Multicolored LED lighting method and apparatus
DCFirst Claim
Patent Images
1. Light apparatus comprising:
- a power terminal;
at least one LED coupled to the power terminal;
a current sink coupled to the at least one LED, the current sink comprising an input responsive to an activation signal enables flow of current through the current sink;
an addressable controller having an alterable address, the controller coupled to the input and having timing means for generating the activation signal for a predefined portion of a timing cycle;
the addressable controller further comprising means for receiving data corresponding to the alterable address and indicative of the predefined portion of the timing cycle;
a second LED coupled to the power terminal and the current sink;
the current sink comprising a second input corresponding to the second LED and responsive to a second activation signal;
the addressable controller comprising second timing means for generating the second activation signal for a second predefined portion of the timing cycle, and further comprising second means for receiving data corresponding to the alterable address and indicative of the second predefined portion of a timing cycle.
6 Assignments
Litigations
0 Petitions
Accused Products
Abstract
The systems and methods described herein relate to LED systems capable of generating light, such as for illumination or display purposes. The light-emitting LEDs may be controlled by a processor to alter the brightness and/or color of the generated light, e.g., by using pulse-width modulated signals. Thus, the resulting illumination may be controlled by a computer program to provide complex, predesigned patterns of light in virtually any environment.
1604 Citations
25 Claims
-
1. Light apparatus comprising:
-
a power terminal; at least one LED coupled to the power terminal; a current sink coupled to the at least one LED, the current sink comprising an input responsive to an activation signal enables flow of current through the current sink; an addressable controller having an alterable address, the controller coupled to the input and having timing means for generating the activation signal for a predefined portion of a timing cycle; the addressable controller further comprising means for receiving data corresponding to the alterable address and indicative of the predefined portion of the timing cycle; a second LED coupled to the power terminal and the current sink; the current sink comprising a second input corresponding to the second LED and responsive to a second activation signal; the addressable controller comprising second timing means for generating the second activation signal for a second predefined portion of the timing cycle, and further comprising second means for receiving data corresponding to the alterable address and indicative of the second predefined portion of a timing cycle. - View Dependent Claims (2, 3)
-
-
4. A modular LED illumination assembly comprising:
-
a body portion having an open end, an illumination end, and a reflective interior portion therebetween defining a body portion axis; a power module adapted to be mechanically attachable to the illumination end substantially along the body portion axis, the power module having a terminal for attachment to a power supply; and a light module comprising a plurality of LEDs and having an electrical connector removably attachable to the power module, the light module disposed between the illumination end and the power module such that the LEDs optically communicate with the reflective interior portion, so that the reflective interior portion reflects light from the LEDs; whereby the light module is capable of being conveniently interchanged with a different light module. - View Dependent Claims (5, 6, 7, 8, 9, 10, 11, 12, 13)
-
-
14. A lighting network comprising a central controller and a plurality of uniquely addressable illumination units, each unit comprising a first color LED and second color LED;
each unit further comprising; data means for receiving from the central controller network data comprising LED intensity values addressed to an individual illumination unit and corresponding to respective ones of the first color and second color LED; memory means for storing intensity values received from said network data corresponding to the first color LED and to the second color LED; control means for generating a first pulse width modulated signal and a second pulse width modulated signal, both first and second signals having a duty cycle corresponding to the respective intensity values, whereby each of the first and second pulse width modulated signals is alternately in high voltage or a low voltage state; current switching means for applying current to the first color LED when the first pulse width modulated signal is in one of either the high voltage or the low voltage state, and for applying current to the second color LED when the second pulse width modulated signal is in one of either the high voltage or the low voltage state. - View Dependent Claims (15, 16, 17, 18, 19, 20)
-
21. An illumination apparatus comprising:
-
a plurality of LEDs of at least two different colors adapted to be coupled to a power source and to a common potential reference; a current sink interposed between the plurality of LEDs and the common potential reference, the current sink comprising at least two switches corresponding to respective current paths of the at least two different color LEDs; control means for periodically and independently opening and closing the at least two switches at high frequency and for generating a duty cycle thereby; a hand-held housing comprising a compartment for containing the power source and common reference potential, and further comprising a lens assembly for reflecting the light emitted from the plurality of LEDs, which housing substantially encloses the plurality of LEDs, the current sink, the control means, and the programming means; and programming means coupled to the control means for programming respective duty cycle, for each color of the at least two different color LEDs, wherein the duty cycle ranges from a minimum to a maximum, and the programming means is adapted to generate a substantially continuous range of duty cycles between the minimum and the maximum.
-
-
22. An illumination apparatus comprising:
-
a plurality of LEDs of at least two different colors adapted to be coupled to a power source and to a common potential reference; a current sink interposed between the plurality of LEDs and the common potential reference the current sink comprising at least two switches corresponding to respective current paths of the at least two different color LEDs; control means for periodically and independently opening and closing the at least two switches at high frequency and for generating a duty cycle thereby; and programming means coupled to the control means for programming respective duty cycles for each color of the at least two different color LEDs, wherein the duty cycle ranges from a minimum to a maximum, and the programming means is adapted to generate a substantially continuous range of duty cycles between the minimum and the maximum, and wherein the programming means comprises an inclinometer, the inclinometer generating an output signal indicative of the angular orientation of the apparatus, and the control means comprises conversion means for converting the output signal into a numerical value indicative of each respective duty cycle, whereby different angular orientations produce different color outputs from the plurality of LEDs.
-
-
23. An illumination apparatus comprising:
-
a plurality of LEDs of at least two different colors adapted to be coupled to a power source and to a common potential reference; a current sink interposed between the plurality of LEDs and the common potential reference, the current sink comprising at least two switches corresponding to respective current paths of the at least two different color LEDs; control means for periodically and independently opening and closing the at least two switches at high frequency and for generating a duty cycle thereby; and programming means coupled to the control means for programing respective duty cycles for each color of the at least two different color LEDs, wherein the duty cycle ranges from a minimum to a maximum, and the programming means is adapted to generate a substantially continuous range of duty cycles between the minimum and the maximum, and wherein the programming means comprises a transceiver for receiving an electromagnetic signal containing data that includes a numerical value indicative of each respective duty cycle.
-
-
24. An illumination apparatus comprising:
-
a plurality of LEDs of at least two different colors adapted to be coupled to a power source and to a common potential reference; a current sink interposed between the plurality of LEDs and the common potential reference, the current sink comprising at least two switches corresponding to respective current paths of the at least two different color LEDs; control means for periodically and independently opening and closing the at least two switches at high frequency and for generating a duty cycle, thereby; and programming means coupled to the control means for programming respective duty cycles for each color of the at least two different color LEDs, wherein the duty cycle ranges from a minimum to a maximum, and the programming means is adapted to generate a substantially continuous range of duty cycles between the minimum and the maximum, and wherein the programming means comprises a transceiver for receiving an infrared signal containing data that includes a numerical value indicative of each respective duty cycle.
-
-
25. A method for controlling current through an LED assembly comprising the steps of:
-
providing a memory location; placing a numerical value in the memory location indicative of the duty cycle of a pulse width modulated waveform; closing an LED circuit between supply and ground when the waveform is in one state, and opening the LED circuit when the waveform is in the other state; providing a counter, wherein the pulse width modulated waveform is in the one state when the counter is below the numerical value; stopping the counter, updating the waveform state, changing the numerical value in the memory location, and restarting the counter, all upon receipt of a new numerical value over a computer network.
-
Specification