Proposed is an integrated pogo pin including: a casing portion rolled up to have a C-shaped cross section; an upper elastic portion extending from a first side surface of the casing portion in a first spiral direction toward an upper-end opening along an inner circumferential surface thereof; an upper probe portion arranged on a non-stationary end of the upper elastic portion and rolled up to a shape of a cylinder in such a manner as to reciprocate upward and downward within the upper-end opening; a lower elastic portion extending from the first side surface of the casing portion in a second spiral direction toward a lower-end opening along the inner circumferential surface; and a lower probe portion arranged on a non-stationary end of the lower elastic portion and rolled up to the shape of the cylinder in such a manner as to reciprocate upward and downward within the lower-end opening.

A helmet has a helmet shell, a visor connected to the helmet shell, an electrical device attached to at least one of the helmet shell and the visor, and an electrical connector assembly. The electrical connector assembly has a flexible member having a first end magnetically connected to the helmet shell, which is electrically connected to the electrical device. The electrical connector assembly also has a connector connected to a second end of the flexible cord that is electrically connected to the electrical device via the flexible cord. The connector is adapted to connect to a power source.

An example device can include a computing device having a first portion of a pogo pin connector coupled thereto and a mount having a second portion of the pogo pin connector coupled thereto to receive the first portion of the pogo pin connector. The mount can be communicatively coupled to a hub for receiving signals sent from the computing device, and the signals can be communicated from the computing device to the hub via the pogo pin connector in response to engagement of the first portion with the second portion.

A sensor assembly comprises an electronics assembly having a circuit board, a sensor mount structure comprising a first side and a second side, and an aperture formed from the first side towards the second side. The sensor assembly can comprise a sensor supported by the sensor mount structure, such that the sensor is situated, at least partially, in the aperture. The sensor assembly can comprise a spring pin connector coupled to the sensor mount structure, and having a connector body and a pair of conductive spring pins supported by the connector body and electrically coupled to the sensor, and blind-mate interfaced to the circuit board of the electronics assembly, thereby electrically coupling the sensor to the electronics assembly. A sensor array module can include a plurality of sensors and spring pin connectors coupled to a sensor mount structure, which can provide a transponder array of a torpedo.

One embodiment is directed to a method of reading RFID tags in an interconnection system comprising at least one port. The method comprises initiating a localized read transaction to read any RFID tag attached to a first connector and any RFID tag attached to a second connector inserted into the port. The method further comprises, as a part of the localized read transaction, reading any RFID tag configured to respond to a first type of RFID interrogation signal, wherein the first connector comprises an attached RFID tag that is configured to respond to the first type of RFID interrogation signal; and, as a part of the localized read transaction, reading any RFID tag configured to respond to a second type of RFID interrogation signal, wherein the second connector comprises an attached RFID tag that is configured to respond to the second type of RFID interrogation signal. Other embodiments are disclosed.

The present disclosure relates to a coaxial connector, and particularly, a coaxial connector including a fixing module which is connected to a first PCB, and a contact module which is coupled movably to the fixing module, and provided to be contactable to a second PCB facing the first panel, in which the contact module includes a contact body which is made of a conductive material, and has a hollow formed therein, a contact pin which is made of a conductive material, and disposed to penetrate the hollow of the contact body, and a contact insulator which is disposed in the hollow of the contact body to insulate the contact pin and the contact body by partitioning the contact pin and the contact body, and the contact module is configured so that the contact body, the contact pin, and the contact insulator are integrally formed to be assembled to the fixing module by a singular process, thereby providing the advantages which may reduce the cost of a product, and improve the quality of the product by improving a contact rate.

An integrated circuit burn-in socket with a spring-loaded contact pin built into the socket base and an electrical receptacle built into the socket lid wherein the electrical receptacle is configured to mate with the spring-loaded contact pin when the burn-in socket is closed. In one implementation, the socket lid is separate from the socket base and with a spring-loaded contact pin built into the socket base and with an electrical receptacle built into the socket lid wherein the electrical receptacle is configured to mate with the spring-loaded contact pin when the socket lid is clamped to the socket base.

An implantable connector utilizing having improved electrical and mechanical properties is described herein. In one aspect, the implantable connector utilizes electrical contact pins fabricated from a corrosion resistant metal alloy, such as platinum-iridium, that engage longitudinally and include one or more urging members on a proximal portion of the pin so as to provide at least a desired contact force between conductively coupled pins. Such a configuration allows contact between contact pins to be maintained in applications where the connector may be subject to movement and further allows for reduced resistance so as to allow transmission of voltages and current associated with higher powered implanted devices. In some embodiments, the urging member is defined as a helical cut potion in one or both electrical contacts. Methods of use and manufacture of such connectors are also provided herein.

In accordance with some embodiments, a high speed connection may be implemented using pogo-pins. The use of pogo-pins may be advantageous because accurate alignment is not required, connection force is generally lower than with other connections and appearance is often highly advantageous. Through the use of a moveable metal shield, an advantageous high speed connection for high speed signaling may be implemented between the two devices.

A system for containing a strain relief, the system comprising an assembly housing, the assembly housing including: a first outer housing including a connector body; a second outer housing including a rear housing, wherein the first outer housing snaps into the second outer housing and creates a chain of contact points that connect components internal to the assembly housing and prevents internal components from rotating, wherein the assembly housing houses within a banana plug shaft, a strain relief and a solder junction, wherein the solder junction solders a first end of a conductor cable to the banana plug shaft, wherein the first end of the conductor cable is disposed within the assembly housing, and wherein via the chain of contact points, the banana plug shaft presses the strain relief into place and prevents movement of the strain relief and the solder junction.