A connector assembly comprises a mating connector and a connector which is configured to be mounted on an object. The mating connector is mateable from above with the connector which is positioned below the mating connector in an up-down direction. The connector comprises a housing and a terminal. The terminal has a fixed portion, a held portion, a coupling portion, a supporting portion and a contact point. The coupling portion couples the fixed portion and the held portion with each other. The coupling portion has a receiving portion. The supporting portion extends from the held portion and is resiliently deformable. The supporting portion has an abutment portion. The abutment portion is positioned above the receiving portion in the up-down direction. The abutment portion is in contact with the receiving portion under a mated state where the connector and the mating connector are mated with each other.

Devices and methods for a sealed electrical connector are described herein. Some embodiments include a spring connecting a first PCB to a second PCB, wherein the spring includes a first end portion in contact with the first PCB, a second end portion in contact with the second PCB, and a middle portion extending between the first end portion and the second end portion, a spacer surrounding the middle portion of the spring, a first seal seated in a first groove of the spacer and in contact with the first PCB, and a second seal seated in a second groove of the spacer and in contact with the second PCB.

The present invention relates to a communication patch panel and a communication rack system having the communication patch panel. The communication patch panel includes a panel body (2) having two ends as well as a front side (21) and a rear side. The communication patch panel includes two fittings (3), each of which is configured to be mounted on a communication rack (20) and to be detachably connected to one of the ends of the panel body, wherein each of the fittings provides a plurality of transverse positions for the detachable connection. A plurality of different positionings of the panel body may be flexibly realized in the communication patch panel.

The present invention relates to a communication patch panel and a communication rack system having the communication patch panel. The communication patch panel includes a panel body (2) having two ends as well as a front side (21) and a rear side. The communication patch panel includes two fittings (3), each of which is configured to be mounted on a communication rack (20) and to be detachably connected to one of the ends of the panel body, wherein each of the fittings provides a plurality of transverse positions for the detachable connection. A plurality of different positionings of the panel body may be flexibly realized in the communication patch panel.

A mount for an electrical connector includes a generally cylindrical body, and a concave protrusion and a connector receptacle each extending from an outer surface of the body. The connector receptacle is structured to receive pair of mated electrical connectors, and the body further defines a first hole and a second hole through which fasteners may secure each electrical connector within the connector receptacle. An actuator assembly includes an actuator having at least one flexible wire electrically coupled to a first electrical connector, a mount, a mount fastener, and a connector fastener. The connector fastener is disposed within the first hole and secured around the connector receptacle and the first electrical connector. A method includes attaching a mount fastener around a mount to secure the mount to the actuator and attaching a connector fastener through the first hole, around the connector receptacle, and around the first electrical connector.

A method is disclosed for performing extension mobility via a headset connection. The method includes receiving a headset identifier from a headset. Also, the method includes, in response to receiving the headset identifier, sending the headset identifier to a device management server. Further, the method includes receiving a call control user identifier from the device management server, and sending, to a call control server, the call control user identifier. Still yet, the method includes receiving, from the call control server, a configuration profile associated with the call control user identifier. One or more settings of a desk phone are configured using the configuration profile.

A method is disclosed for performing extension mobility via a headset connection. The method includes receiving a headset identifier from a headset. Also, the method includes, in response to receiving the headset identifier, sending the headset identifier to a device management server. Further, the method includes receiving a call control user identifier from the device management server, and sending, to a call control server, the call control user identifier. Still yet, the method includes receiving, from the call control server, a configuration profile associated with the call control user identifier. One or more settings of a desk phone are configured using the configuration profile.

Examples provide an electrical safety plug including a nonconductive plug body. A set of pins conform to a set of pin connector slots in an electrical outlet. A tether is threaded through a tether connection aperture in an anchor couple. A first inter-locking device on the anchor couple removably attaches to a second inter-locking device on a return couple having an attachment member. The first interlocking device disengages from the second interlocking device to separate the anchor couple from the return couple during use. The anchor couple attaches to a part of a case during use create tension in the tether. The tension pulls an electrical harness in a direction of an attachment point of the tether. The nonconductive plug body covers the set of pin connection slots and the tether pulls the electrical harness away from a base member.

Examples provide an electrical safety plug including a nonconductive plug body. A set of pins conform to a set of pin connector slots in an electrical outlet. A tether is threaded through a tether connection aperture in an anchor couple. A first inter-locking device on the anchor couple removably attaches to a second inter-locking device on a return couple having an attachment member. The first interlocking device disengages from the second interlocking device to separate the anchor couple from the return couple during use. The anchor couple attaches to a part of a case during use create tension in the tether. The tension pulls an electrical harness in a direction of an attachment point of the tether. The nonconductive plug body covers the set of pin connection slots and the tether pulls the electrical harness away from a base member.

There is provided a battery charger configured to charge a battery including a battery terminal. The battery charger includes a receiving portion in a form of a recess, and a charging terminal provided in the receiving portion. The battery is attachable to and detachable from the receiving portion. The receiving portion includes a holding portion configured to selectively hold the battery in the receiving portion at one of a first posture and a second posture different from the first posture. When the battery is in the first posture, the battery terminal is in contact with the charging terminal to allow the battery to be charged. When the battery is in the second posture, the battery terminal is separated from the charging terminal.