A connector assembly includes a cap housing with a first fastener, a plug, and a position assurance member coupled to the plug and the cap housing. The plug includes a first end portion to be inserted into the cap housing, a plug-side flange protruding from an outer side of the plug, and a second fastener to be fastened to the first fastener. A first end portion of the cap housing is inserted into the plug-side flange. The position assurance member has a coupling flange into which a second end portion of the plug and a second end portion of the cap housing are inserted.

A rotatable electric plug includes a plug housing including a sleeve body, a plug module including a mounting body and at least a protruding pin, and a limiting assembly coupled to the sleeve body and the mounting body. The mounting body is rotatably coupled in the sleeve body that a rotational movement of the mounting body is reversible. The mounting body has a first side and an opposed second side that a portion of the protruding pin is extended from the first side of the mounting body. The limiting assembly is arranged to block the plug module from rotating infinitely at the plug housing in one direction. The rotatable electric plug has the advantages of enabling the reversibly rotational movement of the plug module, enhancing the rotational movement of the plug module, retaining the plug module at an angular angle, and preventing the plug module from being infinitely rotated.

A receptacle assembly includes one or more receptacle housing members, each having an inner portion which extends outwardly beyond the housing member defining an asymmetrical opening therebetween to secure a male connector. The inner portion includes openings to secure electrical prong members from the male connector. Electrical connectors extend from the inner portion to electrical power lines from a dockside power pedestal or post. A mounting assembly portion of the retrofit receptacle assembly secures the receptacle to the dockside power pedestal or post.

In an electrified transmission, motor leads are electrically connected to inverter leads by being squeezed between a compressible limiter on a terminal base and a prong of a cover plate. Several such connection are accomplished by installation of the cover to an inverter housing. This method reduces the number of assembly steps and is more robust to variations in the positions of the leads. The terminal base may be part of an inverter module within the inverter housing.

The disclosure describes a high-power electrical connector providing blind-mating and an environmental sealing connector with a bus bar interfaces that features positional alignment and low friction mating. The electrical connector includes a receptacle with a bus bar electrically isolated from nearby connectors. The connector further includes a plug configured to mate with the receptacle. The plug includes several electrical contacts configured to make an electrical connection to the bus bar of the receptacle, when mated. Within the plug, tensioning device for each electrical contact applies a spring force to the contact. The electrical contacts are sized and positioned to match the bus bar geometry for balanced current flow and to avoid interface internal heating. The electrical connector of this disclosure may be desirable for application in which power electronics interface with other electronics.

A universal DC power adaptor for a PRC-148 radio, a PRC-152 radio, a Handheld ISR Transceiver, and similar devices and a method of using the same, is disclosed. The universal DC power adaptor includes mounting and locking features that are common to both the PRC-148 radio and the PRC-152 radio. The universal DC power adaptor further includes certain mounting and locking features that are unique to the PRC-148 radio and other mounting and locking features that are unique to the PRC-152 radio. The universal DC power adaptor also provides an output voltage suitable for both the PRC-148 and PRC-152 radios. Such features also are compatible with the Handheld ISR Transceiver, making the universal DC power adaptor compatible with the ISR Transceiver as well. Additionally, the universal DC power adaptor includes programmable control electronics.

A ground termination system may include a backshell for an electrical connector, a grounding insert and a ferrule. The grounding insert includes an outer peripheral edge and a centrally disposed aperture. The outer peripheral edge may be sized to fixedly engage a surrounding portion of the backshell and the centrally disposed aperture may be defined by a plurality of lobes. A first group of the lobes may be sized to receive power conductors of a variable frequency drive power cable. The ferrule may include a crimp barrel and a sleeve. The crimp barrel may receive a ground conductor and be rigidly clamped thereto. The sleeve of the ferrule may fixedly engage one of the lobes in the second group of lobes and anchor the ferrule in the aperture.

A ground termination system may include a backshell for an electrical connector, a grounding insert and a ferrule. The grounding insert includes an outer peripheral edge and a centrally disposed aperture. The outer peripheral edge may be sized to fixedly engage a surrounding portion of the backshell and the centrally disposed aperture may be defined by a plurality of lobes. A first group of the lobes may be sized to receive power conductors of a variable frequency drive power cable. The ferrule may include a crimp barrel and a sleeve. The crimp barrel may receive a ground conductor and be rigidly clamped thereto. The sleeve of the ferrule may fixedly engage one of the lobes in the second group of lobes and anchor the ferrule in the aperture.

A cable connector for electrically connecting at least one first electrical conductor to at least one second electrical conductor. The cable connector includes an insulating-material housing, which has at least one first conductor insertion opening and at least one second conductor insertion opening. The second conductor insertion opening is opposite the first conductor insertion opening. The cable connector has at least one electrical contact in the insulating-material housing. The least one electrical contact is electrically contacted by a first electrical conductor via the first conductor insertion opening and by a second electrical conductor via the second conductor insertion opening. The first electrical conductor is loaded against the electrical contact via a first clamping spring and the second electrical conductor is loaded against the electrical contact via a second clamping spring such that the first electrical conductor is electrically connected to the second electrical conductor by means of the electrical contact.

A plug-in power adapter is described. The plug-in power adapter may comprise a plug having a plurality of prongs, wherein a first prong of the plurality of prongs is adapted to receive power; a transformer coupled to receive the power from the first prong of the plurality of prongs, wherein the transformer generates a power signal on a power signal line coupled to the transformer; a plurality of contact elements accessible on the plug-in power adapter by a user of the plug-in power adapter; and a wireless communication circuit adapted to receive signals using a wireless communication protocol; wherein a contact element of the plurality of contact elements is adapted to receive a control signal.