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The LED grow light fixture uses a densely-packed array of high-brightness LEDs that are not individually packaged where the array behaves similarly to a point source of light. The extended point source LED array, with its lens and associated reflector, result in a concentrated, partially-collimated

The LED grow light fixture uses a densely-packed array of high-brightness LEDs that are not individually packaged where the array behaves similarly to a point source of light. The extended point source LED array, with its lens and associated reflector, result in a concentrated, partially-collimated light source, such that the intensity of the light does not diminish rapidly as distance from the light source increases. The LED array contains a plurality of LED strings that may be separately controlled, thereby allowing the spectral content of the LED grow light to be varied, to facilitate desired plant growth at various stages of plant life. The light emitted at each of the multiple different wavelengths from the array is evenly distributed, when the objects being illuminated by the array are at a distance of less than about 6 feet or even less than 1 foot from the array.

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1. A compact LED grow light apparatus, comprising: an array of multiple LED chips without individual packaging, wherein the LED chips are distributed laterally over an area, said LED chips having light emitting surfaces for emitting light of different colors in directions transverse to said area, wh

1. A compact LED grow light apparatus, comprising: an array of multiple LED chips without individual packaging, wherein the LED chips are distributed laterally over an area, said LED chips having light emitting surfaces for emitting light of different colors in directions transverse to said area, wherein the dimensions of the area do not exceed 25 mm, said array configured as multiple strings of LEDs, each of the strings containing multiple LED chips, the LED chips in at least a first one of the strings emitting red light of different wavelengths and the LED chips in at least a second one of the strings emitting blue light of different wavelengths, said apparatus further comprising a plurality of drivers, a first one of said drivers driving the first string and a second one of said drivers driving the second string, so that said drivers control the intensities and spectral range of light emitted by said apparatus;a single optical lens adjacent to the light emitting surfaces of the LED chips in said array that collects and directs light of different colors emitted by the LED chips of the array towards plants to enhance their growth; anda single reflector surrounding said array reflecting light emitted by the LED chips of the array towards plants to enhance their growth. 2. The apparatus of claim 1, wherein adjacent chips of said array of multiple LED chips are separated by less than about 0.2 mm. 3. The apparatus of claim 1, said optical lens has a principal plane, wherein dimensions of said optical lens along said principal plane are less than about 30 mm. 4. The apparatus of claim 1, said array comprising LED chips that emit light of at least two different wavelengths of red light and at least two different wavelengths of blue light from different portions of said area, wherein the light emitted at each of the at least two different wavelengths from the array is evenly distributed, when the objects being illuminated by the array are at a distance of less than about 6 feet from the array. 5. The apparatus of claim 4, wherein the light emitted at each of the different wavelengths from the array is evenly distributed at distances of less than three feet. 6. The apparatus of claim 4, wherein the light emitted at each of the different wavelengths from the array is evenly distributed at distances of less than one foot. 7. The apparatus of claim 1, further comprising user controls that each enables users to control a corresponding one of said drivers, so that users are enabled to control individually intensities to be emitted by the different strings of the LED chips, and to control the intensities and spectral range of light emitted by said apparatus. 8. The apparatus of claim 1, further comprising a controller for controlling the plurality of drivers to enable light of one intensity and spectral content to be emitted according to one state of a plurality of different pre-defined user-selectable light output states. 9. The apparatus of claim 8, further comprising a selector switch that enables a user to select a desired state from said plurality of pre-defined user-selectable light output states. 10. The apparatus of claim 9, wherein said selector switch is operable by wireless means. 11. The apparatus of claim 8, said plurality of pre-defined user-selectable light output states including states of light output optimized for specific desired effects related to plant growth, propagation, or prevention of specific undesirable plant effects. 12. The apparatus of claim 11, said specific desired effects including maximum flowering or development of fruits or seeds. 13. The apparatus of claim 11, said specific desired effects including minimal plant growth while maintaining plant health. 14. The apparatus of claim 8, further comprising a USB interface through which pre-defined user-selectable light output states are loaded into said controller. 15. The apparatus of claim 8, further comprising a real time clock wherein said controller is programmable to select from said plurality of pre-defined user-selectable light output states based on time of day, date or growing season based on time of said real time clock. 16. The apparatus of claim 1, further comprising a vapor chamber and a heat sink removing heat from all of the multiple LED chips. 17. The apparatus of claim 1, further comprising one or more drivers supplying current pulses to the LED chips. 18. The apparatus of claim 1, further comprising a supporting structure comprising at least two different layers of anodized aluminum oxide, including a porous anodized aluminum oxide layer and a non-porous anodized aluminum oxide layer; said array of LED chips bonded to said supporting structure so that said supporting structure has a thermal conductivity of metal, provides routing of electrical traces to the LED strings and provide electrical isolation between the LED strings. 19. The apparatus of claim 1, further comprising a hanging mount for supporting the array, the optical lens and reflector that enable the supply of light from above the plants. 20. The apparatus of claim 1, further comprising additional arrays of multiple LED chips without individual packaging, wherein the LED chips in each additional array are distributed laterally over a corresponding area, said LED chips in each additional array having light emitting surfaces for emitting light in directions transverse to said corresponding area, wherein the dimensions of the corresponding area in each additional array do not exceed 25 mm; a plurality of additional optical lenses, each of the lenses adjacent to the light emitting surfaces of the LED chips of a corresponding one of said additional arrays, said additional optical lenses collecting and directing light emitted by the LED chips of such additional arrays towards plants to enhance their growth; anda plurality of additional reflectors, each of the additional reflectors surrounding a corresponding one of said additional arrays, reflecting light emitted by the LED chips of the additional arrays towards plants to enhance their growth. 21. The apparatus of claim 1, wherein a spectrum of the light of different colors emitted by the LED chips of the array is optimized for specific effects related to plants. 22. The apparatus of claim 21, wherein the light of different colors emitted by the LED chips of the array is such that light and heat energy that is emitted by the LED chips of the array and that is not useful for plant growth is minimized. 23. The apparatus of claim 21, wherein the spectrum of light of different colors emitted by the LED chips of the array is such that green light emitted by the LED chips of the array is minimized. 24. The apparatus of claim 1, said array configured as four strings of LEDs, each of the strings containing multiple LED chips, said apparatus further comprising four drivers, each of said four drivers driving a corresponding one of the four strings, so that said drivers control the intensities and spectral range of light emitted by said apparatus. 25. The apparatus of claim 1, further comprising a supporting structure; said array of LED chips bonded to said supporting structure, said apparatus further comprising a plurality of layers of electrically conductive material supported at different heights by the supporting structure and connected to the array of LED chips, and an insulating layer separating the plurality of layers of electrically conductive material. 26. The apparatus of claim 1, wherein at least some of the LED chips in the array are located near edges of the supporting structure and at least some of the remaining LED chips in the array are located away from the edges of the supporting structure, said apparatus further comprising a supporting structure bonded to said array of LED chips and one or more layers of electrically conductive material connected to the array of LED chips, a first one of said one or more layers of electrically conductive material being connected to the LED chips located away from the edges of the supporting structure and not to the LED chips located near edges of the supporting structure. 27. A method for growing plants, comprising: providing a compact LED grow light apparatus, which comprises:an array of multiple LED chips without individual packaging, wherein the LED chips are distributed laterally over an area, said LED chips having light emitting surfaces for emitting light of different colors in directions transverse to said area, wherein the dimensions of the area do not exceed 25 mm, said array configured as multiple strings of LEDs, each of the strings containing multiple LED chips, the LED chips in at least a first one of the strings emitting red light of different wavelengths and the LED chips in at least a second one of the strings emitting blue light of different wavelengths;driving the first string and the second string to control the intensities and spectral range of light emitted by said array;collecting and directing light of said different colors emitted by the LED chips of the array towards plants to enhance their growth; andusing a reflector surrounding said array to reflect light emitted by the LED chips of the array towards plants to enhance their growth.