TWM457330U - USB connector structure for high-speed transmission - Google Patents

Description

High-speed transmission USB connector structure

The present invention provides a USB connector structure for high-speed transmission, and more particularly to a USB connector structure for high-speed transmission of high-speed transmission.

According to the connector, the connector is widely used, including the connector of USB and the like, and the USB3.0 connector is continuously improved and improved, and at the same time increases its transmission speed.

The terminal structure of the USB on the market is changed on the casing when the interference is isolated. Through complex calculations and repeated tests, the result is changed on the casing, thereby achieving the purpose of improving interference.

However, when the above-mentioned USB isolation interference technique is used, the following problems and defects are still needed to be improved:

1. Through complex calculations and tests, the results should be applied to the change of the casing, or an additional anti-interference structure can be added, resulting in cost increases.

Second, due to the processing of the shell and the addition of anti-interference structure, it is difficult to manufacture during assembly and manufacture.

3. If the above-mentioned improvement actions are not carried out, or the improvement actions are not perfected, the anti-interference effect will be lost, resulting in a low transmission speed.

Therefore, how to solve the above problems and deficiencies in the past, that is, the applicants of the new type and the relevant manufacturers engaged in this industry are eager to study the direction of improvement.

Therefore, in view of the above-mentioned deficiencies, the applicants of this new type have collected relevant information, and through multi-party evaluation and consideration, and through years of experience in the industry, through continuous trial and modification, high-speed transmission of such high-speed transmission has been designed. A new patent for the structure of the USB connector.

The main purpose of the present invention is to reduce the interference of the outside world through the power coupling portion formed on the power transmission conductor and the second ground coupling portion formed on the second ground transmission conductor, thereby achieving the purpose of high-speed data transmission. The technology can break through the problems such as cost increase, production difficulty and poor transmission speed due to the additional processing of the USB anti-interference, and achieve the practical progress of high-speed transmission.

For the purpose of the above, the high-speed transmission USB connector structure mainly comprises an insulating colloid, a shielding shell combined with the insulating colloid, and a transmission terminal group disposed on the insulating colloid, the transmission terminal The group includes a first differential signal transmission conductor group, a second differential signal transmission conductor group, a first ground transmission conductor, a power transmission conductor, a first signal transmission conductor, a second signal transmission conductor and a second ground. a transmission conductor, wherein the power transmission conductor forms a power coupling portion, and the second ground transmission conductor forms a second ground coupling portion, and the power coupling portion surrounds the first differential signal transmission conductor group, and the second ground The coupling portion surrounds the second differential signal transmission conductor group.

Through the above structure, during the transmission operation, the power coupling portion and the second ground coupling portion will effectively reduce external radio interference, and the external transmission interference is reduced, which can effectively improve the transmission speed and achieve a higher transmission speed. To achieve practical progress in high-speed transmission.

1‧‧‧Transmission terminal set

11‧‧‧First differential signal transmission conductor set

111‧‧‧First differential signal contact group

112‧‧‧First differential signal welding group

12‧‧‧Second differential signal transmission conductor set

121‧‧‧Second differential signal contact group

122‧‧‧Second differential signal welding group

13‧‧‧First ground transmission conductor

131‧‧‧First ground contact

132‧‧‧First grounding weld

14‧‧‧First signal transmission conductor

141‧‧‧First Signal Contact

142‧‧‧First Signal Welding Department

15‧‧‧Power transmission conductor

151‧‧‧Power Contact

152‧‧‧Power Welding Department

153‧‧‧Power base

154‧‧‧Power Coupling Department

16‧‧‧Second signal transmission conductor

161‧‧‧Second Signal Contact

162‧‧‧Second Signal Welding Department

17‧‧‧Second ground transmission conductor

171‧‧‧Second differential signal transmission conductor set

172‧‧‧Second ground contact

173‧‧‧Second grounding base

174‧‧‧Second grounding coupling

2‧‧‧Insulating colloid

3‧‧‧Shield housing

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

The second drawing is an exploded view (I) of the preferred embodiment of the present invention.

The third figure is an exploded view (2) of the preferred embodiment of the present invention.

The fourth figure is a perspective view of a transmission terminal set of the preferred embodiment of the present invention.

Figure 5 is a side elevational view of the transmission terminal set of the preferred embodiment of the present invention.

Figure 6 is a schematic view (1) of a transmission terminal set of the preferred embodiment of the present invention.

Figure 7 is a schematic view (2) of the transmission terminal set of the preferred embodiment of the present invention.

In order to achieve the above objects and effects, the technical means and structure adopted by the present invention are described in detail in the preferred embodiment of the present invention, and the features and functions thereof are as follows.

Please refer to the first, second, third, fourth, fifth, sixth, and seventh figures, which are perspective views, exploded views (1), and decompositions of the preferred embodiment of the present invention. Figure (2), perspective view of transmission terminal group, side view of transmission terminal group, schematic diagram of transmission terminal group (1), schematic diagram of transmission terminal group (2), it can be clearly seen from the figure that the novel system includes: an insulating colloid 2; a shielding case 3 combined with the insulating colloid 2; and a transmission terminal group 1 comprising: a first differential signal transmission conductor group 11 at one end of the first differential signal transmission conductor group 11 Forming a flat first differential signal contact portion 111, forming a first differential signal soldering portion 112 at the other end, and a second differential signal transmitting conductor at a side of the first differential signal transmitting conductor group 11 In the group 12, the second differential signal transmission conductor group 12 is formed with a second differential signal contact portion 121 in a flat shape at one end, and a second differential signal welding portion group 122 is formed at the other end; a first ground transmission conductor 13 between the signal transmission conductor group 11 and the second differential signal transmission conductor group 12, the first ground transmission conductor 13 is formed with a flat first ground contact portion 131 at one end, and the other end Forming a first grounding soldering portion 132; a first signal transmission conductor 14 between the first differential signal transmission conductor group 11 and the first grounding transmission conductor 13, and forming a first signal transmission conductor 14 at one end a first signal contact portion 141 having a resiliently curved shape, and a first signal soldering portion 142 formed at the other end; and a power transmission at a side of the first differential signal transmission conductor 11 facing away from the first signal transmission conductor 14 The power supply transmission conductor 15 includes a power supply base 153. The power supply base 153 forms a resiliently curved power contact portion 151 at one end and a power supply soldering portion 152 at the other end. The power supply base 153 extends to form a power coupling portion 154 that surrounds the first differential signal transmission conductor group 11 and spans the first differential signal contact portion 111 to be soldered to the power supply. The portion 152 is coupled to the second signal transmission conductor 16 between the second differential signal transmission conductor group 12 and the first ground transmission conductor 13. The second signal transmission conductor 16 is formed in an elastic shape at one end. The second signal contact portion 161 has a second signal soldering portion 162 at the other end; and a second ground transmitting conductor 17 at a side of the second differential signal transmitting conductor group 12 facing away from the second signal transmitting conductor 16 The second grounding conductor 17 includes a second grounding portion 173. The second grounding portion 173 forms a second grounding contact portion 171 which is elastically bent at one end and a second grounded soldering portion at the other end. 172, and the second grounding base 173 extends to form a second grounding coupling portion 174, and the second grounding coupling portion 174 is surrounded by a package. The second differential signal transmission conductor group 12 is disposed above the second differential signal contact portion 121 and coupled to the second ground bonding portion 172.

Please refer to the sixth and seventh figures at the same time, which is a schematic diagram (1) of the transmission terminal group and a schematic diagram (2) of the transmission terminal group according to the preferred embodiment of the present invention. As can be clearly seen from the figure, the high-speed transmission USB connector structure of the present invention is connected to the connection port at the end of the contact portion for transmission, and the first differential signal transmission conductor is transmitted during the transmission. The group 11, the first differential signal contact group 111 and the first differential signal soldering group 112 will be surrounded by the surrounding of the power coupling portion 154 to reduce radio interference, and the second differential signal transmitting conductor group 12 on the other side The two differential signal contact group 121 and the second differential signal soldering portion 122 are also surrounded by the second ground coupling portion 174, and the radio interference is reduced by the same reason, and surrounded by the power coupling portion 154 and the second ground coupling portion 174. Design, reduce interference during transmission, greatly improve the speed of transmission, and achieve the advantages of this new high-speed transmission.

Therefore, the key to the high-speed transmission USB connector structure of the present invention is to improve the conventional technology:

1. The power supply coupling unit 154 and the second ground coupling unit 174 surround the surrounding design to reduce interference during transmission, and high-speed transmission of 4G bps has been achieved.

Secondly, due to the design of the power coupling portion 154 and the second ground coupling portion 174, it is not necessary to modify the casing, which improves the manufacturing and assembly costs and methods.

However, the above description is only for the preferred embodiment of the present invention, and thus the scope of the novel is not limited thereby, so that the simple modification and equivalent structural changes of the present specification and the drawings are the same. It is included in the scope of this new patent and is given to Chen Ming.

In summary, the high-speed transmission USB connector structure of the present invention can achieve its efficacy and purpose when used, so the novel is a new type of practicality, which is in conformity with the application requirements of the new patent, To file an application, I hope that the trial committee will grant this new type as soon as possible to protect the applicant’s hard work. If there is any doubt in the Audit Committee, please do not hesitate to give instructions to the applicant. The applicant will try his best to cooperate and feel punished.

11‧‧‧First differential signal transmission conductor set

12‧‧‧Second differential signal transmission conductor set

13‧‧‧First ground transmission conductor

14‧‧‧First signal transmission conductor

15‧‧‧Power transmission conductor

153‧‧‧Power base

16‧‧‧Second signal transmission conductor

17‧‧‧Second ground transmission conductor

173‧‧‧Second grounding base

Claims (4)

A high-speed transmission USB connector structure mainly includes: a transmission terminal group, the transmission terminal group includes: a first differential signal transmission conductor group, wherein the first differential signal transmission conductor group forms a flat shape at one end a differential signal contact group; a second differential signal transmission conductor group at a side of the first differential signal transmission conductor group, and a second differential signal formed in a flat shape at one end of the second differential signal transmission conductor group a first grounding transmission conductor between the first differential signal transmission conductor group and the second differential signal transmission conductor group, the first ground transmission conductor forming a flat first ground at one end a first signal transmission conductor between the first differential signal transmission conductor group and the first ground transmission conductor, and a first signal contact portion formed at an elastic bending shape at one end of the first signal transmission conductor a power transmission conductor located at a side of the first differential signal transmission conductor group facing away from the first signal transmission conductor, at one end of the power transmission conductor Forming a resiliently curved power contact portion, and the power transmission guiding system surrounds the first differential signal transmission conductor group; a second between the second differential signal transmission conductor group and the first ground transmission conductor a signal transmission conductor, wherein the second signal transmission conductor forms a second signal contact portion that is elastically curved; and a second differential signal transmission conductor group is away from the second signal transmission conductor side The second grounding transmission conductor is formed at one end of the second grounding transmission conductor to form a second grounding contact portion that is elastically curved, and the second grounding transmission guiding system surrounds the second differential signal transmission conductor group. A high-speed transmission USB connector structure mainly includes: a transmission terminal group, the transmission terminal group includes: a first differential signal transmission conductor group, and a first differential signal transmission is formed at one end of the first differential signal transmission conductor group a second differential signal transmission conductor group at one side of the first differential signal transmission conductor group, and a second differential signal welding portion group formed at one end of the second differential signal transmission conductor group; a first ground transmission conductor between the differential signal transmission conductor set and the second differential signal transmission conductor group, the first ground transmission conductor forming a first ground soldering portion at one end; and the first differential signal transmission conductor a first signal transmission conductor between the group and the first ground transmission conductor, wherein the first signal transmission conductor forms a first signal soldering portion at one end; and the first differential signal transmission conductor group is located away from the first signal transmission a power transmission conductor at one side of the conductor, a power supply soldering portion is formed at one end of the power transmission conductor, and the power welding portion surrounds a first differential signal transmission conductor group coupled to the power transmission conductor; a second signal transmission conductor between the second differential signal transmission conductor group and the first ground transmission conductor, and a second signal transmission conductor end Form a second signal a soldering portion; and a second grounding transmission conductor at a side of the second differential signal transmission conductor group facing away from the second signal transmission conductor, and a second grounding soldering portion is formed at one end of the second grounding transmission conductor, and the The second ground soldering portion surrounds the second differential signal transmission conductor group and is coupled to the second ground transmission conductor. A high-speed transmission USB connector structure mainly includes: a transmission terminal group, the transmission terminal group includes: a first differential signal transmission conductor group, wherein the first differential signal transmission conductor group forms a flat shape at one end a differential signal contact portion, the other end forming a first differential signal soldering portion; a second differential signal transmitting conductor group at a side of the first differential signal transmitting conductor group, the second differential signal transmitting conductor set Forming a second differential signal contact portion in a flat shape at one end and forming a second differential signal soldering portion at the other end; one of the first differential signal transmission conductor group and the second differential signal transmission conductor group a first grounding transmission conductor, the first grounding conductor is formed with a first ground contact portion in a flat shape at one end, and a first grounding soldering portion is formed at the other end; and the first differential signal transmission conductor group is disposed at the first And a first signal transmission conductor between the first ground transmission conductor, and the first signal transmission conductor forms a first signal which is elastically curved at one end of the first signal transmission conductor The other end of the contact portion forms a first signal soldering portion; a power transmission conductor located at a side of the first differential signal transmission conductor group facing away from the first signal transmission conductor, the power transmission guiding system includes a power supply base, At one end of the base of the power supply, a power contact portion is formed which is elastically curved, and the other end is formed. a power supply soldering portion, and the power supply base portion extends to form a power coupling portion that surrounds the first differential signal transmission conductor group and spans the first differential signal contact portion and the power supply soldering portion a second signal transmission conductor between the second differential signal transmission conductor group and the first ground transmission conductor, and a second signal contact portion formed at one end of the second signal transmission conductor The other end forms a second signal soldering portion; and a second grounding transmission conductor at a side of the second differential signal transmitting conductor group facing away from the second signal transmitting conductor, the second grounding transmission guiding system includes a first a grounding base, a second grounding contact portion formed at one end of the second grounding base, and a second grounding soldering portion formed at the other end, and the second grounding base portion extends to form a second grounding coupling portion The second ground coupling portion surrounds the second differential signal transmission conductor group and spans the second differential signal contact group, and the second Welded portion coupled. A high-speed transmission USB connector structure mainly comprises: an insulating colloid; a shielding shell combined with the insulating colloid cassette; and a transmission terminal group disposed on the insulating colloid, the transmission terminal group comprising: a first a differential signal transmission conductor set, the first differential signal transmission conductor set forms a first differential signal contact portion at one end, and the other end forms a first differential signal soldering portion; and the first differential signal transmission conductor is disposed at the first differential signal transmission conductor a second differential signal transmission conductor group at one side of the group, and a second differential signal connection formed at one end of the second differential signal transmission conductor group a pair of contact portions, the other end of which forms a second differential signal soldering portion; a first grounded transmission conductor between the first differential signal transmission conductor group and the second differential signal transmission conductor group, the first ground transmission a first ground contact portion is formed at one end of the conductor, and a first ground solder portion is formed at the other end; a first signal transmission conductor between the first differential signal transmission conductor group and the first ground transmission conductor, A first signal contact portion is formed at one end of the first signal transmission conductor, and a first signal soldering portion is formed at the other end; and a power transmission is disposed at a side of the first differential signal transmission conductor group away from the first signal transmission conductor The power transmission guiding system comprises a power supply base, a power supply contact portion is formed at one end of the power supply base, and a power supply soldering portion is formed at the other end, and the power supply base portion extends to form a power supply coupling portion, and the power supply coupling portion Surrounding the first differential signal transmission conductor group and connecting to the power welding portion; one of the second differential signal transmission conductor groups and the a second signal transmission conductor between the ground transmission conductors, a second signal contact portion formed at one end of the second signal transmission conductor, and a second signal soldering portion formed at the other end; and a second differential signal transmission portion The conductor group faces away from the second ground transmission conductor at the side of the second signal transmission conductor, the second ground transmission guiding system includes a second grounding base, and the second grounding base portion forms a second grounding contact portion at one end, and Forming a second grounding soldering portion at one end, and the second grounding base portion extends to form a second grounding coupling portion, the second grounding coupling portion surrounds the second differential signal transmitting conductor group, and is soldered to the second grounding conductor The department is linked.