A single multi-functional position holder is positioned in a receiving space of a housing to implement multiple functions of: satisfying a limitation on the height of a connector by making contact with an insertion portion and a concentric mounting portion of a connector assembly assembled through a curling process; increasing durability to absorb an internal load attributable to the curling process, by making tight contact with the housing; and preventing shaking of a PCB assembly due to a disturbance by restricting the PCB assembly to hold a PCB, thereby reducing the number of component parts of the connector, the process steps, and the cost. In particular, the multi-functional position holder is fixed in the housing without welding so that it is possible to remove a welding process from an assembling process of the connector.

The present disclosure relates to a telecommunications jack including a housing having a port for receiving a plug. The jack also includes a plurality of contact springs adapted to make electrical contact with the plug when the plug is inserted into the port of the housing, and a plurality of wire termination contacts for terminating wires to the jack. The jack further includes a circuit board that electrically connects the contact springs to the wire termination contacts. The circuit board includes a multi-zone crosstalk compensation arrangement for reducing crosstalk at the jack.

A power control device is contained within a housing and has an electric current sensor configured to measure current passing through an electric outlet during a time period, a proximity sensor configured to detect a distance of an object relative to the electric outlet during the time period, a relay switch that can open or close to stop or conduct current through a circuit in the electric outlet in response to a command, and a wireless network interface in communication with the electric current sensor and the proximity sensor, the wireless network interface configured to transmit and receive data from the current sensor and the proximity sensor, to transmit commands to the relay switch, transmit the data to a computing device, and receive commands from the computing device.

A substrate protection structure during inner housing assembling includes an outer housing, a substrate, an inner housing that is disposed with the substrate and is disposed in the outer housing by moving in a predetermined direction relative to the outer housing together with the substrate, and a first projecting portion that is disposed to the inner housing, and projects further on a rear side than the substrate in the predetermined direction when the inner housing is disposed in the outer housing.

A cable assembly has a cable with a transceiver module on one end. The transceiver module is plugged into an interface connector of a circuit card, which also has a network interface controller chip, an onboard non-volatile memory, and a control unit. The control unit reads cable assembly data stored in a non-volatile memory of the transceiver module over a serial bus and copies the cable assembly data to the onboard non-volatile memory. The control unit initiates transfer of the cable assembly data from the onboard non-volatile memory to a communication port of the network interface controller chip over another serial bus.

An electrical connector is provided, including a plug; a PCB, secured with the plug; a shell assembly, covering the plug and secured therewith, the shell assembly having a plurality of forward extending supporting arms suspending above the plug for forming a plurality of accommodating spaces between the supporting arms and the plug; and an insulating molding layer, covering at least a part of the plug and the whole of the shell assembly and filling the plurality of accommodating space.

A communication system includes a modified RJ45 plug and a modified RJ45 jack. The modified RJ45 plug can have two potential contact points that may serve as an electrical interface between the jack's plug interface contacts (PICs) and the plug's contacts. The first contact point is in the IEC-60603-7 preferred electrical mating point location, and allows for backwards connectivity and interoperability with other RJ45 female connectors (jacks). The second contact point is designed to be activated when the modified RJ45 plug is mated with the modified RJ45 jack. The modified RJ45 jack has two distinct surfaces on the PICs such that one surface meets the IEC-60603-7 preferred electrical mating point location and allows for backwards connectivity and interoperability with conventional RJ45 male connectors (plugs). The second contact surface is designed to be activated when the modified RJ45 jack is mated with the modified RJ45 plug.

In an embodiment, a smart connector includes an Application Specific Electronics Packaging (ASEP) device formed by an ASEP manufacturing process, and a separate printed circuit board electrically connected to electrical components of the ASEP device. The ASEP manufacturing process includes forming a continuous carrier web having a plurality of lead frames, overmolding a substrate onto the fingers of each lead frame, each substrate having a plurality of openings which exposes a portion of the fingers, electroplating the traces, and electrically attaching at least one electrical component to the traces to form a plurality of ASEP devices. In some embodiments, the printed circuit board has electrical components configured to control the functionality of the electrical components. In some embodiments, the printed circuit board has electrical components configured to modify properties of the smart connector.

An electrical connector, comprising a housing, a circuit board, a cable, and a shielding member. The housing comprises an accommodating space and a plurality of through grooves. The plurality of through grooves are disposed on an inner surface of the housing along a first direction at intervals. Each of the through grooves extends in a second direction and penetrates the housing. The second direction is orthogonal to the first direction. The circuit board is disposed in the accommodating space and protrudes from the housing. The cable is disposed in the accommodating space. One end of the cable protrudes from the housing. One end of the cable disposed in the accommodating space is connected to the circuit board. The shielding member is disposed in the accommodating space and covers the plurality of through grooves. The accommodating space and the plurality of through grooves are partitioned by the shielding member.

Modular switchboard terminal block (10,20) for transmission of data signals (2) is provided, comprising a container (10a,20a) having, arranged inside it, a printed circuit (30) for processing the data signals, which has two opposite sides (30a,30b) in a transverse direction (Y-Y); connectors (11;21) for electrical connection to controlled/detection devices; and a rear end face provided with hook and spring means for mounting on a DIN switchboard rail (6).