초록 ▼

A multi-scene, multi-zone lighting device includes a support structure supporting multiple lighting zones, an ensemble of the zones defining a lighting scene. A master dimming control built into the support structure has a power input line and multiple dimmers. The zones are coupled to the dimmer ou

A multi-scene, multi-zone lighting device includes a support structure supporting multiple lighting zones, an ensemble of the zones defining a lighting scene. A master dimming control built into the support structure has a power input line and multiple dimmers. The zones are coupled to the dimmer output lines to receive a controlled setting from the corresponding dimmer. A remote control device communicates with the master dimming control, and has a memory for storing settings for the multiple zones and a user interface for a user to select a stored setting for each zone or a scene composed of multiple zones. Settings can be prestored or programmed by the user. The master dimming control includes a controller responsive to receiving the set of settings to set the controlled setting of the corresponding dimmer for each zone in the selected scene to conform the zones to the settings in the selected scene.

대표청구항 ▼

1. A lighting system comprising: a lighting device with a support structure supporting multiple lighting zones, each lighting zone including one or more lighting sources;a control device remote from the lighting device, the remote control device including a user interface configured for a user to se

1. A lighting system comprising: a lighting device with a support structure supporting multiple lighting zones, each lighting zone including one or more lighting sources;a control device remote from the lighting device, the remote control device including a user interface configured for a user to select a scene, the scene comprising a set of settings for one or more of the lighting zones; anda dimming controller in communication with multiple dimmers supported by the lighting device, in which each of the lighting sources is coupled to a corresponding dimmer from the multiple dimmers, and the dimming controller is configured to communicate a controlled setting, based on the scene selected at the remote control device, to the multiple dimmers. 2. The lighting system of claim 1, in which the lighting sources are configured to be individually addressable. 3. The lighting system of claim 1, in which the lighting zones include lighting sources on the support structure for at least three of the following lighting zones: a general area lighting zone, a task lighting zone, an accent lighting zone, an indirect lighting zone, and a grazing lighting zone. 4. The lighting system of claim 1, in which the scene comprises a set of settings stored in a dimming control memory for one or more of the lighting zones. 5. The lighting system of claim 1, in which the user interface is operative to enable the user to input the set of settings for the scene and to store the set of settings in a memory. 6. A lighting system comprising: a lighting device with a support structure supporting multiple lighting zones, each lighting zone including one or more lighting sources, in which the support structure includes a base portion and a body portion connected to the base portion, the body portion supporting the lighting sources for a first lighting zone and a second lighting zone, and the base portion having the lighting sources for a third lighting zone;a control device remote from the lighting device, the remote control device including a user interface configured for a user to select a scene, the scene comprising a set of settings for one or more of the lighting zones; anda dimming controller in communication with multiple dimmers supported by the lighting device, in which each of the lighting sources is coupled to a corresponding dimmer from the multiple dimmers, and the dimming controller is configured to communicate a controlled setting, based on the scene selected at the remote control device, to the multiple dimmers. 7. A lighting system comprising: a lighting device with a support structure supporting multiple lighting zones, each lighting zone including one or more lighting sources, in which the support structure includes an upper portion and a lower portion suspended from the upper portion, the lower portion supporting the light sources for a first lighting zone and a second lighting zone and having a first diameter, and the upper portion having a second diameter at which the lighting sources for a third lighting zone are supported, the second diameter being greater than the first diameter;a control device remote from the lighting device, the remote control device including a user interface configured for a user to select a scene, the scene comprising a set of settings for one or more of the lighting zones; anda dimming controller in communication with multiple dimmers supported by the lighting device, in which each of the lighting sources is coupled to a corresponding dimmer from the multiple dimmers, and the dimming controller is configured to communicate a controlled setting, based on the scene selected at the remote control device, to the multiple dimmers. 8. A method of lighting multiple zones, the method comprising: selecting a scene, the scene comprising preprogrammed settings for multiple lighting zones supported by a support structure of a lighting device;communicating a controlled setting to multiple dimmers, the controlled setting being based, at least in part, on the selected scene, each dimmer communicating with a lighting source within the multiple lighting zones, the dimmer increasing or decreasing light emitted from the lighting source; and,with the multiple dimmers, conforming an illumination level of the multiple lighting zones to the controlled setting. 9. The method of claim 8, in which selecting a scene comprises choosing from one or more available scenes at a control device that is remote from the lighting device. 10. The method of claim 8, in which communicating a controlled setting comprises communicating, from a master dimming control, the controlled setting to the multiple dimmers. 11. The method of claim 8, further comprising preprogramming the settings for the multiple lighting zones before selecting the scene. 12. The method of claim 11, in which the preprogramming comprises preprogramming the settings for the multiple lighting zones at a control device that is remote from the lighting device. 13. A suspended lighting device comprising a plurality of first light sources configured to provide upward-directed indirect lighting from a first plane; a plurality of second light sources configured to provide downward-directed task lighting from a second plane not coplanar to the first plane; a plurality of third light sources configured to provide general area lighting; and a substantially horizontal, linear support structure defining a linear chandelier and supporting the second light sources and the third light sources. 14. The lighting device of claim 13, the lighting device further comprising an accent light aimed from a third plane not coplanar to the first plane or the second plane to provide light beneath the lighting device. 15. The lighting device of claim 14, in which the accent light is configured to have adjustable aim. 16. The lighting device of claim 14, in which each of the first light sources, the second light sources, and the third light sources is coupled to power circuitry which includes a corresponding dimmer configured to control light emitted from the first light sources, the second light sources, and the third light sources, respectively. 17. The lighting device of claim 13, in which each of the plurality of third light sources is an omnidirectional light source. 18. The lighting device of claim 13, in which each of the plurality of third light sources has a fixed orientation with respect to the substantially horizontal, linear support structure. 19. The lighting device of claim 13, in which each of the plurality of third light sources includes a diffuser. 20. A suspended lighting device comprising a chandelier having a body diameter, one or more first light sources configured to provide upward-directed indirect lighting from a first plane; one or more second light sources configured to provide downward-directed task lighting from a second plane not coplanar to the first plane; and one or more third light sources configured to provide general area lighting, in which at least one of the second light sources is configured to provide downward-directed light, is affixed to the chandelier, and projects beyond the body diameter of the chandelier on a first side of the chandelier, and in which another of the second light sources is configured to provide downward-directed light, is affixed to the chandelier, and projects beyond the body diameter of the chandelier on a second side of the chandelier, the second side being opposite the first side of the chandelier.