The present disclosure relates to a connector, for docking a plugged member that is provided with a spring plate in a plug-and-pull manner, and comprises a shell, a PCBA chip partially arranged in the shell, and a locking mechanism that is connected with the shell and is used for connecting the plugged member, wherein the locking mechanism comprises an unlocking member and a guiding groove; the unlocking member comprises a guiding arm, a top wall and a pull strap, the guiding arm is slidably arranged in the guiding groove, a front end of the guiding arm forms an unlocking piece, the guiding arm is connected with the top wall, the top wall is connected with the shell through an elastic connecting member, and the pull strap is fixedly connected to a rear end of the guiding arm.

Provided is a wiring structure with which a module board of one mobile communication apparatus can be connected to a circuit board of another mobile communication apparatus by using an optimal wiring material. The present invention is provided with: a main board 2; a first module board 8; a first connector that can be fitted to a coaxial cable connector and a connector mounted on a flexible printed board and that is mounted on the first module board; a second connector 10 fitted to the first connector; and wiring materials 6a, 6b, 14a-14e that are attached to the second connector and electrically connect the main board and the first module board.

A coaxial tap in a hybrid fiber coaxial cable distribution system serves subscribers with an RF signal and optionally an equipment supply voltage while passing the RF signal to devices downstream of the tap.

A cable connector with improved performance and ease of use. The connector has staggered ports to reduce crosstalk and to prevent incorrect insertion of a plug into a receptacle. The plug may be constructed with subassemblies, each of which has a lossy central portion. Conductive members embedded within an insulative housing of the subassemblies may be used to electrically connect ground conductors within the subassemblies. Further, the connector may have a quick connect locking screw that can be engaged by pressing on the screw, but requires rotation of the screw to remove. Additionally, a ferrule may be used in making a mechanical connection between a cable bundle and a plug and making an electrical connection between a braid of the cable bundle and a conductive shell of the plug. The ferrule may be in multiple pieces for easy attachment while precluding deformation of the cable, which disrupts electrical performance.

A cable connector with improved performance and ease of use. The connector has staggered ports to reduce crosstalk and to prevent incorrect insertion of a plug into a receptacle. The plug may be constructed with subassemblies, each of which has a lossy central portion. Conductive members embedded within an insulative housing of the subassemblies may be used to electrically connect ground conductors within the subassemblies. Further, the connector may have a quick connect locking screw that can be engaged by pressing on the screw, but requires rotation of the screw to remove. Additionally, a ferrule may be used in making a mechanical connection between a cable bundle and a plug and making an electrical connection between a braid of the cable bundle and a conductive shell of the plug. The ferrule may be in multiple pieces for easy attachment while precluding deformation of the cable, which disrupts electrical performance.

A contact pad is provided. The contact pad may be a strip-shaped component and forms at least one opening. A circuit device is also provided. The circuit device has a circuit board, at least one contact pad as mentioned above, and a cable. The contact pad is mounted on the circuit board as a connecting spot. The cable has at least one wire. The wire is mounted on the contact pad and covers the opening of the contact pad. An interval is formed in the opening and between the circuit board and the wire. With such structure, a capacitance formed between the wire and the circuit board may be the smallest and the impedance value may be the largest. Besides, the capacitance value can be adjusted via changing the material inside the interval or an area of the contact pad or the opening.

The present application relates to a unitary RF connector (1), intended for example to link two printed circuit boards (PCB1, PCB2), the unitary RF connector extending along a longitudinal axis (X), the connector being a unique piece with an electrically insulating block which serves as a rigid support for both flexible conductive elements whose central portions are rigidly respectively held therein for the central contact and on the outer wall of the block for the ground contact, and with an arrangement as crown for the plurality of free ends of the ground contact.

A medical sensor patch connector assembly can include a medical patch having a first side, a second side opposite the first side, and a hole connecting the first side and the second side. The medical sensor patch connector assembly can include a connector including a first clamping member having a first contact surface in contact with the first side of the medial patch and a tab protruding through the hole in the medical patch. The connector can include a second clamping member having a second contact surface in contact with the second side of the medical patch.

Embodiments of the invention include LED lighting systems and methods. For example, in some embodiments, an LED lighting system is included. The LED lighting system can include a flexible layered circuit structure that can include a top thermally conductive layer, a middle electrically insulating layer, a bottom thermally conductive layer, and a plurality of light emitting diodes mounted on the top layer. The LED lighting system can further include a housing substrate and a mounting structure. The mounting structure can be configured to suspend the layered circuit structure above the housing substrate with an air gap disposed in between the bottom thermally conductive layer of the flexible layered circuit structure and the housing substrate. The distance between the layered circuit structure and the support layer can be at least about 0.5 mm. Other embodiments are also included herein.

Embodiments of the invention include LED lighting systems and methods. For example, in some embodiments, an LED lighting system is included. The LED lighting system can include a flexible layered circuit structure that can include a top thermally conductive layer, a middle electrically insulating layer, a bottom thermally conductive layer, and a plurality of light emitting diodes mounted on the top layer. The LED lighting system can further include a housing substrate and a mounting structure. The mounting structure can be configured to suspend the layered circuit structure above the housing substrate with an air gap disposed in between the bottom thermally conductive layer of the flexible layered circuit structure and the housing substrate. The distance between the layered circuit structure and the support layer can be at least about 0.5 mm. Other embodiments are also included herein.