JP2019009037A - connector - Google Patents

Abstract

To provide a connector which can more reliably shield electromagnetic waves and can reduce crosstalk.SOLUTION: A plug connector 1A is a connector which is connected to a cable and fitted to a mating connector. A housing 10A is an insulative member. A contact row comprises: a first conductive contact which is connected to a coaxial cable 2 and is connected to a signal transmission contact of the mating connector while being fitted to the mating connector; and a second conductive contact 11Ab which is connected to a grounding contact of the mating connector. The first contact and the second contact 11Ab are aligned in one row inside the housing 10A. A conductive shell 12A is arranged to cover the housing 10A. The conductive shell 12A is connected to a conductive shell of the fitted mating connector and comes into contact with the second contact 11Ab.SELECTED DRAWING: Figure 10

Description

  The present invention relates to a connector.

  Patent Document 1 discloses a connector device in which a plug connector and a receptacle connector can be fitted, and when both connectors are fitted, a conductive shell provided in the plug connector is used for grounding provided in the receptacle connector. What contacts a contact is disclosed. According to this connector device, the contact between the shell and the ground contact shields electromagnetic waves radiated from the signal transmission contact and reduces crosstalk.

Japanese Patent No. 4866223

  In the electrical connector device as described above, the shielding of electromagnetic waves and the reduction of crosstalk are realized only when the shell of the plug connector comes into contact with the ground contact of the receptacle connector. In this case, the contact position between the shell of the plug connector and the ground contact of the receptacle connector is limited in design, so that it is difficult to adjust the resonance frequency of the signal transmission line. However, the signal to be transmitted is increasingly high in frequency, and it is desired to make it easier to adjust the resonance frequency of the transmission line and to more reliably shield electromagnetic waves and reduce crosstalk.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a connector that can more reliably shield electromagnetic waves and reduce crosstalk.

In order to achieve the above object, the connector according to the first aspect of the present invention provides:
A connector connected to a cable and mated with a mating connector,
An insulating housing;
A conductive first contact connected to the cable and connected to the signal transmission contact of the mating connector in a state of being fitted to the mating connector, and an electrically conductive contact connected to the ground contact of the mating connector A contact row comprising a second contact, wherein the first contact and the second contact are arranged in a row within the housing;
A conductive shell disposed to cover the housing and connected to the mating connector of the mating connector to contact the second contact;
Is provided.

In this case, the shell
A body covering the housing;
A plate-like piece projecting from the main body toward the second contact and contacting the second contact;
Having
It is good as well.

The plate-like piece is an elastic member,
The elastic contact is pressed against the second contact;
It is good as well.

The plate-like piece is
A bent portion bent in a convex shape toward the second contact;
Pressing contact with the second contact at the bent portion;
It is good as well.

The bent portion is
It has a curved part and
In a portion bent in a curved shape, press contact with the second contact,
It is good as well.

The plate-like piece is
At the time of the mating, the contact force of the mating connector mated with the mating connector is pressed so that the pressing force against the second contact increases.
It is good as well.

The housing is provided with a through hole or a notch between the shell and the second contact,
The plate-like piece passes through the through-hole or the notch and comes into contact with the second contact;
It is good as well.

In the contact row,
The second contacts are respectively disposed on both sides of the two first contacts that transmit differential signals arranged adjacent to each other.
It is good as well.

  According to the present invention, the grounded conductive shell abuts on the conductive second contact. As a result, a grounding transmission line in which the second contact and the shell are electrically connected is formed in the connector, and the resonance frequency of the signal transmission line can be easily adjusted. Crosstalk can be reduced.

1 is a perspective view of a connector device according to Embodiment 1 of the present invention. It is a perspective view which shows the structure of a plug connector. It is a perspective view which shows the structure of a receptacle connector. FIG. 4A is a top view of the upper shell. FIG. 4B is a cross-sectional view taken along the line BB in FIG. It is a top view of the plug connector with the top shell removed. It is a top view of the ground bar connected with the coaxial cable. It is an enlarged view of the periphery of the plate-shaped piece formed in the shell. It is a top view of the periphery of the plate-shaped piece formed in the shell. It is the figure which combined the BB cross section of FIG. 4 (A) with the CC cross section of FIG. It is AA sectional drawing of FIG. It is an enlarged view of the part which a plate-shaped piece and a contact contact. FIG. 12A is a top view of the connector device. FIG. 12B is a DD cross-sectional view of FIG. It is a perspective view of the connector apparatus which concerns on Embodiment 2 of this invention. It is a perspective view which shows the structure of the plug connector of FIG. It is a perspective view which shows the structure of the receptacle connector of FIG. FIG. 16A is a perspective view of the plug connector with the upper shell removed. FIG. 16B is a perspective view of the upper shell. FIG. 17A is a top view of the plug connector with the top shell and ground bar removed. FIG. 17B is a cross-sectional view taken along the line E-E in FIG. FIG. 17C is an enlarged perspective view showing the periphery of the through hole. It is a figure which shows a mode that an upper shell is mounted | worn. FIG. 19A is a top view of the plug connector. FIG. 19B is a cross-sectional view taken along line FF in FIG. FIG. 19C is a cross-sectional perspective view taken along the line F-F in FIG. FIG. 20A is a top view of the connector device. FIG. 20B is a GG cross-sectional view of FIG.

Embodiment 1 FIG.
First, Embodiment 1 of the present invention will be described in detail with reference to FIGS. 1 to 12B.

  As shown in FIG. 1, the connector device 1 includes a plug connector 1A (see FIG. 2, etc.) as a connector according to the present embodiment, and a receptacle connector 1B (see FIG. 3, etc.) as a mating connector. . The plug connector 1A is connected to one end of a plurality of coaxial cables (cables) 2 arranged in one direction (x-axis direction). On the other hand, the receptacle connector 1B is mounted on the substrate 3. When the plug connector 1A and the receptacle connector 1B are fitted, the connector device 1 connects the coaxial cable 2 and the substrate 3.

  As shown in FIG. 2, the plug connector 1 </ b> A includes a housing 10 </ b> A, a contact row 11 including a plurality of contacts 11 </ b> A, a shell 12 </ b> A, and a ground bar 13. A feature of the plug connector 1A according to the present embodiment is that the shell 12A is in contact with the second contact 11Ab (see FIG. 5) that is not connected to the coaxial cable 2 among the contacts 11A constituting the contact row 11. There is in point.

  The housing 10A is a housing made of an insulating member (for example, resin). The housing 10A has such a length that it can be connected to all the coaxial cables 2 arranged in a line with the x-axis direction as the longitudinal direction.

  The contact 11A is a conductive member made of metal, for example. The contacts 11A are press-fitted into the housing 10A so as to extend in the y-axis direction, and are arranged in a line along the x-axis direction. A contact row 11 is formed by the arrangement of the contacts 11A.

  The shell 12A is a conductive member made of metal, for example. The shell 12 </ b> A is formed so as to cover the housing 10 </ b> A, shields electromagnetic waves generated from the contact rows 11 and prevents leakage to the outside. Actually, the shell 12A is configured by bonding an upper shell 12Aa on the + z side and a lower shell 12Ab on the -z side.

  As shown in FIG. 4A, the upper shell 12Aa has a main body 12Aaa and a plate-like piece 12Aab protruding from the main body 12Aaa. The main body 12Aaa covers the + z side of the housing 10A. The plate-like pieces 12Aab are provided at the end on the −y side of the main body 12Aaa, and ten plate-like pieces are arranged at intervals in the x-axis direction.

  As shown in FIG. 4B, the plate-like piece 12Aab is bent in the -z direction and then further bent in the + z direction, that is, U-shaped or V-shaped. have.

  When the upper shell 12Aa is removed, the configuration of the upper surface of the plug connector 1A is as shown in FIG. As shown in FIGS. 5 and 6, the ground bar 13 is a pair of conductive members extending in the x-axis direction, contacts the outer conductor 22 of the coaxial cable 2, and sandwiches the coaxial cable 2 in the z-axis direction. Yes.

  In the present embodiment, a differential signal is transmitted using a pair of adjacent coaxial cables 2. As shown in FIG. 5, the contact 11 </ b> A includes a first contact 11 </ b> Aa as a signal transmission contact connected to the coaxial cable 2, and a second contact 11 </ b> Ab as a ground contact not connected to the coaxial cable 2. Divided. The second contact 11 </ b> Ab is a contact 11 </ b> A that is not connected to the inner conductor 21 of the coaxial cable 2 in the contact row 11. One second contact 11Ab is disposed on each side of the pair of first contacts 11Aa that transmit differential signals.

  As described above, the plate-like piece 12Aab of the shell 12A is provided corresponding to the second contact 11Ab as shown in FIGS. The first contact 11Aa is not in contact with the shell 12A, and the first contact 11Aa and the shell 12A are insulated by the housing 10A.

  When the upper shell 12Aa is covered as shown in FIG. 9, the CC cross section (see FIG. 5) of the plug connector 1A is in the state shown in FIG. The upper shell 12Aa and the ground bar 13 are connected by solder 40. The plate-like piece 12Aab is an elastic member bent into a V shape or a U shape as described above. As shown in FIG. 10, the plate-like piece 12Aab is in press contact with the second contact 11Ab by its elastic force. Thereby, plate-shaped piece 12Aab can be more reliably connected to 2nd contact 11Ab.

  More specifically, the plate-like piece 12Aab has a bent portion 30 bent in a convex shape toward the second contact 11Ab, and is in press contact with the second contact 11Ab at the bent portion 30. As shown in FIG. 11, the bent portion 30 has a contact portion 31 that is bent in a curved shape, and the contact portion 31 is in press contact with the second contact 11 </ b> Ab. Thereby, even if the bent part 30 is elastically deformed and the position of the contact point with the second contact 11Ab is shifted, the bent part 30 is in contact with the second contact 11Ab with substantially the same contact area and the same elastic force. Can do.

  Next, the configuration of the receptacle connector 1B will be described. As shown in FIG. 3, the receptacle connector 1B includes a housing 10B, a plurality of contacts 11B, and a shell (conductive shell) 12B.

  The housing 10B is an elongated rectangular plate-shaped casing made of an insulating member (for example, resin). A plurality of contacts 11B are accommodated in the housing 10B.

  The contact 11B is, for example, a metal conductive member. The contacts 11B are arranged in a line along the x-axis direction in the housing 10B in accordance with the arrangement of the contacts 11A. These contacts 11B are connected one-to-one with the conductive contacts 11A of the plug connector 1A when the plug connector 1A and the receptacle connector 1B are fitted. The contact 11B is divided into a first contact 11Ba connected to the first contact 11Aa of the plug connector 1A and a second contact 11Bb connected to the second contact 11Ab of the plug connector 1A. The first contact 11Ba is connected to the signal electrode of the substrate 3, and the second contact 11Bb is connected to the ground electrode of the substrate 3 and grounded.

  The shell 12B is a conductive member that is connected to the shell 12A of the plug connector 1A that is disposed and fitted in the housing 10B while being insulated from the plurality of contacts 11B. The shell 12B is connected to the ground electrode of the substrate 3 and grounded.

  As shown in FIGS. 12 (A) and 12 (B), when the plug connector 1A and the receptacle connector 1B are fitted, the tip of the plate-like piece 12Aab is the conductive shell 12B of the fitted receptacle connector 1B. And pressed in the + y direction. Thereby, the width of the bent portion 30 of the plate-like piece 12Aab is reduced, and the contact portion 31 tends to be further displaced to the −z side. Thereby, the pressing force of the plate-like piece 12Aab to the second contact 11Ab can be further increased.

  Next, the operation of the connector device 1 will be described.

  When the plug connector 1A and the receptacle connector 1B are fitted, the first contact 11Aa of the plug connector 1A and the first contact 11Ba of the receptacle connector 1B come into contact with each other. As a result, a signal transmission line of the inner conductor 21 of the coaxial cable 2 → the first contact 11Aa → the first contact 11Ba → the signal electrode of the substrate 3 is formed. A differential signal is transmitted through the pair of transmission lines. The inner conductor 21 and the first contact 11Aa are connected by solder 40.

  Further, when the plug connector 1A and the receptacle connector 1B are fitted, as shown in FIG. 12B, the shell 12A of the plug connector 1A and the shell 12B of the receptacle connector 1B come into contact with each other. As a result, a grounding transmission line of the outer conductor 22 of the coaxial cable 2 → the ground bar 13 → the shell 12A → the shell 12B → the ground electrode of the substrate 3 is also formed. Further, since the entire connector device 1 is covered with the grounded shells 12A and 12B, leakage of electromagnetic waves generated inside is prevented.

  Further, when the plug connector 1A and the receptacle connector 1B are fitted, as shown in FIG. 12B, the second contact 11Ab of the plug connector 1A electrically connected to the shell 12A and the second contact of the receptacle connector 1B. Contact 11Bb. Thus, the second contact 11Ab is connected to the ground electrode of the substrate 3 through the second contact 11Bb, and is connected to the ground electrode of the substrate 3 through the shell 12A and the shell 12B. If comprised in this way, the noise which generate | occur | produced from 1st contact 11Aa and 1st contact 11Ba which transmits a signal will become still easier to be absorbed by 2nd contacts 11Ab and 11Bb, and, as a result, crosstalk will be reduced. . In addition, since the grounding transmission line as described above is formed, the resonance frequency of the signal transmission line can be changed, so that the resonance frequency can be shifted from the frequency of the transmitted signal.

  As described above in detail, according to the present embodiment, the grounded conductive shell 12A abuts on the conductive second contact 11Ab. As a result, a grounding transmission line configured by electrically connecting the second contact 11Ab and the shell 12A is formed in the plug connector 1A ′, and the resonance frequency of the signal transmission line can be easily adjusted. Thus, it is possible to more reliably shield electromagnetic waves and reduce crosstalk.

Embodiment 2. FIG.
First, Embodiment 2 of the present invention will be described in detail with reference to FIGS. 13 to 20B.

  As shown in FIG. 13, the connector device 1 ′ includes a plug connector 1A ′ (see FIG. 14 and the like) as a connector according to the present embodiment, and a receptacle connector 1B ′ (see FIG. 15 and the like) as a mating connector. . The plug connector 1A 'is connected to one end of a plurality of coaxial cables 2 arranged in one direction (x-axis direction). On the other hand, the receptacle connector 1B ′ is mounted on the substrate 3. The connector device 1 ′ connects the coaxial cable 2 and the substrate 3 by fitting the plug connector 1 </ b> A ′ and the receptacle connector 1 </ b> B ′ in the z-axis direction.

  As shown in FIGS. 14, 16A and 16B, the plug connector 1A ′ includes a housing 10A ′, a contact row 11 ′ including a plurality of contacts 11A ′, a shell 12A ′, and a ground bar. 13 '. A feature of the plug connector 1A ′ according to the present embodiment is that the shell 12A ′ is a second contact 11Ab ′ that is not connected to the coaxial cable 2 among the plurality of contacts 11A ′ constituting the contact row 11 ′ (see FIG. 17 (A)).

  As shown in FIG. 16A, the housing 10A 'is a housing made of an insulating member (for example, resin). The housing 10A 'is provided with a through hole 10Aa'. Fourteen through-holes 10Aa 'are arranged along the x-axis direction on the side surface facing the -y direction, and are provided corresponding to second contacts 11Ab' to be described later. A notch may be provided instead of the through hole 10Aa '.

  The contact 11A 'is a conductive member made of, for example, metal. The contacts 11A 'are press-fitted into the housing 10A' so as to extend in the y-axis direction, and are arranged in a line along the x-axis direction. A contact row 11 'is formed by the arrangement of the contacts 11A'.

  The shell 12A ′ is a conductive member made of metal, for example. The shell 12 </ b> A ′ is formed so as to cover the housing 10 </ b> A ′, shields electromagnetic waves generated from the contact rows 11 ′, and prevents the electromagnetic waves from leaking to the outside.

  As shown in FIG. 16B, the shell 12A 'includes a main body 12Aaa' and a plate-like piece 12Aab 'protruding from the main body 12Aaa'. The main body 12Aaa 'covers the + z side of the housing 10A'. The plate-like piece 12Aab ′ is formed so as to be bent in the −z direction from the side wall portion of the main body 12Aaa ′ facing the −y direction and further folded back in the + y direction (FIGS. 19B and 19C). reference). Fourteen plate-like pieces 12Aab 'are arranged at intervals in the x-axis direction. The plate-like piece 12Aab 'of the shell 12A' is provided corresponding to the through hole 10Aa '.

  When the shell 12A 'is removed, the upper surface of the plug connector 1A' is as shown in FIG. The ground bar 13 ′ is a pair of conductive members extending in the x-axis direction, and as shown in FIG. 17B, contacts the outer conductor 22 of the coaxial cable 2 and sandwiches the coaxial cable 2 in the z-axis direction. It is out.

  The contact 11 </ b> A ′ is divided into a first contact 11 </ b> Aa ′ as a signal transmission contact connected to the coaxial cable 2 and a second contact 11 </ b> Ab ′ as a ground contact not connected to the coaxial cable 2. The second contact 11Ab 'is a contact that is not connected to the inner conductor 21 of the coaxial cable 2 among the contacts 11A' constituting the contact row 11 '.

  As shown in FIG. 17C, a part of the second contact 11Ab 'communicates with the outside through the through hole 10Aa' of the housing 10A '. The plate-like piece 12Aab 'of the shell 12A' is in contact with the second contact 11Ab 'through the through hole 10Aa'. The first contact 11Aa 'is not in contact with the shell 12A', and the first contact 11Aa 'and the shell 12A' are insulated by the housing 10A '.

  As shown in FIG. 18, when the shell 12A 'is slid in the direction of the arrow with respect to the housing 10A' or the like and attached to the housing 10A ', the plug connector 1A' is configured as shown in FIG. In this state, as shown in FIG. 19B, the plate-like piece 12Aab 'passes through the through-hole 10Aa' and comes into contact with the second contact 11Ab '. The plate-like piece 12Aab 'is in press contact with the second contact 11Ab' due to its elastic force, and is electrically connected to the second contact 11Ab '.

  Next, the configuration of the receptacle connector 1B 'will be described. As shown in FIG. 15, the receptacle connector 1B 'includes a housing 10B', a plurality of contacts 11B ', and a shell (conductive shell) 12B'.

  The housing 10B 'is an elongated rectangular plate-shaped casing made of an insulating member (for example, resin). A plurality of contacts 11B 'are accommodated in the housing 10B'.

  The contact 11B 'is, for example, a metal conductive member. The contacts 11B 'are arranged in a line along the x-axis direction in the housing 10A' in accordance with the arrangement of the contacts 11A '. When the plug connector 1A 'and the receptacle connector 1B' are fitted, these contacts 11B 'are connected one-to-one with the conductive contacts 11A' of the plug connector 1A '. The contact 11B 'is divided into a first contact 11Ba' connected to the first contact 11Aa 'and a second contact 11Bb' connected to the second contact 11Ab '. The first contact 11Ba 'is connected to the signal electrode of the substrate 3, and the second contact 11Bb' is connected to the ground electrode of the substrate 3 and grounded.

  The shell 12B 'is a conductive member that is disposed so as to cover the housing 10B' while being insulated from the plurality of contacts 11B ', and is connected to the shell 12A' of the plug connector 1A 'that is fitted. The shell 12B 'is connected to the ground electrode of the substrate 3 and grounded.

  As shown in FIGS. 20 (A) and 20 (B), when the plug connector 1A ′ and the receptacle connector 1B ′ are fitted, the tip of the plate-like piece 12Aab ′ is electrically connected to the receptacle connector 1B ′ fitted. Is pressed against the positive shell (conductive shell) 12B ′ in the + y direction. As a result, the plate-like piece 12Aab 'tends to be further displaced in the + y direction, so that the pressing force of the plate-like piece 12Aab' on the second contact 11Ab 'can be further increased.

  Further, when the plug connector 1A ′ and the receptacle connector 1B ′ are fitted, the signal transmission line of the inner conductor 21 of the coaxial cable 2 → the first contact 11Aa ′ → the first contact 11Ba ′ → the signal electrode of the substrate 3 is formed. It is formed. Further, a grounding transmission line is formed as the outer conductor 22 of the coaxial cable 2 → the ground bar 13 ′ → the shell 12 A ′ → the shell 12 B ′ → the ground electrode of the substrate 3. Further, the entire connector device 1 ′ is covered with the grounded shells 12 </ b> A ′ and 12 </ b> B ′, and leakage of electromagnetic waves generated inside is prevented. Further, the second contact 11Ab 'of the plug connector 1A' electrically connected to the shell 12A 'and the second contact 11Bb' of the receptacle connector 1B 'come into contact. Accordingly, the second contact 11Ab ′ is connected to the ground electrode of the substrate 3 through the second contact 11Bb ′, and is connected to the ground electrode of the substrate 3 through the shell 12A ′ and the shell 12B ′. . As a result, the electromagnetic wave generated at the first contact 11Aa 'or the like that transmits a signal is absorbed by the second contact 11Ab' before entering the transmission line of another signal, so that crosstalk is reduced. Further, by forming the grounding transmission line as described above, it is easy to adjust the resonance frequency of the signal transmission line and shift the resonance frequency from the frequency of the transmitted signal.

  As described in detail above, according to the present embodiment, the grounded conductive shell 12A 'abuts on the conductive second contact 11Ab'. As a result, a grounding transmission line configured by electrically connecting the second contact 11Ab ′ and the shell 12A ′ can be formed in the plug connector 1A ′. Crosstalk can be reduced.

  Further, the plug connectors 1A and 1A 'according to the present embodiment are connectors having a novel configuration capable of shielding electromagnetic waves. The plug connectors 1A and 1A 'are different in the resonance frequency of the transmission line for transmitting signals from the connector having no such configuration. Thereby, for example, by selecting a connector having a resonance frequency different from the frequency of the transmission signal, it is possible to expand the degree of freedom for the user to select various connectors.

  As a method of connecting the shells 12A, 12A ′ and the second contacts 11Ab, 11Ab ′, a long and thin needle-like member is projected from the ground bars 13, 13 ′ to come into contact with the second contacts 11Ab, 11Ab ′. There is also a way to make it. However, the plate-like pieces 12Aab and 12Aab 'on the shells 12A and 12A' are easier to manufacture than such needle-like members.

  In each of the embodiments described above, the plate-like pieces 12Aab and 12Aab 'are pressed against the second contacts 11Ab and 11Ab'. However, the present invention is not limited to this. For example, the thickness of the main body portion of the shell 12A may be changed so that the main body portion directly contacts the second contacts 11Ab and 11Ab '.

  In each of the above embodiments, the plate-like pieces 12Aab and 12Aab ′ are used as elastic members, and the elastic contacts are applied to the second contacts 11Ab and 11Ab ′. However, the present invention is not limited to this. . For example, the plate-like pieces 12Aab and 12Aab 'may be soldered to the second contacts 11Ab and 11Ab'.

  In each of the above embodiments, the plate-like pieces 12Aab and 12Aab 'are bent U-shaped or V-shaped, but the present invention is not limited to this. For example, the plate-like piece of the shell may be a flat plate without a bent portion.

  Further, in each of the above embodiments, the plate-like pieces 12Aab and 12Aab 'are pressed into contact with the second contacts 11Ab and 11Ab' at the curved portions, but the present invention is not limited to this. For example, the plate-like pieces 12Aab and 12Aab 'may be in press contact with the second contacts 11Ab and 11Ab' at a straight portion or a portion bent discontinuously.

  In each of the above embodiments, the plate-like pieces 12Aab and 12Aab ′ are fitted so that the pressing force against the second contacts 11Ab and 11Ab ′ is increased when the plug connector 1A and the receptacle connector 1B are fitted. The receptacle connector 1B is pressed against the shell 12B of the receptacle connector 1B. However, the present invention is not limited to this.

  In the second embodiment, the housing 10A 'is provided with the through hole 10Aa' through which the plate-like piece 12Aab 'passes. However, the present invention is not limited to this. The plate-like piece 12Aab 'may be configured such that the plate-like piece 12Aab' does not pass through the housing 10A ', and the plate-like piece 12Aab' wraps around the edge of the housing 10A 'and contacts the second contact 11Ab'.

  In each of the above embodiments, the first contacts 11Aa and 11Aa 'transmit a differential signal with a pair of configurations, but the present invention is not limited to this. A signal may be transmitted by one first contact 11Aa, 11Aa '. Also in this case, it is desirable to arrange the second contacts 11Ab and 11Ab 'on both sides of the first contacts 11Aa and 11Aa'.

  Various embodiments and modifications can be made to the present invention without departing from the broad spirit and scope of the present invention. The above-described embodiments are for explaining the present invention and do not limit the scope of the present invention. In other words, the scope of the present invention is shown not by the embodiments but by the claims. Various modifications within the scope of the claims and within the scope of the equivalent invention are considered to be within the scope of the present invention.

  The present invention can be applied to a connector for connecting a plurality of coaxial cables and a substrate, and particularly applicable to a connector for transmitting a high-frequency signal.

  1, 1 'connector device, 1A, 1A' plug connector, 1B, 1B 'receptacle connector, 2 coaxial cable, 3 substrate, 10A, 10A' housing, 10Aa 'through hole, 10B, 10B' housing, 11, 11 'contact Row, 11A, 11A ′ contact, 11Aa, 11Aa ′ first contact, 11Ab, 11Ab ′ second contact, 11B, 11B ′ contact, 11Ba, 11Ba ′ first contact, 11Bb, 11Bb ′ second contact, 12A, 12A 'shell, 12Aa upper shell, 12Aaa, 12Aaa' body, 12Aab, 12Aab 'plate-like piece, 12Ab lower shell, 12B, 12B' shell, 13, 13 'ground bar, 21 internal conductor, 22 external conductor, 30 Folding part, First contact portion, 40 solder

Claims (8)

A connector connected to a cable and mated with a mating connector,
An insulating housing;
A conductive first contact connected to the cable and connected to the signal transmission contact of the mating connector in a state of being fitted to the mating connector, and an electrically conductive contact connected to the ground contact of the mating connector A contact row comprising a second contact, wherein the first contact and the second contact are arranged in a row within the housing;
A conductive shell disposed to cover the housing and connected to the mating connector of the mating connector to contact the second contact;
Connector with. The shell is
A body covering the housing;
A plate-like piece projecting from the main body toward the second contact and contacting the second contact;
Having
The connector according to claim 1. The plate-like piece is an elastic member,
The elastic contact is pressed against the second contact;
The connector according to claim 2. The plate-like piece is
A bent portion bent in a convex shape toward the second contact;
Pressing contact with the second contact at the bent portion;
The connector according to claim 3. The bent portion is
It has a curved part and
In a portion bent in a curved shape, press contact with the second contact,
The connector according to claim 4. The plate-like piece is
At the time of the mating, the contact force of the mating connector mated with the mating connector is pressed so that the pressing force against the second contact increases.
The connector according to any one of claims 3 to 5. The housing is provided with a through hole or a notch between the shell and the second contact,
The plate-like piece passes through the through-hole or the notch and comes into contact with the second contact;
The connector according to any one of claims 2 to 6. In the contact row,
The second contacts are respectively disposed on both sides of the two first contacts that transmit differential signals arranged adjacent to each other.
The connector according to any one of claims 1 to 7.

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