Circuit and method for controlling the brightness of an FED device in response to a light sensor
First Claim
1. A field emission display device comprising:
- a light sensor generating an output signal proportional to sensed light, said output signal being variable;
a converter circuit for generating a brightness signal responsive to said output signal, said brightness signal being variable;
a plurality of column drivers each coupled to a respective column line, said column drivers for driving amplitude modulated voltage signals over column lines to provide a gray-scale level;
a plurality of row drivers each coupled to a respective row line, said plurality of row drivers for driving a first voltage signal over one row line and at least three column lines;
a horizontal synchronization clock signal for synchronizing the refresh of individual row lines; and
a brightness control circuit for regulating the brightness of said field emission display device, said brightness control circuit coupled to receive said variable brightness signal and coupled to enable said plurality of row drivers, said brightness control circuit for generating said first voltage signal with a row on-time pulse width that is modulated in proportion to said variable brightness signal and generated in synchronization with said horizontal synchronization clock signal, said row on-time pulse width adapted to prevent degradation of said gray-scale level for said amplitude modulated voltage signals over said column lines.
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Abstract
A circuit and method for controlling the brightness of a display screen implemented using a field emission display (FED) screen. Within the FED screen, a matrix of rows and columns is provided and emitters are situated within each row-column intersection. Rows are activated sequentially and separate gray scale information (voltages) is presented to the columns. When the proper voltage is applied across the cathode and anode of the emitters, they release electrons toward a phosphor spot, e.g., red, green, blue, causing an illumination point. The present invention includes specialized circuitry positioned across the row drivers for altering the applied voltage to the rows to cause a change in brightness cross the FED screen. In response to a variable brightness voltage signal, the row on-time window is pulse width modulated to alter the brightness of the FED screen. In an automatic brightness adjustment embodiment, an ambient light sensor supplies the brightness signal that changes in proportion to the light sensed. The FED screen brightness is increased in response to increases in the light sensor output and decreased in response to decreases in the light sensor output. Another embodiment uses the light sensor for brightness normalization where the FED screen is used as the reference light level and the FED screen brightness is compensated for due to variations caused by age and manufacturing differences. A manual brightness adjustment (override) and automatic brightness on/off switch are also provided.
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Citations
21 Claims
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1. A field emission display device comprising:
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a light sensor generating an output signal proportional to sensed light, said output signal being variable; a converter circuit for generating a brightness signal responsive to said output signal, said brightness signal being variable; a plurality of column drivers each coupled to a respective column line, said column drivers for driving amplitude modulated voltage signals over column lines to provide a gray-scale level; a plurality of row drivers each coupled to a respective row line, said plurality of row drivers for driving a first voltage signal over one row line and at least three column lines; a horizontal synchronization clock signal for synchronizing the refresh of individual row lines; and a brightness control circuit for regulating the brightness of said field emission display device, said brightness control circuit coupled to receive said variable brightness signal and coupled to enable said plurality of row drivers, said brightness control circuit for generating said first voltage signal with a row on-time pulse width that is modulated in proportion to said variable brightness signal and generated in synchronization with said horizontal synchronization clock signal, said row on-time pulse width adapted to prevent degradation of said gray-scale level for said amplitude modulated voltage signals over said column lines. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A display system comprising:
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a light sensor for generating an output signal proportional to an amount of sensed light; a manual brightness adjustment device; a reference circuit for generating a reference signal, said reference signal responsive to said manual brightness adjustment device; a converter circuit coupled to receive said output signal and said reference signal and for generating a brightness signal indicating a brightness level, said brightness signal having a value dependent upon the value of said output signal and said reference signal; a brightness control circuit coupled to receive said brightness signal and for generating a row on-time pulse width that is modulated in proportion to said brightness signal; and a field emission display screen having pixels at intersections of row and column lines which are coupled, respectively, to row and column drivers, said row drivers coupled to receive said row on-time pulse for providing a brightness level and wherein said pixels of said field emission display screen automatically vary in brightness in proportion to said width of said row on-time pulse, said column drivers adapted to receive an amplitude modulated voltage signal, said row on-time pulse width adapted to prevent degradation of said gray-scale level for said amplitude modulated voltage signals over said column lines. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A computer system comprising:
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a processor coupled to a bus; a memory unit coupled to said bus; and a display system coupled to said bus, said display system comprising; a light sensor for generating an output signal proportional to an amount of sensed light; a converter circuit coupled to receive said output signal and for generating a brightness signal indicating a brightness level; a brightness control circuit coupled to receive said brightness signal and for generating a row on-time pulse width that is modulated in proportion to said brightness signal; and a field emission display screen having pixels at intersections of row and column lines which are coupled, respectively, to row and column drivers, said row drivers coupled to receive said row on-time pulse and said column drivers coupled to receive a gray-scale signal and wherein said pixels of said field emission display screen automatically vary in brightness in proportion to said width of said row on-time pulse, said row on-time pulse width adapted to prevent degradation of said gray-scale signal at said pixels. - View Dependent Claims (16, 17, 18, 19, 20, 21)
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Specification