Commissioning LED (light emitting diode) lighting system and method of assembling same
First Claim
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1. A lighting system comprising:
- a plurality of light emitting diode (LED) lighting elements;
a plurality of radio frequency (RF) enabled Ethernet power driver devices coupled to provide power to said plurality of LED lighting elements through Ethernet cables,wherein a power driver device of said plurality of RF enabled Ethernet power driver devices uses integrated firmware to form a network allowing said power driver device to be selectively programmed to control corresponding LED lighting elements of said plurality of LED lighting element;
a plurality of RF enabled sensor modules which form additional nodes in said network, wherein a RF enabled sensor module provides information regarding its proximate physical zone; and
software enabled by an RF enabled computer to potentially commission a channel of said RF enabled Ethernet power driver to a corresponding a sensor module of said plurality of RF enabled sensor modules,wherein said commissioning includes sensor feedback routines which examine which sensors of said plurality of RF enabled sensor modules respond to which LED lighting elements of said plurality of LED lighting elements.
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Abstract
In one embodiment, the present invention includes a commissioning lighting system. The lighting system comprises a plurality of light emitting diode (LED) lighting elements, and a plurality of radio frequency (RF) enabled Ethernet power driver devices. The RF enabled Ethernet power driver devices are coupled to provide power to the plurality of LED lighting elements through Ethernet cables. Each power driver device of the plurality of RF enabled Ethernet power driver devices uses integrated firmware to form a network allowing each power driver device to be selectively programmed to control corresponding LED lighting elements.
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Citations
20 Claims
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1. A lighting system comprising:
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a plurality of light emitting diode (LED) lighting elements; a plurality of radio frequency (RF) enabled Ethernet power driver devices coupled to provide power to said plurality of LED lighting elements through Ethernet cables, wherein a power driver device of said plurality of RF enabled Ethernet power driver devices uses integrated firmware to form a network allowing said power driver device to be selectively programmed to control corresponding LED lighting elements of said plurality of LED lighting element; a plurality of RF enabled sensor modules which form additional nodes in said network, wherein a RF enabled sensor module provides information regarding its proximate physical zone; and software enabled by an RF enabled computer to potentially commission a channel of said RF enabled Ethernet power driver to a corresponding a sensor module of said plurality of RF enabled sensor modules, wherein said commissioning includes sensor feedback routines which examine which sensors of said plurality of RF enabled sensor modules respond to which LED lighting elements of said plurality of LED lighting elements. - View Dependent Claims (2, 3)
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4. A lighting system comprising:
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a plurality of light emitting diode (LED) lighting elements; a plurality of radio frequency (RF) enabled Ethernet power driver devices coupled to provide power to said plurality of LED lighting elements through Ethernet cables, wherein a power driver device of said plurality of RF enabled Ethernet power driver devices uses integrated firmware to form a network allowing said power driver device to be selectively programmed to control corresponding LED lighting elements of said plurality of LED lighting elements, a plurality of RF enabled sensor modules which form additional nodes in said network, wherein a RF enabled sensor module provides information regarding its proximate physical zone; and software enabled by an RF enabled computer to potentially commission a channel of said RF enabled Ethernet power driver to a corresponding set of sensor modules of said plurality of RF enabled sensor modules, wherein said RF enabled computer is a portable device and said software includes routines to commission said channel by registering a configuration of proximate RF enabled devices of said network and allowing a user to validate and/or alter said configuration. - View Dependent Claims (5, 6)
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7. A method of installing a lighting system comprising:
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securing a plurality of LED lighting elements; coupling a plurality of RF enabled Ethernet power driver devices to alternating current (AC) power; coupling said plurality of RF enabled Ethernet power driver devices, through Ethernet cables, to said plurality of LED lighting elements; forming a network using firmware integrated into a power driver device of said plurality of RF enabled Ethernet power driver devices; selectively programming, through said network, said power driver device to control said corresponding LED lighting elements of said plurality of LED lighting elements securing said plurality of RF enabled Ethernet power driver devices in a matrix such that said coupling to AC power is done above the ceiling and with a minimum number of AC line drops such that a professional electrician'"'"'s work is minimalized. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A method of commissioning a lighting system comprising:
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discovering a default configuration of RF enabled devices of said lighting system by polling proximate RF enabled devices, said RF enabled devices forming a wireless network; mapping said RF enabled devices in response to said discovering; and examining LED lighting elements of said lighting system in response to said mapping, wherein each of said LED lighting elements is associated with at least two RF enabled devices. - View Dependent Claims (14, 15, 16, 17, 18)
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19. A method of installing a lighting system comprising:
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securing a plurality of LED lighting elements, coupling a plurality of RF enabled Ethernet power driver devices to alternating current (AC) power; coupling said plurality of RF enabled Ethernet power driver devices, through Ethernet cables, to said plurality of LED lighting elements, forming a network using firmware integrated into a power driver device of said plurality of RF enabled Ethernet power driver devices selectively programming, through said network, said power driver device to control said corresponding LED lighting elements of said plurality of LED lighting elements installing a plurality of RF enabled sensor modules which form additional nodes in said network, wherein a RF enabled sensor module of said plurality of RF enabled sensor modules provides information regarding its proximate physical zone potentially commissioning a channel of said each RF enabled Ethernet power driver device to a corresponding sensor of said plurality of RF enabled sensor modules, wherein said commissioning uses software enabled by an RF enabled computer, and wherein said commissioning further includes examining which sensors of the plurality of RF enabled sensor modules respond to which LED lighting elements of said plurality of LED lighting elements using sensor feedback routines.
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20. A method of installing a lighting system comprising:
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securing a plurality of LED lighting elements, coupling a plurality of RF enabled Ethernet power driver devices to alternating current (AC) power; coupling said plurality of RF enabled Ethernet power driver devices, through Ethernet cables, to said plurality of LED lighting elements, forming a network using firmware integrated into a power driver device of said plurality of RF enabled Ethernet power driver devices selectively programming, through said network, said power driver device to control said corresponding LED lighting elements of said plurality of LED lighting elements installing a plurality of RF enabled sensor modules which form additional nodes in said network, wherein a RF enabled sensor module of said plurality of RF enabled sensor modules provides information regarding its proximate physical zone potentially commissioning a channel of said each RF enabled Ethernet power driver device to a corresponding sensor of said plurality of RF enabled sensor modules, wherein said commissioning uses software enabled by an RF enabled computer, and wherein said commissioning includes registering a configuration of proximate RF enabled devices of said network to commission said channel, and selectively validating and/or altering said configuration by a user, wherein said RF enabled computer is a portable device used for said registering and said selectively validating and/or altering.
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Specification