Light fixture with photosensor-activated adjustable louver assembly and color temperature control

What is claimed is: 1. A light fixture that delivers light to an illuminated space, comprising: a housing that defines a skylight aperture therethrough; one or more movable louver blades coupled to the housing and spanning the skylight aperture defined in the housing, wherein: in an open position, the one or more movable louver blades do not substantially block light from passing through the skylight aperture, in a closed position, the one or more movable louver blades block substantially all light from passing through the skylight aperture, and in intermediate positions between the open position and the closed position, the one or more movable louver blades block a portion of light from passing through the skylight aperture; a dimmable artificial light source that is integrated with the housing about a lower perimeter of the skylight aperture and that is configured to project artificial light toward the illuminated space; a light sensor that detects light illuminating the space and provides one or more signals in response thereto, wherein the light sensor: detects both intensity information and color temperature information of the light illuminating the space, and the one or more signals convey at least the intensity information and the color temperature information; and a control unit that is integrated with the housing and is communicatively coupled with the light sensor, wherein the control unit: receives the signal from the light sensor, and controls a position of the one or more movable louver blades, an intensity of the dimmable artificial light source, and a chromaticity of the dimmable artificial light source, in response to at least the one or more signals from the light sensor. 2. The light fixture of claim 1 , wherein: the dimmable artificial light source includes at least first and second LED light sources, wherein the first LED light source is characterized by a first color temperature, and the second LED light source is characterized by a second color temperature that is different from the first color temperature; and the control unit controls the chromaticity of the dimmable artificial light source by increasing light output of one of the first and second LED light sources relative to light output of the other of the first and second LED light sources, so as to shift a color temperature of the dimmable artificial light source toward the color temperature of the one of the first and second LED light sources. 3. The light fixture of claim 1 , wherein: the control unit includes a processor and a memory; the memory stores a plurality of programs; and at least a first one of the plurality of programs is configured: to determine a current color temperature of light in the illuminated space from the one or more signals from the light sensor; and, when the current color temperature differs from a desired color temperature of light in the illuminated space: to control the chromaticity of the dimmable artificial light source so that the artificial light provides a chromaticity that adjusts the current color temperature toward the desired color temperature. 4. The light fixture of claim 3 , wherein the desired color temperature of the illuminated space is a factory setting. 5. The light fixture of claim 3 , wherein the first one of the plurality of programs is further configured to determine the desired color temperature for the illuminated space based on input provided by a user. 6. The light fixture of claim 3 , wherein: the control unit includes a real time clock, and the first one of the plurality of programs is further configured to select the desired color temperature for the illuminated space based on time of day, as determined by the real time clock. 7. The light fixture of claim 3 , wherein: the light sensor is a first light sensor; the one or more signals are one or more first signals; and the light fixture further comprises a second light sensor, disposed opposite the louver blades from the illuminated space and communicatively coupled with the control unit; wherein the second light sensor detects natural light and provides one or more daylight signals in response thereto; and at least a second one of the plurality of programs is configured to determine the desired color temperature for the illuminated space based on the one or more daylight signals and the one or more first signals. 8. The light fixture of claim 3 , wherein: the light sensor is a first light sensor; the one or more signals are one or more first signals; the control unit includes a real time clock; and the light fixture further comprises a second light sensor, disposed opposite the louver blades from the illuminated space and communicatively coupled with the control unit; wherein the second light sensor detects natural light and provides one or more daylight signals in response thereto; and at least a second one of the plurality of programs is configured to: record color temperature information of the one or more daylight signals with information from the real time clock; and use the color temperature information of the one or more daylight signals to determine a set of desired color temperatures for the illuminated space that vary according to time of day, as determined by the real time clock. 9. The light fixture of claim 3 , wherein the control unit includes a real time clock, and is configured to implement the first one of the plurality of programs during a first time of day and to implement a second one of the plurality of programs during a second time of day. 10. The light fixture of claim 3 , wherein the first one of the plurality of programs is further configured to open the louver blades when the signal indicates the intensity of the light illuminating the space is below a low light threshold. 11. The light fixture of claim 10 , wherein the control unit is configured to control the intensity and the chromaticity of the dimmable artificial light source so as to bring the intensity of the light illuminating the space to at least the low light threshold even if the desired color temperature cannot be achieved. 12. The light fixture of claim 10 , wherein the control unit is configured to control the intensity and the chromaticity of the dimmable artificial light source so as to bring the color temperature of the light illuminating the space to the desired color temperature even if the low light threshold cannot be achieved.