TW202005200A - USB A type male connector having a second ground left contact portion and a second ground right contact portion, both of which are respectively connected to the shield casing - Google Patents

Abstract

The invention relates to a USB A type male connector. The main structure includes a first ground transmission conductor, a first high-frequency transmission conductor pair, a first low-frequency transmission conductor, a second low-frequency transmission conductor, a second high-frequency transmission conductor pair, a power supply transmission conductor, a second ground transmission conductor, a second ground left extension base, a second ground right extension base, and a ground common pin portion. The main feature is that the second ground transmission conductor includes a second ground left contact portion and a second ground right contact portion, both of which are respectively connected to the shield casing. Thus, when the present invention is electrically connected and forms a conduction condition, the second ground left contact portion and the second ground right contact portion can improve the advantage of anti-noise interference because of being connected to the shield casing so that the noise can be guided to the shield casing so as to form a complete grounding function.

Description

USB A male connector

The present invention is to provide a connector, especially a USB A male connector capable of improving anti-noise interference technology.

According to the press, the current universal USB includes Type A type, which includes a shield shell, a tongue plate accommodated in the shield shell and matched with the docking connector, and an insulating gel covering the tongue plate. It is assembled into a USB connector. However, the current Type A USB connector is usually very serious in noise interference. In short, when the high-frequency terminal is actuated, some noise will inevitably occur. If there is noise between the terminal and the terminal When this block is not perfect, it will cause interference with each other, also commonly known as high-frequency noise interference, which makes high-frequency unable to achieve the purpose of optimization, and will also cause interference caused by electromagnetic wave radiation to the resonance of radio frequency. Therefore, how to solve the problems and deficiencies caused by the above-mentioned interference is the direction that the inventors of the present invention and related manufacturers engaged in this industry are eager to study and improve.

Therefore, in view of the above-mentioned deficiencies, the inventor of the present invention has collected relevant data, evaluated and considered through multiple parties, and based on years of experience accumulated in this industry, through continuous trial work and modification, he designed this kind of improved anti-noise Patent inventor of the USB A male connector of interference technology.

The main purpose of the present invention is to improve the advantages of anti-noise interference through the second ground left contact part and the second ground right contact part due to the connection with the shield shell, so that the noise can be guided to the shield shell, Form a complete grounding function.

The main structure of the present invention that can achieve the above object includes a first ground transmission conductor. A first ground contact portion and a first ground pin portion are defined at both ends of the first ground transmission conductor; a first high-frequency transmission conductor pair , A first high-frequency transmission conductor contact pair is defined at one end, and the first high-frequency transmission conductor contact pair is located behind the first ground contact; a first low-frequency transmission conductor is at one end A first low-frequency transmission conductor contact is defined, and the first low-frequency transmission conductor contact is arranged in parallel with the first ground contact; a second low-frequency transmission conductor defines a second low-frequency transmission conductor contact at one end And the second low-frequency transmission conductor contact portion is arranged in parallel with the first low-frequency transmission conductor contact portion; a second high-frequency transmission conductor pair defines a second high-frequency transmission conductor contact portion pair at one end, and the The second high-frequency transmission conductor contact portion pair is arranged in parallel with the first high-frequency transmission conductor contact portion pair; a power transmission conductor defines a power contact portion at one end and a power pin portion at the other end, and the The power contact portion is arranged in parallel with the second low-frequency transmission conductor contact portion and is located in front of the second high-frequency transmission conductor contact portion pair; a second ground transmission conductor includes a contact located on the first low-frequency transmission conductor A second ground intermediate contact portion between the contact portion and the second low-frequency transmission conductor contact portion, a side connected to the second ground intermediate contact portion and located on the side of the first ground contact portion facing away from the first low-frequency transmission conductor contact portion A second grounded left contact portion, and a second grounded right contact portion connected to the second grounded middle contact portion and located on the side of the power contact portion facing away from the second low-frequency transmission conductor contact portion; one is provided at the first height A second grounded left extension base between the pair of high-frequency transmission conductors and the first low-frequency transmission conductor and electrically connected to the second grounded transmission conductor; a second high-frequency transmission conductor pair and the second low-frequency transmission conductor A second grounded right extended base between and electrically connected to the second grounded transmission conductor; a ground shared pin portion is connected to one end of the second grounded left extended base and the second grounded right extended base . When the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, the second low-frequency transmission conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second ground left When the extension base, the second ground right extension base and the ground common pin are electrically connected, except the first ground transmission conductor, the first high frequency transmission conductor pair, the first low frequency transmission conductor, the second low frequency transmission conductor, the second high The frequency transmission conductor pair and the power transmission conductor perform power and signal transmission. In addition, the second ground left contact part and the second ground right contact part of the second ground transmission conductor are connected to the shielding case during operation. The high-frequency interference generated by the one pair of high-frequency transmission conductors and the second pair of high-frequency transmission conductors can be suppressed by the second ground left contact part and the second ground right contact part on one side, so that noise can be conducted to the shielding case In the above, the use of more complete grounding to produce better anti-noise interference advantages.

Through the above technology, the high frequency existing in the conventional Type A USB connector cannot be optimized, and it can also cause breakthroughs in the problem of interference caused by electromagnetic wave radiation to the radio frequency resonance, and achieve the utility of the present invention as the above advantages Progressive.

1. 1a, 1b, 1c ‧‧‧ first ground transmission conductor

11‧‧‧First ground contact

12, 12b‧‧‧First ground pin

2. 2b‧‧‧First high frequency transmission conductor pair

21‧‧‧ Pair of the first high-frequency transmission conductor contact

22b‧‧‧Pair of the first high-frequency transmission conductor

3. 3b‧‧‧First low frequency transmission conductor

31‧‧‧First low-frequency transmission conductor contact

32b‧‧‧Lead part of the first low-frequency transmission conductor

4. 4b‧‧‧second low frequency transmission conductor

41‧‧‧The second low-frequency transmission conductor contact

42b‧‧‧Lead part of the second low-frequency transmission conductor

5. 5b‧‧‧‧High-frequency transmission conductor pair

51‧‧‧ Pair of second high-frequency transmission conductor contact

52b‧‧‧Pair of second high frequency transmission conductor

6, 6a, 6b, 6c ‧‧‧ power transmission conductor

61‧‧‧Power Contact

62、62b‧‧‧Power supply pin

7, 7a, 7c ‧‧‧ second ground transmission conductor

71‧‧‧Second Ground Intermediate Contact

72‧‧‧Second grounding left contact

73‧‧‧Second Ground Right Contact

74, 74a, 74b‧‧‧Second ground left extension base

741b‧‧‧Second ground left extension pin

75, 75a, 75b‧‧‧Second grounded right extended base

751b‧‧‧Second Ground Right Extension Pin

8‧‧‧ Ground common pin

9, 9a, 9b, 9c ‧‧‧ insulating colloid

91, 91a, 91b, 91c ‧‧‧ shielding shell

A‧‧‧High frequency electromagnetic noise

The first figure is a schematic diagram of a transmission conductor according to a preferred embodiment of the present invention.

The second figure is a schematic diagram of noise masking according to a preferred embodiment of the present invention.

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

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

The fifth figure is a schematic diagram of noise guidance in a preferred embodiment of the present invention.

The sixth figure is a schematic diagram of the transmission conductor according to the first preferred embodiment of the present invention.

The seventh figure is a schematic diagram of noise masking according to the first preferred embodiment of the present invention.

Figure 8 is an exploded perspective view of the first preferred embodiment of the present invention.

The ninth figure is a schematic diagram of a transmission conductor according to the second preferred embodiment of the present invention.

Figure 10 is a schematic diagram of noise masking according to the second preferred embodiment of the present invention.

Figure 11 is an exploded perspective view of the second preferred embodiment of the present invention.

Figure 12 is a schematic diagram of a transmission conductor according to a third preferred embodiment of the present invention.

Figure 13 is a schematic diagram of noise masking according to the third preferred embodiment of the present invention.

Figure 14 is an exploded perspective view of the third preferred embodiment of the present invention.

In order to achieve the above objectives and effects, the technical means and structure adopted by the present invention, the drawings and details of the preferred embodiments of the present invention are described in detail below. Their features and functions are as follows, so that they fully understand.

Please refer to the first figure, which is a schematic diagram of a transmission conductor according to a preferred embodiment of the present invention. It can be clearly seen from the figure that the present invention includes: a first ground transmission conductor 1, which defines a first ground at one end The contact portion 11 defines a first ground pin portion 12 at the other end; a first high frequency transmission conductor pair 2 defines a first high frequency transmission conductor contact portion pair 21 at one end, and the first high frequency A pair of transmission conductor contact portions 21 is located behind the first ground contact portion 11; a first low-frequency transmission conductor 3 defines a first low-frequency transmission conductor contact portion 31 at one end, and the first low-frequency transmission conductor contact portion 31 is arranged in parallel with the first ground contact portion 11; a second low-frequency transmission conductor 4 defines a second low-frequency transmission conductor contact portion 41 at one end, and the second low-frequency transmission conductor contact portion 41 is in contact with the first A low-frequency transmission conductor contact portion 31 is arranged in parallel; a second high-frequency transmission conductor pair 5 defines a second high-frequency transmission conductor contact portion pair 51 at one end, and the second high-frequency transmission conductor contact portion pair 51 is Parallel to the first high-frequency transmission conductor contact portion pair 21; a power transmission conductor 6 defines a power contact portion 61 at one end and a power pin portion 62 at the other end, and the power contact portion 61 is The second low-frequency transmission conductor contact portions 41 are arranged in parallel and are located in front of the second high-frequency transmission conductor contact portion pair 51; a second ground transmission conductor 7 includes a first low-frequency transmission conductor contact portion 31 A second ground intermediate contact 71 between the second low-frequency transmission conductor contact 41, a second ground intermediate contact 71 connected to the first ground contact 11 away from the first low-frequency transmission conductor contact 31, a second ground left contact 72 on one side, and a second ground right contact connected to the second ground middle contact 71 and located on the side of the power contact 61 away from the second low frequency transmission conductor contact 41 73; a second grounded left extending base 74 provided between the first pair of high-frequency transmission conductors 2 and the first low-frequency transmission conductor 3 and electrically connected to the second grounded transmission conductor 7; one provided on the first The second grounding right extending base 75 between the two high-frequency transmission conductor pairs 5 and the second low-frequency transmission conductor 4 and electrically connected to the second grounding transmission conductor 7; and a grounding common pin portion 8, which is connected to the The second grounded left extension base 74 and the second grounded right extension base 75 are connected to each other at one end.

Please refer to the first figure and the second figure at the same time, which is a schematic diagram of a transmission conductor and a noise shielding diagram of a preferred embodiment of the present invention. It can be clearly seen from the figure that when the first grounded transmission conductor 1, the first High frequency transmission conductor pair 2, first low frequency transmission conductor 3, second low frequency transmission conductor 4, second high frequency transmission conductor pair 5, power transmission conductor 6, second ground transmission conductor 7, second ground left extension base 74, When the right extension base 75 of the second ground is docked with a counterpart connector, electrical conduction and operation will occur, and the first high-frequency transmission conductor pair 2 and the second high-frequency transmission conductor pair 5 will generate high-frequency electromagnetic waves Noise A, and then interfere with the first low-frequency transmission conductor 3 and the second low-frequency transmission conductor 4 around the noise, however, because the first high-frequency transmission conductor pair 2 is provided with a first ground transmission conductor 1 and The second grounding extends the base 74 on the left side to form a surrounding state, so that the high-frequency electromagnetic noise A can be isolated to reduce the interference to the first low-frequency transmission conductor 3. Similarly, the second high-frequency transmission conductor pair 5 is provided on both sides The power transmission conductor 6 and the second grounding right extend the base 75 to form a surrounding state, so that the high-frequency electromagnetic wave noise A can be isolated to reduce the interference to the second low-frequency transmission conductor 4 (as shown in the second figure).

Please refer to the first figure, the third figure to the fifth figure, which are schematic diagrams of transmission conductors, stereo diagrams to noise guidance diagrams according to preferred embodiments of the present invention. Ground transmission conductor 1, the first high-frequency transmission conductor pair 2, the first low-frequency transmission conductor 3, the second low-frequency transmission conductor 4, the second high-frequency transmission conductor pair 5, the power transmission conductor 6, the second The ground transmission conductor 7, the second grounded left extension base 74, and the second grounded right extension base 75 are collectively housed in an insulating colloid 9, and the insulating colloid 9 is also accommodated in a shielding shell 91, and the second The ground left contact portion 72 and the second ground right contact portion 73 are in contact with both inner side walls of the shield case 91, thus forming a ground loop. In addition, the first high-frequency transmission conductor pair 2 is provided on the first ground transmission conductor 1 side, the first low-frequency transmission conductor 3 is provided on the first high-frequency transmission conductor pair 2 side, and the second low-frequency transmission conductor 4 is provided on the first A low-frequency transmission conductor 3 side, a second high-frequency transmission conductor pair 5 is provided on the second low-frequency transmission conductor 4 side, a power transmission conductor 6 is provided on the second high-frequency transmission conductor pair 5 side, and a first ground lead A power pin portion 62 is provided on one side of the leg portion 12, and a ground common pin portion 8 is provided between the first ground pin portion 12 and the power pin portion 62, thereby serving as the first high-frequency transmission conductor When the high-frequency electromagnetic noise A is generated for the pair 2 and the second high-frequency transmission conductor pair 5, the second ground left contact 72 and the second ground right contact 73 interfere with the two inner side walls of the shield case 91, so that The second grounded left extension base 74 and the second grounded right extension base 75 achieve a better and more complete grounding effect, which has the advantage of better anti-noise interference.

Please refer to the sixth to eighth figures, which are schematic diagrams of the transmission conductor of the first preferred embodiment of the present invention to a three-dimensional exploded view. It can be clearly seen from the figure that the difference between this embodiment and the above-mentioned embodiments is the cancellation The ground shared pin portion is used to show that the present invention has the advantages of variety and diversification, and it can also pass through the first ground transmission conductor 1a, the power transmission conductor 6a, the second ground transmission conductor 7a, and the second ground left The extended base 74a and the second grounded right extended base 75a achieve the excellent anti-interference effect of high-frequency electromagnetic wave noise A. In addition, while the ground shared pin portion is eliminated, it can still be combined with the insulating colloid 9a, and The insulating colloid 9a can also be accommodated in the shielding shell 91a to form a ground loop, and the rest are the same as the previous embodiment, so they will not be described again.

Please refer to the ninth to eleventh figures, which are schematic diagrams of the second preferred embodiment of the present invention to a perspective exploded view. It can be clearly seen from the figure that the first grounded transmission conductor 1b is defined at one end There is a first ground pin portion 12b, a first high-frequency transmission conductor pair 2b on one end of the first high-frequency transmission conductor pair 2b defines a first high-frequency transmission conductor pin portion pair 22b, and the second ground A left ground extension portion 741b is defined at one end of the first high-frequency transmission conductor pin portion pair 22b at one end of the left extension base portion 74b, and a second ground connection is defined at one end of the first low-frequency transmission conductor 3b The first low-frequency transmission conductor pin portion 32b on the left extension pin portion 741b side, and a second low-frequency transmission conductor lead located on the first low-frequency transmission conductor pin portion 32b side is defined at one end of the second low-frequency transmission conductor 4b The leg portion 42b defines a second grounding right extending pin portion 751b on one side of the second low-frequency transmission conductor pin portion 42b at one end of the second grounding right extending base portion 75b, and one end of the second high-frequency transmission conductor pair 5b A second high-frequency transmission conductor pin portion pair 52b located on the side of the second grounded right-side extended pin portion 751b is defined at one end, and one end of the power transmission conductor 6b is defined at the second high-frequency transmission conductor pin portion pair The power pin portion 62b on the 52b side. It can be seen that the difference between this embodiment and the above two embodiments is that the first ground pin portion 12b and the power pin portion 62b change the original volume, and the ground common pin portion is eliminated to borrow the first ground pin Portion 12b, first high-frequency transmission conductor pin portion pair 22b, second grounded left extension pin portion 741b, first low-frequency transmission conductor pin portion 32b, second low-frequency transmission conductor pin portion 42b, second grounded right extension The pin portion 751b, the second high-frequency transmission conductor pin portion pair 52b, and the power pin portion 62b are connected to the circuit board to form a surface mount (SMT), to show that the present invention has the advantage of versatility, and It can also achieve the excellent anti-interference effect of high-frequency electromagnetic wave noise A. In addition, it can still be combined with the insulating colloid 9b, and the insulating colloid 9b can still be contained in the shielding shell 91b to form a ground loop to achieve better resistance. The advantage of interference.

Please refer to the twelfth to fourteenth figures, which are schematic diagrams of the transmission conductor of the third preferred embodiment of the present invention to a three-dimensional exploded view. It can be clearly seen from the figure that the structure is roughly the same as the previous embodiment The difference is that the left ground extension base of the second ground and the right ground extension base of the second ground are eliminated, to show that the present invention has the advantages of diversification and diversification, and can also be transmitted through the first ground transmission conductor 1c, the power transmission The conductor 6c and the second ground transmission conductor 7c achieve excellent anti-interference effect of high-frequency electromagnetic noise A. In addition, it can still be combined with the insulating colloid 9c, and the insulating colloid 9c can still be contained in the shielding shell 91c A ground loop is formed to achieve the advantage of better anti-interference. The rest is the same as the previous embodiment, so it will not be repeated here.

Therefore, the key to improving the conventional technology of the USB A male connector of the present invention is:

1. The first high-frequency transmission conductor pair 2 is surrounded by the first ground transmission conductor 1 and the second ground left extension base 74, and the second high frequency is transmitted by the power transmission conductor 6 and the second ground right extension base 75 The transmission conductor pair 5 is surrounded so that the high-frequency electromagnetic wave noise A can be isolated to reduce the interference to the first low-frequency transmission conductor 3 and the second low-frequency transmission conductor 4.

2. The second grounded left contact 72 and the second grounded right contact 73 can be connected to the shield shell 91 to improve the advantages of anti-noise interference, so that high-frequency electromagnetic wave noise A can be guided to the shield shell 91 To form a complete grounding function.

However, the above is only the preferred embodiment of the present invention, and it does not limit the patent scope of the present invention. Therefore, all the simple modifications and equivalent structural changes caused by 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 conjoined with Chen Ming.

In summary, when the USB A male connector of the present invention is in use, in order to indeed achieve its efficacy and purpose, the present invention is an invention with excellent practicability. It is submitted in accordance with the law in order to meet the application requirements of the invention patent. Application, I hope the review committee will grant the invention as soon as possible to protect the inventor's hard invention. If there is any doubt in the review committee of the Jun Bureau, please send me a letter and give instructions. The inventor will try his best to cooperate and feel comfortable.

1‧‧‧The first ground transmission conductor

11‧‧‧First ground contact

12‧‧‧First ground pin

2‧‧‧First high frequency transmission conductor pair

21‧‧‧ Pair of the first high-frequency transmission conductor contact

3‧‧‧First low frequency transmission conductor

31‧‧‧First low-frequency transmission conductor contact

4‧‧‧second low frequency transmission conductor

41‧‧‧The second low-frequency transmission conductor contact

5‧‧‧The second high frequency transmission conductor pair

51‧‧‧ Pair of second high-frequency transmission conductor contact

6‧‧‧Power transmission conductor

61‧‧‧Power Contact

62‧‧‧Power supply pin

7‧‧‧Second ground transmission conductor

71‧‧‧Second Ground Intermediate Contact

72‧‧‧Second grounding left contact

73‧‧‧Second Ground Right Contact

74‧‧‧Second grounding left extension base

75‧‧‧Second grounding right extended base

8‧‧‧ Ground common pin

Claims (12)

A USB A male connector mainly includes: a first ground transmission conductor, a first ground contact portion is defined at one end, a first ground pin portion is defined at the other end; a first high-frequency transmission conductor pair , A first high-frequency transmission conductor contact pair is defined at one end, and the first high-frequency transmission conductor contact pair is located behind the first ground contact; a first low-frequency transmission conductor is at one end A first low-frequency transmission conductor contact is defined, and the first low-frequency transmission conductor contact is arranged in parallel with the first ground contact; a second low-frequency transmission conductor defines a second low-frequency transmission conductor contact at one end And the second low-frequency transmission conductor contact portion is arranged in parallel with the first low-frequency transmission conductor contact portion; a second high-frequency transmission conductor pair defines a second high-frequency transmission conductor contact portion pair at one end, and the The second high-frequency transmission conductor contact portion pair is arranged in parallel with the first high-frequency transmission conductor contact portion pair; a power transmission conductor defines a power contact portion at one end and a power pin portion at the other end, and the The power contact portion is arranged in parallel with the second low-frequency transmission conductor contact portion and is located in front of the second high-frequency transmission conductor contact portion pair; a second ground transmission conductor includes a contact located on the first low-frequency transmission conductor A second ground intermediate contact portion between the contact portion and the second low-frequency transmission conductor contact portion, a side connected to the second ground intermediate contact portion and located on the side of the first ground contact portion facing away from the first low-frequency transmission conductor contact portion A second grounded left contact portion, and a second grounded right contact portion connected to the second grounded middle contact portion and located on the side of the power contact portion facing away from the second low-frequency transmission conductor contact portion; one is provided at the first height A second grounded left extension base between the pair of high-frequency transmission conductors and the first low-frequency transmission conductor and electrically connected to the second grounded transmission conductor; a second high-frequency transmission conductor pair and the second low-frequency transmission conductor And a second grounded right extended base between and electrically connected to the second grounded transmission conductor; and a ground shared pin portion, which is mutually connected to one end of the second grounded left extended base and the second grounded right extended base connection. The USB A male connector according to claim 1, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second ground extension base of the left side, and the second ground extension base of the insulating gel, and the insulating gel is contained in In a shielding shell, the second grounding left contact portion and the second grounding right contact portion interfere with the shielding casing to form a ground loop. The USB A male connector according to claim 1, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second ground extension base of the left side, and the second ground right extension base of the insulating colloid, and the first high-frequency transmission The conductor pair is provided on the side of the first ground transmission conductor, the first low-frequency transmission conductor is provided on the side of the first high-frequency transmission conductor pair, and the second low-frequency transmission conductor is provided on the side of the first low-frequency transmission conductor, The second high-frequency transmission conductor pair is provided on one side of the second low-frequency transmission conductor, the power transmission conductor is provided on one side of the second high-frequency transmission conductor pair, and the power supply is provided on the side of the first ground pin portion The pin part, and the ground common pin part is provided between the first ground pin part and the power pin part. A USB A male connector mainly includes: a first ground transmission conductor, a first ground contact portion is defined at one end, a first ground pin portion is defined at the other end; a first high-frequency transmission conductor pair , A first high-frequency transmission conductor contact pair is defined at one end, and the high-frequency transmission conductor contact pair is located behind the first ground contact; a first low-frequency transmission conductor is defined at one end A first low-frequency transmission conductor contact, and the first low-frequency transmission conductor contact is arranged in parallel with the first ground contact; a second low-frequency transmission conductor defines a second low-frequency transmission conductor contact at one end, and The second low-frequency transmission conductor contact portion is arranged in parallel with the first low-frequency transmission conductor contact portion; a second high-frequency transmission conductor pair defines a second high-frequency transmission conductor contact portion pair at one end, and the second A pair of high-frequency transmission conductor contact portions is arranged in parallel with the first pair of high-frequency transmission conductor contact portions; a power transmission conductor defines a power contact portion at one end and a power pin portion at the other end, and the power contact The portion is arranged in parallel with the second low-frequency transmission conductor contact portion and is located in front of the second high-frequency transmission conductor contact portion; a second ground transmission conductor includes a first low-frequency transmission conductor contact portion and A second ground intermediate contact between the second low-frequency transmission conductor contacts, a second connected to the second ground intermediate contact and located on the side of the first ground contact away from the first low-frequency transmission conductor contact A grounded left contact portion, and a second grounded right contact portion connected to the second grounded middle contact portion and located on the side of the power contact portion facing away from the second low-frequency transmission conductor contact portion; one provided on the first high-frequency transmission A second ground left extension base between the pair of conductors and the first low-frequency transmission conductor and electrically connected to the second ground transmission conductor; one disposed between the second high-frequency transmission conductor pair and the second low-frequency transmission conductor And the right-side extension base of the second ground electrically connected to the second ground transmission conductor. The USB A male connector according to claim 4, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second grounded left extension base, and the second grounded right extension base insulating gel, and the insulating gel is contained in In a shielding shell, the second grounding left contact portion and the second grounding right contact portion interfere with the shielding casing to form a ground loop. The USB A male connector according to claim 4, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second ground extension base of the left side, and the second ground right extension base of the insulating colloid, and the first high-frequency transmission The conductor pair is provided on the side of the first ground transmission conductor, the first low-frequency transmission conductor is provided on the side of the first high-frequency transmission conductor pair, and the second low-frequency transmission conductor is provided on the side of the first low-frequency transmission conductor, The second high-frequency transmission conductor pair is provided on one side of the second low-frequency transmission conductor, the power transmission conductor is provided on one side of the second high-frequency transmission conductor pair, and the power supply is provided on the side of the first ground pin portion Pin part. A USB A male connector mainly includes: a first ground transmission conductor, which defines a first ground contact at one end; a first high-frequency transmission conductor pair, which defines a first high-frequency transmission at one end A pair of conductor contacts, and the pair of high-frequency transmission conductor contacts is located behind the first ground contact; a first low-frequency transmission conductor defines a first low-frequency transmission conductor contact at one end, and the first The low-frequency transmission conductor contact is arranged in parallel with the first ground contact; a second low-frequency transmission conductor defines a second low-frequency transmission conductor contact at one end, and the second low-frequency transmission conductor contact is in contact with the first A low-frequency transmission conductor contact portion is arranged in parallel; a second high-frequency transmission conductor pair defines a second high-frequency transmission conductor contact portion pair at one end, and the second high-frequency transmission conductor contact portion pair is the first A pair of high-frequency transmission conductor contact portions are arranged in parallel; a power transmission conductor is defined with a power contact portion at one end, and the power contact portion is arranged in parallel with the second low-frequency transmission conductor contact portion and is located at the second high frequency The transmission conductor contact is at the front; a second ground transmission conductor includes a second ground intermediate contact between the first low-frequency transmission conductor contact and the second low-frequency transmission conductor contact, and a A second grounded middle contact portion is connected and is located on a side of the first grounded contact portion facing away from the first low-frequency transmission conductor contact portion, and a second grounded left contact portion connected to the second grounded middle contact portion and located on the power contact A second grounded right-side contact portion on a side away from the contact portion of the second low-frequency transmission conductor; one disposed between the first high-frequency transmission conductor pair and the first low-frequency transmission conductor and electrically connected to the second grounded transmission conductor A connected second grounded left extending base; a second grounded right extended base provided between the second pair of high-frequency transmission conductors and the second low-frequency transmission conductor and electrically connected to the second grounded transmission conductor. The USB A male connector according to claim 7, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second grounded left extension base, and the second grounded right extension base insulating gel, and the insulating gel is contained in In a shielding shell, the second grounding left contact portion and the second grounding right contact portion are in contact with the shielding casing to form a ground loop. The USB A male connector according to claim 7, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission The conductor, the second high-frequency transmission conductor pair, the power transmission conductor, the second ground transmission conductor, the second ground extension base of the left side, and the second ground right extension base of the insulating colloid, and the first high-frequency transmission The conductor pair is provided on the side of the first ground transmission conductor, the first low-frequency transmission conductor is provided on the side of the first high-frequency transmission conductor pair, and the second low-frequency transmission conductor is provided on the side of the first low-frequency transmission conductor, The second high-frequency transmission conductor pair is provided on one side of the second low-frequency transmission conductor, the power transmission conductor is provided on one side of the second high-frequency transmission conductor pair, and a first ground is defined at one end of the first ground transmission conductor A pin portion, a first high-frequency transmission conductor pair is defined at one end of the first high-frequency transmission conductor pair, and a second-ground left extension base is defined at one end at a side The first high-frequency transmission conductor pin portion is on the side of the second ground left extension pin portion, and one end of the first low-frequency transmission conductor defines a first low-frequency transmission on the side of the second ground left extension pin portion The conductor pin portion, one end of the second low-frequency transmission conductor defines a second low-frequency transmission conductor pin portion on one side of the first low-frequency transmission conductor pin portion, and one end of the second grounded right extending base portion defines a A second grounded right extended pin portion on the side of the second low frequency transmission conductor pin portion, one end of the second high frequency transmission conductor defines a second high frequency transmission located on the side of the second grounded right extended pin portion A pair of conductor pin portions, one end of the power transmission conductor defines a power pin portion on one side of the pair of second high-frequency transmission conductor pin portions. A USB A male connector mainly includes: a first ground transmission conductor, which defines a first ground contact at one end; a first high-frequency transmission conductor pair, which defines a first high-frequency transmission at one end A pair of conductor contacts, and the pair of high-frequency transmission conductor contacts is located behind the first ground contact; a first low-frequency transmission conductor defines a first low-frequency transmission conductor contact at one end, and the first The low-frequency transmission conductor contact is arranged in parallel with the first ground contact; a second low-frequency transmission conductor defines a second low-frequency transmission conductor contact at one end, and the second low-frequency transmission conductor contact is in contact with the first A low-frequency transmission conductor contact portion is arranged in parallel; a second high-frequency transmission conductor pair defines a second high-frequency transmission conductor contact portion pair at one end, and the second high-frequency transmission conductor contact portion pair is the first A pair of high-frequency transmission conductor contact portions are arranged in parallel; a power transmission conductor is defined with a power contact portion at one end, and the power contact portion is arranged in parallel with the second low-frequency transmission conductor contact portion and is located at the second high frequency The transmission conductor contact is at the front; a second ground transmission conductor includes a second ground intermediate contact between the first low-frequency transmission conductor contact and the second low-frequency transmission conductor contact, and a The second grounding middle contact is connected and is located on the side of the first grounding contact that faces away from the first low-frequency transmission conductor contact, and a second grounding left contact that is connected to the second grounding middle contact and located on the power contact The second grounded right side contact portion on the side facing away from the second low frequency transmission conductor contact portion. The USB A male connector according to claim 10, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission A conductor, the second pair of high-frequency transmission conductors, the power transmission conductor, and the insulating colloid of the second ground transmission conductor, and the insulating colloid is contained in a shielding case, and the second left side contact portion of the second ground and the first The second grounded right contact part is in contact with the shielding shell to form a ground loop. The USB A male connector according to claim 10, further comprising at least one for accommodating the first ground transmission conductor, the first high-frequency transmission conductor pair, the first low-frequency transmission conductor, and the second low-frequency transmission A conductor, the second high-frequency transmission conductor pair, the power transmission conductor, and the insulating colloid of the second ground transmission conductor, and the first high-frequency transmission conductor pair is provided on the side of the first ground transmission conductor, the first A low frequency transmission conductor is provided on one side of the first high frequency transmission conductor pair, the second low frequency transmission conductor is provided on the first low frequency transmission conductor side, and the second high frequency transmission conductor is provided on the second low frequency transmission conductor On one side, the power transmission conductor is disposed on the side of the second high-frequency transmission conductor pair, and the first ground transmission conductor defines a first ground pin portion at one end, and the first high-frequency transmission conductor defines one end at one end A pair of first high-frequency transmission conductor pin portions located on one side of the first ground pin portion, an end of the first low-frequency transmission conductor defines a first low frequency located on the opposite side of the first high-frequency transmission conductor pin portions A pin portion of the transmission conductor, a second low-frequency transmission conductor pin portion on one side of the first low-frequency transmission conductor pin portion is defined at one end of the second low-frequency transmission conductor, and a second end of the second high-frequency transmission conductor is defined at one end A pair of second high-frequency transmission conductor pin portions located on one side of the second low-frequency transmission conductor pin portion, a power pin located on the opposite side of the second high-frequency transmission conductor pin portion is defined at one end of the power transmission conductor unit.

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