground line as one group, and the four signal line groups are isolated from adjacent signal line groups by shielding layers, respectively. High-definition multimedia interface cable. The method of claim 5, wherein And an array spacing between two signal lines transmitting the video signal is configured such that a spacing between two core wires respectively positioned at the centers of the two signal lines is within 1.5 times the diameter of the signal line. The method of claim 5, wherein And the ground line is arranged in close contact with the white signal line. The method of claim 1, The shielding film is formed by pressing the signal line and the ground line by lamination by heat treatment, and the first polyester contacting the signal line and the ground line is fused to the signal line and the ground line, characterized in that the flat high-definition multimedia Interface cable.

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