JP6619495B2 - connector - Google Patents

Description

  The present invention relates to a connector including a differential pair of signal contacts for high-speed signal transmission.

  For example, Patent Document 1 discloses this type of connector.

  Referring to FIG. 15, Patent Document 1 discloses a connector including a housing (not shown) and a plurality of lower terminals (contacts) 90 held by the housing. The contact 90 includes a differential pair for high-speed signal transmission composed of two signal contacts 90S. Each of the signal contacts 90S is in contact with a mating contact (not shown) of a mating connector (not shown), and extends in a direction crossing the horizontal portion 92 to a circuit board (not shown). And an intersecting portion 94 to be fixed. In each of the signal contacts 90S, the intersecting portion 94 is partially provided with a wide portion 942 wider than the horizontal portion 92, so that the impedances of the two signal contacts 90S are matched.

JP 2011-9151 A

  Even when impedance is matched as disclosed in Patent Document 1, there is a risk that signal degradation such as signal distortion may occur as the frequency of the signal increases. That is, when transmitting a high-frequency signal, good frequency characteristics cannot be obtained only by impedance matching.

  Accordingly, an object of the present invention is to provide a connector including a differential pair, and including a contact having a new structure for obtaining good frequency characteristics.

The present invention provides the first connector as
A connector that can be mounted on a circuit board and can be fitted to a mating connector along a fitting direction,
The connector includes a housing and a plurality of contacts including two or more signal contacts for signal transmission and two or more predetermined contacts maintained at a predetermined potential;
The housing holds each of the contacts;
Each of the contacts includes a horizontal portion extending along the fitting direction, a crossing portion extending along a crossing direction intersecting the fitting direction, and extending from the crossing portion to the circuit board when the connector is used. A fixed part to be fixed, and a connecting part that connects the horizontal part and the intersecting part to each other;
The contact includes one or more first contact groups,
Each of the first contact group includes one differential pair including two signal contacts and two predetermined contacts.
In each of the first contact groups, the contacts are arranged in a pitch direction orthogonal to the fitting direction, and the differential pair is located between the predetermined contacts in the pitch direction,
In each of the first contact groups, the size of the connecting portion and the intersecting portion of the predetermined contact in the pitch direction is larger than the size of the connecting portion and the intersecting portion of the signal contact in the pitch direction. I will provide a.

Moreover, this invention is a 1st connector as a 2nd connector,
In each of the first contact groups, the horizontal portion of the predetermined contact has a main portion extending along the fitting direction, and a press-fit portion protruding outward from the main portion in the pitch direction. And the size in the said pitch direction of the said crossing part of the said predetermined contact provides a connector larger than the size in the said pitch direction of the said main part of the said predetermined contact.

Moreover, this invention is a 1st or 2nd connector as a 3rd connector,
In each of the first contact groups, the horizontal portion of the signal contact includes a main portion extending along the fitting direction and a press-fit portion protruding outward from the main portion in the pitch direction. And the distance in the pitch direction between the intersections of the two signal contacts is shorter than the distance in the pitch direction between the main parts of the two signal contacts.

Moreover, this invention is a connector in any one of 1st to 3rd as a 4th connector,
The contact includes two or more first contact groups,
The contacts in the two or more first contact groups are aligned in the pitch direction,
In each of the first contact groups, the distance in the pitch direction between the signal contacts adjacent to each other and the intersection of the predetermined contacts is the distance in the pitch direction between the intersections of the two signal contacts. Longer connector.

Moreover, this invention is a connector in any one of 1st to 4th as a 5th connector,
When the connector is mounted on the circuit board, in each of the contacts, the size of the intersecting portion in the intersecting direction is 2/3 or more of the distance in the intersecting direction between the connecting portion and the circuit board. A connector is provided.

Moreover, this invention is a connector in any one of 1st to 5th as a 6th connector,
The connector includes a mid plate made of a conductor,
The contact includes a plurality of upper contacts arranged in the pitch direction and a plurality of lower contacts arranged in the pitch direction,
The upper contact includes one or more first contact groups,
The horizontal portion of the upper contact is located above the horizontal portion of the lower contact in the vertical direction perpendicular to both the fitting direction and the pitch direction,
The mid plate is located between the horizontal portion of the upper contact and the horizontal portion of the lower contact in the vertical direction,
When the mid plate and the upper contact are viewed from above, in each of the contacts of the first contact group, the horizontal portion at least partially overlaps the mid plate, while the connecting portion is Provide a connector that does not overlap the midplate at all.

Moreover, this invention is a 6th connector as a 7th connector,
The lower contact includes one or more first contact groups,
The size in the pitch direction of the intersection of the predetermined contact in the first contact group of the upper contact is larger than the size in the pitch direction of the intersection of the predetermined contact in the first contact group of the lower contact. Also provides a larger connector.

Moreover, this invention is a 6th or 7th connector as an 8th connector,
The lower contact includes one or more first contact groups,
The size in the pitch direction of the intersecting portion of the signal contact in the first contact group of the upper contact is larger than the size in the pitch direction of the intersecting portion of the signal contact in the first contact group of the lower contact. Also provide a small connector.

Moreover, this invention is a connector in any one of 6th to 8th as a 9th connector,
The lower contact includes a second contact group different from the first contact group,
The second contact group includes four signal contacts arranged in the pitch direction,
In the four signal contacts of the second contact group, the size of the intersecting portion of the inner contact located inside the pitch direction in the pitch direction is the size of the intersecting portion of the outer contact located outside the pitch direction. A connector larger than the size in the pitch direction is provided.

Moreover, this invention is a 9th connector as a 10th connector,
The size of the crossing portion in the pitch direction of each of the signal contacts of the upper contact is the same as the size of the crossing portion in the pitch direction of the outer contact of the second contact group.

Moreover, this invention is a 9th or 10th connector as an 11th connector,
The inner contacts of the second contact group provide a connector that conforms to the USB 2.0 standard.

Moreover, this invention is a connector in any one of 1st to 11th as a 12th connector,
The signal contacts of the first contact group provide a connector that conforms to the USB 3.1 standard.

Further, the present invention is any one of the first to twelfth connectors as the thirteenth connector,
The fixed portion of the contact provides a connector fixed to the circuit board by SMT (Surface Mount technology) or THT (Through Hole technology) when the connector is used.

  According to the present invention, the differential pair consisting of two signal contacts is located between two predetermined contacts maintained at a predetermined potential in the pitch direction. More specifically, the power contact and the ground contact sandwich the differential pair for high-speed signal transmission in the pitch direction. In particular, the sizes of the connecting portions and intersections of the predetermined contacts in the pitch direction are larger than the sizes of the connecting portions and intersections of the signal contacts in the pitch direction. That is, the power contact and the ground contact have a wide portion. The wide portion extends from an intersection that intersects the horizontal portion to a connecting portion that connects the horizontal portion and the intersection, thereby suppressing distortion of the transmission signal. According to the present invention, the above-described structure can suppress signal deterioration such as signal distortion even when the signal frequency at the signal contact is increased.

It is a perspective view which shows the connector by embodiment of this invention. It is another perspective view which shows the connector of FIG. It is a front view which shows the connector of FIG. It is a bottom view which shows the connector of FIG. It is a side view which shows the connector of FIG. The outline of the mating mating portion of the mating connector that can be mated with the connector is drawn with a broken line. The outline of the circuit board on which the connector is mounted is drawn with a one-dot chain line. It is a perspective view which shows the structure which consists of a part of housing in the connector of FIG. 1, a mid plate, and a contact. It is a perspective view which shows the mid plate and contact of the structure of FIG. It is a front view which shows the mid plate and contact of FIG. It is a top view which shows the mid plate and contact of FIG. A part of the upper contact (a part surrounded by a one-dot chain line) is enlarged and drawn. The boundary position between the contact portion and the held portion in the upper contact and the boundary position between the held portion and the connecting portion are drawn with two-dot chain lines. FIG. 10 is a top view showing the lower contact hidden under the mid plate in FIG. 9. The outline of the mid plate is drawn with a one-dot chain line. The boundary position between the contact portion and the held portion in the lower contact and the boundary position between the held portion and the connecting portion are drawn with two-dot chain lines. It is a perspective view which shows the upper side contact of FIG. It is a perspective view which shows the lower side contact of FIG. A part of the lower contact (a part surrounded by a one-dot chain line) is enlarged and drawn. It is a front view which shows the upper side contact of FIG. The position of the upper surface of the circuit board is drawn by a one-dot chain line. The boundary position between the connecting portion and the intersecting portion in the upper contact and the boundary position between the intersecting portion and the fixed portion are drawn by two-dot chain lines. It is a front view which shows the lower side contact of FIG. The position of the upper surface of the circuit board is drawn by a one-dot chain line. The boundary position between the connecting part and the intersecting part in the lower contact and the boundary position between the intersecting part and the fixed part are drawn by two-dot chain lines. 10 is a perspective view showing a lower terminal of the connector of Patent Document 1. FIG.

  1, 2, 6, and 7, a connector 10 according to an embodiment of the present invention includes a housing 20 made of an insulator, a shell 30 made of a conductor, and a mid plate 38 made of a conductor. And a plurality of contacts 40 made of a conductor.

  Hereinafter, the structure and function of the connector 10 of the present embodiment will be described.

  With reference to FIGS. 1 to 4 and FIG. 6, the housing 20 has a fitting part 210, a base part 220, a plate-like part 230, and a bottom part 280. 1 to 4, the bottom portion 280 is positioned at the lower end (end on the −Z side) of the housing 20 in the up-down direction (Z direction), and extends along a horizontal plane (XY plane) orthogonal to the Z direction. It extends. The bottom part 280 holds the lower end part of the base part 220, and parts other than the lower end part of the base part 220 are located on the bottom part 280. Referring to FIG. 6, the plate-like portion 230 as a whole has a flat plate shape parallel to the XY plane, and extends forward (+ X direction) from the base portion 220 along the front-rear direction (X direction). Referring to FIGS. 1 to 3, the fitting portion 210 has a cylindrical shape and extends forward from the base portion 220 along the X direction. The fitting part 210 surrounds the plate-like part 230 in an orthogonal plane (YZ plane).

  Referring to FIGS. 1 to 4, the shell 30 is a single metal plate having a bend, and includes a main body portion 310 and four leg portions 380. The main body 310 covers the upper surface (+ Z side surface) of the housing 20, both side surfaces in the pitch direction (Y direction), and the rear surface (−X side surface). The leg part 380 extends downward (−Z direction) from the main body part 310.

  Referring to FIG. 5, the connector 10 can be mounted on a circuit board 80, and is used by being incorporated in, for example, an electronic device (not shown). That is, the connector 10 is a board connector. In particular, connector 10 according to the present embodiment is mounted on upper surface 80U of circuit board 80 in the Z direction when in use. However, the present invention is not limited to this. For example, the connector 10 may be partially inserted into a hole or a recess formed in the circuit board 80 during use.

  The connector 10 is a receptacle and can be fitted to a mating connector 85 that is a plug along the fitting direction (X direction: front-rear direction). When the connector 10 and the mating connector 85 are fitted to each other, the mating mating portion of the mating connector 85 (see the broken line in FIG. 5) is inserted into the mating portion 210 of the connector 10. .

  The housing 20 and the shell 30 of the present embodiment have the above-described structure. However, the structure of the housing 20 and the shell 30 is not limited to this as long as a board connector that can be fitted to the mating connector 85 can be configured. Further, the connector 10 may not include the shell 30.

  Referring to FIGS. 2 and 6, the contact 40 in the present embodiment includes a plurality of upper contacts 50 and a plurality of lower contacts 55. As shown in FIG. 11, the upper contacts 50 are arranged in a line (in a straight line) in the Y direction, thereby forming a line (upper line) of the upper contacts 50. As shown in FIG. 12, the lower contacts 55 are arranged in a row (in a straight line) in the Y direction, thereby forming the (lower row) of the lower contacts 55.

  7 and 8, the positions of the upper row of the upper contacts 50 and the lower row of the lower contacts 55 in the vertical plane (XZ plane) are different from each other. That is, the contacts 40 in the present embodiment are divided into two rows, an upper row and a lower row, which are located at different positions in the XZ plane. However, the present invention is not limited to this. For example, the contacts 40 may constitute only the upper row. In other words, all of the contacts 40 may be the upper contacts 50. On the other hand, the contact 40 may further include another contact 40 in addition to the upper contact 50 and the lower contact 55.

  Referring to FIGS. 11 and 12, in the present embodiment, the upper contact 50 includes 12 contacts 40 and the lower contact 55 includes 12 contacts 40. However, the number of the upper contacts 50 and the number of the lower contacts 55 according to the present invention is not limited to this. Further, the number of the upper contacts 50 may be different from the number of the lower contacts 55.

  As shown in FIGS. 11 and 12, the shapes and sizes of the contacts 40 (the upper contact 50 and the lower contact 55) are slightly different from each other. However, all the contacts 40 have the same basic structure. More specifically, each of the contacts 40 includes a horizontal portion 410, a connecting portion 420, an intersecting portion 430, and a fixed portion 480. The horizontal portion 410 extends along the X direction. The intersecting portion 430 extends along the intersecting direction intersecting the X direction. The connecting portion 420 extends while bending in the XZ plane, and connects the horizontal portion 410 and the intersecting portion 430 to each other. The fixed portion 480 extends downward from the intersecting portion 430 as a whole.

  In the present embodiment, the connector 10 (see FIG. 5) is a right angle type connector, and the intersecting direction in which the intersecting portion 430 extends is the Z direction orthogonal to the X direction. That is, in each contact 40, the horizontal portion 410 and the intersecting portion 430 extend in directions orthogonal to each other. In other words, the crossing angle between the horizontal part 410 and the crossing part 430 is 90 °. However, the present invention is not limited to this. The crossing angle between the horizontal part 410 and the crossing part 430 may be smaller than 90 ° or larger. In other words, the intersection 430 may extend along a direction oblique to the X direction. However, from the viewpoint of reducing the mounting area of the connector 10 (see FIG. 5) on the circuit board 80 (see FIG. 5), the intersecting portion 430 is within the tolerance range in the Z direction perpendicular to the fitting direction (X direction). It is preferable to extend along.

  9 and 10, in each of the upper contact 50 and the lower contact 55, the horizontal portion 410 extends forward (+ X direction) from the front end (+ X side end) of the coupling portion 420, and It has a main portion 410M and a plurality of press-fit portions 410P. The main portion 410M extends linearly along the X direction between the front end and the rear end (−X side end) of the horizontal portion 410. Each of the press-fit portions 410P protrudes outward in the Y direction from the main portion 410M. The number of press-fit portions 410P in the present embodiment is four. However, the number of the press-fit portions 410P in the present invention is not limited to four. Further, the press-fit portion 410P may be provided as necessary.

  In each of the upper contact 50 and the lower contact 55, the horizontal portion 410 has a contact portion 412 and a held portion 414. The held portion 414 extends forward from the front end of the connecting portion 420. The press-fit portion 410P is provided in the held portion 414. The contact portion 412 extends forward from the front end of the held portion 414.

  Referring to FIG. 6 together with FIGS. 9 and 10, the held portion 414 is press-fitted and held in the base portion 220 of the housing 20 in each of the upper contact 50 and the lower contact 55. That is, the housing 20 holds each of the contacts 40. As described above, in the present embodiment, each of the contacts 40 is press-fitted into the housing 20. However, the present invention is not limited to this. For example, each of the contacts 40 may be insert-molded in the housing 20.

  The contact portion 412 extends forward from the base portion 220 through the inside of the groove formed in the plate-like portion 230. Referring to FIG. 3, the contact portions 412 of the upper contact 50 are located on the upper surface of the plate-like portion 230 and are arranged at equal intervals in the Y direction. The contact portions 412 of the lower contact 55 are located on the lower surface (the surface on the −Z side) of the plate-like portion 230 and are arranged at equal intervals in the Y direction. The contact portion 412 comes into contact with a corresponding mating contact (not shown) of the mating connector 85 (see FIG. 5) when the connector 10 is fitted.

  As shown in FIGS. 13 and 14, in each of the upper contact 50 and the lower contact 55, the intersecting portion 430 extends downward from the lower end of the connecting portion 420. Referring to FIG. 13 together with FIG. 11, in each of the upper contacts 50, the fixed portion 480 extends downward from the lower end of the intersecting portion 430 and then extends backward. Referring to FIG. 14 together with FIG. 12, in each of the six lower contacts 55, the fixed portion 480 extends rearward from the lower end of the intersecting portion 430 and then extends downward. In each of the other six lower contacts 55, the fixed portion 480 extends substantially downward.

  5, 11, and 12, in each of the upper contact 50 and the lower contact 55, the fixed portion 480 is fixed to the circuit board 80 by soldering or the like when the connector 10 is used, and the conductive pattern ( (Not shown). Specifically, the fixed part 480 of the upper contact 50 is fixed to the upper surface 80U of the circuit board 80, and the fixed part 480 of the lower contact 55 is inserted into a through hole (not shown) formed in the circuit board 80. To be fixed. That is, the fixed portion 480 of the contact 40 is fixed to the circuit board 80 by SMT (Surface Mount technology) or THT (Through Hole technology) when the connector 10 is used.

  According to the present embodiment, each of the upper contacts 50 is an SMT contact, and each of the lower contacts 55 is a THT contact. As described above, the fixed portions 480 of the lower contact 55 are divided into two rows in the X direction, and are thus arranged to be spaced from each other in the XY plane. Therefore, it is easy to form a through hole in the circuit board 80 even when the distance (pitch) in the Y direction between the horizontal portions 410 of the lower contacts 55 adjacent to each other is short. However, the present invention is not limited to this, and the arrangement of the fixed portion 480 of the contact 40 and the fixing method to the circuit board 80 can be variously modified.

  Referring to FIGS. 11 and 12, the contact 40 includes a plurality of signal contacts 40S and a plurality of predetermined contacts 40P. Each of the signal contacts 40S is connected to a signal line (not shown) of the circuit board 80 (see FIG. 5) and transmits various signals when the connector 10 (see FIG. 5) is used. Each of the predetermined contacts 40P is connected to a power supply line (not shown) or a ground line (not shown) of the circuit board 80 when the connector 10 is used, and a predetermined fixed potential (a predetermined potential) such as a power supply potential or a ground potential. ) Is maintained. That is, the contact 40 includes two or more signal contacts 40S for signal transmission and two or more predetermined contacts 40P maintained at a predetermined potential.

  7 to 9, according to the present embodiment, the mid plate 38 has a flat plate shape and extends along the XY plane. The mid plate 38 has a plurality of holes. However, the present invention is not limited to this, and the structure of the mid plate 38 can be variously modified.

  Referring to FIG. 6, the mid plate 38 is held by the base portion 220 and the plate-like portion 230 of the housing 20. 3 and 6, the mid plate 38 extends between the front end of the plate-like portion 230 and the vicinity of the rear end of the base portion 220 in the X direction, and both side portions of the plate-like portion 230 in the Y direction. Extending between. Referring to FIG. 5, the leg portion 380 of the shell 30 is fixed and grounded to the circuit board 80 by soldering or the like when the connector 10 is used. Referring to FIG. 6, the mid plate 38 is in contact with the shell 30 (not shown) and is maintained at the same ground potential as the shell 30 when the connector 10 is used.

  7 to 9, the horizontal portion 410 of the upper contact 50 is located above the horizontal portion 410 of the lower contact 55 in the Z direction. The mid plate 38 is located between the horizontal portion 410 of the upper contact 50 and the horizontal portion 410 of the lower contact 55 in the Z direction. Specifically, in each of the upper contacts 50, most of the horizontal portion 410 is positioned directly above the mid plate 38, and in each of the lower contacts 55, most of the portions including the horizontal portion 410 are the mid plate. It is located directly below 38. According to the present embodiment, the midplate 38 suppresses electromagnetic coupling between the horizontal portion 410 of the upper contact 50 and the horizontal portion 410 of the lower contact 55. However, the present invention is not limited to this, and the mid plate 38 may be provided as necessary.

  Hereinafter, the structure and function of the contact 40 of the present embodiment will be described in more detail.

  Referring to FIG. 3, the connector 10 in the present embodiment is a USB 3.1 TYPE-C receptacle, and the contact 40 has a structure conforming to this standard, as will be described below.

  As shown in FIGS. 11 and 12, the contact 40 includes four first contact groups 60 and two second contact groups 70. In each of the upper contact 50 and the lower contact 55, the second contact group 70 is located between the two first contact groups 60 in the Y direction. Each of the first contact groups 60 includes one differential pair 62 (a pair for differential transmission) composed of two signal contacts 40S and two predetermined contacts 40P. Each of these comprises four signal contacts 40S.

  In each of the first contact groups 60, the differential pair 62 (two signal contacts 40S) and the two predetermined contacts 40P are arranged in the Y direction, and the differential pair 62 includes the predetermined contacts 40P in the Y direction. Located between. In each of the first contact groups 60, the two signal contacts 40S of the differential pair 62 function as two signal contacts 60S for high-speed signal transmission. In each of the first contact groups 60, the predetermined contact 40P on the outer side in the Y direction functions as a ground contact 60G for ground, and the predetermined contact 40P on the inner side in the Y direction functions as a power supply contact 60P for supplying power.

  In each of the second contact groups 70, the four signal contacts 40S are arranged in the Y direction, whereby two inner contacts 70S located inside the Y direction and two outer contacts located outside the Y direction. It is divided into contacts 70B and 70C. In each of the second contact groups 70, each of the inner contacts 70S functions as a signal contact 70S for non-high speed signal transmission. In each of the second contact groups 70, one of the outer contacts 70B and 70C functions as a sideband signal contact 70B, and the other of the outer contacts 70B and 70C functions as a configuration signal contact 70C.

  11 and 12, the signal contact 60S of the first contact group 60 conforms to the USB 3.1 standard, and the inner contact 70S of the second contact group 70 conforms to the USB 2.0 standard. . However, the present invention is not limited to this. For example, the connector 10 (see FIG. 3) may not be a USB 3.1 TYPE-C receptacle. In this case, the contact 40 may be composed of only one first contact group 60 or may include two or more first contact groups 60. That is, the contact 40 only needs to include one or more first contact groups 60.

  11 and 12, in each of the first contact group 60, a power contact 60P and a ground contact 60G (predetermined contact 40P) sandwich a differential pair 62 for high-speed signal transmission in the Y direction. Referring to FIGS. 13 and 14, in each of the first contact groups 60, the sizes of the connecting portion 420 and the intersecting portion 430 of the predetermined contact 40 </ b> P in the Y direction are the Y direction of the connecting portion 420 and the intersecting portion 430 of the signal contact 40 </ b> S. Each is larger than the size. In other words, each of the power contact 60P and the ground contact 60G has a wide portion 660 having a large size (width) in the Y direction.

  Referring to FIGS. 9, 10, 13, and 14, the wide portion 660 of the present embodiment excludes a portion near the front end of the connecting portion 420 in each of the predetermined contacts 40 </ b> P of the first contact group 60. It consists of a part and a part excluding the part near the lower end of the intersection 430, and has a certain size in the Y direction. That is, the wide portion 660 extends from the crossing portion 430 that intersects the horizontal portion 410 to the connecting portion 420 that connects the horizontal portion 410 and the crossing portion 430, thereby suppressing distortion of the transmission signal. According to the present embodiment, due to the above-described structure, even when the frequency of the signal in the signal contact 40S is increased, signal deterioration such as signal distortion can be suppressed, thereby obtaining good frequency characteristics.

  As shown in FIG. 9, according to the present embodiment, when the mid plate 38 and the upper contact 50 are viewed from above, in each of the contacts 40 of the first contact group 60 of the upper contact 50, the horizontal portion 410 is , While at least partially overlapping the mid plate 38, the connecting portion 420 does not overlap the mid plate 38 at all. Referring to FIGS. 9 and 13, the mid plate 38 is arranged as described above, and signal degradation at the connecting portion 420 and the intersection 430 of the differential pair 62 of the upper contact 50 is mainly suppressed by the wide portion 660. Is done. However, the present invention is not limited to this. For example, referring to FIG. 7, signal degradation may be further suppressed by providing a portion extending downward between the upper contact 50 and the lower contact 55 in the X direction at the rear end of the mid plate 38.

  Referring to FIG. 10, according to the present embodiment, when the mid plate 38 and the lower contact 55 are viewed from above, each of the lower contacts 55 is almost entirely located under the mid plate 38. . That is, almost all of the contacts 40 of the first contact group 60 in the lower contact 55 are covered with the mid plate 38 from above. Signal degradation in the differential pair 62 of the lower contact 55 is suppressed to some extent by the mid plate 38 arranged as described above. However, the present invention is not limited to this, and the arrangement of the lower contact 55 with respect to the mid plate 38 may be adjusted as necessary.

  9 and 13, according to the present embodiment, in each of the predetermined contacts 40P of the upper contact 50, the size (width WUP) of the wide portion 660 in the Y direction is the horizontal portion including the press-fit portion 410P. It is larger than the size (width WUH) of 410 in the Y direction. On the other hand, referring to FIG. 10 and FIG. 14, in each of the predetermined contacts 40P of the lower contact 55, the size (width WLP) of the wide portion 660 in the Y direction is the Y direction of the horizontal portion 410 including the press-fit portion 410P. It is smaller than the size (width WLH). For this reason, the wide portion 660 in the present embodiment can particularly suppress signal deterioration in the upper contact 50. However, the present invention is not limited to this. For example, in each of the predetermined contacts 40P of the lower contact 55, the width WLP may be larger than the width WLH.

  9 to 12, according to the present embodiment, in each of the first contact groups 60, the horizontal portion 410 of the predetermined contact 40P has a main portion 410M and a press-fit portion 410P. In addition, the size of the intersecting portion 430 of the predetermined contact 40P in the Y direction is larger than the size of the main portion 410M of the predetermined contact 40P in the Y direction. In this way, by increasing the size in the Y direction at the portion extending from the connecting portion 420 to the intersecting portion 430, the size in the Y direction of the contact portion 412 and the distance (pitch) in the Y direction between the contact portions 412 adjacent to each other. The wide portion 660 can be formed while conforming to the USB 3.1 standard. However, the present invention is not limited to this. For example, when there is no restriction such as a standard, the main part 410M may be formed wide like the intersection part 430.

  Referring to FIGS. 13 and 14, according to the present embodiment, the wide portion 660 in each of the predetermined contacts 40P is formed to extend as long as possible. More specifically, when the connector 10 (see FIG. 5) is mounted on the circuit board 80, in each of the contacts 40 including the predetermined contact 40P, in the intersecting direction of the intersecting portion 430 (Z direction in the present embodiment). The size LV is 2/3 or more of the distance DH in the intersecting direction between the lower end of the connecting portion 420 and the upper surface 80U of the circuit board 80. Specifically, the size LV is 3/4 or more of the distance DH in each of the upper contacts 50 that are relatively easy to increase the size LV, and the size LV is 2/3 of the distance DH in each of the lower contacts 55. That's it. By increasing the size LV, signal deterioration can be suppressed more reliably. However, the present invention is not limited to this, and the size LV may be increased as necessary.

  11 and 12, according to the present embodiment, in each of the first contact groups 60, the horizontal portion 410 of the signal contact 40S has a main portion 410M and a press-fit portion 410P. The distance (pitch D2) in the Y direction between the intersections 430 of the two signal contacts 40S is shorter than the distance (pitch DM) in the Y direction between the main parts 410M of the two signal contacts 40S. Thus, by bringing the signal contacts 60S of the differential pair 62 close to each other at the intersection 430, the differential signals flowing through the differential pair 62 can be strongly coupled while the contact portion 412 conforms to a standard such as USB 3.1. However, the present invention is not limited to this. For example, when there is no restriction such as a standard, the horizontal portion 410 of the differential pair 62 may be brought close to each other similarly to the intersection portion 430.

  Referring to FIGS. 11 and 12, according to the present embodiment, in each of upper contact 50 and lower contact 55, eight contacts 40 in two first contact groups 60 are arranged in the Y direction. Further, in each of the first contact groups 60, the distance (pitch D1) in the Y direction between the intersection 430 of the adjacent signal contact 40S and the predetermined contact 40P is between the intersections 430 of the two signal contacts 40S. It is longer than the distance (pitch D2) in the Y direction. Thus, the crosstalk between the differential pairs 62 can be reduced by separating the two differential pairs 62 arranged in the Y direction as much as possible. However, the present invention is not limited to this, and the magnitude relationship between the pitch D1 and the pitch D2 may be adjusted as necessary.

  As described above, in the present embodiment, each of the upper contact 50 and the lower contact 55 includes two first contact groups 60 and one second contact group 70 different from the first contact group 60. The eight contacts 40 in the two first contact groups 60 are aligned in the Y direction. However, the present invention is not limited to this, and the structure of the contact 40 can be variously modified. For example, each of the upper contact 50 and the lower contact 55 may include only one first contact group 60, and may include two or more second contact groups 70. Further, in each of the upper contact 50 and the lower contact 55, the two first contact groups 60 may be arranged side by side in the Y direction while sharing the power contact 60P. In this case, the two first contact groups 60 are composed of seven contacts 40.

  In addition to the structure and function described above, the upper contact 50 and the lower contact 55 according to the present embodiment have the structure and function described below. However, the present invention is not limited to this, and the following structure can be variously modified as necessary.

  Referring to FIGS. 13 and 14, according to the present embodiment, the size (width WUP) in the Y direction of the intersecting portion 430 of the predetermined contact 40 </ b> P in the first contact group 60 of the upper contact 50 is the same as that of the lower contact 55. It is larger than the size (width WLP) in the Y direction of the intersecting portion 430 of the predetermined contact 40P in the first contact group 60. With this structure, impedance matching can be performed more reliably in each of the differential pair 62 of the upper contact 50, and reflection loss can be reduced.

  According to the present embodiment, the size (width WUS) in the Y direction of the intersecting portion 430 of the signal contact 40S in the first contact group 60 of the upper contact 50 is the signal contact 40S in the first contact group 60 of the lower contact 55. Is smaller than the size (width WLS) in the Y direction of the intersecting portion 430. With this structure, it is possible to reduce the transmission loss while suppressing the crosstalk by increasing the distance between the two differential pairs 62 of the upper contact 50.

  Referring to FIG. 14, according to the present embodiment, in the four signal contacts 70S, 70B, and 70C of the second contact group 70, the size (width WI) in the Y direction of the intersecting portion 430 of the inner contact 70S is the outer side. It is larger than the size (width WO) in the Y direction of the intersection 430 of the contacts 70B and 70C. With this structure, it is possible to reduce the transmission loss while suppressing the crosstalk by increasing the distance between the two differential pairs 62 of the lower contact 55.

  Referring to FIGS. 13 and 14, according to the present embodiment, the size (width WUS) in the Y direction of the intersection 430 in each of the eight signal contacts 40 </ b> S of the upper contact 50 is the second of the lower contacts 55. This is the same as the size (width WO) of the intersecting portion 430 in the Y direction in the outer contacts 70B and 70C of the contact group 70. With this structure, the distance between the two differential pairs 62 of the lower contact 55 can be increased to suppress crosstalk.

  The various effects described above were confirmed by the embodiment of the connector 10 (see FIG. 1). Referring to FIG. 13, in the upper contact 50 of the example, WUP = 0.45 mm, WUS = 0.2 mm, D1 = 0.25 mm, and D2 = 0.15 mm. Referring to FIG. 14, in the lower contact 55 of the example, WLP = 0.35 mm, WLS = 0.3 mm, WO = 0.2 mm, WI = 0.22 mm, D1 = 0.2 mm, D2 = 0.15 mm. was.

DESCRIPTION OF SYMBOLS 10 Connector 20 Housing 210 Fitting part 220 Base part 230 Plate-like part 280 Bottom part 30 Shell 310 Main part 380 Leg part 38 Mid plate 40 Contact 40S Signal contact 40P Predetermined contact 410 Horizontal part 410M Main part 410P Press-fit part 412 Contact part 414 Holding part 420 Connecting part 430 Crossing part 480 Fixed part 50 Upper contact 55 Lower contact 60 First contact group 62 Differential pair 60S Signal contact 60P Power contact 60G Ground contact 660 Wide part 70 Second contact group 70S Signal contact (inner side) contact)
70B, 70C Signal contact (outside contact)
80 circuit board 80U top surface 85 mating connector

Claims (10)

A connector that can be mounted on a circuit board and can be fitted to a mating connector along a fitting direction,
The connector includes a housing and a plurality of contacts including two or more signal contacts for signal transmission and two or more predetermined contacts maintained at a predetermined potential.
The housing holds each of the contacts;
Each of the contacts includes a horizontal portion extending along the fitting direction, a crossing portion extending along a crossing direction intersecting the fitting direction, and extending from the crossing portion to the circuit board when the connector is used. A fixed part to be fixed, and a connecting part that connects the horizontal part and the intersecting part to each other;
The contact includes two or more first contact groups,
Each of the first contact groups includes one differential pair composed of two signal contacts and two predetermined contacts.
In each of the first contact groups, the contacts are arranged in a pitch direction orthogonal to the fitting direction, and the differential pair is located between the predetermined contacts in the pitch direction,
In each of the first contact groups, the size of the connecting portion and the intersecting portion of the predetermined contact in the pitch direction is larger than the size of the connecting portion and the intersecting portion of the signal contact in the pitch direction, respectively.
The contacts in the two or more first contact groups are aligned in the pitch direction,
In each of the first contact groups, the distance in the pitch direction between the signal contacts adjacent to each other and the intersection of the predetermined contacts is the distance in the pitch direction between the intersections of the two signal contacts. rather long than,
In each of the first contact groups, the horizontal portion of the signal contact includes a main portion extending along the fitting direction and a press-fit portion protruding outward from the main portion in the pitch direction. The distance in the pitch direction between the intersections of the two signal contacts is shorter than the distance in the pitch direction between the main parts of the two signal contacts . A connector that can be mounted on a circuit board and can be fitted to a mating connector along a fitting direction,
The connector includes a housing, a plurality of contacts including two or more signal contacts for signal transmission and two or more predetermined contacts maintained at a predetermined potential, and a mid plate made of a conductor .
The housing holds each of the contacts;
Each of the contacts includes a horizontal portion extending along the fitting direction, a crossing portion extending along a crossing direction intersecting the fitting direction, and extending from the crossing portion to the circuit board when the connector is used. A fixed part to be fixed, and a connecting part that connects the horizontal part and the intersecting part to each other;
The contact includes two or more first contact groups,
Each of the first contact groups includes one differential pair composed of two signal contacts and two predetermined contacts.
In each of the first contact groups, the contacts are arranged in a pitch direction orthogonal to the fitting direction, and the differential pair is located between the predetermined contacts in the pitch direction,
In each of the first contact groups, the size of the connecting portion and the intersecting portion of the predetermined contact in the pitch direction is larger than the size of the connecting portion and the intersecting portion of the signal contact in the pitch direction, respectively.
The contacts in the two or more first contact groups are aligned in the pitch direction,
In each of the first contact groups, a distance in the pitch direction between the signal contacts adjacent to each other and the intersection of the predetermined contacts is a distance in the pitch direction between the intersections of the two signal contacts. rather long than,
The contact includes a plurality of upper contacts arranged in the pitch direction and a plurality of lower contacts arranged in the pitch direction,
The upper contact includes one or more first contact groups,
The horizontal portion of the upper contact is located above the horizontal portion of the lower contact in the vertical direction perpendicular to both the fitting direction and the pitch direction,
The mid plate is located between the horizontal portion of the upper contact and the horizontal portion of the lower contact in the vertical direction,
When the mid plate and the upper contact are viewed from above, in each of the contacts of the first contact group, the horizontal portion at least partially overlaps the mid plate, while the connecting portion is There is no overlap with the mid plate,
The lower contact includes a second contact group different from the first contact group,
The second contact group includes four signal contacts arranged in the pitch direction,
In the four signal contacts of the second contact group, the size of the intersecting portion of the inner contact located inside the pitch direction in the pitch direction is the size of the intersecting portion of the outer contact located outside the pitch direction. A connector larger than the size in the pitch direction . The connector according to claim 2 ,
The lower contact includes one or more first contact groups,
The size in the pitch direction of the intersection of the predetermined contact in the first contact group of the upper contact is larger than the size in the pitch direction of the intersection of the predetermined contact in the first contact group of the lower contact. Also big connector. The connector according to claim 2 or claim 3 , wherein
The lower contact includes one or more first contact groups,
The size in the pitch direction of the intersecting portion of the signal contact in the first contact group of the upper contact is larger than the size in the pitch direction of the intersecting portion of the signal contact in the first contact group of the lower contact. Even a small connector. A connector according to any one of claims 2 to 4 ,
The connector in which the size in the pitch direction of the intersecting portion in each of the signal contacts of the upper contact is the same as the size in the pitch direction of the intersecting portion in the outer contact of the second contact group. A connector according to any one of claims 2 to 5 ,
The inner contact of the second contact group is a connector conforming to the USB 2.0 standard. The connector according to any one of claims 1 to 6 ,
In each of the first contact groups, the horizontal portion of the predetermined contact has a main portion extending along the fitting direction, and a press-fit portion protruding outward from the main portion in the pitch direction. And the size in the said pitch direction of the said crossing part of the said predetermined contact is a connector larger than the size in the said pitch direction of the said main part of the said predetermined contact. The connector according to any one of claims 1 to 7 ,
When the connector is mounted on the circuit board, in each of the contacts, the size of the intersecting portion in the intersecting direction is 2/3 or more of the distance in the intersecting direction between the connecting portion and the circuit board. Is a connector. The connector according to any one of claims 1 to 8 ,
The signal contacts of the first contact group are connectors conforming to the USB 3.1 standard. The connector according to any one of claims 1 to 9 ,
The fixed portion of the contact is a connector fixed to the circuit board by SMT (Surface Mount technology) or THT (Through Hole technology) when the connector is used.

Images