An L-shaped coaxial connector having a coaxial cable includes a coaxial cable including a central conductor portion and an external conductor portion disposed around the central conductor portion and a center conductor portion, an internal terminal connected to the central conductor portion, an external terminal connected to the external conductor portion, and an insulating member disposed between the internal and external terminals. The external terminal includes a cylindrical portion surrounding the first terminal portion and extending in a cylindrical shape in a direction intersecting an axial direction of the coaxial cable. The internal terminal includes a male type first terminal portion having a cylindrical shape and extending in the direction intersecting the axial direction, and a second terminal portion extending to connect from the first terminal portion to the central conductor portion. The insulating member includes a protruding portion protruding configured to insert into the first terminal portion.

An L-shaped coaxial connector having a coaxial cable includes a coaxial cable including a central conductor portion and an external conductor portion disposed around the central conductor portion and a center conductor portion, an internal terminal connected to the central conductor portion, an external terminal connected to the external conductor portion, and an insulating member disposed between the internal and external terminals. The external terminal includes a cylindrical portion surrounding the first terminal portion and extending in a cylindrical shape in a direction intersecting an axial direction of the coaxial cable. The internal terminal includes a male type first terminal portion having a cylindrical shape and extending in the direction intersecting the axial direction, and a second terminal portion extending to connect from the first terminal portion to the central conductor portion. The insulating member includes a protruding portion protruding configured to insert into the first terminal portion.

A coaxial connector assembly including a plug connector and a receptacle connector each holding a coaxial terminal including a center and an external terminal surrounding the center terminal, wherein housings of the plug connector and the receptacle connector have an engageable/disengageable lock mechanism, in an engagement state, a range of relative movement between the coaxial terminals in an axial direction is smaller than a shorter one of a center terminal effective fitting length, which is a distance from a start position to an end position of contact between the center terminals, or an external terminal effective fitting length, which is a distance from a start position to an end position of contact between the external terminals, and an impedance in the axial direction range of the minimum effective fitting length is matched to a specific impedance.

A coaxial connector assembly including a plug connector and a receptacle connector each holding a coaxial terminal including a center and an external terminal surrounding the center terminal, wherein housings of the plug connector and the receptacle connector have an engageable/disengageable lock mechanism, in an engagement state, a range of relative movement between the coaxial terminals in an axial direction is smaller than a shorter one of a center terminal effective fitting length, which is a distance from a start position to an end position of contact between the center terminals, or an external terminal effective fitting length, which is a distance from a start position to an end position of contact between the external terminals, and an impedance in the axial direction range of the minimum effective fitting length is matched to a specific impedance.

A connector module adapted for a set-top box including a shielding case, a first connector disposed outside of the shielding case, an annular capacitor disposed between the first connector and the shielding case, and at least one ferrite core disposed in the shielding case and generating mutual inductance by coupling the shielding case is provided. The first connector being connected to a peripheral cable has a transmission cable penetrating into the shielding case. The annular capacitor is electrically connected between a grounding layer of the transmission cable and a grounding of a first circuit board of the set-top box. The transmission cable is connected to a second connector of the first circuit board after entering the shielding case and penetrating the ferrite core. A high frequency signal from the peripheral cable is transmitted to the first circuit board via the first connector, the transmission cable, and the second connector.

A connector module adapted for a set-top box including a shielding case, a first connector disposed outside of the shielding case, an annular capacitor disposed between the first connector and the shielding case, and at least one ferrite core disposed in the shielding case and generating mutual inductance by coupling the shielding case is provided. The first connector being connected to a peripheral cable has a transmission cable penetrating into the shielding case. The annular capacitor is electrically connected between a grounding layer of the transmission cable and a grounding of a first circuit board of the set-top box. The transmission cable is connected to a second connector of the first circuit board after entering the shielding case and penetrating the ferrite core. A high frequency signal from the peripheral cable is transmitted to the first circuit board via the first connector, the transmission cable, and the second connector.

Calibration devices, systems, and methods for push-on RF connectors are described. A male calibration connector can include a removable detent portion. With the removable detent portion removed, the male calibration connector can connect to a female calibration standard during a calibration process. With the removable detent portion installed, the male calibration connector can connect to a female push on connectors. Female calibration connectors and male calibration standards are also described.

Calibration devices, systems, and methods for push-on RF connectors are described. A male calibration connector can include a removable detent portion. With the removable detent portion removed, the male calibration connector can connect to a female calibration standard during a calibration process. With the removable detent portion installed, the male calibration connector can connect to a female push on connectors. Female calibration connectors and male calibration standards are also described.

The present disclosure relates to a dielectric coupling sleeve configured to capacitively couple a first electrical conductor to a second electrical conductor. The dielectric coupling sleeve includes a first sleeve section and a second sleeve section. The first sleeve section has a first diameter. A receiving space is closed on one side and formed in the first sleeve section. The receiving section is configured to receive an insertion of the first electrical conductor. The second sleeve section has a second diameter. The second diameter is smaller than the first diameter. The second sleeve section is configured for insertion into the conductor cavity of the second electrical conductor.

The present disclosure relates to a dielectric coupling sleeve configured to capacitively couple a first electrical conductor to a second electrical conductor. The dielectric coupling sleeve includes a first sleeve section and a second sleeve section. The first sleeve section has a first diameter. A receiving space is closed on one side and formed in the first sleeve section. The receiving section is configured to receive an insertion of the first electrical conductor. The second sleeve section has a second diameter. The second diameter is smaller than the first diameter. The second sleeve section is configured for insertion into the conductor cavity of the second electrical conductor.