According to an aspect of the present disclosure, a luminaire comprises a plurality of waveguides, a light source arranged to direct light into the plurality of waveguides, and a plurality of extraction feature patterns. The luminaire contemplated by the present disclosure is arranged with the plurality of waveguides are aligned such that an extraction feature pattern extracts light out of a first waveguide of the plurality of waveguides and a second extraction feature pattern extracts light out of a second waveguide of the plurality of waveguides. Further, in accordance with this aspect, the light extracted out of the first waveguide is directed through the second waveguide to develop an appearance of depth.

An edge-lit luminaire includes a housing, a lens, a light emitter, a first reflector, and a second reflector. The housing has a central opening that defines a central area. The lens includes a plurality of extraction features substantially evenly distributed over a lens area. The lens is positioned proximate the central opening, and the lens area is larger than the opening area. The light emitter is positioned adjacent the lens and configured to direct light in a direction generally orthogonal with respect to the central opening. The first reflector is positioned proximate a first surface of the lens distal the central opening. The first reflector substantially covers the first surface of the lens. The second reflector is positioned proximate a second surface of the lens opposite the first surface. The second reflector substantially covers the second surface of the lens outside of the central opening.

An angled connector which allows connection between two LED lighting strips without the creation of an undesirable dark gap at connecting corners. The angled connector has a plurality of terminal pairs arranged such that when two LED light strips are connected, a distance between an end LED on one strip and an end LED on the other strip is approximately the same as a distance between adjacent equally-spaced LEDs on surfaces of the two strips. Used in a lighting fixture, a non-linear light source is retained within a housing having an opening through which light from LEDs can be directed. At least first and second adjacent LED light strips are connected at an angle to one another and a distance between end LEDs is approximately the same as a distance between equally-spaced LEDs on the surface of both the first and second LED strips. This configuration eliminates dark gaps at the corners of the fixture.

Systems and methods for collapsible lighting fixtures are disclosed. In aspects, a horticultural luminaire 100 has first and second light fixtures 110, 120 coupled in movable relation between storage and deployed positions by a coupling element 130 applying a retarding torque. Coupling element can be coupling shaft 250 providing friction, or friction hinge cartridge 260. In aspects, hinge 130 has ledge surfaces 218, 228 adjacent rotational hinge faces 216, 226 and extending transverse the rotational plane. In aspects, a horticultural luminaire has an articulated cableway extending through hinge 130 coupling light fixtures 110, 120 and guiding a cable entering from the exterior into cable passageways in light fixtures 110, 120, thereby lessening a cable pinch point during rotation and deployment.

An angled connector which allows connection between two LED lighting strips without the creation of an undesirable dark gap at connecting corners. The angled connector has a plurality of terminal pairs arranged such that when two LED light strips are connected, a distance between an end LED on one strip and an end LED on the other strip is approximately the same as a distance between adjacent equally-spaced LEDs on surfaces of the two strips. Used in a lighting fixture, a non-linear light source is retained within a housing having an opening through which light from LEDs can be directed. At least first and second adjacent LED light strips are connected at an angle to one another and a distance between end LEDs is approximately the same as a distance between equally-spaced LEDs on the surface of both the first and second LED strips. This configuration eliminates dark gaps at the corners of the fixture.

An angled connector which allows connection between two LED lighting strips without the creation of an undesirable dark gap at connecting corners. The angled connector has a plurality of terminal pairs arranged such that when two LED light strips are connected, a distance between an end LED on one strip and an end LED on the other strip is approximately the same as a distance between adjacent equally-spaced LEDs on surfaces of the two strips. Used in a lighting fixture, a non-linear light source is retained within a housing having an opening through which light from LEDs can be directed. At least first and second adjacent LED light strips are connected at an angle to one another and a distance between end LEDs is approximately the same as a distance between equally-spaced LEDs on the surface of both the first and second LED strips. This configuration eliminates dark gaps at the corners of the fixture.

A luminaire configured to emit light in different directions. The luminaire may include a frame and optical waveguides disposed in the frame and positioned at different angles relative to one another to direct light outward in multiple different directions. At least one LED may be associated with each optical waveguide. A shield may be associated with the frame and configured to reduce the light from being directed in one or more of the different directions.

A luminaire includes a frame having a lightguide and at least one light emitting diode disposed to direct light into an edge of the lightguide. A low voltage power cable delivers power to the at least one light emitting diode. A plurality of suspension cables are attached to the frame for suspending the luminaire. At least one acoustic panel is attached to the frame.

The present disclosure discloses an adapter for the adapting of at least two linear lamps in an illuminating device. The adapter includes: a first adapting member including a first insulating housing, a first light-transmissive hood assembled on the first insulating housing, a first light source component disposed between the first insulating housing and the first light-transmissive hood, and a first connector extended out of the first insulating housing; a second adapting member including a second insulating housing, a second light-transmissive hood assembled on the second insulating housing, a second light source component disposed between the second insulating housing and the second light-transmissive hood, and a second connector extended out of the second insulating housing; and a driving power supply module capable of being disposed in the first or second adapting member and electrically connected with the first and second light source components.

A luminaire includes a frame having a lightguide and at least one light emitting diode disposed to direct light into an edge of the lightguide. A low voltage power cable delivers power to the at least one light emitting diode. A plurality of suspension cables are attached to the frame for suspending the luminaire. At least one acoustic panel is attached to the frame.