Power-efficient, pulsed driving of capacitive loads to controllable voltage levels
First Claim
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1. A circuit for reducing the energy consumed in driving a capacitive load that is being driven to a controllable voltage level, comprising:
- a voltage connection system connected to the capacitive load for controllably causing the capacitive load to connect to a voltage source and for charging the capacitive load using adiabatic charging;
a recovery connection system connected to the capacitive load for controllably causing only a portion of the capacitive load to connect to a reservoir and for discharging only a portion of the load using adiabatic discharging; and
a control system for causing the voltage connection system to connect the capacitive load to the voltage source during a first time period and for causing the recovery connection system to connect the capacitive load to the reservoir during a second time period.
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Abstract
Power-efficient, pulsed driving of capacitive loads to controllable voltage levels, with particular applicability to LCDs. Energy stored in a portion of the capacitive load is recovered during a recovery phase. Time-varying signals are used to drive the load and to recover the stored energy, thus minimizing power losses, using processes named adiabatic charging and adiabatic discharging.
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Citations
33 Claims
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1. A circuit for reducing the energy consumed in driving a capacitive load that is being driven to a controllable voltage level, comprising:
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a voltage connection system connected to the capacitive load for controllably causing the capacitive load to connect to a voltage source and for charging the capacitive load using adiabatic charging;
a recovery connection system connected to the capacitive load for controllably causing only a portion of the capacitive load to connect to a reservoir and for discharging only a portion of the load using adiabatic discharging; and
a control system for causing the voltage connection system to connect the capacitive load to the voltage source during a first time period and for causing the recovery connection system to connect the capacitive load to the reservoir during a second time period. - View Dependent Claims (2, 3, 4)
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5. Apparatus for charging and discharging a capacitive load comprising:
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a voltage regulator having an input connected to a voltage source, an output, and a control connected to a voltage approximately equal to the voltage to which the capacitive load is to be charged;
a first switch having an input connected to said output of said voltage regulator, an output connected to the capacitive load, and a control connected to a first control signal; and
a second switch having an input connected to the capacitive load, an output connected to the voltage source, and a control connected to a second control signal. - View Dependent Claims (6)
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7. Apparatus for generating a control signal used to activate the energy recovery phase of an apparatus for driving a capacitive load when the voltage of an energy recovery signal becomes approximately equal to the voltage across the capacitive load comprising a comparator having a first input connected to the voltage across the capacitive load, a second input connected to the energy recovery signal, and an output that constitutes the control signal.
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8. Apparatus for sampling a desired voltage that is being delivered to a capacitive load, for preserving that voltage for later processing, and for delivering the preserved voltage to a device for later processing, comprising:
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a first switch having an input connected to the desired voltage, a control connected to a control signal, and an output;
a capacitor connected to the output of said first switch; and
a voltage regulator having an input connected to a voltage source, a control connected to said capacitor, and an output connected to the device.
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9. A method for driving one of a plurality of capacitive elements and one or more other capacitance-generating components that are associated with a line other than the capacitive elements, comprising:
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electrically connecting each of the plurality of capacitive elements to the line;
storing charge in the one of the plurality of capacitive elements through the line while each of the other of plurality of capacitive elements is electrically connected to the line; and
recovering energy stored in the other capacitance-generating components while maintaining the charge stored in the one of the plurality of capacitive elements. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method for reducing the energy consumed in driving a capacitive load that is being driven to a controllable voltage level, comprising:
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controllably causing the capacitive load to connect to a voltage source;
charging the capacitive load using adiabatic charging;
controllably causing only a portion of the capacitive load to connect to a reservoir; and
discharging only a portion of the load using adiabatic discharging.
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20. A process for reducing the energy consumed by a display having a plurality of liquid crystal elements arranged in a matrix of rows and columns, the light passed by each liquid crystal element being regulated by a capacitive element associated with the liquid crystal element, each capacitive element having the ability to be selectively charged by the delivery of current through a line associated with the capacitive element, the line also driving one or more other capacitances in the display other than the capacitive elements, each of the plurality of liquid crystal elements being driven to the approximate voltage of a serial video signal, the process comprising:
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storing the voltage of the video signal for each capacitive element in a storage device;
applying the stored voltage for each capacitive element to each capacitive element through a first voltage regulator; and
recovering energy from the other capacitances using a second voltage regulator.
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21. Apparatus for charging a capacitive load to a controllable voltage level comprising:
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a connection for receiving a signal representative of the controllable voltage level;
a time-varying voltage supply for generating a time-varying voltage that varies from a voltage at one time that is less than the controllable voltage level to a voltage at another time that is greater than the controllable voltage level;
an electronic switch in communication with the time-varying voltage supply and the capacitive load for opening and closing a connection between said time-varying voltage supply and the capacitive load to be charged; and
a control circuit connected to said electronic switch for causing said switch to close at a point in time when the magnitude of the voltage on the capacitive load is less than the magnitude of the controllable voltage level and for causing said switch to open at a point in time when the magnitude of the voltage on the capacitive load is close to or equal to the magnitude of the controllable voltage level. - View Dependent Claims (22, 23, 24, 25, 26)
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27. Apparatus for discharging a capacitive load from a voltage level comprising:
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a time-varying voltage supply for generating a time-varying voltage that varies from a voltage at one time that is more than the voltage level to a voltage at another time that is less than the voltage level;
an electronic switch in communication with the time-varying voltage supply and the capacitive load for opening and closing a connection between said time-varying voltage supply and the capacitive load to be discharged; and
a control circuit connected to said electronic switch for causing said switch to close at a point in time when the magnitude of the time-varying voltage supply is equal to or less than the magnitude of the voltage level on the capacitive load and for causing said switch to open at a point in time after the capacitive load has been substantially discharged. - View Dependent Claims (28, 29, 30, 31)
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32. A process for charging a capacitive load to a controllable voltage level comprising:
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receiving a signal representative of the controllable voltage level;
generating a time-varying voltage with a time-varying voltage supply that varies from a voltage at one time that is less than the controllable voltage level to a voltage at another time that is greater than the controllable voltage level;
closing a connection with an electronic switch between the time-varying voltage supply and the capacitive load to be charged at a point in time when the magnitude of the voltage on the capacitive load is less than the magnitude of the controllable voltage level; and
opening a connection with an electronic switch between the time-varying voltage supply and the capacitive load to be charged at a point in time when the magnitude of the voltage on the capacitive load is close to or equal to the magnitude of the controllable voltage level.
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33. A process for discharging a capacitive load from a voltage level comprising:
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generating a time-varying voltage with a time-varying voltage supply that varies from a voltage at one time that is more than the voltage level to a voltage at another time that is less than the voltage level;
closing a connection with a switch between the time-varying voltage supply and the capacitive load to be discharged at a point in time when the magnitude of the time-varying voltage supply is equal to or less than the magnitude of the controllable voltage level on the capacitive load; and
opening a connection with a switch between the time-varying voltage supply and the capacitive load to be discharged at a point in time after the capacitive load has been substantially discharged.
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Specification