Low voltage outdoor lighting power source and control system
First Claim
1. A power source and control system configured to energize and control a lighting system, the lighting system including a plurality of lighting fixtures, each lighting fixture including one or more lights, each light addressable over a two-wire path, the system comprising:
- a power source input for accepting a first alternating-current (AC) voltage;
a user interface configured to accept user input and to output information responsive to said user input;
a processor communicating with said user interface and configured to receive said information and output command and address data responsive to said information to said two-wire path to control at least one of said lights;
a first rectifier circuit operatively coupled to the power source input configured to rectify the first AC voltage to produce a first direct current (DC) output voltage;
a first switching circuit operatively coupled to the first rectifier circuit and configured to switch the first DC output voltage to produce a second AC output voltage;
a transformer operatively coupled to the first switching circuit and configured to transform the second AC output voltage to produce a third AC output voltage;
a second rectifier circuit operatively coupled to the transformer and configured to rectify the third AC output voltage to produce a second DC output voltage; and
a second switching circuit operatively coupled to the second rectifier circuit and communicating with the processor, the second switching circuit configured to alternatively apply the second DC output voltage as positive and negative outputs across the two-wire path at a first frequency to produce a fourth AC output voltage to energize the plurality of lighting fixtures, one or more periods of said fourth AC output voltage at said first frequency comprising a first time period, the second switching circuit further configured to periodically encode said command and address data onto the fourth AC output voltage during a second time period less than the first time period by alternatively applying the second DC output voltage as the positive and negative outputs across the two-wire path at a second frequency in accordance with the command and address data to generate a data encoded power signal, the second frequency being substantially higher than the first frequency, and the average DC value of the data encoded power signal being substantially zero.
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Accused Products
Abstract
A power source and control system is particularly suited for use in an outdoor landscape lighting system. The power source and control system includes at least one switching mode AC-to-DC power supply having an additional output stage for efficiently converting the DC output signal into another relatively low frequency AC signal for transmission to a plurality of buried power conductors. A Manchester encoded control signal is encoded at a relatively high frequency onto the AC signal sent over the buried power conductors so that intelligent LED lighting fixtures can be powered by the AC signal and selectively have their intensity changed when they decode the control signal.
29 Citations
10 Claims
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1. A power source and control system configured to energize and control a lighting system, the lighting system including a plurality of lighting fixtures, each lighting fixture including one or more lights, each light addressable over a two-wire path, the system comprising:
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a power source input for accepting a first alternating-current (AC) voltage; a user interface configured to accept user input and to output information responsive to said user input; a processor communicating with said user interface and configured to receive said information and output command and address data responsive to said information to said two-wire path to control at least one of said lights; a first rectifier circuit operatively coupled to the power source input configured to rectify the first AC voltage to produce a first direct current (DC) output voltage; a first switching circuit operatively coupled to the first rectifier circuit and configured to switch the first DC output voltage to produce a second AC output voltage; a transformer operatively coupled to the first switching circuit and configured to transform the second AC output voltage to produce a third AC output voltage; a second rectifier circuit operatively coupled to the transformer and configured to rectify the third AC output voltage to produce a second DC output voltage; and a second switching circuit operatively coupled to the second rectifier circuit and communicating with the processor, the second switching circuit configured to alternatively apply the second DC output voltage as positive and negative outputs across the two-wire path at a first frequency to produce a fourth AC output voltage to energize the plurality of lighting fixtures, one or more periods of said fourth AC output voltage at said first frequency comprising a first time period, the second switching circuit further configured to periodically encode said command and address data onto the fourth AC output voltage during a second time period less than the first time period by alternatively applying the second DC output voltage as the positive and negative outputs across the two-wire path at a second frequency in accordance with the command and address data to generate a data encoded power signal, the second frequency being substantially higher than the first frequency, and the average DC value of the data encoded power signal being substantially zero. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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Specification