Patent application number | Description | Published |
20090013570 | Apparatus and methods for the thermal regulation of light emitting diodes in signage - Apparatus and methods for the thermal management of one or more light emitting diode (LED) modules disposed within a channel sign are disclosed. The apparatus, in various aspects, detects the ambient temperature generally proximate the LED module and regulates the current flowed onto the LED's within the LED module based upon the ambient temperature. Methods for thermal management of the one or more LED modules disposed within a channel sign are disclosed herein. | 01-15-2009 |
20090109617 | APPARATUS AND METHODS FOR THERMAL MANAGEMENT OF ELECTRONIC DEVICES - An apparatus is disclosed that may include a printed circuit board (PCB) and an electronics package may be disposed about the first surface of the PCB. The PCB may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core. The metal layer may be disposed on a core first surface. The metal layer may comprise metal or other conductive material suitable to define traces, which may be circuit paths for electronic components affixed to the PCB. In some aspects, the core may be electrically non-conducting, and may be thermally insulating, and, accordingly, inhibit the transfer of heat from the electronics package through the PCB. However, pins may be configured to pass through the PCB including the core from the core first surface to the core second surface to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. A pad may be disposed between the electronic package and the core in some embodiments, the pins passing into the pad. | 04-30-2009 |
20090185350 | APPARATUS AND METHODS FOR THERMAL MANAGEMENT OF LIGHT EMITTING DIODES - An apparatus is disclosed that may include one or more printed circuit boards (PCBs) and an electronics package may be disposed about the first surface of one or more of the PCBs. The PCBs may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core(s). A plurality of PCB's may be set apart and connected by pins to dissipate heat from one PCB to another, and/or to convey electrical connectivity. Pins may be configured to pass through or into one or both the PCBs including the cores to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. The apparatus may include LEDs, lights, computer devices, memories, telecommunications devices, or combinations of these. | 07-23-2009 |
20090185373 | APPARATUS AND METHOD FOR THERMAL DISSIPATION IN A LIGHT - A device is disclosed for producing light that may include one or more printed circuit boards (PCBs), an electronics package may be disposed about the first surface of one or more of the PCBs and a housing. The PCBs may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core(s). A plurality of PCB's may be set apart and connected by pins to dissipate heat from one PCB to another, and/or to convey electrical connectivity. Pins may be configured to pass through or into one or both the PCBs including the cores to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. The PCBs may include LEDs, lights, computer devices, memories, telecommunications devices, or combinations of these. The device may also include a housing to contain the plurality of PCBs such that air flow may enter the housing and pass by the pins for cooling of the PCBs and electronics thereof. The housing may also be configured to permit external power to be applied to the PCBs within the apparatus. | 07-23-2009 |
20100019684 | CURRENT REGULATOR APPARATUS AND METHODS - An apparatus according to the present invention provides regulated pulsed current to an LED from a voltage source such as a rectified AC voltage. The present inventions provide methods for delivering regulated pulsed current to an LED from the voltage source. | 01-28-2010 |
20100207150 | Light Emitting Diode Assembly and Methods - Exemplary systems and methods for LED light engines include an LED package with electrical leads, each lead forming a compliant portion for making electrical and mechanical connection upon insertion into a receptacle of a circuit substrate. In an illustrative example, the electrical and mechanical connections may be formed upon the insertion of the compliant portion into the receptacle and without further process steps involving solder. Various examples may further include an elongated thermal dissipation member extending from a bottom of a package that contains the LED, where the elongated thermal member (e.g., tab) may be in substantial thermal communication with the LED die. As an example, the tab may provide a substantially reduced thermal impedance for dissipating heat from the LED die. Upon insertion into a circuit substrate, the LED package may be releasable by mechanical extraction without applied heat to facilitate repair or replacement, for example. | 08-19-2010 |
20100212149 | LIGHT AND PROCESS OF MANUFACTURING A LIGHT - A light circuit manufacturing process includes forming a palletized driver PCB board having a plurality of driver PCBs, forming a plurality of power PCBs on a palletized surface, forming slots in the driver PCBs, forming holes in the power PCBs, aligning both the power PCB palletization and the driver PCB palletization using reference holes such that the edges of each extend further in one direction or the other, and inserting thermal tabs into both the power PCB and the driver PCB. | 08-26-2010 |
20110050133 | LED Lamps with Packaging as a Kit - Apparatus and methods for re-usable packaging of a lighting product include providing a container body to receive an electric lamp and a cover that can be repeatedly sealed and unsealed to the container. In an illustrative example, the lamp may be an AC LED lamp substantially located within the container body by a lamp locating feature on a bottom interior surface of the container body. In some embodiments, an interior surface of the lid may provide a projecting feature configured to positively retain the lamp in the lamp locating feature when the lid is installed on the container body. In various embodiments, the container body and the container lid may advantageously provide a protective package that may be sold as a kit, and may further provide a durable and reusable general purpose container system that may, for example, substantially reduce an environmental footprint associated with lamp packaging. | 03-03-2011 |
20110089844 | CONTINUOUS STEP DRIVER - A light emitting diode (LED) lamp includes an LED cluster including LED groups arranged in series, a power source configured to provide an input power to the LED cluster, and a driving unit configured to adjust a number of the LED groups connected to a current path of the LED cluster in series based on the input power to the LED cluster. | 04-21-2011 |
20110101883 | LED LIGHTING FOR LIVESTOCK DEVELOPMENT - Apparatus and associated methods involve a hangable LED light assembly constructed to provide a selected color output illumination as a function of excitation intensity. In an illustrative example, the color output may be selected to promote biological development throughout livestock development stages (e.g., incubation, growth, and reproduction). The light intensity may controllable, for example, in response to a light dimmer arranged to modulate AC excitation applied to the LED downlight. As the light intensity is decreased in response to a simple dimmer control, the spectral output of the LED downlight may shift its output wavelengths. Accordingly, some exemplary installations may provide controlled combinations of intensity and color to substantially optimize lighting conditions for livestock. | 05-05-2011 |
20110109244 | ARCHITECTURE FOR HIGH POWER FACTOR AND LOW HARMONIC DISTORTION LED LIGHTING - Exemplary apparatus and associated methods involve a bypass module for modulating conductivity of one or more current paths to provide a first set of LEDs that are conducting near minimum output illumination and having a larger conduction angle than that of a second set of LEDs that conduct at a maximum output illumination. In an illustrative example, the conductivity of a bypass path in parallel with a portion of the second set of LEDs may be reduced while the AC input excitation is above a predetermined threshold voltage or current. The bypass path may be operated to provide a reduced effective turn-on voltage while the input excitation is below the predetermined threshold. For a given maximum output illumination at a maximum input excitation, the bypass module may control current through selected LEDs to construct an input current waveform with substantially improved power factor and reduced harmonic distortion. | 05-12-2011 |
20110110059 | APPARATUS AND METHODS FOR THERMAL MANAGEMENT OF ELECTRONIC DEVICES - An apparatus is disclosed that may include a printed circuit board (PCB) and an electronics package may be disposed about the first surface of the PCB. The PCB may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core. The metal layer may be disposed on a core first surface. The metal layer may comprise metal or other conductive material suitable to define traces, which may be circuit paths for electronic components affixed to the PCB. In some aspects, the core may be electrically non-conducting, and may be thermally insulating, and, accordingly, inhibit the transfer of heat from the electronics package through the PCB. However, pins may be configured to pass through the PCB including the core from the core first surface to the core second surface to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. A pad may be disposed between the electronic package and the core in some embodiments, the pins passing into the pad. | 05-12-2011 |
20110193467 | Modular Architecture for Sealed LED Light Engines - Apparatus and associated methods involve an assembly of multiple LED light engines in which a desired number of LED lamps are mounted to a plate that forms a wall of an enclosure. In an illustrative example, three LED light engines may be mounted to a plate that may be slidably installed as a wall of an extruded housing that contains electrical connections from an AC power inlet to each light engine. In various examples, the number and layout arrangement of the LED light engines may be custom selected for a particular application. | 08-11-2011 |
20110203149 | APPARATUS AND METHODS FOR THE THERMAL REGULATION OF LIGHT EMITTING DIODES IN SIGNAGE - Apparatus and methods for the thermal management of one or more light emitting diode (LED) modules disposed within a channel sign are disclosed. The apparatus, in various aspects, detects the ambient temperature generally proximate the LED module and regulates the current flowed onto the LED's within the LED module based upon the ambient temperature. Methods for thermal management of the one or more LED modules disposed within a channel sign are disclosed herein. | 08-25-2011 |
20110205702 | APPARATUS AND METHODS FOR THERMAL MANAGEMENT OF LIGHT EMITTING DIODES - An apparatus is disclosed that may include one or more printed circuit boards (PCBs) and an electronics package may be disposed about the first surface of one or more of the PCBs. The PCBs may include a metal layer and a core, and, in some aspects, may include multiple cores interposed between multiple metal layers, and in some embodiments a backplane may be disposed along the core(s). A plurality of PCB's may be set apart and connected by pins to dissipate heat from one PCB to another, and/or to convey electrical connectivity. Pins may be configured to pass through or into one or both the PCBs including the cores to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. The apparatus may include LEDs, lights, computer devices, memories, telecommunications devices, or combinations of these. | 08-25-2011 |
20110210678 | Spectral Shift Control for Dimmable AC LED Lighting - Apparatus and associated methods involve operation of an LED light engine in which a relative intensities of selected wavelengths shift as a function of electrical excitation. In an illustrative example, current may be selectively and automatically diverted substantially away from at least one of a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level. The diversion current may be smoothly reduced in transition as the excitation current or voltage rises substantially above the predetermined threshold level. A color temperature of the light output may be substantially changed as a predetermined function of the excitation voltage. For example, some embodiments may substantially increase or decrease a color temperature output by a solid state light engine in response to dimming the AC voltage excitation (e.g., by phase-cutting or amplitude modulation). | 09-01-2011 |
20110228515 | Light Sources Adapted to Spectral Sensitivity of Diurnal Avians and Humans - Various apparatus and associated methods involve a light source that provides light at wavelengths that substantially correlate to local maxima in the spectral sensitivity of a diurnal avian. In an illustrative example, the light source may output light primarily in wavelength bands that are not substantially absorbed by colored oil droplets and/or visual pigment in at least one type of cone in the eye of a diurnal avian. In some embodiments, the light source may include a light-emitting diode (LED) light source. Exemplary light sources may output spectral components to illuminate diurnal avians with local maxima of intensity at wavelengths that substantially correspond to local maxima in a spectral sensitivity visual response characteristic of the diurnal avians. | 09-22-2011 |
20110241559 | INTEGRAL CONDUIT MODULAR LIGHTING - Apparatus and associated methods involve a light module adapted to mount to an open face of a conduit body. In an illustrative example, the light module may include an electrical interface for making operative electrical connection to conductors disposed within the conduit body. In some particular embodiments, the electrical interface may include an insulation displacement-style connector to facilitate installation and/or removal of the light module. In various examples, the conduit body may substantially conform to a form factor of a conduit body for a conventional conduit system. | 10-06-2011 |
20110260641 | CURRENT REGULATOR APPARATUS AND METHODS - An apparatus according to the present invention provides regulated pulsed current to an LED from a voltage source such as a rectified AC voltage. The present inventions provide methods for delivering regulated pulsed current to an LED from the voltage source. | 10-27-2011 |
20110273098 | Reduction of Harmonic Distortion for LED Loads - Apparatus and associated methods reduce harmonic distortion of a excitation current by diverting the excitation current substantially away from a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level, and ceasing the current diversion while the excitation current or voltage is substantially above the predetermined threshold level. In an illustrative embodiment, a rectifier may receive an AC (e.g., sinusoidal) voltage and deliver unidirectional current to a string of series-connected LEDs. An effective turn-on threshold voltage of the diode string may be reduced by diverting current around at least one of the diodes in the string while the AC voltage is below a predetermined level. In various examples, selective current diversion within the LED string may extend the input current conduction angle and thereby substantially reduce harmonic distortion for AC LED lighting systems. | 11-10-2011 |
20110292662 | APPARATUS FOR HOUSING A LIGHT ASSEMBLY - An apparatus and related method for housing a light assembly apparatus includes a housing having a housing first end and a housing second end arranged along a central axis, the housing further includes a plurality of fins each having a fin first end and a fin second end, the plurality of fins forming a plurality of vents therebetween, each the plurality of fins has a curvature extending from the fin second end such that the plurality of fins converge towards the central axis proximate each fin first end, an endpiece proximate the housing first end and arranged proximate to the fin first end of each of the plurality of fins, the endpiece having a circular portion including a continuous circumference about the central axis, an electrical connector arranged proximate to the endpiece and arranged along the central axis, and a space arranged along the central axis proximate the housing second end and further configured with the plurality of fins and the plurality of vents arranged therearound, the space configured to, at least in part, house a light assembly. Other embodiments are disclosed as well. | 12-01-2011 |
20120186524 | DIFFERENTIAL ILLUMINATION TO SELECT EGG LAYING SITES - Differential illumination systems and methods selectively provide light having different spectrums in an aviary system for housing animals located within an enclosure, and in the enclosure. A first light source produces light with a first spectrum, and illuminates an internal volume of the aviary system. A second light source produces light with a second spectrum different from the first spectrum, and illuminates the enclosure outside of the aviary system. The first spectrum can have a higher red component than the second spectrum to encourage chicken to lay eggs inside of the aviary system, and the second spectrum can have a higher blue component than the first spectrum to discourage chicken from laying eggs outside of the aviary system. | 07-26-2012 |
20120268918 | EXTENDED PERSISTENCE AND REDUCED FLICKER LIGHT SOURCES - A light source is provided with extended persistence and reduced flicker characteristics by using a light capacitive filter. In general, a light source can include an illumination source which converts electrical energy into emitted light. The illumination source, however, is generally powered by an AC waveform, and the periodic variations inherent in the AC waveform may cause flicker in the emitted light. To reduce the flicker, a light capacitive filter is included in the light source to filter the light emitted by the illumination source and produce a light output with reduced flicker. In some examples, the light capacitive filter includes a medium persistence phosphor having a decay constant (or half-life) of between 1 milliseconds and 2 seconds. | 10-25-2012 |
20120279119 | ARCHITECTURE FOR SYMBIOTIC LIVESTOCK AND BIOFUEL PRODUCTION - Methods and apparatus involve locating an algae production facility in close proximity to a livestock production facility whereby the outputs of one or both facilities promotes productivity levels in the facility. In an illustrative example, the algae production facility includes a bioreactor in fluid communication with the atmosphere inside, for example, a poultry facility. In some examples, the atmosphere inside the poultry facility may be around a substantially controlled temperature suitable for poultry. The atmosphere may further contain substantial Nitrogen-content suitable to promote algae growth. Various embodiments may symbiotically consume waste products from each facility to promote production of, for example, protein for food and algae, which may be used for animal feed, for example, and/or processed into fuel. In some examples, the algae production facility may be conveniently packaged into a module. In some examples, the module may be stored and shipped in a conventional shipping container. | 11-08-2012 |
20130083535 | APPARATUS AND METHOD FOR THERMAL DISSIPATION IN A LIGHT - A device for producing light may include one or more printed circuit boards (PCBs), an electronics package may be disposed about a first surface of one or more of the PCBs and a housing. A plurality of the PCBs may be set apart and connected by pins to dissipate heat from one PCB to another, and/or to convey electrical connectivity. Pins may be configured to pass through or into one or both the PCBs including the cores to conduct heat generated by the electronics package away for dispersion. In some embodiments, the pins may pass into the backplane. The PCBs may include LEDs, lights, computer devices, memories, telecommunications devices, or combinations of these. The device may also include a housing to contain the plurality of PCBs such that air flow may enter the housing and pass by the pins for cooling of the PCBs and electronics thereof. | 04-04-2013 |
20130127349 | Reduction of Harmonic Distortion for LED Loads - Apparatus and associated methods reduce harmonic distortion of a excitation current by diverting the excitation current substantially away from a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level, and ceasing the current diversion while the excitation current or voltage is substantially above the predetermined threshold level. In an illustrative embodiment, a rectifier may receive an AC (e.g., sinusoidal) voltage and deliver unidirectional current to a string of series-connected LEDs. An effective turn-on threshold voltage of the diode string may be reduced by diverting current around at least one of the diodes in the string while the AC voltage is below a predetermined level. In various examples, selective current diversion within the LED string may extend the input current conduction angle and thereby substantially reduce harmonic distortion for AC LED lighting systems. | 05-23-2013 |
20130134888 | Spectral Shift Control for Dimmable AC LED Lighting - Apparatus and associated methods involve operation of an LED light engine in which a relative intensities of selected wavelengths shift as a function of electrical excitation. In an illustrative example, current may be selectively and automatically diverted substantially away from at least one of a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level. The diversion current may be smoothly reduced in transition as the excitation current or voltage rises substantially above the predetermined threshold level. A color temperature of the light output may be substantially changed as a predetermined function of the excitation voltage. For example, some embodiments may substantially increase or decrease a color temperature output by a solid state light engine in response to dimming the AC voltage excitation (e.g., by phase-cutting or amplitude modulation). | 05-30-2013 |
20130152864 | AQUACULTURE LIGHTING DEVICES AND METHODS - A lighting assembly for enhancing the growth of aquatic life in an ecosystem and method of enhancing the growth of aquatic life in such an ecosystem. The assembly includes a vessel submerged within water of the ecosystem. A substrate is disposed within and surrounded by the vessel and provides electronics to provide a conditioned current to a plurality of light emitting diodes also contained on the substrate. The light emitting diodes emit light within the water of the ecosystem that provides for growth, not only in a larger volume of the ecosystem, but in addition enhances the growth of the aquatic life. | 06-20-2013 |
20130153938 | Light Emitting System - A light emitting assembly including a substrate having electrically conductive pathways that electrically connect a plurality of electrical component dies. The said electrical components include at least one light emitting diode engaged along the substrate to form an interface surface between the light emitting diode and the substrate. Therefore the combined and unified vector of thermal conduction from the light emitting diode dies are perpendicular to the interface surface when the combined and unified vector of thermal conduction crosses the interface surface from the light emitting diode die to the substrate. | 06-20-2013 |
20130157394 | LIGHT EMITTING SYSTEM WITH ADJUSTABLE WATT EQUIVALENCE - A light emitting diode assembly and method of manufacturing the same. The light emitting diode assembly has a heat sink. The assembly additionally has a platform assembly with a substrate having driving elements including a plurality of light emitting diode elements disposed thereon. The driving elements and light emitting diode elements are in electric communication with an AC input to produce an initial light output. The plurality of light emitting diodes emit an initial light output that is a first predetermined amount of lumens in a first lumen range and emit an initial light output that is a second predetermined amount of lumens in a second lumen range current is changed without the need to change the manufacturing process. | 06-20-2013 |
20130169175 | Continuous Step Driver - A light emitting diode (LED) lamp includes an LED cluster including LED groups arranged in series, a power source configured to provide an input power to the LED cluster, and a driving unit configured to adjust a number of the LED groups connected to a current path of the LED cluster in series based on the input power to the LED cluster. | 07-04-2013 |
20130187572 | DRIVING CIRCUITRY FOR LED LIGHTING WITH REDUCED TOTAL HARMONIC DISTORTION - Conditioning circuits are provided for driving two or more LED groups using a rectified AC input voltage. The conditioning circuits uses analog circuitry to gradually and selectively activate the LED groups based on an instantaneous value of the rectified input voltage. The circuit includes a first series interconnection of a first LED group, a first transistor, and a first resistor, and a second series interconnection of a second LED group, a second transistor, and a second resistor. In one example, the second series interconnection is connected between a drain terminal and a source terminal of the first transistor, while in another example, the second series interconnection is connected between an anode of the first LED group and a source terminal of the first transistor. The first and second LED groups are selectively activated by the rectified voltage applied across the first series interconnection. | 07-25-2013 |
20130207556 | Reduction of Harmonic Distortion for LED Loads - Apparatus and associated methods reduce harmonic distortion of a excitation current by diverting the excitation current substantially away from a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level, and ceasing the current diversion while the excitation current or voltage is substantially above the predetermined threshold level. In an illustrative embodiment, a rectifier may receive an AC (e.g., sinusoidal) voltage and deliver unidirectional current to a string of series-connected LEDs. An effective turn-on threshold voltage of the diode string may be reduced by diverting current around at least one of the diodes in the string while the AC voltage is below a predetermined level. In various examples, selective current diversion within the LED string may extend the input current conduction angle and thereby substantially reduce harmonic distortion for AC LED lighting systems. | 08-15-2013 |
20130264962 | CURRENT REGULATOR APPARATUS AND METHODS - An apparatus according to the present invention provides regulated pulsed current to an LED from a voltage source such as a rectified AC voltage. The present inventions provide methods for delivering regulated pulsed current to an LED from the voltage source. | 10-10-2013 |
20130308313 | INTEGRAL CONDUIT MODULAR LIGHTING - An integral conduit modular lighting system that has a light board having circuitry that is secured to a heat sink with an adhesive layer. The heat sink has a gasket in order to securely connect the lighting system to a preexisting conduit body such that the lighting system withstand a high pressure wash without leakage to the board. The heat sink also has opening that mate with openings of preexisting electrical conduit bodies to provide installation of the modular lighting system to existing electrical conduit bodies. | 11-21-2013 |
20140098531 | METHOD OF MANUFACTURING A LIGHT EMITTING DIODE LIGHTING ASSEMBLY - A method of manufacturing a light emitting diode lighting assembly that includes producing a heat sink and securing a platform assembly having a plurality of light emitting diode dies on a single plane. A bulb is formed by securing a first lens section made of a first material to a second lens section made of a second material such that only the bulb determines the lamp type of the light emitting diode lighting assembly. | 04-10-2014 |
20140111091 | SPECTRAL SHIFT CONTROL FOR DIMMABLE AC LED LIGHTING - Apparatus and associated methods involve operation of an LED light engine in which a relative intensities of selected wavelengths shift as a function of electrical excitation. In an illustrative example, current may be selectively and automatically diverted substantially away from at least one of a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level. The diversion current may be smoothly reduced in transition as the excitation current or voltage rises substantially above the predetermined threshold level. A color temperature of the light output may be substantially changed as a predetermined function of the excitation voltage. For example, some embodiments may substantially increase or decrease a color temperature output by a solid state light engine in response to dimming the AC voltage excitation (e.g., by phase-cutting or amplitude modulation). | 04-24-2014 |
20140159584 | SPECTRAL SHIFT CONTROL AND METHODS FOR DIMMABLE AC LED LIGHTING - Apparatus and associated methods involve operation of an LED light engine in which a relative intensities of selected wavelengths shift as a function of electrical excitation. In an illustrative example, current may be selectively and automatically diverted substantially away from at least one of a number of LEDs arranged in a series circuit until the current or its associated periodic excitation voltage reaches a predetermined threshold level. The diversion current may be smoothly reduced in transition as the excitation current or voltage rises substantially above the predetermined threshold level. A color temperature of the light output may be substantially changed as a predetermined function of the excitation voltage. For example, some embodiments may substantially increase or decrease a color temperature output by a solid state light engine in response to dimming the AC voltage excitation (e.g., by phase-cutting or amplitude modulation). | 06-12-2014 |
20140159615 | LIGHT SOURCES ADAPTED TO SPECTRAL SENSITIVITY OF DIURNAL AVIANS AND HUMANS - A method of illuminating livestock with artificial light sources. The method includes generating a first light having a first light output that provides white light at typical lumen levels for workers. Then by using a dimming device the light source can be dimmed to provide a blue light at under 3 lumen in order to provide artificial light to the diurnal avians representative of moonlight to cause the occurrence of a predetermined characteristic visual spectral response of the diurnal avian substantially enclosed habitat for diurnal avians. | 06-12-2014 |