TWI671764B - HDMI male connector structure - Google Patents

Abstract

The invention relates to a structure of an HDMI male connector, and the pins of the 19 terminals of the HDMI are specially arranged in a single row, so that the first, third and 17th, 19th terminals are located in a single row, respectively. On the left and right sides of the arrangement, the remaining terminals are divided into upper and lower rows, each three as a group, and each group is sequentially staggered in the middle section of a single row arrangement, thereby using the terminals with noise shielding function cleverly. So that it is inserted between high-frequency signal pin pairs and effectively reduces the interference. At the same time, it has the advantages of single-row welding, and even bends at the base between the contact portion of each terminal and the pin portion. The design further expands the distance between the upper and lower rows of terminals, and uses the space for generating alienation to reduce the interference problem caused by induction between the terminals.

Description

Structure of HDMI male connector

The invention provides a structure of an HDMI male connector, in particular, a technique for effectively utilizing the arrangement design of terminals and expanding the terminal pitch, and taking into account the advantages of single-row welding and reducing noise interference without changing the HDMI specifications. The structure of the HDMI male connector.

Press, High Definition Multimedia Interface (HDMI) is the latest video and audio transmission interface, which can provide up to 5Gbps data transmission bandwidth, can transmit uncompressed audio signals and high-resolution video signals, And there is no need to perform digital / analog conversion before signal transmission, so it will not cause signal interference and attenuation, and can guarantee the highest quality video signal transmission. Especially after the introduction of HDMI V1.4, 100M Ethernet channels have been added to allow Internet-based HDMI devices to share Internet access with other HDMI devices without having to connect another Ethernet cable.

However, the terminals of the existing HDMI (even those of version V1.4) are usually soldered at one end (soldering end) of the pin part by the dual in-line package (DIP). The terminal is directly changed to a surface mount technology (SMT) terminal, or it is further improved to a single-row soldered lead portion. Although this method improves the convenience of soldering the HDMI to the circuit substrate, the arrangement of the pin portions is still staggered one by one in the upper and lower rows, resulting in a serious interference problem with its high frequency signals. Although high-frequency signals can be shielded at multimedia devices, once they pass through the HDMI connector, serious interference occurs. Especially the upper and lower rows are in the middle of the staggered terminals. It is easier to generate more noise due to the induction relationship. News.

Therefore, how to solve the above-mentioned conventional problems and shortcomings is the direction in which the inventors of the present invention and related manufacturers engaged in this industry are eager to study and improve.

Therefore, the inventor of the present invention, in view of the above-mentioned shortcomings, collected relevant information, evaluated and considered from various parties, and based on the years of experience accumulated in this industry, he continued to design this through continuous trial and modification. An inventor of an HDMI male connector structure that effectively utilizes the arrangement design of the terminals and the technique of expanding the terminal pitch without changing the HDMI specifications, taking into account the advantages of single-row welding and reducing the problem of noise interference.

The main purpose of the present invention is to arrange the upper and lower rows of HDMI terminals in a special order, so that high-frequency signal terminals at the pin ends can be isolated in pairs by using terminals with shielding effects to effectively maintain signal quality and reduce noise. Information interference.

To achieve the above object, the main structure of the present invention includes: an upper-row transmission conductor group including a first pin portion group, a first base portion group formed by extending one end of the first pin portion group, and a The first base contact group extends from an end of the first pin contact group to form a first elastic contact contact group, and a lower row transmission conductor group is provided on one side of the upper transmission conductor group, and includes a second pin portion. Group, a second base group formed by extending one end of the second pin group, and a second elastic contact group formed by extending the second base group away from one end of the second pin group. A first high-frequency signal pin pair is defined in the first pin portion group, and a first high-frequency shielding pin defined on the first high-frequency signal pin pair side is defined in the second pin portion group. A second high-frequency signal pin pair provided on one side of the first high-frequency shielding pin portion is defined in the leg portion and the second pin portion group, and a first portion is defined in the first pin portion group. A second high-frequency shielding pin portion on the opposite side of the two high-frequency signal pins, and a third high-frequency signal pin disposed on the side of the second high-frequency shielding pin portion is defined in the first pin portion group. Yes, a third high-frequency shielding pin portion defined in the second high-frequency signal pin pair side is defined in the second pin portion group, and a third high-frequency shielding pin portion is defined in the second pin portion group A pair of high-frequency auxiliary signal pins on one side of the high-frequency shield pin portion, and a first high-frequency auxiliary shield pin portion provided on the pair of high-frequency auxiliary signal pin sides is defined in the first pin portion group. A network signal control pin portion provided on one side of the high-frequency auxiliary shielding pin portion is defined in a pin portion group, and a device is defined in the first pin portion group. A first low-frequency signal pin portion on one side of the network signal control pin portion, and a second network pin portion defined in the second pin portion group is provided on the side of the first low-frequency signal pin portion, A second low-frequency signal pin portion defined on the side of the network signal transmission pin portion is defined in the second pin portion group, and a second low-frequency signal pin is defined in the second pin portion group. A power pin portion on one side, a ground pin portion provided on the power pin portion side is defined in the first pin portion group, and a ground pin portion is defined on the first pin portion group and provided on the ground Hot-swap detection of the pin part on the side of the pin part. Thereby, a single-row arrangement of HDMI soldering terminals, and a first high-frequency signal pin pair, a first high-frequency shield pin portion, a second high-frequency signal pin pair, a second high-frequency shield pin portion, and a third High-frequency signal pin pair, third high-frequency shield pin section, high-frequency auxiliary signal pin pair, high-frequency auxiliary shield pin section, network signal control Arrangement order of control pin section, first low-frequency signal pin section, network signal transmission pin section, second low-frequency signal pin section, power supply pin section, ground pin section, hot plug detection pin section , Cleverly achieve the use of terminals with shielding effect, pair of isolated high-frequency signal terminals to effectively maintain signal quality and reduce noise interference. Further, the first upper bending portion, the second upper bending portion, the first turning portion of the first base group, and the first lower bending portion, the second lower bending portion, and the second turning portion of the second base group can be used. It creates an alienation space between the first base group and the second base group to reduce the interference problem caused by the induction effect.

With the above technology, it is possible to break through the problem of noise interference in the conventional HDMI and achieve the practical and progressiveness of the above advantages.

1, 1b, 1c‧‧‧upper transmission conductor set

11, 11a‧‧‧First pin group

111‧‧‧The first high frequency signal pin pair

112‧‧‧Second high-frequency shielding pin part

113‧‧‧ Third high frequency signal pin pair

114‧‧‧High-frequency auxiliary shielding pin part

115‧‧‧ network signal control pin

116‧‧‧The first low frequency signal pin section

117‧‧‧ ground pin section

118‧‧‧Hot plug detection pin

12, 12c‧‧‧First Base Group

121c‧‧‧First upper bend

122c‧‧‧Second upper bend

123c‧‧‧The first turning section

13, 13b, 13c‧‧‧‧The first elastic contact part group

131b‧‧‧The first high-frequency signal contact pair

132b‧‧‧Second high frequency shield contact

133b‧‧‧‧Third high frequency signal contact pair

134b‧‧‧High-frequency auxiliary shielding contact

135b‧‧‧Network signal control contact

136b‧‧‧The first low-frequency signal contact part

137b‧‧‧ ground contact

138b‧‧‧Hot plug detection contact

2, 2b, 2c ‧‧‧ lower row transmission conductor set

21, 21a‧‧‧Second pin group

211‧‧‧The first high-frequency shielding pin part

212‧‧‧second high frequency signal pin pair

213‧‧‧The third high-frequency shielding pin part

214‧‧‧High-frequency auxiliary signal pin pair

215‧‧‧Network signal transmission pin

216‧‧‧Second low-frequency signal pin section

217‧‧‧Power pin section

22, 22c‧‧‧Second Base Group

221c‧‧‧First lower bend

222c‧‧‧Second lower bend

223c‧‧‧Second Turning Section

23, 23b, 23c‧‧‧Second elastic contact group

231b‧‧‧First high frequency shield contact

232b‧‧‧Second high frequency signal contact pair

233b‧‧‧Third high frequency shield contact

234b‧‧‧High-frequency auxiliary signal contact pair

235b‧‧‧Network signal transmission contact

236b‧‧‧Second low frequency signal contact part

237b‧‧‧Power contact

3‧‧‧ Insulation Gel

4‧‧‧shielded housing

5c‧‧‧Evacuation space

The first figure is a perspective perspective view of a preferred embodiment of the present invention.

The second figure is a side view of a hidden shield case according to a preferred embodiment of the present invention.

The third figure is a top view of the upper transmission conductor group of the preferred embodiment of the present invention.

The fourth figure is a bottom view of the lower transmission conductor group of the preferred embodiment of the present invention.

The fifth figure is a schematic diagram of the arrangement of the lead portions in the preferred embodiment of the present invention.

The sixth figure is a schematic structural diagram of a pin part according to another preferred embodiment of the present invention.

The seventh figure is a front view of a terminal according to another preferred embodiment of the present invention.

FIG. 8 is a schematic diagram of a terminal structure according to another preferred embodiment of the present invention.

The ninth figure is a side view of a hidden shield case according to another preferred embodiment of the present invention.

In order to achieve the above-mentioned object and effect, the technical means and structure adopted by the present invention are described in detail below with reference to the preferred embodiments of the present invention.

Please refer to the first to fifth figures, which are schematic perspective views of the arrangement of the lead portion of the preferred embodiment of the present invention. It can be clearly seen from the figure that the present invention includes: an upper-row transmission conductor group 1. It includes a first pin group 11, a first base group 12 formed by extending one end of the first pin group 11, and a first base group 12 facing away from the first pin group 11 a first elastic contact portion group 13 formed by extending at one end; a lower transmission conductor group 2 disposed on one side of the upper transmission conductor group 1 includes a second pin portion group 21 and a second lead portion 21 A second base group 22 formed by extending one end of the leg group 21 and a second elastic contact group formed by extending one end of the second base group 22 away from the second pin portion group 21 23; a first high-frequency signal pin pair 111 defined in the first pin portion group 11; a first high-frequency signal pin pair 111 defined in the second pin portion group 21 A first high-frequency shielding pin portion 211 on one side; a second high-frequency signal pin pair 212 defined in the second pin portion group 21 and disposed on one side of the first high-frequency shielding pin portion 211 ; A second high-frequency shielding pin portion 112 defined in the first pin portion group 11 and disposed on one side of the second high-frequency signal pin pair 212; a second pin portion 112 defined in the first pin portion group 11 A third high-frequency signal pin pair 113 disposed inside one side of the second high-frequency shielding pin portion 112; one defined within the second pin portion group 21 and disposed on the third high-frequency signal pin A third high-frequency shielding pin portion 213 on the 113 side; a high-frequency auxiliary signal pin pair defined in the second pin portion group 21 and disposed on the third high-frequency shielding pin portion 213 side 214; a high-frequency auxiliary shield pin portion 114 defined in the first pin portion group 11 and disposed on one side of the high-frequency auxiliary signal pin pair 214; a defined in the first pin portion group 11 And set on the high-frequency auxiliary screen A network signal control pin portion 115 on the pin portion 114 side; a first low-frequency signal pin portion defined in the first pin portion group 11 and disposed on the network signal control pin portion 115 side 116; a network signal transmission pin portion 215 defined in the second pin portion group 21 and disposed on one side of the first low-frequency signal pin portion 116; one defined in the second pin portion group 21 And a second low-frequency signal pin portion 216 disposed on one side of the network signal transmission pin portion 215; one defined in the second pin portion group 21 and disposed on one side of the second low-frequency signal pin portion 216 A power pin portion 217; a ground pin portion 117 defined in the first pin portion group 11 and disposed on one side of the power pin portion 217; a power pin portion 117 defined in the first pin portion group 11 and A hot-plug detection pin portion 118 provided on one side of the ground pin portion 117; and An insulating colloid 3 for setting the upper-row transmission conductor group 1 and the lower-row transmission conductor group 2 is provided, and the insulating colloid 3 is disposed outside the first base group 12 and the second base group 22, and the The first pin portion group 11, the second pin portion group 21, the first elastic contact portion group 13 and the second elastic contact portion group 23 are exposed outside the insulating gel 3; and one is disposed on the insulating gel 3 上 的 shield 壳 4.

With the above description, you can understand the structure of this technology, and according to the corresponding cooperation of this structure, you can more effectively use the terminal arrangement design and the technique of opening the terminal pitch, without compromising the HDMI specification, and taking into account The advantages of single-row welding convenience and reduced noise interference.

Specifically, the present invention is a way of staggering the conventional HDMI upper and lower rows of terminals one by one (assuming that the upper rows of terminals are sequentially numbered 1, 3, 5, 7, ... 19, etc., and the lower rows of terminals are sequentially numbered 2, Even numbers such as 4, 6, 8, ... 18, then the conventional arrangement of the HDMI pin section is 1, 2, 3, 4 ... 19) is modified to use the first high-frequency signal pin pair 111, the first high Frequency shielding pin portion 211, second high frequency signal pin pair 212, second high frequency signal pin portion 112, third high frequency signal pin pair 113, third high frequency signal shielding pin portion 213, high frequency auxiliary Signal pin pair 214, high-frequency auxiliary shielding pin portion 114, network signal control pin portion 115, first low-frequency signal pin portion 116, network signal transmission pin portion 215, and second low-frequency signal pin portion 216 The arrangement order of the power pin portion 217, the ground pin portion 117, and the hot-plug detection pin portion 118 maintains the pair of the first high-frequency signal pin pair 111, the second high-frequency signal pin pair 212, and The third high-frequency signal pin pair 113 avoids affecting the quality of high-frequency signal transmission, while using the first high-frequency shielding pin portion 211 and the second high-frequency shielding The pin portion 112, the third high-frequency shielding pin portion 213, and the high-frequency auxiliary shielding pin portion 114 isolate high-frequency signals and form upper 2 (first high-frequency signal pin pair 111) and lower 3 (First high-frequency shield pin section 211, second high-frequency signal pin pair 212), upper 3 (second high-frequency shield pin section 112, third high-frequency signal pin pair 113), lower 3 (first Three high-frequency shield pin sections 213, high-frequency auxiliary signal pin pair 214), upper 3 (high-frequency auxiliary shield pin section 114, network signal control pin section 115, first low-frequency signal pin section 116), Staggered arrangement of lower 3 (network signal transmission pin section 215, second low-frequency signal pin section 216, power supply pin section 217), and upper 2 (ground pin section 117, hot plug detection pin section 118) , And effectively isolate the noise generated between the high-frequency terminals.

Please also refer to the sixth figure at the same time, which is a schematic structural diagram of the lead part of another preferred embodiment of the present invention. When the above components are assembled, it can be clearly seen from the figure that this embodiment is similar to the above. The embodiments are similar, and only the welding method of the first pin portion group 11a and the second pin portion group 21a is determined by Surface Mount Technology (SMT) is changed to Dual In-line Package (DIP), thereby increasing the scope of application of the present invention and having high compatibility.

Please also refer to the seventh figure at the same time, which is a front view of the terminal of another preferred embodiment of the present invention. When the above components are assembled, it can be clearly seen from the figure that this embodiment further defines the first The positional relationship between the elastic contact portion group 13b and the second elastic contact portion group 23b. A first high-frequency signal contact pair 131b is defined in the first elastic contact portion group 13b, and is defined in the first elastic contact portion group 13b. A second high-frequency shielding contact portion 132b is provided on the first high-frequency signal contact pair 131b side, and a first high-frequency signal contact pair 13b is defined on the second high-frequency shielding contact portion 132b side. The third high-frequency signal contact pair 133b defines a high-frequency auxiliary shielding contact portion 134b disposed on the side of the third high-frequency signal contact pair 133b in the first elastic contact portion group 13b, and the first elastic contact portion A group 13b defines a network signal control contact portion 135b provided on the high-frequency auxiliary shielding contact portion 134b side, and a group 13b defines a network signal control contact portion 135b located on the network signal control contact portion 135b side First low frequency signal contact portion 136b A ground contact portion 137b is defined in the first elastic contact portion group 13b, and a ground contact portion 137b is defined in the first elastic contact portion group 13b. A hot-plug detection contact portion 138b on the side, a first high-frequency shielding contact portion 231b corresponding to the first high-frequency signal contact pair 131b is defined in the second elastic contact portion group 23b, A second high-frequency signal contact pair 232b corresponding to two sides of the second high-frequency shielding contact portion 132b is defined in the two elastic contact portion groups 23b, and a corresponding one is provided in the second elastic contact portion group 23b. A third high-frequency shield contact portion 233b between the three high-frequency signal contact pairs 133b, and a high-frequency auxiliary signal contact corresponding to two sides of the high-frequency auxiliary shield contact portion 134b is defined in the second elastic contact portion group 23b. For 234b, a network signal transmission contact portion 235b corresponding to the network signal control contact portion 135b and the first low-frequency signal contact portion 136b is defined in the second elastic contact portion group 23b, and the second elastic contact portion group 23b is defined in the second elastic contact portion group 23b. Elastic contact A second low-frequency signal contact portion 236b is defined in the group 23b correspondingly disposed between the first low-frequency signal contact portion 136b and the ground contact portion 137b, and a correspondingly disposed in the second elastic contact portion group 23b is defined in the group The power contact portion 237b between the ground contact portion 137b and the hot-plug detection contact portion 138b. In this way, on the contact end side of the HDMI, in addition to being able to use the insulating gel 3 to isolate the upper and lower positions of the upper transmission conductor group 1b and the lower transmission conductor group 2b, each second elastic connection The position of the contact portion group 23b is disposed between two terminals adjacent to the first elastic contact portion group 13b, further staggering the interference of high-frequency noise, and reducing the degree of influence.

Please also refer to the eighth and ninth figures together, which are schematic diagrams of the terminal structure and a side view of the hidden shield case according to another preferred embodiment of the present invention. As can be clearly seen from the figure, this embodiment and The above embodiments are similar, except that the first base group 12c includes a first upper bent portion 121c connected to the first pin portion group, and a second upper bent portion connected to the first elastic contact portion group 13c. 122c, and a first turning portion 123c connecting the first upper bent portion 121c and the second upper bent portion 122c at both ends, respectively, similarly, so that the second base group 22c includes a connecting the second pin The first downward bending portion 221c of the component group, a second downward bending portion 222c connecting the second elastic contact portion group 23c, and one end respectively connecting the first downward bending portion 221c and the second downward bending The second turning portion 223c of the folding portion 222c, and the second turning portion 223c and the first turning portion 123c are turned in the opposite direction, and a distant space is formed between the first turning portion 123c and the second turning portion 223c. 5c. In order for the upper transmission conductor group 1c and the lower transmission conductor group 2c to exhibit the arrangement form of the foregoing embodiments at the welding end, the first base group 12c and the second base group 22c are bound to have a staggered condition, and this condition will cause the above The inductive problems between the lower transmission conductor groups 1c and 2c, and thus generate unnecessary interference. Therefore, in this embodiment, the first upper bending portion 121c, the second upper bending portion 122c, and the first turning portion 123c are used. , The first base group 12c is bent upward into an inverted U shape, and the first base group 22c, the second lower bent portion 222c, and the second turning portion 223c are used to bend the second base group 22c downward into By inverting the U shape, the distance between the first base group 12c and the second base group 22c is opened to form an alienation space 5c, which effectively avoids induction problems and reduces interference.

However, the above description is only the preferred embodiment of the present invention, and it does not limit the patent scope of the present invention. Therefore, all simple modifications and equivalent structural changes made by using the description and drawings of the present invention should be the same. It is included in the patent scope of the present invention and is incorporated by Chen Ming.

In summary, when the structure of the HDMI male connector of the present invention is in use, it can really achieve its efficacy and purpose. Therefore, the present invention is an invention with excellent practicality. Submit an application and hope that the review committee will grant the invention as soon as possible to protect the inventor's hard invention. If there is any suspicion of the review committee of the Bureau, please follow the instructions of the letter, and the inventor will cooperate with all efforts and feel good.

Claims (10)

A structure of an HDMI male connector mainly includes: an upper-row transmission conductor group including a first pin portion group, a first base portion group formed by extending one end of the first pin portion group, and a A first elastic contact portion group formed by the first base portion group extending away from one end of the first pin portion group; a lower row transmission conductor group disposed on one side of the upper row transmission conductor group and including a second pin A group, a second base group formed by extending one end of the second pin group, and a second elastic contact group formed by the second base group extending away from one end of the second pin group; a definition A first high-frequency signal pin pair in the first pin portion group; a first high-frequency shield defined in the second pin portion group and disposed on one side of the first high-frequency signal pin pair side A pin portion; a second high-frequency signal pin pair defined in the second pin portion group and disposed on one side of the first high-frequency shield pin portion; a pin portion defined in the first pin portion group And a second high-frequency shielding pin portion provided on the opposite side of the second high-frequency signal pin; one is defined in the first pin portion group and A third high-frequency signal pin pair disposed on one side of the second high-frequency shielding pin portion; a third high-frequency signal pin pair defined on the second pin portion group and disposed on the third high-frequency signal pin pair side Three high-frequency shielding pin portions; one high-frequency auxiliary signal pin pair defined in the second pin portion group and disposed on one side of the third high-frequency shielding pin portion; one defined in the first pin A high-frequency auxiliary shield pin portion within the group and disposed on the opposite side of the high-frequency auxiliary signal pin; a portion defined within the first pin portion group and disposed on one side of the high-frequency auxiliary shield pin portion A network signal control pin portion; a first low-frequency signal pin portion defined in the first pin portion group and provided on one side of the network signal control pin portion; a line defined in the second pin portion A network signal transmission pin section within the group and disposed on the side of the first low-frequency signal pin section; a first section defined in the second pin section group and disposed on the side of the network signal transmission pin section; Two low-frequency signal pin portions; a power pin portion defined in the second pin portion group and provided on one side of the second low-frequency signal pin portion; and one defined in the first lead A ground pin portion within the group and disposed on the power pin portion side; and a hot-plug detection pin portion defined within the first pin portion group and disposed on the ground pin portion side . The structure of the HDMI male connector according to item 1 of the scope of patent application, further comprising an insulating gel covering the first base group and the second base group, and the first pin group The second pin portion group, the first elastic contact portion group, and the second elastic contact portion group are exposed outside the insulating rubber body. According to the structure of the HDMI male connector described in item 1 of the scope of the patent application, it further includes an insulating gel for setting the upper-row transmission conductor set and the lower-row transmission conductor set, and an insulating gel provided on the insulating gel. Shielded housing. A structure of an HDMI male connector mainly includes: an upper-row transmission conductor group including a first pin portion group, a first base portion group formed by extending one end of the first pin portion group, and a A first elastic contact portion group formed by the first base portion group extending away from one end of the first pin portion group; a lower row transmission conductor group disposed on one side of the upper row transmission conductor group and including a second pin A group, a second base group formed by extending one end of the second pin group, and a second elastic contact group formed by the second base group extending away from one end of the second pin group; a definition A first high-frequency signal pin pair in the first pin portion group; a first high-frequency shield defined in the second pin portion group and disposed on one side of the first high-frequency signal pin pair side A pin portion; a second high-frequency signal pin pair defined in the second pin portion group and disposed on one side of the first high-frequency shield pin portion; a pin portion defined in the first pin portion group And a second high-frequency shielding pin portion provided on the opposite side of the second high-frequency signal pin; one is defined in the first pin portion group and A third high-frequency signal pin pair disposed on one side of the second high-frequency shielding pin portion; a third high-frequency signal pin pair defined on the second pin portion group and disposed on the third high-frequency signal pin pair side Three high-frequency shielding pin portions; one high-frequency auxiliary signal pin pair defined in the second pin portion group and disposed on one side of the third high-frequency shielding pin portion; one defined in the first pin A high-frequency auxiliary shield pin portion within the group and disposed on the opposite side of the high-frequency auxiliary signal pin; a portion defined within the first pin portion group and disposed on one side of the high-frequency auxiliary shield pin portion A network signal control pin portion; a first low-frequency signal pin portion defined in the first pin portion group and provided on one side of the network signal control pin portion; a line defined in the second pin portion A network signal transmission pin section within the group and disposed on the side of the first low-frequency signal pin section; a first section defined in the second pin section group and disposed on the side of the network signal transmission pin section; Two low-frequency signal pin portions; a power pin portion defined in the second pin portion group and provided on one side of the second low-frequency signal pin portion; and one defined in the first lead A ground pin portion within the group and provided on one side of the power pin portion; a hot plug detection pin portion defined in the first pin portion group and provided on one side of the ground pin portion; A first high-frequency signal contact pair defined in the first elastic contact portion group; a second high-frequency shield defined in the first elastic contact portion group and disposed on one side of the first high-frequency signal contact opposite side A contact portion; a third high-frequency signal contact pair defined in the first elastic contact portion group and disposed on one side of the second high-frequency shield contact portion; a contact portion defined in the first elastic contact portion group and disposed in A high-frequency auxiliary shield contact portion on the third high-frequency signal contact opposite side; a network signal control contact portion defined in the first elastic contact portion group and provided on the high-frequency auxiliary shield contact portion side; A first low-frequency signal contact defined in the first elastic contact group and disposed on one side of the network signal control contact; a first low-frequency signal contact defined in the first elastic contact group and disposed in the first low-frequency signal contact A ground contact portion on one side of the portion; one defined in the first elastic contact portion group and provided in A hot-plug detection contact on one side of the ground contact; a first high-frequency shield contact defined in the second elastic contact group and correspondingly disposed between the first high-frequency signal contact pair; a definition A second high-frequency signal contact pair in the second elastic contact portion group and correspondingly disposed on both sides of the second high-frequency shield contact portion; one defined in the second elastic contact portion group and correspondingly disposed in the third A third high-frequency shielding contact portion between the high-frequency signal contact pair; a high-frequency auxiliary signal contact pair defined in the second elastic contact portion group and correspondingly disposed on both sides of the high-frequency auxiliary shielding contact portion; a definition A network signal transmission contact within the second elastic contact portion group and correspondingly disposed between the network signal control contact portion and the first low-frequency signal contact portion; one defined within the second elastic contact portion group and A second low-frequency signal contact portion disposed between the first low-frequency signal contact portion and the ground contact portion; and a second elastic contact portion group defined in the second elastic contact portion group and correspondingly disposed on the ground contact portion and the hot plug Detect between contacts Power contact. The structure of the HDMI male connector according to item 4 of the scope of patent application, further comprising an insulating gel covering the first base group and the second base group, and the first pin group The second pin portion group, the first elastic contact portion group, and the second elastic contact portion group are exposed outside the insulating rubber body. The structure of the HDMI male connector described in item 4 of the scope of patent application, which further includes an insulating gel for setting the upper row of transmission conductor groups and the lower row of transmission conductor groups, and an insulating gel provided on the insulating gel. Shielded housing. A structure of an HDMI male connector mainly includes: an upper-row transmission conductor group including a first pin portion group, a first base portion group formed by extending one end of the first pin portion group, and a A first elastic contact portion group formed by the first base portion group extending away from one end of the first pin portion group, and the first base portion group includes a first upper bent portion connecting the first pin portion group, A second upper bending portion connecting the first elastic contact portion group, and a first turning portion connecting the first upper bending portion and the second upper bending portion at both ends; one provided on the upper row The transmission conductor group on one side of the transmission conductor group includes a second pin group, a second base group formed by extending one end of the second pin group, and a second base group facing away from the second pin group. A second elastic contact portion group formed by extending one end of the second pin portion group; a first high-frequency signal pin pair defined in the first pin portion group, and the second base portion group includes a connection to the first A first downward bent portion of the two pin portion group, a second downward bent portion connected to the second elastic contact portion group, and One end is respectively connected to the second turning portion of the first lower bending portion and the second turning portion, and the second turning portion and the first turning portion are turned in the opposite direction, and at the first turning A distant space is formed between the second turning part and the second turning part; a first high-frequency shielding pin part defined in the second pin part group and provided on the opposite side of the first high-frequency signal pin; a definition A second high-frequency signal pin pair in the second pin portion group and disposed on one side of the first high-frequency shield pin portion; one defined in the first pin portion group and provided in the second A second high-frequency shielding pin portion on the opposite side of the high-frequency signal pin; a third high-frequency signal lead defined in the first pin portion group and disposed on the second high-frequency shielding pin portion side A pin pair; a third high-frequency shielding pin portion defined in the second pin portion group and disposed on one side of the third high-frequency signal pin pair; a pin defined in the second pin portion group and A pair of high-frequency auxiliary signal pins disposed on one side of the third high-frequency shield pin portion; a high-frequency auxiliary signal defined in the first pin portion group and disposed on the opposite side of the high-frequency auxiliary signal pin portion Shielding pin portion; a network signal control pin portion defined in the first pin portion group and provided on one side of the high-frequency auxiliary shielding pin portion; a defined in the first pin portion group and A first low-frequency signal pin portion provided on one side of the network signal control pin portion; and a network signal transmission defined in the second pin portion group and provided on one side of the first low-frequency signal pin portion A pin portion; a second low-frequency signal pin portion defined in the second pin portion group and provided on one side of the network signal transmission pin portion; a pin portion defined in the second pin portion group and provided A power pin portion on one side of the second low-frequency signal pin portion; a ground pin portion defined in the first pin portion group and disposed on one side of the power pin portion; one defined on the first pin portion A hot-plug detection pin portion provided in the pin portion group and disposed on one side of the ground pin portion; a first high-frequency signal contact pair defined in the first elastic contact portion group; and one defined in the first A second high-frequency shielding contact portion in an elastic contact portion group and disposed on a side opposite to the first high-frequency signal contact; and a second elastic contact portion is defined in the first elastic contact portion A third high-frequency signal contact pair disposed inside one side of the second high-frequency shield contact portion; a high-frequency defined in the first elastic contact portion group and disposed on one side of the third high-frequency signal contact opposite side Auxiliary shielding contact; a network signal control contact defined in the first elastic contact group and provided on one side of the high-frequency auxiliary shielding contact; a defined in the first elastic contact group and provided in The network signal controls a first low-frequency signal contact portion on one side of the contact portion; a ground contact portion defined in the first elastic contact portion group and disposed on one side of the first low-frequency signal contact portion; and one defined on the first A hot-plug detection contact in an elastic contact portion group and disposed on one side of the ground contact portion; a contact defined in the second elastic contact portion group and correspondingly disposed between the first high-frequency signal contact pair A first high-frequency shielding contact portion; a second high-frequency signal contact pair defined in the second elastic contact portion group and correspondingly disposed on both sides of the second high-frequency shielding contact portion; and a second elastic contact defined Within the group and corresponding to the third high-frequency signal contact A third high-frequency shielding contact portion between the pair; a high-frequency auxiliary signal contact pair defined in the second elastic contact portion group and correspondingly disposed on both sides of the high-frequency auxiliary shielding contact portion; and one defined in the second A network signal transmission contact within the elastic contact part group and correspondingly disposed between the network signal control contact part and the first low-frequency signal contact part; one defined in the second elastic contact part group and correspondingly disposed in the A second low-frequency signal contact portion between the first low-frequency signal contact portion and the ground contact portion; one defined in the second elastic contact portion group and correspondingly disposed on the ground contact portion and the hot-plug detection contact portion Power contacts. The structure of the HDMI male connector according to item 7 of the scope of patent application, further comprising an insulating gel covering the first base group and the second base group, and the first pin group The second pin portion group, the first elastic contact portion group, and the second elastic contact portion group are exposed outside the insulating rubber body. The structure of the HDMI male connector described in item 7 of the scope of the patent application, which further includes an insulating gel for setting the upper-row transmission conductor set and the lower-row transmission conductor set, and an insulating gel provided on the insulating gel. Shielded housing. According to the structure of the HDMI male connector described in item 1 of the scope of patent application, wherein the first pin portion group and the second pin portion group are both in the form of Surface Mount Technology (SMT) or dual One of the forms of Dual In-line Package (DIP).