A Network device includes an interface configured to be coupled to a transmission line that carries content and a content processing module. The content processing module includes circuitry configured to route content communicated via the transmission line to one or more secondary network devices. The content processing module further includes a contact assembly. The contact assembly includes an upper housing and a lower housing that define a recessed region therebetween. The contact assembly includes a screw. The head of the screw is disposed above the upper housing and the threaded portion of the screw extends through a threaded opening in the upper housing and into the recessed region. A resilient member of the contact assembly is disposed within the recessed region and has an end that is in mechanical communication with the end of the screw. The contact assembly further includes a plunger assembly. The plunger assembly is disposed below the resilient member and includes a conductive pin disposed therein that is urged by the resilient against center pin of the coaxial connector. Adjustment of the screw facilitates adjusting an amount of force applied by the pin against a center conductor of the transmission line.

A connection device for an appliance with an appliance housing includes a main body having an appliance-side end, a connection-side end facing away from the appliance-side end, and a conduit extending from the appliance-side end to the connection-side end, a securing element securing the main body to a wall section of the appliance housing, and a conductor leading through the main body from the connection-side end to the appliance-side end. The main body has a first abutment surface facing the appliance-side end. The securing element has a second abutment surface facing the first abutment surface. The first abutment surface and the second abutment surface enclose therebetween a receiving region for clamping reception of the wall section of the appliance housing.

Various cellular tower plate connection systems are detailed herein. Such systems can include an antenna plate assembly. This assembly can include an antenna plate and antenna port connectors attached to a first side of the antenna plate. Cable connectors may be present that are attached to a second side of the antenna plate opposite the first side of the antenna plate. The assembly can include a first attachment mechanism that secures antenna port connectors to antenna ports of an antenna system. The antenna port connectors may be arranged on the first side of the antenna plate such that the antenna port connectors mate with the antenna ports of the antenna system in a single possible orientation.

Various cellular tower plate connection systems are detailed herein. Such systems can include an antenna plate assembly. This assembly can include an antenna plate and antenna port connectors attached to a first side of the antenna plate. Cable connectors may be present that are attached to a second side of the antenna plate opposite the first side of the antenna plate. The assembly can include a first attachment mechanism that secures antenna port connectors to antenna ports of an antenna system. The antenna port connectors may be arranged on the first side of the antenna plate such that the antenna port connectors mate with the antenna ports of the antenna system in a single possible orientation.

A coaxial connector assembly includes a connector module having a connector body that includes contact channels. The coaxial connector assembly includes coaxial contacts received in the corresponding contact channels having a center contact, a conductive shell coaxial with the center contact and an insulator between the center contact and the conductive shell. The coaxial connector assembly includes positioning adapters received in the corresponding contact channels having an adapter body forming an adapter bore that receives the coaxial contact. The adapter body engages the retention feature to position the coaxial contact relative to the adapter body and engages the connector body to position the coaxial contact in the contact cavity. The adapter component enables multiple coaxial contact sizes to be used in the same connector module contact channel.

A coaxial connector assembly includes a connector module having a connector body that includes contact channels. The coaxial connector assembly includes coaxial contacts received in the corresponding contact channels having a center contact, a conductive shell coaxial with the center contact and an insulator between the center contact and the conductive shell. The coaxial connector assembly includes positioning adapters received in the corresponding contact channels having an adapter body forming an adapter bore that receives the coaxial contact. The adapter body engages the retention feature to position the coaxial contact relative to the adapter body and engages the connector body to position the coaxial contact in the contact cavity. The adapter component enables multiple coaxial contact sizes to be used in the same connector module contact channel.

A system for wireless power transfer (WPT) is described. The WPT system may be used for charging of electric vehicles or other mobile platforms. The WPT system includes a gap waveguide base including a conductive waveguiding structure and a bandgap structure along at least the lateral sides of the waveguiding structure. The WPT system also includes a charging plate separate from the gap waveguide base. The charging plate includes a conductive plate having a receiving structure for receiving the electromagnetic field from the gap waveguide base through an air gap. The disclosed WPT system enables propagation of an electromagnetic field through the air gap, including electromagnetic fields in the very high frequency (VHF) band.

A system for wireless power transfer (WPT) is described. The WPT system may be used for charging of electric vehicles or other mobile platforms. The WPT system includes a gap waveguide base including a conductive waveguiding structure and a bandgap structure along at least the lateral sides of the waveguiding structure. The WPT system also includes a charging plate separate from the gap waveguide base. The charging plate includes a conductive plate having a receiving structure for receiving the electromagnetic field from the gap waveguide base through an air gap. The disclosed WPT system enables propagation of an electromagnetic field through the air gap, including electromagnetic fields in the very high frequency (VHF) band.

The present disclosure relates to a modular connector assembly and a base station antenna. The modular connector assembly comprises a support and a plurality of connectors mounted on the support. The support is configured as a one-piece support and provided with a plurality of through holes for mounting of the connectors. Each connector is configured to be formed of a first component and a second component that are connectable to each other. The first component and the second component of each connector are located on opposite sides of the support, respectively, are connected to each other by passing through the through holes in the support, and sandwich the support therebetween, thereby fixedly mounting each connector to the support.

The present disclosure relates to a modular connector assembly and a base station antenna. The modular connector assembly comprises a support and a plurality of connectors mounted on the support. The support is configured as a one-piece support and provided with a plurality of through holes for mounting of the connectors. Each connector is configured to be formed of a first component and a second component that are connectable to each other. The first component and the second component of each connector are located on opposite sides of the support, respectively, are connected to each other by passing through the through holes in the support, and sandwich the support therebetween, thereby fixedly mounting each connector to the support.