Charge pump for producing display driver output
First Claim
Patent Images
1. A system for driving an array of display elements, the system comprising:
- at least one capacitor;
at least one charging supply line;
a first overdrive line configured to output a positive overdrive voltage to the array of display elements;
a second overdrive line configured to output a negative overdrive voltage to the array of display elements;
a first plurality of drive lines, each configured to supply a positive drive voltage to the array of display elements;
a second plurality of drive lines, each configured to supply a negative drive voltage to the array of display elements;
a first plurality of switches configured to selectively couple the at least one charging supply line to the at least one capacitor;
a second plurality of switches, wherein each of the second plurality of switches is configured to selectively couple one of the first plurality of drive lines to the at least one capacitor;
a third plurality of switches, wherein each of the third plurality of switches is configured to selectively couple one of the second plurality of drive lines to the at least one capacitor;
a fourth plurality of switches configured to selectively couple the at least one capacitor to at least one of the first and second overdrive lines;
and a controller configured to activate a first subset of the four pluralities of switches while deactivating a second subset of the four pluralities of switches, wherein the positive and negative overdrive voltage outputs are sequentially generated in a time sequence.
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Abstract
A system for driving an array of display elements includes a supply line, at least one capacitor, a plurality of drive lines and overdrive lines, a plurality of switches and a controller configured to activate and deactivate subsets of the switches in order to selectively couple the at least one capacitor to the drive lines and to the overdrive lines. A method for generating an overdrive voltage includes activating and deactivating a plurality of switches to couple a drive voltage line and/or an overdrive voltage line to at least one capacitor.
32 Citations
8 Claims
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1. A system for driving an array of display elements, the system comprising:
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at least one capacitor; at least one charging supply line; a first overdrive line configured to output a positive overdrive voltage to the array of display elements; a second overdrive line configured to output a negative overdrive voltage to the array of display elements; a first plurality of drive lines, each configured to supply a positive drive voltage to the array of display elements; a second plurality of drive lines, each configured to supply a negative drive voltage to the array of display elements; a first plurality of switches configured to selectively couple the at least one charging supply line to the at least one capacitor; a second plurality of switches, wherein each of the second plurality of switches is configured to selectively couple one of the first plurality of drive lines to the at least one capacitor; a third plurality of switches, wherein each of the third plurality of switches is configured to selectively couple one of the second plurality of drive lines to the at least one capacitor; a fourth plurality of switches configured to selectively couple the at least one capacitor to at least one of the first and second overdrive lines; and a controller configured to activate a first subset of the four pluralities of switches while deactivating a second subset of the four pluralities of switches, wherein the positive and negative overdrive voltage outputs are sequentially generated in a time sequence. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of generating an overdrive voltage for driving an array of display elements, the method comprising:
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activating at least one first switch to couple a supply voltage to at least one capacitor; deactivating the at least one first switch; activating at least one second switch to couple a drive voltage line to a first side of the at least one capacitor; activating at least one third switch to couple an overdrive voltage line to a second side of the at least one capacitor; activating a first plurality of switches to couple a segment voltage to a first of two alternating capacitors, while deactivating a second plurality of switches to uncouple the segment voltage from the second of the two alternating capacitors; deactivating a third plurality of switches to uncouple overdrive voltage lines from the first alternating capacitor while activating a fourth plurality of switches to couple the overdrive voltage lines to the second alternating capacitor; and activating at least one switch in a fifth plurality of switches to directly couple a first overdrive voltage line to one of a first plurality of drive voltage lines.
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Specification