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LED lighting system and device

專利號(hào)
US10842000B2
公開日期
2020-11-17
申請(qǐng)人
Nicolae Brebenel
發(fā)明人
Nicolae Brebenel
IPC分類
H05B45/50; H05B45/00; H05B47/11; F21K9/278; H05B45/37; H05B47/175; F21K9/275; F21V15/015; F21V3/02; F21V23/00; F21Y115/10; F21Y103/10; F21V19/00; F21Y105/10
技術(shù)領(lǐng)域
lighting,drv,led,lls,mcc,selector,source,spare,driver,ps
地域: NY NY Glen Head

摘要

A device, system, process, and method of manufacturing provides use of at least two LED lighting sources to provide auxiliary component modules. Embodiments can be used in a variety of industries, including city street lamps, indoor lighting systems, lighting systems in automobiles, train lighting systems, tunnel lighting systems, building lighting systems, networked lighting systems, and other systems that could benefit from flexibility and ease in changing circuit components for time-based, usage-based, or fault-based detected situations.

說明書

CROSS-REFERENCE TO RELATED APPLICATIONS

This application is a continuation application of U.S. patent application Ser. No. 15/817,389, filed Nov. 20, 2017, which is a continuation application of U.S. patent application Ser. No. 15/230,481, filed Aug. 7, 2016 and issued as U.S. Pat. No. 9,826,593, which claims priority to U.S. Patent Provisional Application No. 62/323,352, filed Apr. 15, 2016, the contents of each of which are incorporated herein by reference in their entirety.

FIELD OF THE INVENTION

The present invention relates to a system, method, method for manufacturing, and apparatus, among other things, a lighting system; and more particularly, a lighting system including at least one light emitting diode (LED) device.

RELATED INFORMATION

Light emitting diodes (LEDs) were originally used in limited circumstances, e.g., for aviation control panels and computer mainframes, due to their limited color spectrum and intensity. Since then, the use of LED lighting has become so diversified that the developments in lighting technology and semi-conductor construction have led to LED lighting that is brighter, i.e., more intense, and covers every color in the visible light spectrum as well as infrared and ultra-violet. In practice, LEDs are now used to illuminate not only offices and residences, but also streets and highways. LED's low energy consumption, long lamp life, and small size make them an attractive option for use as the main source of illumination for everyday purposes.

權(quán)利要求

1
What is claimed is:1. A lighting system, comprising:at least one power source;at least one driver;a plurality of light emitting diode light sources;an output selector coupled between the at least one driver and the plurality of light emitting diode light sources;at least one light sensor configured to measure a light intensity output of the plurality of light emitting diode light sources; anda microcontroller configured to control the output selector to switch electrical connections between the at least one driver and each of the plurality of light emitting diode light sources based on the measured light intensity output of at least one of the plurality of light emitting diode light sources, such that power is transmitted from the at least one power source to a selected light emitting diode light source.2. The lighting system according to claim 1, further comprising an input selector coupled between the at least one power source and respective inputs of the at least one driver.3. The lighting system according to claim 2, wherein the microcontroller is further configured to control the input selector to switch electrical connections between the at least one power source and the respective inputs of the at least one driver, such that power is transmitted from the at least one power source to the selected light emitting diode light source.4. The lighting system according to claim 2, wherein the microcontroller is configured to determine whether the selected light emitting diode light source is receiving power from the at least one power source via the at least one driver and control the input and output selectors to switch to a different driver when the microcontroller determines based on the measured light intensity output that the selected light emitting diode light sources is not receiving power from the at least one power source via the at least one driver.5. The lighting system according to claim 2, wherein the at least one power source comprises a plurality of power sources and the microcontroller is configured to switch an input of the input selector from the at least one power source to a different power source of the plurality of power sources when the microcontroller determines that the at least one power source is not providing power to the at least one driver.6. The lighting system of claim 2, wherein the microcontroller receives a feedback measurement as an input voltage provided by the at least one power source, and if the microcontroller determines that the feedback measurement of the input voltage is equal to a predetermined value or within a predetermined range, then the microcontroller communicates with the input selector to establish a power pathway via the input of the at least one driver, and if the microcontroller determines that the feedback measurement of the input voltage is not equal to the predetermined value and not within the predetermined range, then the microcontroller commands the input selector to select a different power source of the at least one power source or stops operation of the system.7. The lighting system of claim 6, wherein the power pathway is established as current travels from the at least one power source to the input selector, from the input selector to a selected driver of the at least one driver, and from the selected driver to the output selector, and wherein the microcontroller measures an output voltage from the selected driver, and if the output voltage meets a predetermined value, the microcontroller commands the output selector to connect the respective output of the selected driver with the selected light emitting diode light source, effecting an established complete power pathway between the power source and the selected light emitting diode light source.8. The lighting system according to claim 1, wherein the plurality of light emitting diode light sources are connected in parallel to each other and the microcontroller is configured to switch an output of the output selector from the selected light emitting diode light source to a different light emitting diode light source when the microcontroller determines based on the measured light intensity output that the selected light emitting diode light source is not operating correctly to emit light.9. The lighting system of claim 1, wherein the microcontroller receives a measurement of an output voltage at an output of the at least one driver and, when the output voltage meets a predetermined value, the microprocessor commands the output selector to select one of the plurality of light emitting diode light sources.10. The lighting system of claim 1, further comprising a remote controlling processor configured to control the microcontroller to establish a complete power pathway through the at least one driver to the selected light emitting diode light source.11. The lighting system of claim 10, wherein the microcontroller is configured to communicate with the remote controlling processor by at least one of Bluetooth, Ethernet, GSM, radio RI, Internet, industrial buses, Modbus, Can Open, local display, local keypad, and local port of service, andwherein the microcontroller is operated as at least one of: automatically, independently, following programmed logic written in the firmware, and automatically while following remote orders to switch the selected light emitting diode light source to another light emitting diode light source of the plurality of light emitting diode light sources.12. A lighting method, comprising:measuring by at least one light sensor a light intensity output of a plurality of light emitting diode light sources in a lighting arrangement; andcontrolling, by a microcontroller, an output selector to switch electrical connections between at least one driver and each of the plurality of light emitting diode light sources based on the measured light intensity output of at least one of the plurality of light emitting diode light sources; andcontrolling, by the microcontroller, power transmission from at least one power source to a selected light emitting diode light source.13. The lighting method according to claim 12, controlling, by the microcontroller, an input selector between the at least one power source and respective inputs of the at least one driver to switch electrical connections between the at least one power source and the respective inputs of the at least one driver, such that power is transmitted from the at least one power source to the selected light emitting diode light source.14. The lighting method according to claim 13, further comprising:determining, by the microcontroller, whether the selected light emitting diode light source is receiving power from the at least one power source via the at least one driver; and controlling the input and output selectors to switch to a different driver when the microcontroller determines based on the measured light intensity output that the selected light emitting diode light sources is not receiving power from the at least one power source via the at least one driver.15. The lighting method according to claim 13, wherein the at least one power source comprises a plurality of power sources and the method further comprises: switching, by the microcontroller, an input of the input selector from the at least one power source to a different power source of the plurality of power sources when the microcontroller determines that the at least one power source is not providing power to the at least one driver.16. The lighting method of claim 13, further comprising:receiving, by the microcontroller, a feedback measurement as an input voltage provided by the at least one power source;if the microcontroller determines that the feedback measurement of the input voltage is equal to a predetermined value or within a predetermined range, communicating, by the microcontroller, with the input selector to establish a power pathway via the input of the at least one driver; andif the microcontroller determines that the feedback measurement of the input voltage is not equal to the predetermined value and not within the predetermined range, commanding, by the microcontroller, the input selector to select a different power source of the at least one power source or stops operation of the system.17. The lighting method of claim 16, further comprising:establishing the power pathway as current travels from the at least one power source to the input selector, from the input selector to a selected driver of the at least one driver, and from the selected driver to the output selector; andmeasuring, by the microcontroller, an output voltage from the selected driver, and if the output voltage meets a predetermined value, commanding, by the microcontroller, the output selector to connect the respective output of the selected driver with the selected light emitting diode light source, effecting an established complete power pathway between the power source and the selected light emitting diode light source.18. The lighting method according to claim 12, wherein the plurality of light emitting diode light sources are connected in parallel to each other and the method further comprises:switching, by the microcontroller, an output of the output selector from the selected light emitting diode light source to a different light emitting diode light source when the microcontroller determines based on the measured light intensity output that the selected light emitting diode light source is not operating correctly to emit light.19. The lighting method of claim 12, further comprising:receiving, by the microcontroller, a measurement of an output voltage at an output of the at least one driver; andwhen the output voltage meets a predetermined value, commanding the output selector to select one of the plurality of light emitting diode light sources.20. The lighting method of claim 12, further comprising controlling, by a remote controlling processor, the microcontroller to establish a complete power pathway through the at least one driver to the selected light emitting diode light source.21. The lighting method of claim 20, further comprising:communicating, by the microcontroller, with the remote controlling processor by at least one of Wi-Fi, Bluetooth, Ethernet, GSM, radio RI, Internet, industrial buses Modbus, Can Open, local display, local keypad, and local port of service; andoperating the microcontroller as at least one of: automatically, independently, following programmed logic written in the firmware, and automatically while following remote orders to switch the selected light emitting diode light source to another light emitting diode light source of the plurality of light emitting diode light sources.
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