CN102868039B - The application structure of the transmission conductor radio wave effect - Google Patents

Abstract

The invention relates to an application structure of transmission conductor electric wave effect, belonging to the electronic field, which comprises at least one transmission conductor, wherein the transmission conductor comprises a first differential signal transmission conductor group, a first signal transmission conductor group, a second differential signal transmission conductor group, a first grounding transmission conductor, a third differential signal transmission conductor group, a second signal transmission conductor group, a fourth differential signal transmission conductor group, a first power transmission conductor, a second power transmission conductor and a second grounding transmission conductor, thereby achieving the practical purposes of inhibiting common mode signals, dispersing and inhibiting Radio Frequency Interference (RFI), electromagnetic wave interference (EMI), CROSSTALK interference (CROSSTALK) and electrostatic discharge (ESD) through the first grounding transmission conductor and the second grounding transmission conductor among all differential signal conductors formed by the structure, and solving the problem of high-frequency CROSSTALK interference.

Description

The application structure of the transmission conductor radio wave effect

technical field

The present invention relates to electronics, in order to provide a transmission conductor structure, in particular to an application structure for the radio wave effect of transmission conductors, especially an effective solution to the suppression of common-mode signals and the conduction of high-frequency signal connectors to suppress radio wave interference (RFI), electromagnetic wave interference (EMI), crosstalk interference (CROSS TALK) and electrostatic discharge (ESD) transmission conductor wave effect application structure.

Background technique

The use of connectors is very extensive, and the connectors including USB etc. are constantly improved and improved, and their transmission speed is increased at the same time. the

However, crosstalk interference (CROSS TALK) will affect the high-frequency transmission of differential signals, especially when the connector is transmitting high-frequency signals, differential signal pairs and differential signal pairs or differential signal pairs and signal pairs will be subject to crosstalk interference, and There is a problem with unstable signal transmission. Therefore, some terminals of the electronic connector use grounding terminals to isolate crosstalk interference, so as to block the crosstalk interference generated between the signal terminals, and prevent the transmission speed and high-frequency signals including the electronic connector itself from being affected; and the original There are connectors that interfere with electromagnetic waves, and traditional shielding methods are used to suppress electromagnetic wave interference.

Contents of the invention

The object of the present invention is to provide an application structure for transmitting the electric wave effect of a conductor, which can effectively suppress common-mode signals, conduct and dissipate radio wave interference (RFI), electromagnetic wave interference (EMI), and crosstalk interference (CROSS) for high-frequency signal connectors. TALK) and the practical purpose of electrostatic discharge (ESD), to solve the problem of high-frequency crosstalk interference. Through the combination of the first ground transmission conductor and the second ground transmission conductor and the high-frequency terminals and low-frequency terminals and the technical characteristics of their mutual connection, it is possible to effectively suppress common-mode signals, conduct radiation and suppress radio wave interference (RFI), electromagnetic waves Interference (EMI), crosstalk interference (CROSS TALK) and electrostatic discharge (ESD).

In order to achieve the above-mentioned purpose, the present invention solves the problem of high-frequency crosstalk interference through the following structure, which includes at least one transmission conductor, and the transmission conductor includes a first transmission conductor group, and the first transmission conductor group includes a The first differential signal transmission conductor group, the first signal transmission conductor group and the second differential signal transmission conductor group arranged in parallel with each other, and the common mode signal generated by the first differential signal transmission conductor group and the second differential signal transmission conductor group Interference is suppressed through a first ground transmission conductor and a first power transmission conductor, and the first transmission conductor group is electrically connected to a second transmission conductor group, and the second transmission conductor group includes a third parallel arrangement. The differential signal transmission conductor group, the second signal transmission conductor group and the fourth differential signal transmission conductor group, and the common mode signal interference generated by the third differential signal transmission conductor group and the fourth differential signal transmission conductor group passes through a second ground The transmission conductor and the second power transmission conductor are suppressed.

As mentioned above, the transmission conductor is provided with at least one contact portion, bending portion and welding portion at an angle of 120° to 150°.

In this way, when high-frequency crosstalk interference is generated during operation, it can achieve an excellent performance through the coordination between the first ground transmission conductor, the second ground transmission conductor, the first power transmission conductor, and the second power transmission conductor. The technical characteristics of suppressing common mode signals, conducting and suppressing radio wave interference (RFI), electromagnetic wave interference (EMI), crosstalk interference (CROSS TALK) and electrostatic discharge (ESD).

The present invention specifically includes: at least one bending portion at an angle of 120° to 150°; at least one contact portion at an angle of 120° to 150°; at least one base portion at an angle of 120° to 150°; at least one 150 degree angle welded part.

includes at least one transmission conductor, and the transmission conductor includes:

A first transmission conductor group, the first transmission conductor group includes a first differential signal transmission conductor group, a first signal transmission conductor group and a second differential signal transmission conductor group arranged in parallel with each other, and the first differential signal transmission A first ground transmission conductor is respectively provided among the conductor set, the first signal transmission conductor set and the second differential signal transmission conductor set for crosstalk isolation;

A second transmission conductor group electrically connected to the first transmission conductor group, the second transmission conductor group includes a third differential signal transmission conductor group, a second signal transmission conductor group and a fourth differential signal parallel arrangement. A transmission conductor set, and a second ground transmission conductor is respectively arranged among the third differential signal transmission conductor set, the second signal transmission conductor set and the fourth differential signal transmission conductor set for crosstalk isolation;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group and the second ground transmission conductor are respectively provided with a first differential signal contact portion, a first signal contact portion, a second differential signal contact portion, a first ground contact portion, a third differential signal contact portion, and a second signal contact portion , the fourth differential signal contact portion and the second ground contact portion, and the first differential signal contact portion and the second signal contact portion perform crosstalk isolation through the first ground contact portion and the second ground contact portion, and then the Crosstalk isolation between the second differential signal contact and the second signal contact through the first ground contact and the second ground contact;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group and the second ground transmission conductor are respectively provided with a first differential signal base, a first signal base, a second differential signal base, a first ground base, a third differential signal base, a second signal base, and a fourth differential signal base and the second ground base, and the first differential signal base and the second signal base pass through the first ground base and the second ground base for crosstalk isolation, and then the second differential signal base and the second signal base pass through performing crosstalk isolation between the first ground base and the second ground base;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group and the second ground transmission conductor are respectively provided with a first differential signal welding part, a first signal welding part, a second differential signal welding part, a first ground welding part, a third differential signal welding part, and a second signal welding part , the fourth differential signal soldering portion and the second grounding soldering portion, and the first differential signal soldering portion and the second signal soldering portion conduct crosstalk isolation through the first grounding soldering portion and the second grounding soldering portion, and then the The second differential signal soldering portion is isolated from the second signal soldering portion through the first grounding soldering portion and the second grounding soldering portion;

includes at least one transmission conductor, and the transmission conductor includes:

A first transmission conductor group, the first transmission conductor group includes a first differential signal transmission conductor group, a first signal transmission conductor group and a second differential signal transmission conductor group arranged in parallel with each other, and the first differential signal transmission The common-mode signal interference generated by the conductor set and the second differential signal transmission conductor set is suppressed through a first ground transmission conductor and a first power transmission conductor;

A second transmission conductor group electrically connected to the first transmission conductor group, the second transmission conductor group includes a third differential signal transmission conductor group, a second signal transmission conductor group and a fourth differential signal parallel arrangement. A transmission conductor set, and the common-mode signal interference generated by the third differential signal transmission conductor set and the fourth differential signal transmission conductor set is suppressed through a second ground transmission conductor and a second power transmission conductor;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group, the first power transmission conductor, the second power transmission conductor and the second ground transmission conductor are respectively provided with a first differential signal contact part, a first signal contact part, a second differential signal contact part, a first ground contact part, The third differential signal contact part, the second signal contact part, the fourth differential signal contact part, the first power contact part, the second power contact part and the second ground contact part, and the first differential signal contact part and the second The signal contact portion performs common-mode signal interference suppression through the first ground contact portion and the second ground contact portion, and then the second differential signal contact portion and the second signal contact portion pass through the first ground contact portion and the second ground contact portion. The ground contact part is used for common mode signal interference suppression;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group, the first power transmission conductor, the second power transmission conductor and the second ground transmission conductor are respectively provided with a first differential signal base, a first signal base, a second differential signal base, a first ground base, and a third differential signal base base, the second signal base, the fourth differential signal base, the first power base, the second power base and the second ground base, and the first differential signal base and the second signal base pass through the first ground base and the second ground base The two ground bases perform common-mode signal interference suppression, and the second differential signal base and the second signal base perform common-mode signal interference suppression through the first ground base and the second ground base;

Wherein the first differential signal transmission conductor group, the first signal transmission conductor group, the second differential signal transmission conductor group, the first ground transmission conductor, the third differential signal transmission conductor group, the second signal transmission conductor group, the fourth differential signal The transmission conductor group, the first power transmission conductor, the second power transmission conductor and the second ground transmission conductor are respectively provided with a first differential signal welding part, a first signal welding part, a second differential signal welding part, a first ground welding part, The third differential signal welding part, the second signal welding part, the fourth differential signal welding part, the first power welding part, the second power welding part and the second ground welding part, and the first differential signal welding part and the second The signal soldering part performs common mode signal interference suppression through the first ground soldering part and the second ground soldering part, and then the second differential signal soldering part and the second signal soldering part pass the first ground soldering part and the second The ground welding part is used for common mode signal interference suppression. the

The present invention has the advantages of: effectively suppressing common-mode signals, conducting and suppressing radio wave interference (RFI), electromagnetic wave interference (EMI), crosstalk interference (CROSS TALK) and electrostatic discharge (ESD) on the high-frequency signal connector. Purpose, to solve the problem of high-frequency crosstalk interference.

Description of drawings

Figure 1 is a perspective view of a preferred embodiment of the present invention.

Figure 2 is a schematic side view of a preferred embodiment of the present invention.

Fig. 3 is a schematic side view II of a preferred embodiment of the present invention.

Fig. 4 is a schematic side view III of a preferred embodiment of the present invention.

Fig. 5 is a side view schematic diagram 4 of a preferred embodiment of the present invention.

Figure 6 is a schematic plan view of a preferred embodiment of the present invention.

Fig. 7 is a schematic plan view II of a preferred embodiment of the present invention.

Detailed ways

As shown in accompanying drawing 1 to accompanying drawing 5, it is the perspective view of the preferred embodiment of the present invention, the schematic side view, it can be clearly seen from the figure that at least one transmission conductor 1 is included, and the transmission conductor 1 includes at least one 120 The bending part 11 of angle to 150 degree, as shown in accompanying drawing 2, accompanying drawing 3, accompanying drawing 4 and accompanying drawing 5 are respectively left side view, right side view, top view and bottom view wherein angle a is at least one The contact portion 12 at an angle of 120° to 150°, and the angle b is at least one base portion 13 at an angle of 120° to 150°, and finally the angle c is at least one welding portion 14 at an angle of 120° to 150°, whereby through the above It can be clearly understood that the bending angles of this case are all 120-degree to 150-degree angles.

As shown in accompanying drawing 6 and accompanying drawing 7, it is the schematic plan view of preferred embodiment of the present invention, can clearly find out from the figure, the present invention comprises at least one transmission conductor, and this transmission conductor comprises:

A first transmission conductor group 15, including a first differential signal transmission conductor group 151, a first signal transmission conductor group 152 and a second differential signal transmission conductor group 153 arranged in parallel, and the first differential signal transmission conductor group The common-mode signal interference or crosstalk interference generated by 151 and the second differential signal transmission conductor group 153 is subjected to common-mode signal interference suppression or crosstalk interference isolation through a first ground transmission conductor 154 and a first power transmission conductor 155;

A second transmission conductor group 16 electrically connected with the first transmission conductor group 15, including a third differential signal transmission conductor group 161, a second signal transmission conductor group 162 and a fourth differential signal transmission conductor arranged in parallel group 163, and the common mode signal interference or crosstalk interference generated by the third differential signal transmission conductor group 161 and the fourth differential signal transmission conductor group 163 is carried out through a second ground transmission conductor 164 and a second power transmission conductor 165 Isolation common mode signal interference suppression or crosstalk interference isolation.

As far as the isolation of crosstalk interference is concerned, as shown in accompanying drawing 2 to accompanying drawing 7, it is a schematic side view and a schematic plan view of a preferred embodiment of the present invention, wherein the first differential signal transmission conductor group 151, the first signal transmission conductor Group 152, second differential signal transmission conductor group 153, first ground transmission conductor 154, third differential signal transmission conductor group 161, second signal transmission conductor group 162, fourth differential signal transmission conductor group 163, first power transmission conductor 155. The second power transmission conductor 165 and the second ground transmission conductor 164 are respectively provided with a first differential signal contact portion 1511, a first signal contact portion 1521, a second differential signal contact portion 1531, a first ground contact portion 1541, a third The differential signal contact portion 1611, the second signal contact portion 1621, the fourth differential signal contact portion 1631, the first power contact portion 1551, the second power contact portion 1651 and the second ground contact portion 1641, and the first differential signal contact portion 1511 and the second signal contact portion 1621 are isolated from the second ground contact portion 1641 by the first ground contact portion 1541 (common mode signal interference suppression or crosstalk interference isolation), and then the second differential signal contact portion 1531 and The second signal contact portion 1621 is isolated from the second ground contact portion 1641 by the first ground contact portion 1541 (common mode signal interference suppression or crosstalk interference isolation).

Furthermore, the first differential signal transmission conductor set 151, the first signal transmission conductor set 152, the second differential signal transmission conductor set 153, the first ground transmission conductor 154, the third differential signal transmission conductor set 161, the second signal transmission conductor set The conductor group 162, the fourth differential signal transmission conductor group 163, the first power transmission conductor 155, the second power transmission conductor 165 and the second ground transmission conductor 164 are respectively provided with a first differential signal base 1512, a first signal base 1522, a second Two differential signal bases 1532, a first ground base 1542, a third differential signal base 1612, a second signal base 1622, a fourth differential signal base 1632, a first power base 1552, a second power base 1652 and a second ground base 1642, In addition, the first differential signal base 1512 and the second signal base 1622 are isolated from the second ground base 1642 by the first ground base 1542 (common mode signal interference suppression or crosstalk interference isolation), and the second differential signal The base 1532 is isolated from the second signal base 1622 through the first ground base 1542 and the second ground base 1642 (common mode signal interference suppression or crosstalk interference isolation).

The first differential signal transmission conductor group 151 , the first signal transmission conductor group 152 , the second differential signal transmission conductor group 153 , the first ground transmission conductor 154 , the third differential signal transmission conductor group 161 , and the second signal transmission conductor group 162 , the fourth differential signal transmission conductor group 163, the first power transmission conductor 155, the second power transmission conductor 165 and the second ground transmission conductor 164 are respectively provided with a first differential signal welding part 1513, a first signal welding part 1523, a second Differential signal soldering part 1533, first ground soldering part 1543, third differential signal soldering part 1613, second signal soldering part 1623, fourth differential signal soldering part 1633, first power soldering part 1553, second power soldering part 1653 and The second ground soldering portion 1643, and the first differential signal soldering portion 1513 and the second signal soldering portion 1623 are isolated by the first ground soldering portion 1543 and the second ground soldering portion 1643 (common mode signal interference suppression or serial sound interference isolation), and then the second differential signal soldering portion 1533 is isolated from the second signal soldering portion 1623 through the first ground soldering portion 1543 and the second ground soldering portion 1643 (common mode signal interference suppression or crosstalk interference isolation).

Claims (1)

1. an application structure for transmission conductor electric wave effect, comprising:

One first transmission conductor group, this the first transmission conductor group comprises one in the first differential signal transmission conductor group of mutual parallel arranged, the first signal transmission conductor group and the second differential signal transmission conductor group, and is respectively equipped with one first ground connection transmission conductor between this first differential signal transmission conductor group, the first signal transmission conductor group and the second differential signal transmission conductor group and is carried out cross-talk isolation;

One with the second transmission conductor group of this first transmission conductor group electrically connect, this the second transmission conductor group comprises one in the 3rd differential signal transmission conductor group of mutual parallel arranged, the second signal transmission conductor group and the 4th differential signal transmission conductor group, and is respectively equipped with one second ground connection transmission conductor between the 3rd differential signal transmission conductor group, the second signal transmission conductor group and the 4th differential signal transmission conductor group and is carried out cross-talk isolation;

The common mode signal interference that this first differential signal transmission conductor group and the second differential signal transmission conductor group produce is carried out common mode signal AF panel via one first ground connection transmission conductor and the first power delivery conductor;

The common mode signal interference that 3rd differential signal transmission conductor group and the 4th differential signal transmission conductor group produce is carried out common mode signal AF panel via one second ground connection transmission conductor and second source transmission conductor;

First differential signal transmission conductor group, first signal transmission conductor group, second differential signal transmission conductor group, first ground connection transmission conductor, 3rd differential signal transmission conductor group, second signal transmission conductor group, it is 120 degree of contact sites to 150 degree of angles that 4th differential signal transmission conductor group and the second ground connection transmission conductor are respectively equipped with one first differential signal at least one, first signal is at least one is 120 degree of contact sites to 150 degree of angles, second differential signal is at least one is 120 degree of contact sites to 150 degree of angles, first ground connection is at least one is 120 degree of contact sites to 150 degree of angles, 3rd differential signal is at least one is 120 degree of contact sites to 150 degree of angles, second signal is at least one is 120 degree of contact sites to 150 degree of angles, 4th differential signal is at least one, and to be 120 degree of contact sites to 150 degree of angles and the second ground connection at least one be 120 degree of contact sites to 150 degree of angles, this the first differential signal contact site another and this second signal contact site carry out cross-talk isolation by this first ground connection contact site and this second ground connection contact site, then this second differential signal contact site and this second signal contact site carry out cross-talk isolation by this first ground connection contact site and this second ground connection contact site,

One first differential signal is at least one is 120 degree of base portions to 150 degree of angles, first signal is at least one is 120 degree of base portions to 150 degree of angles, second differential signal is at least one is 120 degree of base portions to 150 degree of angles, first ground connection is at least one is 120 degree of base portions to 150 degree of angles, 3rd differential signal is at least one is 120 degree of base portions to 150 degree of angles, second signal is at least one is 120 degree of base portions to 150 degree of angles, 4th differential signal base portion and the second ground connection at least one be 120 degree of base portions to 150 degree of angles, this the first differential signal base portion another and this second signal base portion carry out cross-talk isolation by this first ground connection base portion and this second ground connection base portion, this the second differential signal base portion and this second signal base portion carry out cross-talk isolation by this first ground connection base portion and this second ground connection base portion again,

One first differential signal is at least one is 120 degree of weld parts to 150 degree of angles, first signal is at least one is 120 degree of weld parts to 150 degree of angles, second differential signal is at least one is 120 degree of weld parts to 150 degree of angles, first ground connection is at least one is 120 degree of weld parts to 150 degree of angles, 3rd differential signal is at least one is 120 degree of weld parts to 150 degree of angles, second signal is at least one is 120 degree of weld parts to 150 degree of angles, 4th differential signal weld part and the second ground connection at least one be 120 degree of weld parts to 150 degree of angles, this the first differential signal weld part another and this second signal weld part carry out cross-talk isolation by this first ground connection weld part and this second ground connection weld part, this the second differential signal weld part and this second signal weld part carry out cross-talk isolation by this first ground connection weld part and this second ground connection weld part again.