CN114284769A - Plug connector assembly - Google Patents

Abstract

A plug connector assembly comprises an insulating body and a tongue plate fixed on the insulating body, wherein the tongue plate is formed by a circuit board, a third row of conductive sheets and a fourth row of conductive sheets which are transversely arranged are arranged at the rear end of one side face of the tongue plate, the third row of conductive sheets is positioned on the front side of the fourth row of conductive sheets, the third row of conductive sheets is connected with a plurality of first cables, the fourth row of conductive sheets is connected with a plurality of second cables, the distance between a shielding layer of the first cable and two signal conductors of the second cable is a first distance, the distance between the two signal conductors of the second cable is a second distance, and the first distance is larger than the second distance. Through the design, the high-frequency performance of the signal conductor connection is improved.

Description

Plug connector assembly

Technical Field

The invention relates to a plug connector assembly with a cable.

Background

Patent application CN112952425A published by fuji corporation on 11/6/2021 discloses an electronic card edge connector with cable, which includes a flat cable, an edge connector located at one end of the flat cable, an electronic card and a locking structure, and also discloses an external connector (plug connector) connected to the other end of the frequency conversion cable, wherein the external connector may be an electric connector of MCIO, Gen-Z or slim line type, and the external connector is used to be connected to a corresponding board end connector mounted on a main circuit board or a main board, so as to establish the connection between the electronic card and the main board.

Disclosure of Invention

The invention aims to provide a plug connector with a cable, which has good high-frequency performance.

In order to solve the above technical problems, the present invention provides a plug connector assembly, which includes an insulating body and a tongue plate fixed to the insulating body, wherein the tongue plate is formed by a circuit board, a first row of conducting strips and a second row of conducting strips are transversely arranged at a front end of one side surface of the tongue plate, a third row of conducting strips and a fourth row of conducting strips are transversely arranged at a rear end of the one side surface of the tongue plate, the third row of conducting strips is located at a front side of the fourth row of conducting strips, the third row of conducting strips is connected to a plurality of first cables, the fourth row of conducting strips is connected to a plurality of second cables, each cable includes two conducting wires and a shielding layer covering the two conducting wires, the two conducting wires each include a conducting core wire and an insulating layer covering the conducting core wire, one end of the conducting core wire is exposed out of the cable to form two signal conductors, and two grounding conductors connected to the shielding layer are arranged at two outer sides of the signal conductors, the distance between the shielding layer of the first cable and the two signal conductors of the second cable is a first distance, the distance between the two signal conductors of the second cable is a second distance, and the first distance is greater than the second distance. Through the design, the coupling between the two signal conductors of the second cable is larger than the coupling between the two signal conductors of the second cable and the shielding layer of the first cable, so that the high-frequency performance of the signal conductors is improved.

Further, the first distance is greater than 1.5 times the second distance.

Furthermore, the plug connector assembly comprises a protection plastic, the protection plastic is coated and molded at the connecting position of the circuit board and the cable so as to form a plug module, and the plug module is inserted into the insulating body from back to front so as to form the plug connector.

Further, the cable is bent by 90 degrees, and the bent part is covered in the protective plastic.

Furthermore, the plug connector is used for being vertically inserted into a socket connector installed on a main board, the other end of the cable is connected to a card edge connector, a card connecting portion capable of being in butt joint fit with the card edge is arranged at the upper end of the card edge connector, and a longitudinally extending slot is formed in the card connecting portion and used for inserting and fitting an electronic card.

Further, the card connecting portion has a flange protruding laterally on a lower side thereof, the flange being for fixing to the chassis.

Further, the rack comprises a mounting plate provided with a mounting groove, the card edge connector is upwards mounted behind the mounting groove, the card connecting part protrudes out of the front side of the mounting plate, and the flange abuts against the lower side of the mounting plate.

Further, a flange of the card connecting portion of the card edge connector is provided with a screw fastening structure fastened upward to the mounting plate.

Further, the card edge connector further includes a board connection portion to which a part of the cable connected by the plug connector is connected, the board connection portion being connected to the mounting board.

Further, board connecting portion are equipped with many board connecting terminal, board connecting terminal is equipped with roughly parallel to the contact site that the mounting panel direction extends, the contact site has the contact surface towards the mounting panel, card edge connector installs behind the mounting panel, the elastic contact surface supports the metal conducting strip of pressing in mounting panel surface setting, thereby realizes board connecting terminal with the electricity of mounting panel is connected.

Further, the card connecting portion is provided with a plurality of low-frequency signal terminals, the low-frequency signal terminals are connected to the board connecting terminals of the board connecting portion through cables.

Drawings

Fig. 1 is a perspective view of a card edge connector of a plug connector assembly according to the present invention, mounted on a mounting plate of a rack, prior to being plugged with an electronic card.

Fig. 2 is a perspective view of the card edge connector shown in fig. 1.

Fig. 3 is an exploded view of the card edge connector shown in fig. 2.

Fig. 4 is a perspective view of the two-card terminal module shown in fig. 3.

Fig. 5 is a perspective view of the two-card terminal module shown in fig. 4 with an inner film removed to show the internal structure.

Fig. 6 is a sectional view taken along a-a in fig. 2.

Fig. 7 is an assembled view of a portion of the components of the electrical connector shown in fig. 6.

Fig. 8 is an assembly view of the panel connecting part shown in fig. 7.

Fig. 9 is an assembled view from another perspective of fig. 7.

Fig. 10 is a schematic view of the assembled components of fig. 7.

Fig. 11 is a sectional view taken along a-a in fig. 2.

Fig. 12 is a partial enlarged view of the wire portion shown in fig. 5.

Figure 13 is a plug connector of the plug connector assembly of the present invention.

Fig. 14 is a schematic view of the tongue of the plug connector of fig. 13 connected to a cable.

Fig. 15 is another perspective view of the assembly shown in fig. 14.

Fig. 16 is another way of maintaining the distance of the cables in fig. 14.

Detailed Description

As shown in fig. 1 and fig. 2, a card edge connector 100 is mounted on a rack (not shown), a card connecting portion 110 is disposed at a front end of the card edge connector 100, and the card connecting portion 110 is provided with a longitudinally extending slot 120 for inserting and mating a card edge of a PCIE electronic card 170. The rear end of the card edge connector 100 is connected to the cable 160 and is connected to a plug connector 700 (see fig. 13 to 16) via the cable 160, and the plug connector 700 is vertically inserted into a socket connector (not shown) mounted on a motherboard (not shown). The PCIE card is connected to the cable 160 through the card edge connector 100, and then connected to a position close to a motherboard processor (not shown) through the cable 160, so that the PCIE card 170 can be flexibly arranged on the motherboard, which is convenient for miniaturization design of the device, and is convenient for setting the PCIE card 170 at a position convenient for plugging. In addition, the high-speed signal of the PCIE electronic card 170 is connected to a position as close to the processor as possible through a cable, which is beneficial to maintaining the integrity of the high-speed signal and simplifying the circuit design of the motherboard.

The housing includes a mounting plate 180 having a mounting groove 182, and the slot 120 protrudes from an upper side of the mounting plate 180 after the card edge connector 100 is mounted on the mounting groove 182. The mounting plate 180 is a circuit board. The card edge connector 100 further includes a board connection part 140 at one lateral side of the card connection part 110.

As shown in fig. 2 to 6, the card connecting portion 110 includes a socket body 200 formed of an insulating plastic and a two-card terminal module 300 assembled in the socket body 200. The two card terminal modules 300 are respectively arranged at two sides of the slot 120, and respectively elastically press against and contact with the gold fingers on two side surfaces of the PCIE electronic card 170, thereby implementing conductive connection. The card terminal module 300 includes a plurality of card connecting terminals 320 arranged in a longitudinal direction, a card terminal fixing strip 340 integrally formed with the plurality of card connecting terminals 320, a cable 160 connected to the tail of the plurality of card connecting terminals 320, and an inner film plastic 360 (secondary coating molding) coated on the connecting portion of the cable 160 and the terminal 320.

As shown in fig. 6 to 10, the board connecting portion 140 includes a board connecting body 400 formed by molding insulating plastic, and a board terminal module 420 fixed in the board connecting body 400. The board terminal module 420 includes eight board connection terminals 440 and a board terminal fixing strip 460 in which the eight board connection terminals 440 are fixed by molding. The eight board connection terminals 440 are arranged in a vertical row for transmitting non-high frequency signals. The board connection terminals 440 each include a board terminal contact portion 442 extending in parallel to the direction of the fixing plate, a board terminal fixing portion 444 fixed in the board terminal fixing strip 460, and a board terminal welding portion 446 extending from the board terminal fixing portion 444 in a direction perpendicular to the mounting plate 180.

The board terminal fixing strip 460 extends in a longitudinal direction, and includes a board terminal fixing section 462 at an intermediate position and embedding sections 464 at both ends of the board terminal fixing section 462. The board connecting body 400 also extends in a longitudinal direction, and includes a terminal receiving section 402 at a middle position and fixing sections 404 at two ends of the terminal receiving section 402, the fixing sections 404 are provided with fixing grooves 406 horizontally opened toward the card connecting portion 120, and the fixing grooves 406 are used for receiving the insertion sections 464 of the board terminal fixing strips 460. The terminal receiving section 402 is provided with a terminal receiving groove 403 opened toward the card connecting portion 120 and penetrating the mounting plate 180, and after the board terminal module 420 is mounted to the board connecting body 400, the board terminal contact portion 442 is received in the terminal receiving groove 403 and provided with a contact surface (not numbered) facing upward. The board connecting body 400 is provided with a mounting surface 405 which is upwardly attached to the fixing board 180, and a board terminal contact portion 442 of the board connecting terminal 440 protrudes from the mounting surface 405, so that after the card edge connector 100 is fixed to the mounting board 180 from the bottom up, the contact surface is pressed against a metal conductive sheet (not shown) provided on the surface of the mounting board 180, thereby achieving the electrical connection between the board connecting terminal 440 and the mounting board 180.

The slot 120 of the slot body 200 of the card connector 110 includes a non-high-speed slot 112 and a high-speed slot 114 (shown in fig. 7) separated from each other, and the non-high-speed slot 112 is used for connecting a low-speed signal or a power signal. A plurality of non-high-speed terminals (not numbered) are disposed in the non-high-speed slot 112, two of the non-high-speed terminals are connected to two of the board connection terminals 440 of the board connection part 140 through cables 164 (as shown in fig. 4, 7 and 9). The other terminals 320 and the other six board connection terminals 440 of the card connection portion 110 are connected to the cable 160 and then connected to a plug connector 700.

As shown in fig. 2, 3 and 11, the card edge connector 100 further includes an outer film plastic 600. The outer film plastic 600 covers the cables 160 and 164, the card connecting terminal 320, and the board connecting terminal 440, thereby protecting the connection between the cables 160 and 164 and the terminals. The exterior film plastic 600 at least partially covers both the socket body 200 and the board connecting body 400, so that the socket body 200 and the board connecting body 400 can be fixed as a whole.

As shown in fig. 6, 7, 10 and 11, two first fixing blocks 240 are disposed at one lateral side of the socket body 200, a mounting groove 248 is formed between the two first fixing blocks 240 (as shown in fig. 7), the two first fixing blocks 240 are provided with fixing ribs 242 protruding into the mounting groove 248, and the fixing ribs 242 are also received in the fixing grooves 406 and located at the outer sides of the two insertion sections 464 in the longitudinal direction.

As shown in fig. 7, 10 and 11, two second fixing blocks 260 are disposed at two longitudinal ends of the socket body 200, each of the two first fixing blocks 240 and the two second fixing blocks 260 has a counter bore 268 formed from bottom to top for accommodating a fixing nut 28, and the counter bore 268 has a downward counter table 270. The nut 28 has a hexagonal cylindrical portion 284 at an upper end and an annular flange portion 282 from a lower end of the cylindrical portion 284. The column portion 284 is received in the counterbore 268, the upper surface of the column portion 240 is attached to the counter sink 270, and the upper surface of the flange portion 284 is also attached to the lower surfaces (not numbered) of the first fixing block 240 and the second fixing block 260, so that the nut 28 can provide a large locking force when the card edge connector 100 is fastened to the fixing plate 180 by a screw.

The upper sides of the longitudinal outer sides of the two second fixing blocks 260 are provided with grooves 246, and the grooves 246 are filled with outer film plastic 600. The two second fixing blocks 260 extend and protrude toward one side of the board terminal connection part 140 in the lateral direction. The socket body 200 is provided with an auxiliary fixing block 290 between the first fixing block 240 and the second fixing block 260, and glue passing grooves 292 are provided between the auxiliary fixing block 290 and the first fixing block 240 and the second fixing block 260 (as shown in fig. 10). The socket body 200 is provided with a flange 272 (as shown in fig. 6 and 9) at the other lateral side opposite to the board coupling part 140, and upper surfaces of the auxiliary fixing block 290, the first fixing block 240, the second fixing block 260, and the flange 272 abut against a lower surface of the fixing plate 180. In addition, the auxiliary fixing block 290, the first fixing block 240, the second fixing block 260, and the flange 272 are respectively provided at upper sides thereof with a groove 246, and the outer film plastic 600 is wrapped into each groove 246, such that the outer film plastic 600 is completely wrapped around the socket body 200.

Referring to fig. 5 and 12, the card connecting terminal 320 of the card connecting portion 110 includes four synchronizing signal terminals 321, 322, 323, 324 for transmitting the same low frequency signals, in order to improve the synchronization consistency of the low frequency signals, the four synchronizing signal terminals 321, 322, 323, 324 are punched from a strip of material, and a connecting portion 325 is formed by punching the strip of material integrally to connect the four synchronizing signal terminals 321, 322, 323, 324 into a whole, and in addition, the four synchronizing signal terminals 321, 322, 323, 324 are electrically connected to the same cable 160, so that the welding of the cable can be reduced.

The card terminal fixing strip 340 has a lower end surface 346 and an outer side surface 348 located outside the two card terminal module 300, wherein a step (not numbered) is formed at the boundary between the lower end surface 346 and the outer side surface 348 by concave inward, and a lower step surface 342 and a side step surface 344 are formed corresponding to the lower end surface 346 and the outer side surface 348, respectively. Each card connecting terminal 320 includes a soldering portion 330 extending downward from the lower step surface 342 and the level side step surface 344, wherein the soldering portions of the four synchronization signal terminals 321, 322, 323, 324 extend downward beyond the lower end surface 346 and then bend inward of the two card terminal modules 300 to connect the connecting portion 325, so that the connecting portion 325 avoids the cable routing space for connecting other card connecting terminals 320.

Each card terminal module 300 further includes a ground strip 35, the ground strip 35 being attached to the outer side surface 348 of the card terminal fixing strip 340 and including claws 358 inserted into the card terminal fixing strip 240 to be connected to each ground terminal in the card connecting terminals 320, a connecting arm 360 longitudinally connecting the lower side of each claw 358, and a fixing piece 362 extending downward from the connecting arm 360. Lateral surface 348 is equipped with the groove of stepping down 350, the groove of stepping down 350 is including holding portion 352 and communicating part 354, holding portion 352 accepts claw 358 and connecting arm 360 of grounding strip 35, holding portion 352 is lengthwise shape and distributes in lateral surface 348 to pass through communicating part 354 intercommunication with card terminal fixed strip 340 downside, so that when 360 shaping of inner membrance plastic, fully link up this two parts. The fixing piece 362 and the fixing column 349 are in interference fit with each other to fix the ground strip on the card terminal fixing strip 340, so as to facilitate molding of the inner film plastic 360.

When the card edge connector 100 is assembled, the steps are sequentially performed as follows, the card connecting terminal 320, the material belt and the card terminal fixing strip 340 are integrally embedded and molded; cutting off the material belt after molding; bending four low- frequency signal terminals 321, 322, 323 and 324; installing a grounding strip 35; a weld cable 160; forming two card terminal modules 300 by secondary molding of the inner film plastic 360; after the two card terminal modules 300 are stacked, they are inserted into the socket body 200; a mounting plate connecting portion 140; finally, the outer film 600 is molded. In the step of molding the outer film, the step of pre-loading nut 28 into counterbore 268 and screwing screw 660 into nut 28 is further included, so as to ensure that screw 660 does not interfere with outer film plastic 600 when card edge connector 100 is mounted on the chassis.

As shown in fig. 12 to 16, a plug connector 700 includes a housing 70 and a tongue plate 72 fixed to the housing 70. The tongue plate 72 is formed by a circuit board, and a first row of conducting strips 722 and a second row of conducting strips 724 are transversely arranged at the front end of one side face of the tongue plate 72. A third row of conducting strips 726 and a fourth row of conducting strips 728 which are transversely arranged are arranged at the rear end of one side face of the tongue plate 72, and the third row of conducting strips 726 is positioned on the front side of the fourth row of conducting strips 728. The cable 160 includes a plurality of first cables 166 and a plurality of second cables 168. The third row 726 is connected to the first cable 166 and the fourth row 728 is connected to the second cables 168. Each cable 160 comprises two wires 170 and a shielding layer 172 covering the two wires 170, each wire 170 comprises a conductive core wire 174 and an insulating layer 176 covering the conductive core wire 174, the conductive core wire 174 exposes out of one end of the cable to form two signal conductors, two grounding conductors 178 connected with the shielding layer 172 are arranged on two outer sides of the signal conductors, the distance from the shielding layer 172 of the first cable 166 to the two signal conductors of the second cable 168 is a first distance a, the distance between the two signal conductors of the second cable 168 is a second distance B, and the first distance a is greater than the second distance B. Through the design, the coupling between the two signal conductors of the second cable 168 is greater than the coupling between the two signal conductors of the second cable 168 and the shielding layer of the first cable 166, so that the high-frequency performance of the signal conductors is improved, and further, the first distance a is greater than 1.5 times of the second distance B.

The plug connector 700 includes a protection plastic (not numbered), the protection plastic is coated and molded at a connection portion of the circuit board 72 and the cable 160, the cable 160 is bent to form a 90-degree angle, the bent portion is coated in the protection plastic to form a plug module (not numbered), and the plug module is inserted into the insulation body 70 from back to front, so as to form the plug connector 700.

Claims (10)

1. A plug connector assembly comprises an insulating body and a tongue plate fixed on the insulating body, wherein the tongue plate is formed by a circuit board, a first row of conducting strips and a second row of conducting strips which are transversely arranged are arranged at the front end of one side surface of the tongue plate, a third row of conducting strips and a fourth row of conducting strips which are transversely arranged are arranged at the rear end of one side surface of the tongue plate, the third row of conducting strips are arranged at the front side of the fourth row of conducting strips, the third row of conducting strips are connected with a plurality of first cables, the fourth row of conducting strips are connected with a plurality of second cables, each cable comprises two conducting wires and a shielding layer covering the two conducting wires, the two conducting wires comprise conducting core wires and insulating layers covering the conducting core wires, the conducting core wires expose one ends of the cables to form two signal conductors, and two grounding conductors connected with the shielding layer are arranged on the two outer sides of the signal conductors, the method is characterized in that: the distance between the shielding layer of the first cable and the two signal conductors of the second cable is a first distance, the distance between the two signal conductors of the second cable is a second distance, and the first distance is greater than the second distance.

2. The plug connector assembly of claim 1, wherein: the first distance is greater than 1.5 times the second distance.

3. The plug connector assembly of claim 2, wherein: the protective plastic is coated and molded at the connecting position of the circuit board and the cable to form a plug module, and the plug module is inserted into the insulating body from back to front to form a plug connector.

4. The plug connector assembly of claim 3, wherein: the cable is bent by 90 degrees, and the bent part is covered in the protective plastic.

5. The plug connector assembly of claim 4, wherein: the plug connector is used for being vertically plugged into a socket connector installed on a mainboard, the other end of the cable is connected to a card edge connector, the upper end of the card edge connector is provided with a card connecting part which can be in butt joint fit with a card edge, and the card connecting part is provided with a slot extending longitudinally and used for inserting and matching an electronic card.

6. The plug connector assembly of claim 5, wherein: the card connecting portion has a laterally projecting flange on its underside for securing to a chassis.

7. The plug connector assembly of claim 6, wherein: the frame is including the mounting panel that is equipped with the mounting groove, card edge connector upwards install in behind the mounting groove, card connecting portion salient in the front side of mounting panel, the flange top leans on the downside of mounting panel.

8. The plug connector assembly of claim 7, wherein: the flange of the card connecting part of the card edge connector is provided with a screw fastening structure, and the screw fastening structure is fastened to the mounting plate upwards.

9. The plug connector assembly of claim 8, wherein: the mounting panel is the circuit board, card edge connector still includes the board connecting portion, the partial cable that plug connector connects is connected to the board connecting portion, the board connecting portion are connected to the mounting panel.

10. The plug connector assembly of claim 9, wherein: the board connecting portion is equipped with many board connecting terminals, board connecting terminal is equipped with roughly parallel to the contact site that the mounting panel direction extends, the contact site has the contact surface towards the mounting panel, card edge connector installs behind the mounting panel, the elastic contact face supports the metal conducting strip of pressing in the setting of mounting panel surface, thereby realizes board connecting terminal with the electricity of mounting panel is connected, card connecting portion are provided with a plurality of low frequency signal terminals, low frequency signal terminal pass through the cable connect in board connecting portion board connecting terminal.

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