A bi-directional fan device that is field replaceable within an electronic system is provided. The bi-directional fan device includes a fan unit that cools an electronic system when connected to a power source, and an electrical connector constructed at both ends of the fan unit to electrically connect to the power source.

A single-pair Ethernet device comprises a first input contact and a second input contact, which are configured for electrically contacting a single-pair Ethernet input conductor pair, further comprises a first output contact and a second output contact, which are configured for electrically contacting a single-pair Ethernet output conductor pair, comprises a first conduction path, which in at least one operation state electrically conductively connects the first input contact to the first output contact, and comprises a second conduction path, which in the operation state electrically conductively connects the second input contact to the second output contact.

A connector system for a pluggable IO connector is disclosed that includes a plug with two rows of pads on two sides of a mating blade and a receptacle with two connection regions that is configured to engage the two rows of pads. In an embodiment the connector system can support double the data bandwidth of a typical connector, such as a QSFP connector, while allowing for backward compatibility with convention plug assemblies that have a single row of pads on each side the mating blade.

This invention relates to configurable electrical receptacles and more particularly to electrical receptacles that accept in-situ replacement of an insert providing a specific functionality within an electrical receptacle which is configurable to function or user accessible feature.

A method for evaluation, measurement and verification of energy savings achieved by an installation of an energy saving device, such as an advanced power strip or energy hub device. The method includes an installer installing an energy saving device in a premises supplied with electricity by an energy supplier. Installation information is recorded and to a monitoring entity, usage data describing the ongoing use and power consumption of the energy saving device is then transmitted to the monitoring entity.

A mechanical enclosure provides a mechanism for coupling a storage device to a computer system. The mechanical enclosure can be removably coupled to the computer system and can allow for coupling of the storage device to the computer system without using specialty cables and connectors. The mechanical enclosure can allow the storage device to be coupled to computer system without significantly degrading the speed at which the data stored within the storage device is downloaded onto the computer. The storage device can be inserted into the mechanical enclosure which couples the storage device to the mechanical enclosure. The mechanical enclosure can be inserted into the computer system which similarly couples the computer system to the mechanical enclosure to effectively couple the storage device and the computer system. Once the storage device is effectively coupled to the computer system, the data stored within the storage device can be downloaded onto the computer without the need for specialty cables and connectors.

A ganged connector assembly includes: a plurality of coaxial connectors, each of the coaxial connectors connected with a respective coaxial cable extending rearwardly therefrom, each of the coaxial connectors including an inner contact and an outer body that is electrically separated from the inner contact; a shell having a plurality of cavities; and a plurality of rear bodies, each of the rear bodies encircling a respective outer body, each of the rear bodies mounted in a respective cavity of the shell. Each of the rear bodies includes a first locking feature. A second locking feature is located in each of the cavities and is fixed relative to the shell. The first and second locking features are configured such that rotation of a first of the plurality of rear bodies relative to the shell moves the first rear body between locked and unlocked positions, wherein in the locked position a respective first connector and respective first cable are secured with the shell within a respective cavity, and in the unlocked position the first connector and first cable can be removed from the shell without removing the remaining connectors and cables.

The following disclosure provides a power strip including: a busbar electrically connected to a power source; multiple electrical outlets allowing multiple power plugs to be inserted thereinto, respectively; distribution bars which are branched out from the busbar and respectively supply the electrical outlets with electric currents of the power source; and a plurality of electric current measurement units each configured to measure the electric current flowing through a corresponding one of the distribution bars.

Appliances comprising a base unit and a plug connector coupled to the base unit. The plug connector is configured to electrically couple the appliance to a first socket connector of an electrical receptacle. A channel is formed on or in a first sidewall of the base unit. The plug connector is disposed in the channel when in an engaged position. A defines a channel wall of the channel. The lever is configured to facilitate a transition of the plug connector between the engaged position and a disengaged position. The lever engages the plug connector when in the engaged position and does not engage the plug connector when in the disengaged position.

A new type of power strip comprises a power strip body composed of two or more socket units, the socket unit configured with a connecting structure and jacks, adjacent socket units fixed with each other through the connecting structure. Said jacks are three-way jacks and/or two-way jacks and/or USB jacks and/or switches. Said connecting structure compromises a socket and a plug configured on the socket unit, the socket configured with zero-line and fire-wire jack, the plug configured with corresponding zero-line and fire-wire jack-plug, zero-line jack and the zero-line jack-plug connected with zero line, and the fire-wire jack and the fire-wire jack-plug connected with the fire wire. The benefit of said invention: 1. simple structure and low manufacturing cost; 2. The invention simulates the principle of the train car, with socket units being used separately or stitched based on customer's own needs.