An electric vehicle supply equipment that includes a form factor fitting a charging station including one interface for charging electric vehicles and at a second interface for powering street lighting. The first interface including a voltage for supporting level 2 charging. The electric vehicle supply equipment can also include an electrical box mounted to the structure with a form factor fitting the charging station that includes a connection to grid power. The electrical box includes an AC circuit, wherein a splitter provides for electrical communication from the AC circuit to the first and second interface, wherein the splitter provides for splitting the neutral and line cables of the AC input into a first branch that provides electrical communication to the first interface having the voltage for supporting level 2 charging, and a second branch that provides electrical communication to the second interface for powering the luminaire.

A split luminaire having at least two sections that attach to one another, each section including an outer light transmitting cover and a housing. The housing includes partition with a rear side including a recess that extends upward from a bottom to a top edge of the housing. The recess defines a conduit through the assembled housings that is open on its top and bottom. A hollow tubular support is located within the conduit and permits wiring, cabling and/or other components to extend through the luminaire from the pole to above the housings. The tubular support has an upper and lower flanges. The upper flange provides a point for attachment of electrical components above the luminaire and the lower flange is attached to the top of a pole. One or more light sources are mounted within the luminaire.

A lens component disperses light from a source having a distribution characteristic in which luminosity becomes smaller according to distance from the optical axis. The component includes an incidence portion at a source position struck by light from the source and guiding portions branching from the incidence portion and extending radially from the source position. Each guiding portion includes a basal end portion joined to the incidence portion, emission end portion emitting light away from the source, and reflection surface guiding light that struck the basal end portion while performing internal reflection. The incidence portion and guiding portions form a light distribution structure arranged so that a ratio of luminosity in a direction making a predetermined angle with the optical axis with respect to luminosity in the axial direction in light emitted from the structure is larger than a corresponding ratio in the source's distribution characteristic.

A bollard light fixture comprises a housing including a longitudinal, vertical hollow portion; and a plurality of directional antennas disposed within the vertical hollow portion, the antennas are configured to radiate RF signals outwardly from inside the housing and receive RF signals.

A lighting assembly is provided including a base configured to support the lighting assembly, a plurality of gobo sections configured to be vertically stacked upon the base, at least one illumination element located internal to the lighting assembly, such that light from the at least one illumination element is cast through at least one of the plurality of gobo sections, and an assembly top configured to enclose a top side of an upper most gobo section of the plurality of gobo sections. The base and the plurality of gobo sections comprises complementary alignment couplings that are removably connected when stacked.

A lighting device is provided for attachment to a component that defines an open area. The lighting device includes a mounting plate and a light emitting diode (LED) assembly. The mounting plate extends longitudinally, and is disposable within the open area. The mounting plate presents a first mounting surface and a second mounting surface. The LED assembly is operatively attached to the first mounting surface, with the LEDs being operatively attached to the first mounting surface, such that the LEDS form at least two columns. Each LED is configured to emit a respective field of light in response to being energized. The LED assembly is configured such that a field of light projected from the LEDs for one of the at least two columns is projected radially away from the field of light projected from the LEDs for the other of the at least two columns.

Modular lighting fixtures include, for example, a section having an elongated member and at least one light source. The elongated member includes an upper portion, a lower portion, an H-shaped cross-section, a longitudinal axis, and a first flange, a second flange, and a web defining a first channel along a first side of the web and the flanges and a second channel along a second side of the web and the flanges. The at least one light source is attached to the upper portion of the elongated member. The section may be a main section, a first upper section, and/or a second upper section. The sections may have a hollow cross-section and the flanges of the sections may be disposed at 90 degrees relative to each other. Methods for use in forming modular lighting fixtures and methods for illumination are also disclosed.

An apparatus includes a light emitting diode for at least illuminating a pathway. A rechargeable storage device provides a discharge current to the light emitting diode. A solar panel supplies a charging current to the rechargeable storage device during exposure of scattered light of at most 900 foot-candles. The ratio of the charging current to the discharge current is greater than 0.5. A safety device protects the rechargeable storage device from substantial overcharging during exposure of direct sunlight. A recharging switch supplies the charging current to the rechargeable storage device during a charging mode. A discharging switch supplies the discharge current to the light emitting diode during an illumination mode. A low light sensor effects a switching between the charging mode and the illumination mode.

Lighting fixtures can have installation and mounting features that reduce the number of mounting screws that are readily visible or accessible from outside the lighting fixture. The lighting fixture can have an elongate housing, one or more light modules, first and second installation brackets, a plurality of J-bolts, and a cover. The only fastener(s) accessible from outside the housing of the lighting fixture can be one or more cover screws for securing the cover to the housing. The cover screw(s) can be positioned in inconspicuous locations and are not visible in plain view.

A charging station for providing power connections, charging and/or data connections includes one or more wiring devices mounted to a power module that slides in the housing of the main assembly of the charging station such that each wiring device is recessed from the outer surface of the charging station. A back wall of the power module serves as a barrier between different branch circuits for code compliance. The charging station includes a cover assembly with a sloped upper surface and is constructed so that most of the required electrical connections are made on the power module prior to the assembly of the charging station.