Abstract:
A system and method for controlling a plurality of light fixtures to create light and music, including a processor having a memory. Software is loaded in the memory and is executable by the processor to operate a plurality of light fixtures and at least one music speaker. At least one DMX controller is operable by the software to control the color of at least one of the plurality of light fixtures, the at least one light fixture controllable by the DMX controller including an LED light engine. The system and method generates light and sound displays by operating the lights in synchronization with music played through the music speaker. The color of at least one of the plurality of light fixtures is altered in synchronization with the music by the DMX controller. Also disclosed is a light fixture suitable for use in the light and music displays.

Description:
CROSS-REFERENCE TO RELATED APPLICATIONS 
       [0001]    This application is related to, and claims priority in, co-pending U.S. Provisional application No. 60/732,686 filed on Nov. 1, 2005, the disclosure of which is hereby incorporated by reference. 
     
    
     FIELD OF THE INVENTION 
       [0002]    This invention is directed generally to methods and systems for controlling light fixtures, and more particularly to methods and systems for controlling multiple LED light fixtures to provide coordinated light and sound displays. Additionally, a light fixture is disclosed that is suitable for use in the control systems and methods. 
       BACKGROUND OF THE INVENTION 
       [0003]    Coordinated light and sound displays using outdoor lighting are known in commercial applications. For example, hotels and shopping malls may have installed lighting in fountains or spotlighting distinctive features, which can change color along with music. Such lighting systems are very expensive and difficult to install and maintain, and are not suitable for use in a domestic setting, such as in the yard or garden of a home. 
         [0004]    It is also known to use fiber-optic cables for underwater lighting, which can be used to provide changing lighting colors in a domestic swimming pool, but fiber-optic lighting is expensive and difficult to install, and is not suitable for the retrofitting of existing pools. Additionally, the fiber-optic light fixtures are not as bright as traditional incandescent light fixtures, and are therefore not well used in pool and other underwater lighting applications. 
         [0005]    In contrast to traditional light sources, solid state lighting, such as light emitting diode (“LED”) fixtures, are more efficient at generating visible light than many traditional light sources. However, single LED lights are typically not bright enough for illuminating objects or for use in pool and other underwater lighting. In order to use LEDs for illumination, a cluster of LED fixtures must be provided. Although LEDs do not generally radiate heat in the direction of the beam of light produced, implementation of LEDs for many traditional light source applications has been hindered by the amount of heat build-up within the electronic circuits of the LEDs. This heat build-up is particularly problematic as more LEDs are added to a cluster. Heat build-up reduces LED light output, shortens lifespan and can eventually cause the LEDs to fail. It has therefore been problematic to use LED lights to provide light and sound displays in an outdoor setting. 
         [0006]    LED light engines have recently become available, which supply multiple LED lights in an array. The light engines make it possible to provide a high lumen light using LEDs, and it is desirable to use such light engines in swimming pool, spa and other underwater lighting. However, the management of heat generated by the light engines is critical to maintaining the performance of the LED array, and the use of such LED light engines in different applications has not so far been achieved. 
         [0007]    It is desirable to provide both light fixtures, such as spotlights, flood lights and pool lights, using LED light engines, and also to provide methods and systems for controlling multiple LED light fixtures to provide coordinated light and sound displays. 
       SUMMARY OF THE INVENTION 
       [0008]    The exemplary embodiments provide a light engine that can be used without a niche which is advantageous in assembly. The light fixture of the exemplary embodiment can also be used in retrofitting fiber optic systems due to the use of low voltage and the significant reduction in the size of the light engine. 
         [0009]    In one aspect, the present invention provides a system and method for controlling a plurality of light fixtures. The system includes a processor having a memory, software loaded in the memory and executable by the processor to operate a plurality of light fixtures and at least one music speaker. At least one DMX controller can be included, the DMX controller being operable by the software to control the color of at least one of the plurality of light fixtures, the at least one light fixture controllable by the DMX controller including an LED light engine. The system and method generates light and sound displays by operating the lights in synchronization with music played through the music speaker. The color of at least one of the plurality of light fixtures is altered in synchronization with the music by the DMX controller. The invention can provide a submersible light fixture, including a pipe for installation in a wall of a body of water, the pipe having a niche therein; and an LED light engine mounted in the niche, in which the niche is designed to be in fluid communication with a body of water when the light fixture is submerged such that the water acts as a heat sink to the LED light engine. The submersible light fixture may be used in the light and sound displays generated by the control method and system. 
         [0010]    In another aspect, an underwater light assembly for a wall surrounding water is provided. The assembly has a pipe with at least one return fitting and is positioned in the wall; and a body that has a lens at one end and encloses a LED light engine and a heat sink. The body is inserted into the return fitting in the pipe. The LED light engine is coupled to a power source via the pipe. The lens protrudes from the pipe and is in contact with the water along an outer surface of the lens only. The LED light engine is cooled by convection cooling. 
         [0011]    In another aspect, a system for controlling at least one entertainment component is provided comprising: a processor having a memory; and at least one DMX controller in communication with the processor to control a color of the at least one entertainment component. The at least one entertainment component comprises at least one LED light engine and the at least one DMX controller controls the at least one entertainment component by pulse width modulation to generate a light display. 
         [0012]    In another aspect, an entertainment system comprises: a processor having a memory; a plurality of entertainment components; at least one DMX controller operable by the processor to independently control a color of each of the plurality of entertainment components, wherein the plurality of entertainment components comprises at least one LED light engine; a music source having at least one music composition; and an audio controller operably connected to the music source. The processor operates the audio controller to synchronize the at least one LED light engine to the music composition. The at least one DMX controller controls the at least one LED light engine by pulse width modulation to generate a light display. 
         [0013]    The body can be elongated. The LED light engine is connected to the heat sink with conductive epoxy. The LED light engine and the heat sink are in thermal communication at least through thermal grease. Various other thermal communication techniques, methods, structures and combinations thereof can be used between the light engine and the heat sink, including but not limited to, heat transfer tape, heat transfer film, and other mechanical heat conducting structures and materials. The system can further comprise: a user interface selected from the group consisting essentially of a touch screen, a keypad, a remote controller and any combinations thereof, wherein the user interface is in communication with the processor for inputting commands. The system may further comprise: an audio controller operably connected to a music source and the processor to synchronize the at least one LED light engine to a music composition of the music source. The entertainment component can be a plurality of components that are each independently controlled by the processor and DMX controller. 
         [0014]    The processor may be in communication with a remote data system, and the memory can be provided with program instructions for operating the DMX controller from the remote data system. The remote data system can be accessed by the processor via the internet. The plurality of entertainment components may be chosen from a group consisting essentially of LED laminar components, waterfall components, bubbler components, landscape lights, flood lights, accent tubes, underwater LED fixture, fountain lights, fiber optics, well lights, stairway lighting, down lights and LED node lights. The memory of the processor can be provided with program instructions for operating the DMX controller from the remote data system, and the program instructions can be embodied in a medium that is removable from the processor. 
         [0015]    These and other arrangements and advantages are described in relation to the accompanying drawings. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS  
         [0016]    There are shown in the drawings embodiments which are presently preferred, it being understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown. 
           [0017]      FIG. 1  is a front view of a light fixture according to the inventive arrangements. 
           [0018]      FIG. 2  is a cross-sectional view through the light of  FIG. 1 . 
           [0019]      FIG. 3  is a perspective view of a light fixture according to a preferred embodiment of the inventive arrangements. 
           [0020]      FIG. 3A  is a cross-sectional view of the light fixture of  FIG. 3  installed into a pipe. 
           [0021]      FIG. 3B  is an exploded view of the light fixture of another exemplary embodiment of a light fixture of the inventive arrangements. 
           [0022]      FIG. 4  is a plan view of a light engine usable with the light fixture of  FIG. 3 . 
           [0023]      FIG. 4A  is a side view of the light engine of  FIG. 4 . 
           [0024]      FIG. 5  is a power and control circuit for use with the light fixture of  FIG. 3 . 
           [0025]      FIG. 6  is a schematic representation of an entertainment system of the present invention. 
       
    
    
     DETAILED DESCRIPTION OF INVENTION 
       [0026]    The present invention provides light emitting diode (LED) fixtures, and provides methods and system for controlling LED light fixtures. The invention most particularly relates to the provision and control of landscaping lighting, for example using pool, spa and other water feature lights in combination with spotlights and floodlights illuminating landscape fixtures, trees and other plants and buildings. In one embodiment, the invention relates to the provision of LED lights within pipes for installation in swimming pools, spas and the like. It will be appreciated that the LED fixtures described are intended for use in any suitable underwater application such as swimming pools, spas, fountains, sinks, waterfalls or any other water feature, and is not limited in this regard. 
         [0027]    Referring to  FIGS. 1 and 2 , an LED light fixture  10  is shown, installed in a pipe  12 . The pipe may be formed of any suitable material, and is preferably flexible. In a preferred arrangement, the pipe is formed of a PVC material. The pipe may have a diameter of less than 2 inches. The light does not need to be in a niche, as is necessary with conventional lights, because the pool water will cool the light without the need for any additional cooling. The light fixture  10  is slid into a niche  14  in the pipe, and is covered with a lens  16 . The niche  14  is typically is an open-ended ball in the wall of the pool, such as a plastic ball. The light fixture includes an LED light engine  18 , which is linked to a control console (not shown) by a wire  20 . Only the lens  16  protrudes from the pipe in use. The niche allows water to circulate around the light fixture  10  and to cool the light. A plurality of the light fixtures  10  may be used in a single pipe  12 , such that the lights are arranged around a wall  22  of a pool, spa or similar water feature containing water  24 . The light fixtures  10  may be arranged in the side walls, and bottom of a pool, around the edge of the pool, in spas, in waterfall features, in landscape lighting, etc. 
         [0028]    As used herein, a light engine is any optical system that can collect light from a lamp, such as light emitting diode, and deliver the light to a target, which can be used by the target or can be reformatted, such as improving spatial, angular and/or spectral uniformities of the light. Additionally, the light engines can feature one or more LED&#39;s, which can all be a single color or can be various colors. 
         [0029]    In a preferred embodiment, as shown in  FIGS. 3 and 3A , an LED light fixture  100  is shown, installed into a pipe  12  without the need for a niche (such as the niche  14  shown in  FIG. 2 ). The pipe  12  may be formed of any suitable material, and is preferably flexible. In a preferred arrangement, the pipe  12  is formed of a PVC material that is positioned in a wall of the pool or spa and then plastered over so as to be flush or substantially flush with the pool wall. The pipe  12  may have a diameter of less than 2 inches. The light fixture  100  does not need to be in a niche, as is necessary with conventional lights, because the light is convection cooled. The light fixture  1100  can have an elongated body that is inserted into a fitting  195  in the pipe  12 , such as a 1½ inch return fitting. The light fixture  100  can include a lens  160 . 
         [0030]    The light fixture  100  includes an LED light engine  180 , which is linked to a control console (not shown) by a wire (not shown). The lens  160  can protrude from the pipe  12  in use. A plurality of the light fixtures  100  may be used in a single pipe, such that the lights are arranged around a wall of a pool, spa or similar water feature containing water. The light fixtures  100  may be arranged in the side walls, and bottom of a pool, around the edge of the pool, in spas, in waterfall features, in landscape lighting, etc. 
         [0031]    The LED light fixture  100  may be an LED light engine, such as the BL-4000 RGB light engine available from Lamina Ceramics of Westhampton, N.J., as shown in  FIGS. 4 and 4A . The BL-4000 LED array is configured with multiple LED&#39;s. In the RGB light engine, each cavity contains multiple red, green and blue LED dies for optimal color uniformity. The high brightness LED&#39;s are combined with a multilayer low temperature co-fired ceramic on metal (LTCC-M). The LTCC-M allows multiple LED&#39;s to be densely clustered to achieve high luminous intensity in a small array. The LED dies can be operated in any combination to emit a large number of colors, and the colors can be changed at will using a suitable control system. It will of course be appreciated that any number of LED&#39;s can be used, and that any suitable LED array or light engine may be employed in the present invention. 
         [0032]    The light engine  180  can be a LED light engine delivering any number of lumens of warm white light, blended RGB and white at any temperature, such as, for example, 95 lumens of warm white light, 120 lumens of blended RGB and 120 lumens in white (5500°K) from a single point. The light engine  180  has a round footprint, standardized drive currents for ease of retrofitting and assembly, three channel control with independent input/output, an isolated metal base and a heat sink  190 . It will of course be appreciated that any number of LED&#39;s can be used, and that any suitable LED array or light engine may be employed in the present invention. The light engine  180  can be attached to the heat sink  190  with conductive epoxy or other connecting techniques such as a screw connection with thermal grease applied thereto or other connection structures, materials and techniques. Mounting holes  185  and the like can be provided on the light engine  180  to facilitate assembly with the light feature  100 . 
         [0033]    Light fixture  100  can utilize a low voltage power source, for example 12 to 15 volts, and can be retro-fitted into existing fiber optic pool and spa installations. The light fixture  100  has no minimum depth requirements and there are no moving parts associated therewith. The present disclosure contemplates various circuit components and configurations being utilized to control and provide power to the light fixture  100 . For example,  FIG. 5  shows a circuit  200  connected to the light fixtures  100 . The circuit  200  uses a configuration of electrical components such as op-amps  210 , transistors  220  (e.g., power MOSFETS), capacitors  230 , resistors  240 , switches  250  (e.g., quad bilateral switches), microcontrollers  260  (e.g., LCD microcontrollers) and transceivers  270  to drive and control the light engine  180  of each of the light fixtures  100 . However, the present disclosure contemplates the use of other circuit components and other configurations of components for driving and controlling one or more of the light fixtures  100  described above. 
         [0034]    Referring to  FIG. 3B , another embodiment of light fixture  100  is shown with a housing  195  having threads  197  to facilitate connection with the pipe. A key or the like can be used with the light engine  180  to facilitate connection with the housing  195  and the housing and light engine can be connected via the threads  199 . 
         [0035]    In another aspect of the invention, an entertainment system  300  is provided having a control system  400  for controlling multiple LED light fixtures to provide coordinated light and sound displays as shown in  FIG. 6 . The LED light fixtures that are used with the control system may include multiple LED light fixtures  10  and/or  100  as discussed, but may also include other pool and spa lighting such as underwater spotlights or other pool illumination lights, and above-ground lights such as spotlights and floodlights. Any type of light fixture may be connected to the control system  400 , although it is preferred that LED light engines, e.g., light engines  180  are used because of the flexibility offered by the light engines for changing the color of the light emitted. 
         [0036]    Various entertainment components can be used with system  300 , including LED water features  500 , such as, LED laminar components  510 , waterfall components  520  and bubbler components  530 ; LED above-ground light fixtures  600 , such as, landscape lights  610 , flood lights  620  and accent tubes  630 ; underwater LED fixtures  700 , such as light fixtures  100 , lights  710  and fountain lights  720 ; LED light sources for fiber optics  800 , such as, source  810 , source  820  and tower illuminator  830 ; and other LED fixtures  900 , such as well lights  910 , stairway lighting  920 , down lights  930  and LED node lights  940 . These components can be used in various configurations to provide an aesthetically pleasing display. Other components can be used with entertainment system  300  such as those described in co-pending and commonly owned U.S. patent application Ser. No. 11/066,501 filed Feb. 25, 2005, U.S. patent application Ser. No. 11/265,691 filed Nov. 1, 2005 and U.S. patent application Ser. No. 11/265,692 filed Nov. 1, 2005, the disclosures of which are herein incorporated by reference. 
         [0037]    The entertainment components used in system  300  may be in communication with control system  400  operating in compliance with the DMX512, DMX512/1990 or DMX512-A protocols, or any extensions thereof. These protocols can specify the transmission voltages, the data rate, the format of the data content, the type of cable and the type of connector to be used. The DMX protocols additionally can be used to specify the color of the light output by the light engine, which may change over time or in a programmed sequence to give a pleasing effect from the light fixture  10  and/or  100 , as well as the other entertainment components. It will of course be appreciated that the invention is not limited to the use of DMX protocols, and that any suitable control module protocol may be used. 
         [0038]    In a preferred arrangement, the control system  400  has a processor, microprocessor or computer  410  in communication with a DMX controller  450  and an audio controller  480  (e.g., a Symphony Of Light™ controller). The DMX controller  450  can receive inputs or commands from one or more of a touch screen interface  420 , a keypad  430  and/or a remote control  440 . The audio controller  480  can be connected to a music source such as a radio  490  for synchronization of music with the other entertainment components, e.g., light fixtures  100 . Individual music compositions can be input to the control system  400  for synchronization with the light effects controlled by the DMX controller  450 . 
         [0039]    DMX controller  450  and computer  410  preferably control the entertainment components such as light fixtures  100  through use of pulse width modulation. The use of pulse width modulation power control by system  400  reduces the total amount of power delivered to the loads, e.g., each of the light fixtures  100 , without losses normally incurred when a power source is limited by resistive means. Thus, control system  400  provides power efficiency, which is especially significant where a large number of entertainment components are being utilized in the system  300 . However, other power control methods and techniques are contemplates by the present disclosure, including resistive power control. DMX controller  450  can preferably control each of the entertainment components independently. Rotary switches on the DMX controller  450  can be used to set the address of the particular entertainment component to facilitate use. 
         [0040]    System  300  allows one or more lights and one or more music sources to be connected to the control system  400 . A plurality of DMX control consoles may be connected, one for each light fixture or a single DMX control console  450  may be used to control multiple light fixtures. However, the present disclosure contemplates use of entertainment system  300  with other types of control techniques and components. For example, entertainment system  300  can use a stand along unit of control that allows for toggling of the power to cycle through various modes of operation, e.g., slow color change, selected colors, fade, fast color change and quick blinking lights. 
         [0041]    Upon installation of the lighting system in a user&#39;s yard or garden (or in any other desired installation location), they may be set up with an initial control program, or a selection of programs. For example, there may be different lighting programs with appropriate music for Christmas (such as using red and green lighting), July 4 th  (using red, white and blue lighting), Halloween (using purple and orange lighting), Valentine&#39;s day (red, pink and white lighting), and a general lighting program selected by the user, among others. In a typical installation, the user may be given the choice to select 5 programs out of a standard 20 programs. Although various numbers of programs are contemplated by the present invention. The user may also request that a custom program be created to generate lighting and music displays of their own choosing. 
         [0042]    Software or other program instructions can be used to control the lighting system and may be provided on the computer  410  upon installation of the system  300 , or the user may use control software via the internet. A removable medium, such as a compact disk, may store the program instructions for the control system  400 . A suitable website may be provided, which may periodically offer new lighting and music themes for downloading. The website may guide user&#39;s through the process of creating a custom light and sound display for entertainment system  300 . For example, the user may select a musical composition, and then the software may ask the user to select desired colors of lighting, and times during the music when the user wishes the lighting to change color, brightness or to flash or provide other effects. Computer  410  is described herein by way of example as a central processing unit. Of course, it is contemplated by the present disclosure for computer  410  to include any programmable circuit, such as, but not limited to, computers, processors, microcontrollers, microcomputers, programmable logic controllers, application specific integrated circuits, and other programmable circuits. 
         [0043]    While the preferred embodiments of the invention have been illustrated and described, it will be clear that the invention is not so limited. Numerous modifications, changes, variations, substitutions and equivalents will occur to those skilled in the art without departing from the spirit and scope of the present invention as described in the claims.