The invention discloses a connector, a connector, a matched connector, a matched connector and a connecting assembly. The connecting assembly includes the connector and the matched connector. A terminal fixing portion of the connector is provided with terminal accommodating cavities for accommodating connecting terminals. Separators for separating adjacent connecting terminals are disposed as protruding between the terminal accommodating cavities. The matched connector comprises insertion holes and isolating slots provided on a female end seat. The separators are inserted into the isolating slots. One end of the connecting terminal is disposed on the body of the connector, and the other end is held within the insertion hole and is connectable with a terminal connecting piece of the matched connector. The invention prevents connecting terminals from interfering with each other to provide a higher secure connection performance, while maintaining smaller spacing therebetween.

An electrical connector includes an insulative housing, a number of first contacts and second contacts carried by the housing, a metallic shielding plate received in the housing, and a shielding shell attached to the insulative housing. The first contacts and the second contacts have a number of grounding contacts. Each grounding contact of the first contacts has a first end portion located at a front end thereof. Each grounding contact of the second contacts has a second end portion located at a front end thereof and corresponding to the first end portion. The metallic shielding plate respectively is contacted with the first end portion and the second end portion.

An electrical connector includes an insulative housing, a number of first contacts and second contacts carried by the housing, a metallic shielding plate received in the housing, and a shielding shell attached to the insulative housing. The first contacts and the second contacts have a number of grounding contacts. Each grounding contact of the first contacts has a first end portion located at a front end thereof. Each grounding contact of the second contacts has a second end portion located at a front end thereof and corresponding to the first end portion. The metallic shielding plate respectively is contacted with the first end portion and the second end portion.

The present disclosure discloses a high-speed connector including an insulating body, a number of conductive terminals, a number of conductive terminals, and a conductive plastic. The insulating body has a back surface. The conductive terminals are retained in the insulating body. The conductive plastic is disposed on the back surface of the insulating body. The cables are electrically connected with the conductive terminals. The cables extend beyond the back surface of the insulating body. The cables pass out of the conductive plastic. The high-speed connector of the present disclosure prevents the interference of electromagnetic signals at the back surface of the insulating body where the cables pass through.

A connector structure includes a first housing, a first shield terminal to be accommodated into the first housing, a second housing connectable to the first housing, and a second shield terminal to be accommodated into the second housing. The first shield terminal includes first inner conductors and a first outer conductor. The second shield terminal includes second inner conductors and a second outer conductor. The first outer conductor includes a first fitting portion and a first non-fitting portion. The second outer conductor includes a second fitting portion and a cut portion. The first housing includes rattling suppressing portions for suppressing rattling of the first shield terminal by coming into contact with an exposed portion of the first fitting portion exposed from the cut portion and a locking lance for retaining the first shield terminal by being locked to a lance locking portion provided on the first non-fitting portion.

A connector structure includes a first housing, a first shield terminal to be accommodated into the first housing, a second housing connectable to the first housing, and a second shield terminal to be accommodated into the second housing. The first shield terminal includes first inner conductors and a first outer conductor. The second shield terminal includes second inner conductors and a second outer conductor. The first outer conductor includes a first fitting portion and a first non-fitting portion. The second outer conductor includes a second fitting portion and a cut portion. The first housing includes rattling suppressing portions for suppressing rattling of the first shield terminal by coming into contact with an exposed portion of the first fitting portion exposed from the cut portion and a locking lance for retaining the first shield terminal by being locked to a lance locking portion provided on the first non-fitting portion.

The present disclosure relates to a coaxial connector, and particularly, a coaxial connector including a fixing module which is connected to a first PCB, and a contact module which is coupled movably to the fixing module, and provided to be contactable to a second PCB facing the first panel, in which the contact module includes a contact body which is made of a conductive material, and has a hollow formed therein, a contact pin which is made of a conductive material, and disposed to penetrate the hollow of the contact body, and a contact insulator which is disposed in the hollow of the contact body to insulate the contact pin and the contact body by partitioning the contact pin and the contact body, and the contact module is configured so that the contact body, the contact pin, and the contact insulator are integrally formed to be assembled to the fixing module by a singular process, thereby providing the advantages which may reduce the cost of a product, and improve the quality of the product by improving a contact rate.

The present disclosure relates to a coaxial connector, and particularly, a coaxial connector including a fixing module which is connected to a first PCB, and a contact module which is coupled movably to the fixing module, and provided to be contactable to a second PCB facing the first panel, in which the contact module includes a contact body which is made of a conductive material, and has a hollow formed therein, a contact pin which is made of a conductive material, and disposed to penetrate the hollow of the contact body, and a contact insulator which is disposed in the hollow of the contact body to insulate the contact pin and the contact body by partitioning the contact pin and the contact body, and the contact module is configured so that the contact body, the contact pin, and the contact insulator are integrally formed to be assembled to the fixing module by a singular process, thereby providing the advantages which may reduce the cost of a product, and improve the quality of the product by improving a contact rate.

A high frequency signal communication connector with improved crosstalk performance includes an insulated housing, a plurality of first terminals, a plurality of second terminals, a conductive shielding layer, and a metal shell. The insulated housing has two inserting slots. The first and second terminals are disposed in the insulated housing, and have front ends respectively extending into the two inserting slots, and rear ends respectively extending outside a bottom of the insulated housing. The conductive shielding layer is provided on the insulated housing, and is disposed with a plurality of through holes. The first and second terminals respectively pass through the through holes, so that the conductive shielding layer covers a part of the first and second terminals. The first and second terminals have grounding terminals contacting with the conductive shielding layer, so that the terminals have better shielding effectiveness to reduce crosstalk interference.

A high frequency signal communication connector with improved crosstalk performance includes an insulated housing, a plurality of first terminals, a plurality of second terminals, a conductive shielding layer, and a metal shell. The insulated housing has two inserting slots. The first and second terminals are disposed in the insulated housing, and have front ends respectively extending into the two inserting slots, and rear ends respectively extending outside a bottom of the insulated housing. The conductive shielding layer is provided on the insulated housing, and is disposed with a plurality of through holes. The first and second terminals respectively pass through the through holes, so that the conductive shielding layer covers a part of the first and second terminals. The first and second terminals have grounding terminals contacting with the conductive shielding layer, so that the terminals have better shielding effectiveness to reduce crosstalk interference.