JP7253240B2 - electrical connector - Google Patents

Description

The present invention relates to electrical connectors.

Patent Literature 1 describes a card connector device into which a high-density mounting board is inserted.
Patent Literature 2 describes an electronic device including a first unit such as a tablet computer and a second unit having a keyboard and the like. The first unit and the second unit are detachable, and when the first unit is attached to the second unit, it functions as a notebook computer.

JP-A-5-259684 Japanese Patent Application Laid-Open No. 2017-123100

Prior art connectors have low insertion loss and are capable of high speed transmission.
However, in recent years, the data processing capacity of computers has increased significantly and the communication speed has increased significantly, and a connector capable of even higher speed transmission is desired.
SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems, for example, and to provide an electrical connector capable of reducing insertion loss and enabling higher-speed transmission.

The present connector includes contacts and is connected to a second connector having second contacts that bulge toward the contacts in the vicinity of positions that contact the contacts, and the contacts are electrically connected to the second contacts. is configured to The contact has a shape along the shape of the second contact in the vicinity of the contact position so that the distance between the contact and the second contact is small in the vicinity of the contact position where the contact contacts the second contact. have.
The contact may be recessed in a direction away from the second contact in the vicinity of the contact position.
A portion of the contact on the tip side of the contact position may be bent in a direction approaching the second contact.
The contact may contact the second contact at multiple locations.

The connector has a shape following the shape of the second contact in the vicinity of the contact position so that the distance between the contact position and the second contact is small in the vicinity of the contact position where the connector contacts the second contact. because it has

2 is a bottom view of exemplary connector 10; FIG. 2 is a plan view showing an example of an exemplary connector 20; FIG. FIG. 3 is an enlarged cross-sectional view of exemplary insulator 11 taken along line III-III. FIG. 2 is an enlarged bottom view showing the insulator 11; FIG. 4 is an enlarged side view of an exemplary contact 12; FIG. 4 is an enlarged bottom view showing the contact 12; 4 is an enlarged plan view showing an exemplary insulator 21; FIG. FIG. 4 is an enlarged cross-sectional view of the insulator 21 taken along line VIII-VIII; FIG. 4 is an enlarged side view of an exemplary contact 22; 4 is an enlarged cross-sectional view showing a state in which the connector 10 and the connector 20 are connected; FIG. FIG. 4 is an enlarged cross-sectional view showing a connector 10Z of a comparative example; Graph showing an example of insertion loss. FIG. 4 is an enlarged cross-sectional view showing a modification of the contact 12; FIG. 4 is an enlarged cross-sectional view showing a modification of the contact 12; FIG. 4 is an enlarged cross-sectional view showing a modification of the contact 12; FIG. 4 is an enlarged cross-sectional view showing a modification of the contact 12; 3 is an enlarged cross-sectional view showing an exemplary connector 30; FIG. 4 is an enlarged cross-sectional view of an exemplary connector 40; FIG. 4 is an enlarged cross-sectional view showing a state in which the connector 30 and the connector 40 are connected; FIG. FIG. 4 is an enlarged sectional view showing a modification of contacts 32a and 32b; FIG. 4 is an enlarged sectional view showing a modification of contacts 32a and 32b; FIG. 4 is an enlarged sectional view showing a modification of contacts 32a and 32b;

・Embodiment 1
Referring to FIG. 1, connector 10 has:
<Insulator 11> It has a substantially rectangular plate shape.
<Plurality of Contacts 12 > The contacts 12 are formed of a conductive material, arranged side by side at predetermined intervals in the LR direction, and fixed to the insulator 11 .

Referring to FIG. 2, connector 20 has:
<Insulator 21> It has a substantially rectangular plate shape.
<Plurality of Contacts 22 > The contacts 22 are made of a conductive material, arranged side by side at predetermined intervals in the LR direction, and fixed to the insulator 21 .
<Packing 23 > Closes the gap between the insulators 11 and 21 when the connector 20 is connected to the connector 10 .

When the connectors 10 and 20 are connected, the contacts 12 and 22 come into contact with each other and conduct to transmit electrical signals. Although not shown, the connectors 10 and 20 have engaging portions for maintaining the state in which the contacts 12 and 22 are in proper contact.

With reference to Figures 3 and 4, the insulator 11 comprises:
<Groove 111> The groove 111 is recessed from the D-side surface 119 of the insulator 11 in the U direction and has a substantially constant depth _D1 . It extends straight along the FB direction over a length L ₁ and has a substantially constant width W ₁ . The surface 119 is formed with an elongated recess 114 extending in the LR direction. The bottom surface of the groove portion 111 is recessed in the U direction along the shape of the recess portion 114 .
<Sealing Material Accommodating Portion 113> The sealing material accommodating portion 113 is recessed from the U-side surface 218 of the insulator 11 toward the D direction.
<Through Hole 112> Penetrates through the insulator 11 along the UD direction. The D side is connected to the B side end of the groove portion 111 . The U side opens into the sealing material accommodating portion 113 .

Referring to FIGS. 5 and 6, the contact 12 is in the form of a bent elongated plate and has: a.
<Contact portion 122 > The contact portion 122 extends in the B direction from the tip 121 of the contact 12 and contacts the contact 22 of the connector 20 . The width W ₂ is slightly narrower than the width W ₁ of the groove 111 . The length L ₂ along the FB direction is slightly shorter than the length L ₁ of the groove 111 . The thickness _T2 is thicker than the depth _D1 of the groove 111 . A curved portion 126 that curves and bulges in the U direction corresponding to the concave portion 114 is provided at an intermediate portion in the FB direction.
<Bent portion 123> Located at the B-side end of the contact portion 122, the bent portion 123 is bent substantially at a right angle.
<Penetration Portion 124> Extends straight from the bent portion 123 in the U direction.
<Connecting Portion 125> The connecting portion 125 further extends straight in the U direction from the U-side end of the through portion 124 and is fixed to a printed wiring board or the like by fixing means such as soldering for electrical connection.

With reference to Figures 7 and 8, the insulator 21 comprises:
<Packing Receiving Portion 214> The packing 23 is received by recessing from the U-side surface 219 of the insulator 21 in the direction D (see FIG. 10).
<Contact Receiving Portion 211 > The packing receiving portion 214 is recessed from the bottom surface thereof in the D direction.
<Frame portion 215> Projects from the packing housing portion 214 in the U direction so as to surround the entrance of the contact housing portion 211 from the L, B, and R sides. position.
<Sealing Material Accommodating Portion 213> The sealing material receiving portion 213 is recessed in the U direction from the surface 218 on the D side of the insulator 21 .
<Through Hole 212> Penetrates through the insulator 21 along the UD direction. The U side opens into the contact accommodating portion 211 and the D side opens into the encapsulant accommodating portion 213 .

Referring to FIG. 9, the contact 22 is made of a material that exerts a restoring force against deformation, such as a leaf spring, and has:
<Connecting Portion 228 > Located at the D-side end of the contact 22 . It is fixed and electrically connected to a printed wiring board or the like by a fixing means such as soldering.
<Penetration Portion 227> Extends from the connection portion 228 in the U direction.
<Bending portion 226> Located at the U-side end of the penetrating portion 227, the bending portion 226 is bent substantially at a right angle.
<Support portion 225> Extends from the bent portion 226 in the F direction.
<Curved Portion 224> The curved portion 224 extends from the end of the support portion 225 on the F side, drawing an arc centered in the U direction, curved about 160 degrees.
<Extension Portion 223> From the U-side end of the curved portion 224, the extending portion 223 extends obliquely in the B direction near the U direction, bends in the middle, and extends in the oblique U direction near the B direction.
<Contact portion 222> The contact portion 222 extends from the U-side end of the extending portion 223 to form an arc centered in the B direction, bending about 140 degrees. It makes contact with the contact portion 122 of the contact 12 . The contact surface that contacts the contact portion 122 is curved not only in the FB direction but also in the LR direction to form a substantially spherical surface.
<Tip 221> The tip 221 extends from the B-side end of the contact portion 222 in an oblique direction D toward the B direction.

Referring to FIG. 10, the contact 12 is inserted and fixed to the insulator 11 from the D side toward the U direction. The through portion 124 passes through the through hole 112 , and the connecting portion 125 protrudes toward the U side of the insulator 11 . The sealing material accommodating portion 113 is filled with the sealing material 14 to block the gap between the insulator 11 and the contact 12 .
The contact portion 122 is accommodated in the groove portion 111 .

The packing 23 is attached to the packing accommodating portion 214 of the insulator 21 and engaged with the frame portion 215 .
The contact 22 is inserted and fixed to the insulator 21 from the U side toward the D direction. The through portion 227 passes through the through hole 212 , and the connecting portion 228 protrudes toward the D side of the insulator 21 . The sealing material accommodating portion 213 is filled with the sealing material 24 to close the gap between the insulator 21 and the contact 22 .

When the connectors 10 and 20 are not connected, the contact portion 222 protrudes toward the U side from the end of the packing 23 on the U side.
In order to connect the connector 10 to the connector 20 , the connector 10 is brought closer to the connector 20 from the U direction and the contacts 12 are brought into contact with the contacts 22 . When the connectors 10 and 20 are connected, the contact portion 122 contacts the contact portion 222 and pushes the contact portion 222 in the D direction, and mainly the curved portion 224 is deformed. As a result, a restoring force is exerted to push back the contact portion 222 in the U direction, and the contact portion 122 is reliably brought into contact with the contact portion 222 to be electrically connected. The curved portion 126 is provided just around the position where the contact portion 222 contacts the contact portion 122 . Note that the curvature of the curved portion 126 is smaller than that of the contact portion 222 . Therefore, the contact portion 222 contacts the contact portion 122 at one point in the curved portion 126 .

Referring to FIG. 11, a comparative connector 10Z includes an insulator 11Z and contacts 12Z. The contact 12Z has a slightly different shape from the contact 12. The contact portion 122Z does not have a portion corresponding to the curved portion 126 of the contact 12 and extends straight in the FB direction. Correspondingly, the insulator 11Z has no portion corresponding to the recess 114 and has a flat surface on the D side.

Referring to FIG. 12, a graph is drawn in which the horizontal axis represents frequency and the vertical axis represents insertion loss.
A curve 50Z represents the insertion loss of the connector 10Z. It can be seen that there is a valley near 13 GHz (gigahertz) where the loss becomes very large. Therefore, the connector 10Z can only transmit signals of 12 Gbps (gigabits per second) or less.
Curve 50A shows the insertion loss of the connector 10. FIG. It can be seen that the position of the valley where the loss increases moves to around 15 GHz. Therefore, the connector 10 can transmit signals with a higher bit rate than the connector 10Z, for example 14 Gbps.

It is considered that the distance between the contact portion 122 and the contact portion 222 is shortened as the reason why the insertion loss is improved and the high-speed transmission becomes possible.
That is, although the contact point where the contact portion 122 and the contact portion 222 contact each other is almost the same, by providing the curved portion 126 in the contact portion 122, the contact portion The distance between 122 and the contact portion 222 is shortened. In addition, since the curved portion 126 is provided, the deformation of the curved portion 224 is reduced, and the contact portion 222 as a whole is closer to the contact portion 122 . This increases the capacitive coupling between the contact 12 and the contact 22 . Since a signal is transmitted from the contact 12 to the contact 22 by the capacitive coupling, the transmission signal transmitted through the contact point is reinforced and the loss is reduced.

The shape of the curved portion 126 is not limited to a smooth curved surface having a smaller curvature than that of the contact portion 222, and may be another shape recessed in the U direction. For example, as shown in FIG. 13, it may have a shape in which two oblique plane portions 127 and 128 are smoothly connected. In this example, the curved portion 126 contacts the contact portion 222 at two points. As a result, the distance from the contact point where the contact portion 122 contacts the contact portion 222 to the tip 121 of the contact 12 is shortened, and the distance from the contact point where the contact portion 122 contacts the contact portion 222 to the contact 22 is reduced. Since the distance to the tip 221 of is also shortened, the insertion loss is reduced.

Further, the shape of the portion of the contact portion 122 other than the curved portion 126 is not limited to the shape extending in the FB direction, and may be another shape. For example, as shown in FIG. 14, the portion of the contact portion 122 closer to the distal end 121 than the curved portion 126 is not parallel to the FB direction, but obliquely along the extending portion 223 of the contact 22. may be extended to As a result, the distance between the tip 121 and the contact 22 is reduced, and the insertion loss is reduced.

Further, for example, as shown in FIG. 15 , a portion 129 of the contact portion 122 on the front side of the curved portion 126 may be extended in the D direction along the tip 221 of the contact 22 . As a result, the distance between the contact 12 and the tip 221 is reduced and the insertion loss is reduced.

Alternatively, the curved portion 126 may not be provided, and the portion closer to the tip 121 than the contact portion 122 may be bent in the direction D to bring it closer to the contact 22, as shown in FIG.

・Embodiment 2
Referring to FIG. 17, connector 30 comprises:
<Insulator 31> It has a substantially rectangular plate shape substantially perpendicular to the FB direction. It has a tip portion 312 and a root portion 313 . The tip portion 312 is located at the tip in the D direction. The root portion 313 is located on the U side of the tip portion 312 and has a smaller thickness than the tip portion 312 . A plurality of groove portions 311 extending in the UD direction from the tip portion 312 to the root portion 313 are formed on the F-side and B-side surfaces of the insulator 31 . The tip portion 312 has a taper at the end on the D side.

<Plurality of contacts 32a, 32b> The contacts 32a and 32b are made of a conductive material, fitted into the grooves 311, and fixed to the insulator 31. As shown in FIG. Each of the contacts 32 a and 32 b has a tip portion 321 , an inclined portion 322 and a root portion 323 . The tip portion 321 and the root portion 323 extend in the UD direction. The inclined portion 322 is between the tip portion 321 and the root portion 323 and is inclined along the shape of the insulator 31 . The tip portion 321 has a thickness greater than the depth of the groove portion 311 and has a taper at the end on the D side.

Referring to FIG. 18, connector 40 comprises:
<Plurality of contacts 42a, 42b> The contacts 42a and 42b are made of a conductive material such as a plate spring that exerts a restoring force against deformation, are arranged facing each other, and extend generally along the UD direction. Each contact 42 a , 42 b has a tip portion 421 , a contact portion 422 , an inclined portion 423 and a root portion 424 . The root portion 424 extends in the UD direction and slopes slightly inward. The inclined portion 423 is located on the U side of the root portion 424 and is inclined inward. The contact portion 422 is located on the U side of the inclined portion 423 . The tip portion 421 is located on the U side of the contact portion 422 and is inclined outward.

The distance between the tip portions 421 of the opposing contacts 42 a and 42 b is greater than the thickness of the tip portion 312 of the insulator 31 . Also, the distance between the contact portions 422 of the contacts 42 a and 42 b facing each other is smaller than the thickness of the root portion 313 of the insulator 31 .

To connect the connector 30 to the connector 40, as shown in FIG. 19, the insulator 31 is inserted between the opposing contacts 42a and 42b. Then, the taper provided at the tip portion 312 comes into contact with the tip portion 421 of the contacts 42a and 42b, and widens the gap between the contacts 42a and 42b, so that the tip portion 312 of the insulator 31 moves toward the contact. The tip portions 321 of the contacts 32a and 32b come into contact with the contact portions 422 of the contacts 42a and 42b by entering between the contact portions 422 of the contacts 42a and 42b.
When the tip portion 312 reaches the D side of the contact portion 422, the restoring force of the contacts 42a and 42b narrows the distance between the contacts 42a and 42b, and the contact portion 422 of the contacts 42a and 42b is closed. The base portions 323 of the contacts 32a and 32b are brought into contact with each other for electrical connection.

At this time, only the contact portions 422 of the contacts 42a and 42b come into contact with the contacts 32a and 32b. Other portions are separated from the contacts 32a and 32b. This is to reduce the contact resistance by concentrating the contact pressure due to the restoring force of the contacts 42a and 42b on the contact portion 422. FIG.
The tips 321 of the contacts 32a and 32b are distant from the contacts 42a and 42b, but are close to the base 424 because the tip 312 of the insulator 31 is thick. This increases the capacitive coupling between the tip portion 321 and the root portion 424 and reduces the insertion loss.

The shape of the contacts 32a and 32b is not limited to the shape described above, and may be other shapes. For example, as shown in FIG. 20, an outwardly inclined portion 324 may be provided on the U side of the root portion 323 . As a result, the distance between the contacts 42a and 42b and the tip portion 421 is shortened, so that the insertion loss is reduced.
As shown in FIG. 21, the distance between the ramps 322 and 324 may be shorter. At this time, the contact portion 422 may contact the inclined portions 322 and 324 instead of the root portion 323 .
As shown in FIG. 22, the thickness of the tip portion 312 of the insulator 31 may be the same as that of the root portion 313 without increasing the thickness, and only the inclined portion 324 may be provided.

As described above, in the vicinity of the contact position where the two contacts contact each other, the two contacts are shaped to follow each other, so that the portion (stub) of one contact ahead of the contact position of the other contact Make it closer to the base than the contact position of the contact. As a result, the capacitive coupling between the two contacts is increased, so that the insertion loss of the connector is reduced without changing the length of the stub, the frequency characteristics are improved, and high-speed transmission becomes possible.
As described above, the type of connector may be face-to-face contact or sliding contact. Furthermore, it is also applicable to other types of connectors.

The embodiment described above is an example for facilitating understanding of the present invention. The present invention is not limited thereto and includes various modifications, alterations, additions or omissions without departing from the scope defined by the appended claims. This can be easily understood by those skilled in the art from the above description.

Reference Signs List 10, 10Z, 20, 30, 40 connector 11, 11Z, 21, 31 insulator 12, 22, 32a, 32b, 42a, 42b contact 14, 24 sealing material 23 packing 111, 311 groove 112 , 212 through hole, 113, 213 sealing material accommodating portion, 114 concave portion, 118, 119, 218, 219 surface, 121, 221 tip, 122, 122Z, 222, 422 contact portion, 123, 226 bent portion, 124, 227 Through portion 125,228 Connection portion 126,224 Curved portion 127,128 Flat portion 129 Part 211 Contact housing portion 214 Packing housing portion 215 Frame portion 223 Extension portion 225 Support portion 312, 321, 421 tip portion, 322, 324, 423 inclined portion, 313, 323, 424 root portion.

Claims (5)

A long plate-shaped contact configured to be electrically connected to an electric circuit on the base side , and a second long plate-shaped contact configured to be electrically connected to the second electric circuit on the base side. A connector configured to be connected to two connectors so that the contact is electrically connected to the second contact ,
The second contact has a second contact portion that bends in a direction approaching the contact and is urged in a direction approaching the contact, and a second contact portion positioned adjacent to the root side of the second contact portion. having two root portions ;
The contact is
a tip portion extending straight from the tip of the contact in a direction approaching the second contact portion and facing the second root portion ;
a contact portion located adjacent to the root side of the tip portion and in contact with the second contact portion ;
has
The contact portion is bent in a concave direction away from the second contact such that when the contact portion comes into contact with the second contact portion, there is a gap between the tip portion and the second root portion. becomes smaller,
connector. A long plate-shaped contact configured to be electrically connected to an electric circuit on the base side , and a second long plate-shaped contact configured to be electrically connected to the second electric circuit on the base side. A connector configured to be connected to two connectors so that the contact is electrically connected to the second contact ,
The second contact includes a second contact portion curved in a plate thickness direction so as to swell in a direction approaching the contact and biased in a direction approaching the contact , and adjacent to the root side of the second contact portion . a second root portion located at the
The contact is
a tip portion extending from the tip of the contact in a direction approaching the second contact portion and facing the second root portion ;
a contact portion located adjacent to the root side of the tip portion and in contact with the second contact portion ;
has
The tip portion bends in a direction in which the tip of the contact approaches the second root portion, so that when the contact portion comes into contact with the second contact portion, the tip portion and the second root portion are separated from each other. the smaller the distance between
connector. 3. The connector of claim 2 , wherein
The contact portion is bent in a concave direction away from the second contact so that when the contact portion comes into contact with the second contact portion, there is a gap between the tip portion and the second root portion. distance becomes smaller
connector. The connector according to any one of claims 1 to 3,
The second contact has a second tip portion located adjacent to the tip side of the contact portion,
The contact is
having a root portion located adjacent to the root side of the contact portion and facing the second tip portion;
The root portion bends in a direction in which a portion on the root side of the root portion approaches the second tip portion , so that when the contact portion comes into contact with the second contact portion, the root portion the distance between the second tip portion is reduced ,
connector. A long plate-shaped contact configured to be electrically connected to an electric circuit on the base side , and a second long plate-shaped contact configured to be electrically connected to the second electric circuit on the base side. A connector configured to be connected to two connectors so that the contact is electrically connected to the second contact ,
The second contact includes a second contact portion curved in a plate thickness direction so as to swell in a direction approaching the contact and biased in a direction approaching the contact , and adjacent to the root side of the second contact portion . and a second root portion located adjacent to the second contact portion, and a second tip portion located adjacent to the tip side of the second contact portion ,
The contact is
a tip portion extending from the tip of the contact in a direction approaching the second contact portion and facing the second root portion;
a contact portion located adjacent to the root side of the tip portion and in contact with the second contact portion ;
a root portion positioned adjacent to the root side of the contact portion and facing the second tip portion;
has
The root portion bends in a direction in which a portion on the root side of the root portion approaches the second tip portion, whereby when the contact portion comes into contact with the second contact portion, the root portion and the second contact portion are separated from each other. The distance between the two tip parts becomes smaller,
connector.

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