JP2019192601A - connector - Google Patents

Abstract

To reduce the size of a connector and facilitate cable connection and line-arrangement while having a structure capable of parallel transmission of a plurality of pairs of differential signals.SOLUTION: Of terminals 31A to 31H arranged in a line in a sideways direction, respective rear ends of the terminals 31B, 31C, 31F, 31G are provided with individual connection parts 33 to which signal lines of cables are connected, and respective rear ends of the terminals 31A, 31D, 31E, and 31H are provided with terminal coupling parts 43 for coupling these terminals. The terminal coupling parts 43 extend in the sideways direction above the respective individual connection parts 33 so as to overlap the individual connection parts 33 in a vertical direction. Each terminal coupling part 43 is provided with a collective connection part 45 to which a drain line of the cable 5 is connected. The collective connection part 45 projects from the terminal coupling part 43. A projecting end of the collective connection part 45 is disposed between the individual connection part 33 of the terminal 31C and the individual connection part 33 of the terminal 31F.SELECTED DRAWING: Figure 11

Description

  The present invention relates to a connector having a plurality of terminals.

  Recently, there has been a demand for a technique for performing high-speed transmission of a plurality of signals at once for a composite apparatus having functions such as video and audio reproduction and communication. In such a technical field, a connector that can perform parallel transmission of a plurality of pairs of differential signals is known. In order to transmit a differential signal, it is desirable to provide a connector with a combination of terminals including a pair of adjacent signal terminals and a pair of ground terminals arranged on both sides of the pair of signal terminals. A connector capable of parallel transmission of a plurality of pairs of differential signals is provided with a plurality of combinations of such terminals. For example, the following Patent Document 1 describes a connector having such a structure. The connector of Patent Document 1 is provided with five ground contacts and four pairs of high-speed signal contacts, and these contacts are arranged so that the ground contacts are located on both sides of each pair of high-speed signal contacts. .

JP 2009-295450 A

  By the way, downsizing of the connector is demanded. In addition, when soldering a signal line and a drain line of a cable to a signal terminal and a ground terminal of a connector, it is required to facilitate the soldering. Further, when assembling a connector, it is required to facilitate the alignment of signal lines and drain lines connected to signal terminals and ground terminals.

  A connector capable of parallel transmission of a plurality of pairs of differential signals has a large number of terminals. Therefore, when the connector is downsized, the contact area between the signal line and drain line of the cable and the signal terminal and ground terminal of the connector is reduced. . For this reason, it becomes difficult to solder and it becomes easy to produce defective soldering, such as poor conduction and a solder bridge.

  In addition, in the connector that can perform parallel transmission of a plurality of pairs of differential signals, since the ground terminals are arranged on both sides of each pair of signal terminals, the ends of the cable drain wires are branched to Must be connected to the ground terminal. For this reason, when the connector is downsized, it is difficult to arrange the signal line and the drain line in the housing of the connector.

  In this regard, in the connector described in Patent Document 1, a connecting portion that connects the ground contacts is provided at the rear ends of the plurality of ground contacts, and one soldering portion that extends backward from a part of the connecting portion. Is provided. According to such a structure, if the drain wire is soldered to the one soldering portion, the drain wire can be electrically connected to the plurality of ground contacts connected by the connecting portion. The number of branches at the end can be reduced. However, in the connector described in Patent Document 1, since the connecting portion and the soldering portion are arranged on the rear side of the rear end of each high-speed signal contact, the size in the front-rear direction of the connector is increased, and the size of the connector is increased. There is a risk that.

  Furthermore, in a connector that can perform parallel transmission of a plurality of pairs of differential signals, the balance of the amplitude and phase of the signal flowing through each pair of signal terminals can be maintained, and the differential impedance of the connector can be connected to the connector. It is required to match the characteristic impedance of the connected cable, mating connector or electrical / electronic device. In order to meet this requirement, it is desirable to make the positional relationship between each signal terminal and the ground terminal uniform (for example, to make the distance between each signal terminal and the ground terminal as equal as possible). For this reason, in the case of forming a structure in which a plurality of ground terminals (ground contacts) are connected as in the connector described in Patent Document 1, the positional relationship between each signal terminal and the ground terminal is uniform due to the connecting structure. It is desirable to take care not to collapse. It is not easy to form a connection structure of a plurality of ground terminals while reducing the size of the connector and maintaining the uniformity of the positional relationship between each signal terminal and the ground terminal.

  The present invention has been made in view of, for example, the problems described above, and an object of the present invention is to reduce the size of a connector and a cable while having a structure capable of parallel transmission of a plurality of pairs of differential signals. It is an object of the present invention to provide a connector capable of facilitating connection and wiring.

  In order to solve the above problems, the connector of the present invention includes a plurality of terminals including at least first, second, third, fourth, fifth, sixth, and seventh terminals that extend in the front-rear direction. , First, second, third, fourth, fifth, sixth and seventh terminals are arranged in a line in this order from left to right, and the first, second, third, fourth, fifth The contact portions that contact the terminals of the mating connector are provided on the front end sides of the sixth and seventh terminals, respectively, and the rear end sides of the second, third, fifth, and sixth terminals are provided on the rear end sides. A first connecting portion to which the transmission medium is connected is provided, and a terminal connecting portion for connecting these terminals is provided on the rear end side of each of the first, fourth and seventh terminals. The portion extends in the left-right direction above each first connection portion so as to overlap each first connection portion in the vertical direction, and the terminal connection The second connection part to which the transmission medium is connected is provided in the part, the second connection part protrudes from the terminal connection part, and the protruding end side of the second connection part is the first connection part of the third terminal. And the first connection portion of the fifth terminal.

  In the connector according to the present invention, the second connecting portion may be configured to bend forward from the rear edge portion of the terminal coupling portion and then forward and then extend forward. In the connector according to the present invention, the bottom surface of the second connection portion on the protruding end side and the bottom surface of each first connection portion may have the same position in the vertical direction. In the connector according to the present invention, the terminal connecting portion may be formed in a plate shape that extends in the front-rear and left-right directions, and covers the top of each first connection portion. In the connector according to the present invention, the distance in the vertical direction between the terminal connecting portion and each first connecting portion may be equal. In the connector according to the present invention, the first, second, third, and fourth terminals include a first terminal set including a pair of signal terminals adjacent to each other and a pair of ground terminals disposed on both sides thereof. The fourth, fifth, sixth, and seventh terminals may constitute a second terminal set including a pair of signal terminals adjacent to each other and a pair of ground terminals disposed on both sides thereof. . In the connector according to the present invention, the fourth terminal may be composed of at least two terminals arranged in a line on the left and right.

  According to the present invention, it is possible to reduce the size of the connector and to facilitate cable connection and wiring while providing a structure capable of performing parallel transmission of a plurality of pairs of differential signals.

It is an external view of the connector of the embodiment of the present invention. It is an exploded view of the connector in FIG. It is the external view which looked at the terminal unit of the connector in FIG. 2 from the upper right front. It is the external view which looked at the terminal unit in FIG. 3 from the lower right back. It is the external view which looked at the terminal unit in FIG. 3 from the front. FIG. 4 is an exploded view of the terminal unit in FIG. 3. It is the external view which looked at the terminal of the connector of embodiment of this invention from the lower right back. It is the external view which looked at the terminal in FIG. 7 from the right side. It is the external view which looked at the connecting terminal body of the embodiment of the present invention from the lower right rear. It is the external view which looked at the connecting terminal body in FIG. 9 from the right side. In the connector of embodiment of this invention, it is explanatory drawing which looked at the terminal arranged in the predetermined arrangement | sequence from the upper right back. It is explanatory drawing which looked at the terminal in FIG. 11 from the lower right back. In the connector of other embodiment of this invention, it is explanatory drawing which looked at the terminal arranged in the predetermined arrangement from the upper right back. It is explanatory drawing which shows the connection terminal body in the connector of other embodiment of this invention. It is explanatory drawing which shows the connection terminal body in the connector of further another embodiment of this invention.

  An embodiment of the connector of the present invention will be described. In the description of the embodiments, for the sake of convenience of explanation, regarding the shape, arrangement, or operation of the connector and its components, front (F), rear (B), left (L), right (R), upper (U) When describing the lower (D) direction, the arrow drawn at the lower right in the figure is followed.

(connector)
As shown in FIG. 1, a connector 1 according to an embodiment of the present invention is a plug connector attached to a cable 5 as a transmission medium. As shown in FIG. 2, the connector 1 includes a terminal unit 11, a shell 61, and a housing 71.

  As will be described later, the terminal unit 11 is a unit in which a plurality of terminals 31A to 31L are accommodated in the holder 12 (see FIG. 5).

  The shell 61 is a member that shields the terminals 31A to 31L. The shell 61 has a shell body 62 and a shell cover 67, both of which are made of a conductive material. The shell body 62 covers the lower surface, the left surface, and the right surface of the terminal unit 11. The shell cover 67 covers the upper surface of the terminal unit 11. The shell main body 62 inserts a shell locking convex portion 18 (see FIG. 4) formed on the lower surface of the holder 12 of the terminal unit 11 into a unit locking hole 63 formed in the lower wall of the shell main body 62, and The unit locking projections 64 formed on the left wall and the right wall of the shell body 62 are locked to the shell locking portions 17 formed on the left surface and the right surface of the holder 12 of the terminal unit 11, respectively, so that the terminal unit. 11 is attached. Further, the shell cover 67 engages the main body locking projections 68 formed at the left end and the right end of the shell cover 67 with the cover locking holes 65 formed at the left wall and the right wall of the shell main body 62, respectively. It is attached to the shell body 62 by stopping. A barrel 70 for crimping the cable 5 is provided on the rear side of the shell main body 62.

  The housing 71 is made of an insulating material. The front part of the terminal unit 11 to which the shell 61 is attached is attached to the lower side of the substantially plate-like front part 72 of the housing 71, and the rear part of the terminal unit 11 to which the shell 61 is attached is the substantially rectangular tube of the housing 71. The rear part 73 of the shape is surrounded. The terminal unit 11 to which the shell 61 is attached has an insertion hole formed in a portion slightly protruding downward from the front end portion of the front portion 72 of the housing 71 with a protrusion portion 69 protruding forward from the front end portion of the shell cover 67. 74, and unit support pieces 75 formed respectively on the left wall and the right wall of the rear part 73 of the housing 71 are brought into contact with the left end part and the right end part on the rear surface of the terminal unit 11 to which the shell 61 is attached. It is supported by the housing 71. Further, a lock portion 76 for locking the connector 1 to the mating connector is provided on the upper portion of the housing 71.

(Terminal unit)
As illustrated in FIGS. 3 and 6, the terminal unit 11 includes a holder 12 and a plurality of terminals 31 </ b> A to 31 </ b> L. The holder 12 is a member that accommodates the terminals 31A to 31L. The holder 12 includes a front holder portion 13 and a rear holder portion 20 that are both made of an insulating material.

  As shown in FIG. 5, terminals 31 </ b> A to 31 </ b> H are arranged on the lower stage of the holder 12, and terminals 31 </ b> I to 31 </ b> L are arranged on the upper stage of the holder 12. On the front surface of the front holder part 13, a hole-like fitting part 14 into which the fitting part of the mating connector is fitted is formed. In the fitting part 14, the contact part 32 formed in the front-end side of each terminal 31A-31L is arrange | positioned. In addition, a plurality of terminal accommodation holes 15 that accommodate the contact portions 32 of the terminals 31 </ b> A to 31 </ b> L are formed in the front holder portion 13. A housing portion (not shown) for housing the terminal connecting portion 43 is formed inside the rear holder portion 20. Further, as shown in FIG. 4, a plurality of individual connections in which individual connection portions 33 formed on the rear end side of the terminals 31B, 31C, 31F, and 31G are arranged in the rear lower portion of the rear holder portion 20, respectively. A part receiving groove 21 and a collective connecting part receiving groove 22 in which a collective connecting part 45 described later is disposed are formed. In addition, as shown in FIG. 3, a plurality of individual connection portion receiving grooves 23 in which individual connection portions 33 formed on the rear end sides of the terminals 31 </ b> I to 31 </ b> L are respectively arranged in the rear upper portion of the rear holder portion 20. Is formed.

  Further, as shown in FIGS. 3 and 4, holder locking convex portions 16 for locking the front holder portion 13 and the rear holder portion 20 are formed on the upper surface and the lower surface of the front holder portion 13, respectively. ing. In addition, holder locking holes 24 for locking the front holder part 13 and the rear holder part 20 are formed in the upper part and the lower part of the rear holder part 20, respectively. Further, the shell locking portion 17 is formed on the left surface and the right surface of the front holder portion 13, and the shell locking convex portion 18 is formed on the lower surface of the front holder portion 13.

  After the terminal unit 11 inserts the contact portions 32 of the terminals 31 </ b> A to 31 </ b> L into the respective terminal receiving holes 15 of the front holder portion 13 from the rear, the rear holder portion 20 is attached to the front holder portion 13 from the rear. Each holder locking projection 16 is assembled by being locked in the holder locking hole 24. Although not shown, the rear holder portion 20 has a communication hole that opens to the front of the rear holder portion 20 and communicates with the individual connection portion accommodation groove 21, and a housing portion that accommodates the terminal coupling portion 43. A communication hole that communicates with the connection portion accommodation groove 22 and a communication hole that opens in front of the rear holder portion 20 and communicates with the individual connection portion accommodation groove 23 are formed. When the rear holder portion 20 is attached to the front holder portion 13, the individual connection portions 33 of the terminals 31B, 31C, 31F, and 31G, the collective connection portion 45, and the individual connection portions 33 of the terminals 31I to 31L correspond to the corresponding communication. As shown in FIG. 4, the individual connection portions 33 of the terminals 31 </ b> B, 31 </ b> C, 31 </ b> F, and 31 </ b> G are disposed in the individual connection portion receiving grooves 21 and the collective connection portions 45 are disposed in the collective connection portion receiving grooves 22. Then, as shown in FIG. 3, the individual connection portions 33 of the terminals 31 </ b> I to 31 </ b> L are arranged in the individual connection portion receiving grooves 23.

  A total of twelve terminals 31A to 31L provided in the connector 1 are all formed in an elongated substantially plate shape by a conductive material, for example, a metal material such as a copper alloy. 7 and 8 show the second terminal 31B from the left among the eight terminals 31A to 31H arranged in the lower stage of the holder 12. FIG. As shown in FIG. 8, the contact part 32 which contacts the terminal of the other party connector is provided in the front end side of the terminal 31B. The contact portion 32 is formed by bending a part of the front end side of the terminal 31B so as to protrude upward, and the upper surface of the contact portion 32 contacts the terminal of the mating connector. In addition, an individual connection portion 33 as a first connection portion to which a conductor such as a signal line or a drain line of the cable 5 is connected is provided on the rear end side of the terminal 31B. As shown in FIG. 7, the individual connection portion 33 has a larger dimension in the left-right direction than the contact portion 32 and is formed in a flat plate shape that extends in the front-rear and left-right directions. The conductor of the cable 5 is soldered to the lower surface 33 </ b> A of the individual connection portion 33. Further, in the terminal 31 </ b> B, a bent portion 34 is formed between the front-rear direction intermediate portion and the individual connection portion 33. Due to the bent portion 34, the individual connection portion 33 of the terminal 31B is slightly displaced above the intermediate portion in the front-rear direction of the terminal 31B. In addition, protrusions 35 are respectively formed on the left and right surfaces of the center portion of the terminal 31B in the front-rear direction. With these projections 35, the terminal 31 </ b> B is locked in the terminal accommodating hole 15 of the front holder portion 13.

  Of the eight terminals 31A to 31H arranged at the lower stage of the holder 12, the third terminal 31C from the left is also substantially the same shape as the terminal 31B shown in FIGS. 7 and 8 (for example, the front end portion of the individual connection portion 33). Except that the shapes are slightly different, they have exactly the same shape). Of the eight terminals 31A to 31H arranged at the lower stage of the holder 12, the two terminals 31F and 31G arranged sixth and seventh from the left are two from the left of the terminals 31A to 31H. The third and third terminals 31B and 31C are symmetrical to each other.

  FIG. 9 shows the first, fourth, fifth, and eighth terminals 31A, 31D, 31E, and 31H from the left among the eight terminals 31A to 31H arranged in the lower stage of the holder 12. . The terminals 31A, 31D, 31E, and 31H constitute a connecting terminal body 40 by being connected by a terminal connecting portion 43 described later. FIG. 10 shows a state in which the connecting terminal body 40 is viewed from the right side. As shown in FIG. 10, the contact portion 32 is provided on the front end side of the terminal 31 </ b> H similarly to the terminal 31 </ b> B described above, and the upper surface of the contact portion 32 is in contact with the terminal of the mating connector. Further, a bent portion 42 is formed at a portion of the terminal 31H on the rear side of the central portion in the front-rear direction. The terminal 31H is bent in a substantially crank shape at the bent portion 42, and the bent portion 42 causes the rear end portion of the terminal 31H to be largely displaced above the center portion in the front-rear direction of the terminal 31H. Further, as shown in FIG. 9, protrusions 35 for locking the terminal 31 </ b> H in the terminal receiving hole 15 of the front holder portion 13 are formed on the left and right surfaces of the center portion in the front-rear direction of the terminal 31 </ b> H. . In each of the terminals 31A, 31D, and 31E, a portion in front of the terminal connecting portion 43 has the same shape as that of the portion in front of the terminal connecting portion 43 in the terminal 31H.

  Moreover, as shown in FIG. 9, the terminal connection part 43 which connects these four terminals is provided in the rear end side of each terminal 31A, 31D, 31E, 31H. The terminal connecting portion 43 is integrally formed with the terminals 31A, 31D, 31E, and 31H by the same conductive material as the terminals 31A, 31D, 31E, and 31H. The terminals 31A, 31D, 31E, and 31H are electrically connected by the terminal connecting portion 43, respectively. It is connected to the. Moreover, the terminal connection part 43 is formed in the flat form extended in the front-back, left-right direction.

  The terminal connecting portion 43 is provided with a collective connecting portion 45 as a second connecting portion to which a conductor such as a signal line or a drain line of the cable 5 is connected. The collective connection portion 45 is integrally formed with the terminal connection portion 43 by the same conductive material as the terminal connection portion 43. The collective connection portion 45 is formed in a wide plate shape having a large horizontal dimension as compared with the contact portion 32 of each terminal 31A, 31D, 31E, 31H, and the horizontal center of the rear edge of the terminal connecting portion 43 It protrudes from the part. Further, the collective connection portion 45 is folded back from the rear edge portion of the terminal connection portion 43 and extends below the terminal connection portion 43 forward. That is, the collective connecting portion 45 bends downward from the rear edge portion of the terminal connecting portion 43, then bends forward, and then extends forward. Further, the tip end portion on the protruding end side of the collective connection portion 45 bends upward and approaches the lower surface of the terminal coupling portion 43. Further, the lower surface 45A on the protruding end side of the collective connecting portion 45 is a flat surface extending in the front / rear and left / right directions, and the conductor of the cable 5 is soldered to the lower surface 45A.

  As shown in FIG. 11, the eight terminals 31 </ b> A to 31 </ b> H arranged in the lower stage of the holder 12 are arranged in parallel in the left-right direction and at equal intervals. The terminals 31A to 31H are arranged in the order of the terminal 31A, the terminal 31B, the terminal 31C, the terminal 31D, the terminal 31E, the terminal 31F, the terminal 31G, and the terminal 31H from the left to the right. Moreover, the front ends of the terminals 31A to 31H are aligned in the front-rear direction, and the front ends and rear ends of the individual connection portions 33 of the terminals 31B, 31C, 31F, 31G are also aligned in the front-rear direction.

  Further, the terminal connecting portion 43 extends in the left-right direction above the individual connection portions 33 so as to overlap the individual connection portions 33 of the terminals 31B, 31C, 31F, 31G in the vertical direction. Further, the individual connection portions 33 of the terminals 31B, 31C, 31F, and 31G are arranged in parallel so that their upper and lower surfaces 33A are aligned in the vertical direction, and the terminal connection portion 43 includes the terminals 31B, 31C, 31F, It is arranged in parallel with the 31G individual connection portion 33. Moreover, the terminal connection part 43 has covered the upper surface of each individual connection part 33 widely from the upper direction entirely. Moreover, the distance in the up-down direction between the terminal connection part 43 and each individual connection part 33 is equal, respectively.

  Further, as shown in FIG. 12, the protruding end side of the collective connection portion 45 is disposed between the individual connection portion 33 of the terminal 31C and the individual connection portion 33 of the terminal 31F. Adjacent. Further, the upper surface and the lower surface 45A on the protruding end side of the collective connection portion 45 are arranged so as to align with the upper surface and the lower surface 33A of each individual connection portion 33 in the vertical direction. That is, the lower surface 45A on the protruding end side of the collective connection portion 45 and the lower surface 33A of each individual connection portion 33 are in the same plane. The front end and the rear end of the lower surface 45A on the protruding end side of the collective connection portion 45 are substantially aligned with the front end and the rear end of the lower surface 33A of each individual connection portion 33 in the front-rear direction.

  As shown in FIG. 6, the four terminals 31I to 31L arranged on the upper stage of the holder 12 are arranged in parallel to each other in the left-right direction and at equal intervals.

  As shown in FIGS. 5 and 11, in the connector 1 of this embodiment, among the eight terminals 31A to 31H arranged at the lower stage of the holder 12, the terminals 31A to 31D are a pair of first high-speed differentials. A first terminal set S1 for transmitting signals is configured. That is, among the terminals 31A to 31D, a pair of adjacent terminals 31B and 31C function as a pair of signal terminals for flowing a pair of first high-speed differential signals. The terminals 31A and 31D adjacent to both sides of the pair of signal terminals 31B and 31C each function as a ground terminal for the first high-speed differential signal. Of the eight terminals 31A to 31H arranged in the lower stage of the holder 12, the terminals 31E to 31H constitute a second terminal set S2 for transmitting a pair of second high-speed differential signals. That is, of the terminals 31E to 31H, a pair of terminals 31F and 31G adjacent to each other function as a pair of signal terminals for flowing a pair of second high-speed differential signals. Further, terminals 31E and 31H adjacent to both sides of the pair of signal terminals 31F and 31G function as ground terminals for the second high-speed differential signal, respectively. In this case, a pair of signal lines for transmitting a pair of first high-speed differential signals in the cable 5 are connected to the individual connection portions 33 of the terminals 31B and 31C, respectively. Further, a pair of signal lines for transmitting a pair of second high-speed differential signals in the cable 5 are connected to the individual connection portions 33 of the terminals 31F and 31G, respectively. Further, the drain line or the ground line of the cable 5 is connected to the collective connection portion 45.

  5 and 6, in the connector 1 of the present embodiment, among the four terminals 31I to 31L arranged on the upper stage of the holder 12, the terminals 31J and 31K arranged at the center in the left-right direction are It functions as a terminal for transmitting a pair of low-speed differential signals or two types of low-speed signals. In addition, the terminal 31I and the terminal 31J arranged at the leftmost and rightmost positions in the upper stage of the holder 12 have a larger dimension in the left-right direction than any of the terminals 31A to 31F, 31J, 31K (for example, a dimension in the left-right direction). Are wider than terminals 31B and J). One of the terminals 31I and 31J functions as a power supply terminal, and the other of the terminals 31I and 31J serves as a power supply, a pair of low-speed differential signals or a low-speed signal ground terminal. Function. In this case, a pair of signal lines for transmitting a pair of low-speed differential signals in the cable 5 or two signal lines for transmitting two types of low-speed signals are connected to the individual connection portions 33 of the terminals 31J and 31K. Are connected to each other. Further, the individual connection portion 33 of the terminal 31I, 31H that functions as a power supply terminal is connected to the power supply line of the cable 5, and the terminal 31I, 31H of the terminal, the individual connection portion 33 that functions as a ground terminal. The drain line or ground line of the cable 5 is connected. The high-speed differential signal is a differential signal having a frequency of several GHz, for example, and the low-speed differential signal is a differential signal having a frequency of several hundred MHz, for example.

  As described above, in the connector 1 according to the embodiment of the present invention, among the eight terminals 31A to 31H arranged in the lower stage of the holder 12, the terminals that connect the rear end sides of the terminals 31A, 31D, 31E, and 31H. A connecting portion 43 is provided, and one collective connecting portion 45 is provided at the terminal connecting portion 43. The terminals 31A to 31D constitute a first terminal set S1 for transmitting a pair of first high-speed differential signals, and the terminals 31E to 31H are used to transmit a pair of second high-speed differential signals. When the terminal set S2 is configured, the drain line of the cable 5 is connected to one collective connection portion 45, and the drain line is used as four terminals 31A, 31D, 31E, which function as ground terminals. It can be electrically connected to 31H. Therefore, when connecting the cable 5 to the connector 1, the number of branch ends of the drain line of the cable 5 can be reduced, and the signal line and the drain line in the housing 71 of the connector 1 can be easily arranged. be able to.

  Moreover, in the connector 1, the terminal connection part 43 is arrange | positioned so that it may overlap with the individual connection part 33 of each of the terminals 31B, 31C, 31F, and 31G which function as a signal terminal in the up-down direction. As a result, the connection portion of the ground terminal (ground contact) is arranged before and after the connector 1 as compared with the connector described in Patent Document 1 in which the connection portion is arranged behind the rear end of each signal terminal (high-speed signal contact). The direction dimension can be reduced, and the connector 1 can be reduced in size.

  In the connector 1, the collective connecting portion 45 bends downward from the rear edge portion of the terminal connecting portion 43 and then bends forward, and thereafter, between the individual connecting portion 33 of the terminal 31 </ b> C and the individual connecting portion 33 of the terminal 31 </ b> F. Is extended forward. Thus, by arranging the collective connection portion 45 so as to line up with the individual connection portions 33 of the terminals 31B, 31C, 31F, and 31G in the left-right direction, the size of the connector 1 in the front-rear direction can be further reduced. Thus, the connector 1 can be further reduced in size.

  Further, in the connector 1, the four terminals 31A, 31D, 31E, and 31H that function as the ground terminals are provided with one collective connection portion 45 that is connected to the four terminals 31A, 31D, 31E, and 31H. Compared with the configuration in which the connection portions for connecting the drain lines are provided in each of these and the four connection portions are arranged in the left-right direction, the size in the left-right direction of the connector 1 can be reduced, or the terminals 31A, 31D, The horizontal dimension (width dimension) of the individual connection portions 33 of the four terminals 31B, 31C, 31F, and 31G, which are arranged in the same row as 31E and 31H and function as signal terminals, can be increased. By increasing the horizontal dimensions of the individual connection portions 33 of the terminals 31B, 31C, 31F, and 31G, the contact area between each individual connection portion 33 and the signal line of the cable 5 can be increased. Therefore, it is possible to easily solder the signal line to each individual connection portion 33, and it is possible to suppress poor conduction such as poor conduction and solder bridge.

  Further, in the connector 1, the lower surface 33A of the individual connection portion 33 of the terminals 31B, 31C, 31F, and 31G and the lower surface 45A on the protruding end side of the collective connection portion 45 are aligned in the vertical direction, and these lower surfaces 33A, 45A. Are in the same vertical position. As a result, the operation of soldering the four signal lines of the cable 5 to the lower surface 33A of the individual connection part 33 of the terminals 31B, 31C, 31F, 31G and the drain line of the cable 5 on the protruding end side of the collective connection part 45 are performed. The operation of soldering to the lower surface 45A can be performed in a lump. In other words, it is easy to arrange a plurality of wires on the same plane and arrange them together, and it is easy to melt the solder by applying heat to the plurality of wires arranged on the same plane. It is. According to the connector 1, it is possible to easily and highly accurately solder the four signal lines and the one drain line to the individual connection portion 33 and the collective connection portion 45. The ease and reliability of the soldering can be increased, and the number of soldering work steps can be reduced.

  Further, in the connector 1, the terminal connecting portion 43 extends in the left-right direction above the individual connection portions 33 of the terminals 31B, 31C, 31F, and 31G that function as signal terminals. As a result, the positional relationship between the individual connection portion 33 and the terminal connection portion 43 of each of the terminals 31B, 31C, 31F, and 31G can be made uniform. Furthermore, in the connector 1, the distance in the up-down direction between the individual connection part 33 and the terminal connection part 43 of each terminal 31B, 31C, 31F, 31G is equal, respectively. Thereby, the uniformity of the positional relationship of the individual connection part 33 and the terminal connection part 43 of each terminal 31B, 31C, 31F, 31G can be improved. Therefore, the balance of the amplitude and phase of the pair of first high-speed differential signals flowing through the terminals 31B and 31C can be maintained, and the pair of second high-speed differential signals flowing through the terminals 31F and 31G, respectively. Amplitude and phase balance can be maintained. Further, the differential impedance of the connector 1 can be easily matched to the characteristic impedance of the cable 5 connected to the connector 1, the mating connector, or the electric / electronic device.

  Moreover, in the connector 1, the terminal connection part 43 is formed in the plate shape extended in the front-back, left-right direction, and has covered the upper part of the individual connection part 33 of each terminal 31B, 31C, 31F, 31G widely. In this way, by bringing the terminal connecting portion 43 close to the individual connecting portion 33 over a wide range, it is easy to match the differential impedance of the connector 1 and the specific impedance of the cable 5, the mating connector, or the electric / electronic device. It can be carried out.

  Further, in the connector 1, the collective connection portion 45 is disposed between the individual connection portion 33 of the terminal 31C and the individual connection portion 33 of the terminal 31F, whereby the pair of the individual connection portions 33 of the terminals 31B and 31C and the terminal 31F. The pair of individual connection portions 33 of 31G can be separated from each other, and a pair of first high-speed differential signals flowing through the terminals 31B and 31C and a pair of second high-speed differential signals flowing through the terminals 31F and 31G and Crosstalk between the two can be suppressed.

  In the above embodiment, the case where the eight terminals 31A to 31H are provided in the lower stage of the holder 12 is taken as an example. However, as shown in FIG. 13, the seven terminals 81A to 81G are provided in the lower stage of the holder 12. May be. In this case, as shown in FIG. 14, the connecting terminal body 80 is obtained by connecting the first terminal 81A from the left, the fourth terminal 81D from the left, and the seventh terminal 81G from the left by the terminal connecting portion 43. Configure. In this case, as shown in FIG. 13, the terminals 81 </ b> A to 81 </ b> D constitute a first terminal set S <b> 1 for transmitting a pair of first high-speed differential signals. That is, the terminals 81B and 81C function as a pair of signal terminals for flowing a pair of first high-speed differential signals, and the terminals 81A and 81D function as a ground terminal for the first high-speed differential signal. Also, the terminals 81D to 81G constitute a second terminal set S2 for transmitting a pair of second high-speed differential signals. That is, the terminals 81E and 81F function as a pair of signal terminals for flowing a pair of second high-speed differential signals, and the terminals 81D and 81G function as a ground terminal for the second high-speed differential signal. The terminal 81D is a common terminal included in both the first terminal set S1 and the second terminal set S2.

  Further, in the connector 1 according to the embodiment of the present invention, like the terminal coupling body 90 shown in FIG. 15, the vertical direction of each terminal constituting the coupling terminal body may be reversed.

  In the connector of the present invention, three or more terminal sets each including a pair of signal terminals and a pair of ground terminals on both sides thereof may be provided. Moreover, it is good also as a structure without the terminals 31I-31L in the connector of this invention. In the connector of the present invention, eight terminal arrays as shown in FIG. 11 and seven terminal arrays as shown in FIG. 13 may be provided in the upper and lower stages of the holder, respectively. The connector of the present invention is not limited to a plug connector. The transmission medium connected to the connector of the present invention is not limited to a cable. Moreover, although the connector of this invention is suitable as a connector which transmits two pairs of high-speed differential signals, the signal transmitted by the connector of this invention is not restricted to a high-speed differential signal.

  In the above embodiment, the terminal 31A is a specific example of the first terminal, the terminal 31B is a specific example of the second terminal, the terminal 31C is a specific example of the third terminal, and the terminal 31D and the terminal 31E is a specific example of the fourth terminal, terminal 31F is a specific example of the fifth terminal, terminal 31G is a specific example of the sixth terminal, and terminal 31H is a specific example of the seventh terminal. . The terminal 81A is a specific example of the first terminal, the terminal 81B is a specific example of the second terminal, the terminal 81C is a specific example of the third terminal, and the terminal 81D is a specific example of the fourth terminal. The terminal 81E is a specific example of the fifth terminal, the terminal 81F is a specific example of the sixth terminal, and the terminal 81G is a specific example of the seventh terminal.

  Further, the present invention can be appropriately changed without departing from the spirit or idea of the invention which can be read from the claims and the entire specification, and a connector accompanying such a change is also included in the technical idea of the present invention. It is.

1 Connector 5 Cable (Transmission medium)
11 Terminal unit 12 Holder 31A to 31H, 81A to 81G Terminal (first to seventh terminals)
32 Contact part 33 Individual connection part (1st connection part)
33A Lower surface 43 Terminal connecting portion 45 Collective connecting portion (second connecting portion)
45A bottom surface

Claims (7)

A plurality of terminals including at least first, second, third, fourth, fifth, sixth and seventh terminals respectively extending in the front-rear direction;
The first, second, third, fourth, fifth, sixth and seventh terminals are arranged in a line in this order from left to right;
On the front end side of each of the first, second, third, fourth, fifth, sixth, and seventh terminals, a contact portion that contacts the terminal of the mating connector is provided.
A first connection portion to which a transmission medium is connected is provided on the rear end side of each of the second, third, fifth, and sixth terminals,
On the rear end side of each of the first, fourth and seventh terminals, a terminal connecting portion for connecting these terminals is provided,
The terminal connecting portion extends in the left-right direction above each first connection portion so as to overlap each first connection portion in the vertical direction,
The terminal connection part is provided with a second connection part to which the transmission medium is connected,
The second connecting portion protrudes from the terminal connecting portion, and the protruding end side of the second connecting portion is the first connecting portion of the third terminal and the first connecting portion of the fifth terminal. A connector characterized by being arranged between and.   2. The connector according to claim 1, wherein the second connection portion is bent forward from a rear edge portion of the terminal coupling portion, then bent forward, and then extended forward.   3. The connector according to claim 1, wherein a position in a vertical direction of a lower surface on the protruding end side of the second connection portion and a lower surface of each first connection portion are aligned with each other.   The connector according to any one of claims 1 to 3, wherein the terminal connecting portion is formed in a plate shape extending in the front-rear and left-right directions, and covers an upper portion of each of the first connecting portions.   5. The connector according to claim 1, wherein distances in the vertical direction between the terminal connecting portion and the first connecting portions are equal to each other. The first, second, third and fourth terminals constitute a first terminal set consisting of a pair of signal terminals adjacent to each other and a pair of ground terminals disposed on both sides thereof.
The fourth, fifth, sixth, and seventh terminals constitute a second terminal set including a pair of signal terminals adjacent to each other and a pair of ground terminals disposed on both sides thereof. Item 6. The connector according to any one of Items 1 to 5.   The connector according to claim 1, wherein the fourth terminal includes at least two terminals arranged in a line on the left and right.

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