A protector is configured to protect a belt-like flexible board where a wiring pattern is provided. The protector includes a first accommodation portion configured to accommodate the flexible board so as to be slidable in a length direction of the flexible board, a second accommodation portion configured to accommodate the flexible board in a position different from the first accommodation portion in the length direction, and a bendable coupling portion that connects between the first accommodation portion and the second accommodation portion. The coupling portion is structured so that under a condition where the coupling portion is curved, deformation of the flexible board in a direction away from the coupling portion is allowed when the flexible board is slid in the length direction with respect to the first accommodation portion.

A housing 10 comprises connector-side transmission-permitting portions 10A that permit the transmission of wave signals in the connector-height direction, a circuit board B comprises board-side transmission-permitting portions B1 that permit the transmission of wave signals in the connector-height direction at locations corresponding to the above-mentioned connector-side transmission-permitting portions 10A when the electrical connector 1 is mounted, and, when a counterpart connector component C is inserted all the way to a normal position, the transmission of wave signals permitted in the process of insertion of the above-mentioned counterpart connector component C becomes blocked by the above-mentioned counterpart connector component C, or alternatively, the transmission of wave signals blocked by the above-mentioned counterpart connector component C in the process of insertion of said counterpart connector component C becomes permissible at the locations of the above-mentioned connector-side transmission-permitting portions 10A and the above-mentioned board-side transmission-permitting portions B1.

A ribbon cable connector is fixed at an end of a ribbon cable. The ribbon cable has a plurality of electrical conductors extending parallel and distanced to one another. The ribbon cable connector includes an insertion slot extending in a plugging direction and receiving the ribbon cable, a plurality of contact element receptacles extending parallel and distanced to one another, a plurality of structures in the insertion slot extending parallel to one another and aligned with the contact element receptacles, and a clamping device configured to clamp the ribbon cable in the insertion slot. An end of the insertion slot inside of the ribbon cable connector adjoins the contact element receptacles in the plugging direction. The structures are each separated from one another by a partition wall.

A connector for connecting a flexible interconnect circuit includes a base, having a first set of protrusions and a second set of protrusions. The first set of protrusions and the second set of protrusions are configured to secure the flexible interconnect circuit at a first set of apertures and a second set of apertures of the flexible interconnect circuit, respectively. The first set of protrusions may be positioned at a first distance from the second set of protrusions on the base. The first set of apertures may be positioned on the flexible interconnect circuit at a second distance, greater than the first distance, from the second set of apertures. The base causes the flexible interconnect circuit into an arched configuration when the apertures are secured to the respective protrusions. The connector further includes a cover piece configured to secure the flexible interconnect circuit in the arched configuration.

A connector includes a housing, a switch, a set portion, and a contact terminal. An insertion port and a guide hole are formed in the housing. A flat cable is inserted in the insertion port. The guide hole is a through hole passing through the housing in a direction perpendicular to an insertion direction of the flat cable. When the switch moves along the guide hole in a removal direction opposed to the insertion direction, the set portion protrudes outside the housing from the insertion port. A connection portion of the flat cable is set on the set portion. When the switch moves along the guide hole in the insertion direction, the set portion is stored in an inner space of the housing. The contact terminal contacts and presses, in the inner space, a conductor provided in the connection portion.

A flat electric cable connection structure includes a flat electric cable, terminal fittings, and alleviation portions. The flat electric cable includes, at one end portion thereof, a plurality of separate strip-shaped portions in which a plurality of band-shaped conductor paths are individually separated. The terminal fittings include conductor path connecting portions connected to band-shaped conductor paths of the separate band-shaped portions. The alleviation portions include bypass mechanisms that bypass an arrangement route of the flat electric cable from the conductor path connecting portions of the terminal fittings to a lead-out portion.

A junction device for flat flexible cables (FFCs) includes a device housing, a power contact, a signal contact assembly, and a data contact assembly. The power contact defines an input power FFC connection, an output power FFC connection, and a breakout power FFC connection, with the input, output and breakout FFC connections being electrically interconnected. The signal contact assembly defines an input signal FFC connection, an output signal FFC connection, and a breakout signal FFC connection. The signal contact assembly is adapted to output a signal to the breakout signal FFC connection indicative of a signal received at the input signal FFC connection. The data contact assembly includes an input data FFC connection, an output data FFC connection, and a breakout data FFC connection. The data contact assembly is adapted to output a data signal received at the input FFC connection from the output FFC connection and the breakout FFC connection.

A pluggable module comprising a housing having a first end and second end, an edge connector disposed at the first end, an F-type coaxial connector at the second end and a release lever including a stamped body that is symmetrical about a centerline bisecting the length of the body. The pluggable module comprises a miniature balun disposed within the module for converting between a single-ended input to a differential load.

An electrical connection device includes an electronic component and a docking component. The electronic component includes a first conductor. The first conductor has a first section and a second section extending forward from the first section. The second section has a contact portion. A width of the contact portion in an extending direction of the second section gradually decreases. The docking component includes a second conductor conductively connected to the first conductor to transmit a high-frequency signal. The contact portion abuts the second conductor. The first section is located behind the second conductor. Thus, the cross-sectional area of the abutting location of the contact portion and the second conductor gradually decreases in the extending direction of the second section. That is, the cross-sectional area of the abutting location of the contact portion and the second conductor gradually decreases relative to the cross-sectional area of the first section.

An electrical connection device has a first insulating body. A strip-shaped first conductor is accommodated in the first insulating body. The first conductor as a whole is arranged horizontally to electrically connect backward with a first docking component. A bottom surface of the first conductor has a front edge, and a contact area extends backward from the front edge. A second docking component includes a second conductor located below the first conductor. The second conductor has a front end, a rear end, and a top surface connecting the front and rear ends. An elastic body is located above the first conductor and downwardly abuts the first conductor. A pressing piece provides a downward force to make the first conductor downwardly abut the second conductor.