Lighting fixture with low voltage transformer and self-powered switching system
First Claim
1. A self-powered wireless switching system comprising:
- an electromechanical generator for generating a voltage across first and second electrical terminals;
a voltage regulator having an input side and an output side;
said input side of said voltage regulator being electrically connected to said first and second electrical terminals;
first signal transmission means electrically connected to said output side of said voltage regulator;
said first signal transmission means comprising a first encoder having an input side and an output side; and
a first electromagnetic signal generator connected to an antenna;
said input side of said first encoder being connected to said output side of said voltage regulator;
said output side of said first encoder being connected to said first electromagnetic signal generator;
wherein said first encoder circuit is programmable to generate one or more unique codes;
and wherein each of said unique codes generated by said first encoder circuit is different from each of said unique codes generated all other encoder circuits;
and wherein said first signal transmission means is adapted to transmit a first electromagnetic signal modulated by said one of said one or more unique codes;
signal reception means for receiving said or second first electromagnetic signal;
said signal reception means being adapted to generate a low DC voltage control signal at an output of said signal reception means in response to said first or second electromagnetic signal;
said signal reception means having a low DC voltage power input;
a transformer having an input and an output;
said input of said transformer being connected to an AC voltage or a DC voltage exceeding 60 VDC;
said output of said transformer having DC voltage under 60 VDC;
said low DC voltage power input of said signal reception means being electrically connected to said output of said transformer; and
a switch having a first position and a second position;
said switch being in electrical communication with said output of said signal reception means;
said switch being adapted to change between said first position and said second position in response to said low DC voltage control signal.
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Accused Products
Abstract
A self-powered switching system using electromechanical generators generates power for activation of a latching relay, switch, solenoid or latch pin. The electromechanical generators comprise electroactive elements that may be mechanically actuated to generate electrical power. The associated signal generation circuitry may be coupled to a transmitter for sending RF signals to a receiver which actuates the latching relay. The use of mechanically activated membrane switches on the deflector or on a keypad allows multiple code sequences to be generated for activating electrical appliances. The system also uses a communications protocol allowing the receivers to respond to signals from transmitters and/or repeaters. The use of one or more repeaters also increases the reliability of the system as well as extending its effective transmission range. The receivers use low DC voltage (which may be stepped down from the high switched voltage) to generate switching signals to control a low voltage controller for control of high or low voltage switching relays.
79 Citations
1 Claim
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1. A self-powered wireless switching system comprising:
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an electromechanical generator for generating a voltage across first and second electrical terminals; a voltage regulator having an input side and an output side;
said input side of said voltage regulator being electrically connected to said first and second electrical terminals;first signal transmission means electrically connected to said output side of said voltage regulator; said first signal transmission means comprising a first encoder having an input side and an output side; and a first electromagnetic signal generator connected to an antenna; said input side of said first encoder being connected to said output side of said voltage regulator; said output side of said first encoder being connected to said first electromagnetic signal generator; wherein said first encoder circuit is programmable to generate one or more unique codes; and wherein each of said unique codes generated by said first encoder circuit is different from each of said unique codes generated all other encoder circuits; and wherein said first signal transmission means is adapted to transmit a first electromagnetic signal modulated by said one of said one or more unique codes; signal reception means for receiving said or second first electromagnetic signal; said signal reception means being adapted to generate a low DC voltage control signal at an output of said signal reception means in response to said first or second electromagnetic signal; said signal reception means having a low DC voltage power input; a transformer having an input and an output; said input of said transformer being connected to an AC voltage or a DC voltage exceeding 60 VDC; said output of said transformer having DC voltage under 60 VDC; said low DC voltage power input of said signal reception means being electrically connected to said output of said transformer; and a switch having a first position and a second position;
said switch being in electrical communication with said output of said signal reception means;said switch being adapted to change between said first position and said second position in response to said low DC voltage control signal.
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Specification