An elongated lighting module having an asymmetric illumination source formed from at least two rows of light emitting diodes (LEDs) that extend along the long axis of the module and are independently controllable. The illumination source is rectangular and oriented so that the rows of LEDs extend along the long axis of the module. The module has couplings at each end that allow additional modules to be interconnected to each other and to a central mount, thereby avoiding the need for a support pole having cross-arms. The lighting modules are powered via a wiring harness that extends down a support pole to a power converter stack having LED drivers to control the modules.

A power distribution system includes a plurality of wires extending between a first end and a second end. The wires extend continuously between the first and second ends. Each wire includes an electrical conductor and an insulation layer. The power distribution system further includes a receptacle selectively positionable at any position along a length of the wires. The power receptacle includes a housing defining at least one power outlet. A plurality of connection members is positioned within the housing. Each connection member includes a first end and a second end. The first end is configured to contact the electrical conductors within the insulation layers of the plurality of wires for electrically connecting the plurality of connection members to the plurality of wires. The second end is configured to electrically connect the plurality of connection members to the at least one power outlet.

A power distribution system includes a plurality of wires extending between a first end and a second end. The wires extend continuously between the first and second ends. Each wire includes an electrical conductor and an insulation layer. The power distribution system further includes a receptacle selectively positionable at any position along a length of the wires. The power receptacle includes a housing defining at least one power outlet. A plurality of connection members is positioned within the housing. Each connection member includes a first end and a second end. The first end is configured to contact the electrical conductors within the insulation layers of the plurality of wires for electrically connecting the plurality of connection members to the plurality of wires. The second end is configured to electrically connect the plurality of connection members to the at least one power outlet.

A connector pair, which is selectively separable, includes a first connector configured to secure first terminals of a first connector wire therein and a second connector, identical to the first connector, configured to secure second terminals of a second connector wire therein. Each of the first and second connectors includes a lower housing including a wire retention channel that receives the respective first or second connector wire therein, terminal retention channels that receive the respective first or second terminals therein, and a latch connector. An upper housing includes securement members that lock to the respective lower housing to retain the respective first or second connector wires and the respective first or second terminals therein. A latch is configured to mate with the latch connector of the opposed connector to retain the first and second connectors together.

A connector pair, which is selectively separable, includes a first connector configured to secure first terminals of a first connector wire therein and a second connector, identical to the first connector, configured to secure second terminals of a second connector wire therein. Each of the first and second connectors includes a lower housing including a wire retention channel that receives the respective first or second connector wire therein, terminal retention channels that receive the respective first or second terminals therein, and a latch connector. An upper housing includes securement members that lock to the respective lower housing to retain the respective first or second connector wires and the respective first or second terminals therein. A latch is configured to mate with the latch connector of the opposed connector to retain the first and second connectors together.

An elongated lighting module having an asymmetric illumination source formed from at least two rows of light emitting diodes (LEDs) that extend along the long axis of the module and are independently controllable. The illumination source is rectangular and oriented so that the rows of LEDs extend along the long axis of the module. The lighting modules are powered via a wiring harness that extends down a support pole to a power supply having LED drivers to control the power to the modules. The power supply is divided between a core enclosure housing the LED drivers and a master enclosure that commands and controls the core enclosure. Multiple core enclosures may be used to power multiple luminaires under the control of a single master enclosure.

An elongated lighting module having an asymmetric illumination source formed from at least two rows of light emitting diodes (LEDs) that extend along the long axis of the module and are independently controllable. The illumination source is rectangular and oriented so that the rows of LEDs extend along the long axis of the module. The lighting modules are powered via a wiring harness that extends down a support pole to a power supply having LED drivers to control the power to the modules. The power supply is divided between a core enclosure housing the LED drivers and a master enclosure that commands and controls the core enclosure. Multiple core enclosures may be used to power multiple luminaires under the control of a single master enclosure.

A connector assembly includes a male connector and a female connector matched with the male connector; the female connector includes a female connector housing and female connector copper terminals; a side surface of the female connector housing has a first wiring hole; an upper part of the female connector housing has sockets corresponding to the female connector copper terminals; the upper part of the female connector housing has slots; the female connector housing has a first installation portion; the male connector includes a male connector housing and male connector copper terminals; a side surface of the male connector housing has a second wiring hole; a bottom part of the male connector has pillars matched with the slots; the male connector has a second installation portion; the male connector copper terminals extend outwardly from the male connector housing and connects the female connector copper terminals.

A connector assembly includes a male connector and a female connector matched with the male connector; the female connector includes a female connector housing and female connector copper terminals; a side surface of the female connector housing has a first wiring hole; an upper part of the female connector housing has sockets corresponding to the female connector copper terminals; the upper part of the female connector housing has slots; the female connector housing has a first installation portion; the male connector includes a male connector housing and male connector copper terminals; a side surface of the male connector housing has a second wiring hole; a bottom part of the male connector has pillars matched with the slots; the male connector has a second installation portion; the male connector copper terminals extend outwardly from the male connector housing and connects the female connector copper terminals.

A coupling system comprising a first androgynous coupler and a second androgynous coupler. The first androgynous coupler comprises a first male coupling section having a first recess extending radially and a first female coupling section comprising a first blocking element and a first positioning element. The second androgynous coupler comprises a second male coupling section having a second recess extending radially, where the second male coupling section is configured to form-fit with the first female coupling section. When the second male coupling section is form-fit with the first female coupling section, axial movement of the first positioning element causes the first blocking element to move radially into the second recess to couple the first androgynous coupler to the second androgynous coupler.