KR20130006515U - High-Speed Connector Structure - Google Patents

Abstract

The present invention relates to a high speed connector structure, comprising an insulating base, a plurality of terminals and at least two conductive plastic blocks. The insulating base has at least one concave groove formed in the tongue plate, and the plurality of terminals include a first signal terminal group, a second signal terminal group, and a power terminal group installed in the tongue plate, wherein the first signal terminal group, The second signal terminal group and the power supply terminal group each include a positive terminal and a negative terminal, and each terminal has a contact area. Here, the contact areas of the terminals of the first signal terminal group are respectively provided in the concave grooves to form a gap together with the bottom surface of the concave grooves, and the conductive plastic blocks are respectively formed of the negative terminal of the first signal terminal group and the second signal terminal group. It is connected with the contact area. As a result, a gap is formed between the contact area of the first signal terminal group and the bottom surface of the concave groove, thereby increasing the contact area between the contact area and the air, thereby achieving an object of improving electrical performance and improving transmission speed. In addition, the mask property of the conductive plastic block can be used to further reduce the mutual interference between adjacent signals, thereby further improving the transmission speed of the connector.

Description

High-Speed Connector Structure

The present invention relates to a high-speed connector structure, in particular to form a gap between the contact area of the signal terminal group and the bottom surface of the recessed groove of the insulating base to increase the contact area and the contact area of the air to improve the electrical performance and transmission speed In addition, by connecting the conductive plastic block to the negative terminal of the signal terminal group, a high speed connector structure that can reduce the mutual interference between adjacent signals and further improve the transmission speed of the connector by using the mask characteristics of the conductive plastic block. It is about.

With the continuous evolution of wireless communication and high-speed digital transmission interfaces, connectors of various specifications have data rates of 5Gb / s, for example, to meet the demand for various uses, such as automobiles, computers and peripherals, portable 3C devices, and medical equipment. Furthermore, we have entered a high-speed transmission era of 10Gb / s or more. However, connectors with high-speed data transmission have greatly improved efficiency and brought convenience to life, but face great challenges in designing and testing signal integrity and compatibility. This is mainly due to the compatibility of conventional high speed connectors in order to improve the transmission speed only by increasing the volume or path length of the terminal so that the high speed connector meets the system's standard impedance of 100 ohms. However, increasing the volume or path length of the high speed connector terminals not only increases the cost but also results in an increase in the high speed connector volume. Another reason is that conventional high speed connectors cannot improve the data transmission speed of high speed connectors due to mutual interference of signals between terminals in transmission integrity.

In view of the above problems. The main object of the present invention is to provide a high speed connector structure.

The high speed connector according to the present invention includes an insulating base, a plurality of terminals and at least two conductive plastic blocks. The insulating base has at least one concave groove formed in a tongue plate, and the plurality of terminals include a first signal terminal group, a second signal terminal group, and a power supply terminal group provided in the tongue plate. The first signal terminal group, the second signal terminal group, and the power supply terminal group each include a positive terminal and a negative terminal, and each terminal has a contact area. Here, the contact areas of the terminals of the first signal terminal group are respectively provided in the concave grooves to form a gap together with the bottom surface of the concave grooves, and the conductive plastic blocks are respectively formed of the negative terminal of the first signal terminal group and the second signal terminal group. It is connected with the contact area.

As a result, a gap is formed between the contact area of the first signal terminal group and the bottom surface of the concave groove, thereby increasing the contact area between the contact area and the air, thereby achieving an object of improving electrical performance and improving transmission speed. In addition, the mask property of the conductive plastic block can be used to further reduce the mutual interference between adjacent signals to further improve the transmission speed of the connector.

1 is a schematic exploded view of a high speed connector structure according to the present invention.

Referring to FIG. 1, the present invention relates to a high speed connector structure, the structure comprising an insulating base 1, a plurality of terminals 2 and at least two conductive plastic blocks 3.

 A tongue plate 11 is formed in the insulating base 1, and a plurality of grooves 12 and at least one concave groove 13 are formed in the tongue plate 11. In addition, the insulating base 1 is formed at the two ends with respect to the tongue plate 11 at the fixing part 14 in which the welding sheet 4 is installed, and the insulating base 1 is connected to the circuit through the welding sheet 4. It can be fixed to the substrate.

 Each of the plurality of terminals 2 is formed on the tongue plate 11 of the insulating base 1, and the plurality of terminals 2 includes the first signal terminal group 21, the second signal terminal group 22, and a power supply. The terminal group 23 is included. The first signal terminal group 21 includes a positive terminal and a negative terminal, and each terminal has a contact area 211. Also, at one end of the contact region 211, a welding region 212 protruding to the outside of the insulation base 1 is formed, and the contact regions 211 of the terminals of the first signal terminal group 21 are each the insulation base. It is provided corresponding to the position of the recessed groove 13 of (1), and forms the gap with the bottom surface of the recessed groove 13. The second signal terminal group 22 includes a positive terminal and a negative terminal, each terminal having a contact region 221, and at one end of the contact region 221, a welding region protruding outside the insulating base 1 ( 222 is formed, and the contact areas 211 of the terminals of the second signal terminal group 22 are provided in the groove portions 12 of the insulating base 1, respectively. Each terminal of the power supply terminal group 23 has a contact region 231, and a welding region 232 protruding to the outside of the insulating base 1 is formed at one end of the contact region 231. The contact regions 231 of the terminals of the group 23 are respectively provided in the groove portions 12 of the insulating base 1.

In the conductive plastic block 3, one of the conductive plastic blocks 3 is connected to the contact region 211 of the negative terminal of the first group of signal terminals 21, and the other conductive plastic block 3 is It is connected to the contact area 221 of the negative terminal of the second signal terminal group 22.

In one embodiment according to the present invention, the first signal terminal group 21, the second signal terminal group 22 may include seven terminals, and the first, fourth, and seventh terminals are negative terminals, and the rest It may be a positive terminal. In addition, the power terminal group 23 may include 15 terminals. As a result, the contact area 211 between the positive terminal and the negative terminal of the first signal terminal group 21 is installed corresponding to the position of the concave groove 13 of the insulating base 1, and thus the bottom surface of the concave groove 13. Together with the gap can be formed. In addition, the contact region 211 of the negative terminal of the first signal terminal group 21 may be connected to the conductive plastic block 3. The contact region 221 of the positive terminal and the negative terminal of the second signal terminal group 22 corresponds to the position of the groove portion 12 of the insulating base 1, and is provided with a negative electrode of the second signal terminal group 22. The contact region 221 of the terminal may be connected to the conductive plastic block 3. The contact regions 231 of the positive terminal and the negative terminal of the power terminal group 23 are respectively provided in the groove portion 12 of the insulating base 1.

Therefore, the present invention forms a gap between the contact area 211 of the first signal terminal group 21 and the bottom surface of the recess 13 of the insulating base 1 to increase the air groove around the terminal of the high speed connector. By increasing the contact area between the contact area 211 and the air of the first signal terminal group 21, by using the characteristic of low air dielectric constant to increase the impedance of the first signal terminal group 21 to improve the electrical performance Can be. As a result, the high-speed connector according to the present invention can more closely match the system's standard impedance of 100 ohms, thereby achieving the purpose of improving the transmission speed. In addition, the contact areas 211 and 221 of the negative terminal of the first signal terminal group 21 and the second signal terminal group 22 are connected to the conductive plastic block 3, respectively, and are viewed through the conductive plastic block 3. All ground terminals of the high speed connector according to the invention are connected to each other. This changes the electromagnetic field characteristics of the high speed signal transmission region (ie, the first signal terminal group 21 and the second signal terminal group 22) and reduces the mutual interference between adjacent signals by using the mask characteristics of the conductive plastic block 3. It is possible to further improve the transmission speed of the high speed connector according to the present invention.

1 insulation base 11 tongue plate
12 Groove 13 Concave Groove
14 Fixing part
2 terminal 21 1st signal terminal group
211 Contact Area 212 Weld Area
22 Second Signal Terminal Group 221 Contact Area
222 Welding Area 23 Power Terminal Group
231 Contact Area 232 Weld Area
3 conductive plastic blocks
4 welding sheets

Claims (2)

An insulating base, a plurality of terminals and at least two conductive plastic blocks,
A tongue plate is formed in the insulating base, and a plurality of grooves and at least one concave groove are formed in the tongue plate.
The plurality of terminals are each provided on a tongue plate of an insulating base, and the plurality of terminals include a first signal terminal group, a second signal terminal group, and a power supply terminal group, and the first signal terminal group and the second signal terminal. The group and the power terminal group each include a positive terminal and a negative terminal, each terminal has a contact region, and at one end of the contact region is formed a welding region projecting out of the insulating base, and the terminal of the first signal terminal group. The contact regions of are respectively provided in the recessed groove of the insulating base to form a gap with the bottom surface of the recessed groove, and the contact regions of the terminals of the second signal terminal group and the power terminal group are respectively provided in the groove portion of the insulating base,
In the at least two conductive plastic blocks, one of the conductive plastic blocks is connected with the contact region of the negative terminal of the first signal terminal group, and the other conductive plastic block is the contact region of the negative terminal of the second signal terminal group. Connected with,
High speed connector structure. The method of claim 1,
The insulating base has a fixing part formed at two ends with respect to the tongue plate and the fixing part is provided with a welding sheet,
High speed connector structure.

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