A method of transporting at least one energy storage device comprising the step of housing at least one energy storage device in a cassette comprising: a hollow casing for receiving at least one energy storage device; a top cap assembly received at one end of the hollow casing and an end cap assembly received at another end of the hollow casing; electronic circuitry housed within the end cap assembly, the electronic circuitry comprising at least one receptacle associated with each of the at least one energy storage devices, the at least one receptacle being reversibly mateable with at least one plug associated with an external device such that the cassette is received by the external in a first orientation and a second orientation; and electrically isolating the at least one energy storage devices from each other by individually coupling the at least one energy storage device to the electronic circuitry.

A mounting assembly for an electrical fixture has an upper unit and a lower unit. The upper unit includes a first portion of a detent mechanism and an upper contact for connection to a power source. The lower unit is configured for connection to an electrical fixture and includes a second portion of a detent mechanism and a lower contact for connection to the electrical fixture. When the lower unit engages the upper unit, the first portion and the second portion of the detent mechanism cooperate to releasably retain the upper unit and lower unit together and the upper contact and lower contact touch to create an electric pathway between the power source and the electrical fixture.

A method for providing a removable quick-connect between a junction box and an electrical fixture is provided. A first junction box mounting plate is removably affixed to the junction box, and a first electrical connector is positioned in a channel in a front face of the first junction box mounting plate. A second electrical fixture mounting plate is removably affixed to the electrical fixture, and a second electrical connector is positioned in a slot in a projection extending upwardly from a front face of the second fixture mounting plate. The channel in the front face of the first junction box mounting plate is aligned with the projection extending from the front face of the second electrical fixture mounting plate. The channel includes angled side walls and the projection includes side walls angled in the opposite direction. The projection is then slid into the channel until the first electrical connector engages the second electrical connector.

An SFP socket connector is disclosed in this invention. In a socket housing of the SFP socket connector, one row of upper terminal-receiving grooves are located on an inner side of a top wall and extend to a mounting space, and some of the other row thereof are formed between upper support bars and extend to the mounting space. One row of lower terminal-receiving grooves are located on an inner side of a bottom wall and extend to the mounting space, and some of the other row thereof are formed between lower support bars. The shielding case has an upper port aligned with two rows of upper terminal-receiving grooves and a lower port aligned with two rows of lower terminal-receiving grooves. Multiple terminal assemblies are mounted in the socket housing and are arranged side by side in the order of ground-signal-signal.

To provide a socket for electrical component that allows an electrical component to be easily accommodated and to be able to be accommodated and be used even if the electrical component is large. The IC socket 10 comprises a socket body 13 accommodating an IC package 11; a cover member 15 for pressing the IC package 11; and a lever member 17 for pressing the cover member 15. The cover member 15 and the lever member 17 are rotatably connected to the same side end side of the socket body 13, and a pressing means 25, for pushing down the cover member 15 by closing the lever member 17 at the state that the cover member 15 is closed, is provided.

An accessory shoe device enabling multi-polarization of a connector for connection to an accessory without degrading the versatility thereof. The accessory is attached to an engagement member. A signal terminal connector has contacts arranged in a lateral direction orthogonal to an attaching direction. A pair of first engagement portions in the engagement member are spaced by a first width in the lateral direction, and a pair of second engagement portions in the engagement member are spaced by a second width larger than the first width. The signal terminal connector is disposed forward of the first engagement portions in the attaching direction. A length of the signal terminal connector in the lateral direction is larger than the first width and smaller than the second width. The second engagement portions are formed rearward of the first engagement portions in the attaching direction.

An electrical receptacle assemblies and methods for assembling and mounting toolless receptacle assemblies to a housing of a luminaire. The receptacle assembly includes a rotatable receptacle that has an insert portion with an electrical face configured to mate with a photoelectric device and includes an outer ring portion that has a mounting face opposite the electrical face. The mounting face is configured to mount on the housing. A locating mechanism of the receptacle assembly is configured to orient the rotatable receptacle on the housing in a desired direction for optimal positioning of the photoelectric device. A locking base is configured to receive at least a portion of the insert portion. A releasable retention member if configured to couple to the locking base and the insert portion of the rotatable receptacle for securing the receptacle assembly to the housing.

A connector assembly including a first intermediate connector member associated with a first device and having a first connector interface and a second intermediate connector having a second connector interface. The first intermediate connector and the second intermediate connector are movable between an interfaced state in which the first connector interface is in contact with the second connector, and a tethered state in which the first connector interface is spaced apart from the second connector interface. The connector assembly further includes a tether member connecting the first intermediate connector and the second intermediate connector in the tethered state. The tether may include a flexible body configured to control a path along at least an axis of either the first intermediate connector or the second intermediate connector during movement from the interfaced state to the tethered state.

The inspection socket includes: a contact terminal 80 including a barrel 82 having a flange section 90, a device-side terminal 84, and a board-side terminal 86; housings 10, 30, and 50 having through holes 10c, 30c, and 50c into which the contact terminal 80 is inserted; and housings 20 and 40 having through holes 20c and 40c into which the contact terminal 80 is inserted, the through holes 20c and 40c being larger than the outer diameter of the contact terminal 80 excluding the flange section 90 and smaller than the outer diameter of the flange section 90. The housings 20 and 40 are sandwiched between the housings 10, 30, and 50, the flange section 90 is contained in the through hole 50c, and the through holes 10c, 30c, and 50c are designed to have, for impedance matching, a gap from the outer periphery of the contact terminal 80.

A quick-connect mounting device for mounting a fixture to a junction box is provided. A first junction box mounting plate includes junction box mounting means for removably affixing the first junction box mounting plate to the junction box, and a first connector positioned in a channel in a front face of the first junction box mounting plate. The second fixture mounting plate includes fixture mounting means for removably affixing the second fixture mounting plate to the fixture, and a second connector positioned in a slot in a projection extending upwardly from a front face of the second fixture mounting plate. The channel in the front face of the first junction box mounting plate is sized to slidably receive the projection extending from the front face of the second fixture mounting plate, and the first connector is configured to mate with the second connector.