Energy saving power control system and method
First Claim
1. An AC power regulation system for controlling load power to a load, said power regulation system having an input for coupling to an AC power source and having an output for coupling to the load, said power regulation system comprising:
- a controllable switch coupled in series between the input and the output;
a capacitor circuit for supplying capacitance coupled in parallel with the controllable switch;
circuitry for turning-on the controllable switch to a conducting state;
circuitry for turning-off the controllable switch to a non-conducting state;
circuitry for setting and storing a target power value, wherein each of said circuitry for turning on and said circuitry for turning off said controllable switch operate in conjunction to reduce power supplied to said load to said target power value;
circuitry for measuring a value representative of a phase angle of said load after said target power value is achieved;
circuitry for storing a value representative of a phase angle; and
circuitry for monitoring subsequent values representative of load phase angles and comparing them with said stored value representative of a phase angle to maintain a desired power savings with respect to said load.
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Accused Products
Abstract
Apparatus and methods for AC power regulation for a wide range of complex capacitive and inductive loads which provide substantial reduction in power consumption while also providing a leading power factor. The system is self-adjusting for a wide range of loads and can reduce power consumption by 25 percent in lighting loads while producing minimal reduction in light output. The system utilizes a main switch consisting of back-to-back MOS Controlled Thyristor devices (MCTs) and a parallel capacitor bank in series with the load. The main switch is initially turned off slightly in advance of the load current zero crossing, and this in combination with the capacitor bank allows power to be reduced in a low noise fashion. The turn-off time is advanced gradually to regulate power at a target reduced level. At the target power level, load phase angle is measured and maintained to control the power savings ratio.
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Citations
16 Claims
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1. An AC power regulation system for controlling load power to a load, said power regulation system having an input for coupling to an AC power source and having an output for coupling to the load, said power regulation system comprising:
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a controllable switch coupled in series between the input and the output; a capacitor circuit for supplying capacitance coupled in parallel with the controllable switch; circuitry for turning-on the controllable switch to a conducting state; circuitry for turning-off the controllable switch to a non-conducting state; circuitry for setting and storing a target power value, wherein each of said circuitry for turning on and said circuitry for turning off said controllable switch operate in conjunction to reduce power supplied to said load to said target power value; circuitry for measuring a value representative of a phase angle of said load after said target power value is achieved; circuitry for storing a value representative of a phase angle; and circuitry for monitoring subsequent values representative of load phase angles and comparing them with said stored value representative of a phase angle to maintain a desired power savings with respect to said load. - View Dependent Claims (2, 3, 4, 5)
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6. An AC power regulation system for controlling load power to a load, said power regulation system having an input for coupling to an AC power source and having an output for coupling to the load, said power regulation system comprising:
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a controllable switch coupled in series between the input and the output; circuitry for supplying capacitance coupled in parallel with the controllable switch; circuitry for generating power sense signals responsive to the load power; circuitry for turning-on the controllable switch to a conducting state; circuitry for turning-off the controllable switch to a non-conducting state; switch control circuitry for generating control signals to control said circuitry for turning-on and said circuitry for turning-off such that the controllable switch is turned on to a conducting state at a selected turn-on time, and is turned off to a non-conducting state at a selected turn-off time prior to a line current zero-crossing point, said turn-off time being selected by said switch control circuitry in response to said power sense signals; and circuitry for ensuring that said turn-off time initially occurs just in advance of a line current zero-crossing point. - View Dependent Claims (7, 8)
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9. A method of AC power regulation for controlling power to a load in an electrical system, said system having an input for coupling to an AC power source, an output for coupling to the load, and a controllable switch coupled in series between said input and said output, comprising the steps of:
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operating said controllable switch during a first mode of operation such that substantially full-power is supplied to said load; initiating a power reduction mode after said first mode, wherein power supplied to said load is gradually reduced during said power reduction mode from said substantially full power to a target value over a period of time; thereafter initiating a power-saving mode, wherein the power supplied to said load substantially corresponds to said target value; measuring a value representative of a phase angle of said load after said target value is achieved; storing said value representative of a phase angle of said load; and thereafter monitoring subsequent values representative of load phase angles and comparing them with said stored value representative of a phase angle to maintain a desired power savings with respect to said load. - View Dependent Claims (10, 11, 12, 13)
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14. A method of AC power regulation for controlling power to a load in an electrical system, said power regulation system having an input for coupling to an AC power source and an output for coupling to the load, and having a controllable switch coupled in series between said input and said output, comprising the steps of:
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operating said controllable switch during a first mode of operation such that substantially full-power is supplied to said load; initiating a power reduction mode after said first mode, wherein power supplied to said load is gradually reduced during said power reduction mode from said substantially full power to a target value over a period of time; gradually easing into said power reduction mode by initially turning off said controllable switch just in advance of a load current zero-crossing point; and causing the switch at all times to be in an off condition prior to the next-successive load current zero-crossing and causing the switch to be in an on condition following said next-successive load current-zero crossing.
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15. A method of AC power regulation for controlling power to a load in an electrical system, said system having an input for coupling to the load and a controllable switch coupled in series between said input and said output, comprising the steps of:
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operating said controllable switch such that substantially full-power is supplied to said load; gradually reducing said power supplied to said load from said substantially full power to a target value over a period of time; measuring a value representative of a phase angle of said load after said target value is achieved; storing said value representative of a phase angle of said load; and thereafter monitoring subsequent values representative of load phase angles and comparing them with said stored value representative of a phase angle to maintain a desired power savings with respect to said load.
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16. A method of AC power regulation for controlling power to a load in an electrical system, said power regulation system having an input for coupling to an AC power source and having an output for coupling to the load, and having a controllable switch coupled in series between said input and said output, comprising the steps of:
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operating said controllable switch such that substantially full-power is supplied to said load; reducing said power supplied to said load from said substantially full power to a target value over a period of time; gradually reducing said power supplied to said load by initially turning off said controllable switch just in advance of a load current zero-crossing point; and causing the switch at all times to be in an off condition prior to the next-successive load current zero-crossing point and causing the switch to be in an on condition following said next-successive load current zero-crossing point.
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Specification