An exemplary power driving system (21) typically used in a liquid crystal display (LCD), including a power supply circuit (22), the power supply circuit (22) includes a flyback circuit (224) configured for transforming a high alternating current (AC) voltage to a plurality of low DC voltages and providing a plurality of low direct current (DC) voltages to a gate driver (283) and a data driver (282) of the LCD.
Description
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a block diagram of an LCD according to one preferred embodiment of the present invention, the LCD including a power driving system.
FIG. 2 is a block diagram of a conventional LCD, the LCD including a power driving system.
Claims
1. A power driving system comprising a power supply circuit, the power supply circuit comprising a flyback circuit configured for transforming a high alternating current (AC) voltage to a plurality of low direct current (DC) voltages and respectively providing a plurality of the low DC voltages to a gate driver and a data driver of a liquid crystal display (LCD).
2. The power driving system as claimed in claim 1, wherein the flyback converter comprises a plurality of inductances and a plurality of capacitors.
3. The power driving system as claimed in claim 1, further comprising a power controlling circuit, the power controlling circuit comprising a step-down transformer configured for receiving one of said plurality of the low DC voltages and generating a 3.3 volts DC voltage or a 1.8 volts DC voltage and providing the 3.3 volts DC voltage or the 1.8 volts DC voltage to both the gate driver and the data driver of the LCD.
4. The power driving system as claimed in claim 1, wherein the power supply circuit further comprises a bridge filter circuit configured for receiving the high AC voltage from an external power supply and generating a corresponding steady AC voltage.
5. The power driving system as claimed in claim 4, wherein the high AC voltage is in the range from approximately 110 volts to approximately 220 volts, and the steady AC voltage is in the range from approximately 110 volts to approximately 220 volts.
6. The power driving system as claimed in claim 1, wherein the power supply circuit further comprises an inverter configured for receiving one of said plurality of low DC voltages and transforming the received low DC voltage to a high AC voltage in order to drive a backlight of the LCD.
7. A liquid crystal display (LCD) comprising:
an LCD module comprising a gate driver and a data driver;a smart panel configured for controlling the LCD module to display images; anda power supply circuit, the power supply circuit comprising a flyback circuit configured for transforming a high alternating current (AC) voltage to a plurality of low direct current (DC) voltages and respectively providing a plurality of the low DC voltages to the gate driver and the data driver of the LCD module.
8. The LCD as claimed in claim 7, wherein the flyback converter comprises a plurality of inductances and a plurality of capacitors.
9. The LCD as claimed in claim 7, wherein the LCD module further comprises a pixel array, and the gate driver is configured for providing scanning signals to the pixel array.
10. The LCD as claimed in claim 7, wherein the LCD module further comprises a pixel array, and the data driver is configured for providing a plurality of gradation voltages to the pixel array.
11. The LCD as claimed in claim 7, wherein the smart panel comprises:
a scalar circuit comprising two input terminals for respectively receiving a low voltage differential signal (LDVS) or a transition minimized differential signal (TMDS), and a video signal, from an external circuit; anda timing control circuit configured for controlling the data driver and the gate driver.
12. The LCD as claimed in claim 7, wherein said plurality of the low DC voltages comprise a low positive DC voltage and a low negative DC voltage provided to the gate driver, and a low positive DC voltage provided to the data driver.
13. The LCD as claimed in claim 7, wherein the power supply circuit further comprises a bridge filter circuit configured for receiving the high AC voltage from an external power supply and generating a corresponding steady AC voltage.
14. The LCD as claimed in claim 13, wherein the high AC voltage is in the range from approximately 110 volts to approximately 220 volts, and the steady AC voltage is in the range from approximately 110 volts to approximately 220 volts.
15. The LCD as claimed in claim 7, further comprising a backlight.
16. The LCD as claimed in claim 15, wherein the power supply circuit further comprises an inverter configured for receiving one of said plurality of low DC voltages and transforming the received low DC voltage to a high AC voltage for driving the backlight of the LCD.
17. The LCD as claimed in claim 7, further comprising a power controlling circuit, the power controlling circuit comprising a step-down transformer configured for receiving one of said plurality of the low DC voltages and generating a 3.3 volts DC voltage or a 1.8 volts DC voltage and providing the 3.3 volts DC voltage or 1.8 volts DC voltage to both the gate driver and the data driver.
18. A liquid crystal display circuits arrangement comprising: a gate driver linked to a pixel array and linked by a step-down circuit, a time control circuit and a flyback converter which directly sends a gate-on voltage and a gate-off voltage to the gate drive so as to have the gate drive provide scanning signals to the pixel array.
Patent Application
20070216672
