Flat Display Apparatus and Control Circuit and Method for Controlling the same
Abstract
In an exemplary flat display apparatus and control circuit and method for controlling the flat display apparatus, the flat display apparatus includes a plurality of gate driving units, each of which controls the operation of a scan line in the flat display apparatus. The flat display apparatus provides a first gate high level voltage signal and a second gate high level voltage signal to the gate driving units such that the first and second gate high level voltage signals are used as voltage signals transmitted to corresponding scan lines. The first and second gate high level voltage signals respectively include a falling edge with a slope. Duration time of the falling edge of the first gate high level voltage signal is longer than that of the falling edge of the second gate high level voltage signal.
Claims
exact text as granted — not AI-modified1 . A method for controlling a flat display apparatus comprising a plurality of gate driving units, each of which controls the operation of a scan line in the flat display apparatus, the method comprising:
providing a first gate high level voltage signal and a second gate high level voltage signal to the gate driving units respectively such that the first and second gate high level voltage signals are used as gate voltage signals transmitted to corresponding scan lines, wherein the first and second gate high level voltage signals respectively comprises a falling edge with a slope, and a duration time of the falling edge of the first gate high level voltage signal is longer than a duration time of the falling edge of the second gate high level voltage signal.
2 . The method as claimed in claim 1 , wherein the step of providing the first gate high level voltage signal and the second gate high level voltage signal comprises:
providing the first gate high level voltage signal to a first gate driving unit of the gate driving units; and providing the second gate high level voltage signal to a second gate driving unit of the gate driving units, wherein an enable signal is employed to actuate the gate driving units, the gate driving units being arranged in series so as to receive the enable signal in order.
3 . The method as claimed in claim 1 , further comprising:
generating an original gate high level voltage signal with a fixed duty cycle; generating a first chamfering control signal and a second chamfering control signal; generating the first gate high level voltage signal by gradually decreasing the voltage of the original gate high level voltage signal in a first duty cycle of the first chamfering control signal; generating the second gate high level voltage signal by gradually decreasing the voltage of the original gate high level voltage signal in a second duty cycle of the second chamfering control signal, wherein the first duty cycle of the first chamfering control signal is longer than the second duty cycle of the second chamfering control signal.
4 . A control circuit of a flat display apparatus, the control circuit comprising:
a signal generating module for generating a first gate high level voltage signal and a second gate high level voltage signal; a first gate driving unit electrically coupled to the signal generating module and configured for receiving the first gate high level voltage signal as a voltage signal to be provided to one of scanning lines of the flat display apparatus; and a second gate driving unit electrically coupled to the signal generating module and configured for receiving the second gate high level voltage signal as a voltage signal to be provided to other one of the scanning lines, wherein the first gate driving unit and the second gate driving unit are electrically coupled to each other so as to sequentially be enabled, and the first gate high level voltage signal and the second gate high level voltage signal respectively comprise a falling edge with a slope, a duration time of the falling edge of the first gate high level voltage signal is longer than a duration time of the falling edge of the second gate high level voltage signal.
5 . The control circuit as claimed in claim 4 , wherein the signal generating module comprises:
a chamfering control signal generating unit configured for generating a first chamfering control signal and a second chamfering control signal with different duty cycles; and a gate high level voltage signal generating unit electrically coupled to the chamfering control signal generating unit for receiving the first chamfering control signal and the second chamfering control signal, and configured for generating the first gate high level voltage signal and second gate high level voltage signal by referring to a falling edge of an original gate high level voltage signal which is changed respectively according to the first chamfering control signal and the second chamfering control signal.
6 . The control circuit as claimed in claim 4 , wherein the first gate driving unit and the second gate driving unit are electrically coupled to the signal generating module via a same electronic route.
7 . The control circuit as claimed in claim 4 , wherein the first gate driving unit and the second gate driving unit are electrically coupled to the signal generating module via a respective electronic route.
8 . The control circuit as claimed in claim 4 , wherein the signal generating module comprises:
a chamfering control signal generating unit for generating a plurality of chamfering control signals; and a gate high level voltage signal generating unit comprising:
an original signal generating unit for generating an original gate high level voltage signal; and
a plurality of processing circuits, each of which receives the original gate high level voltage signal and corresponding one of the chamfering control signals,
wherein, each of the processing circuits respectively processing the received chamfering control signals incorporated with the original gate high level voltage signal to obtain corresponding one gate high level voltage signal.
9 . A flat display apparatus comprising:
a display panel comprising:
a plurality of data lines paralleled extended on the display panel along a first direction for transmitting image data used for display image;
a plurality of scanning lines paralleled extended on the display panel along a second direction; and
a plurality of pixel units positioned adjacent the intersections of the data lines and the scanning lines, the scanning lines being configured for turning on/off the pixel units;
a plurality of data driving units respectively electrically coupled to the data lines for providing image data for displaying image; and a control circuit comprising:
a signal generating module configured for generating a first gate high level voltage signal and a second gate high level voltage signal;
a first gate driving unit electrically coupled to the signal generating module and configured for receiving the first gate high level voltage signal as a voltage signal to be provided to one of the scanning lines; and
a second gate driving unit electrically coupled to the signal generating module and configured for receiving the second gate high level voltage signal as a voltage signal to be provided to other one of the scanning lines,
wherein the first gate driving unit and the second gate driving unit are electrically coupled to each other so as to sequentially transmit an enable signal for determining which gate driving unit is enabled, and the first gate high level voltage signal and second gate high level voltage signal respectively comprise a falling edge with a slope, a duration time of the falling edge of the first gate high level voltage signal is longer than that of the falling edge of the second gate high level voltage signal.
10 . The flat display apparatus as claimed in claim 9 , wherein the signal generating module comprises:
a chamfering control signal generating unit configured for generating a first chamfering control signal and a second chamfering control signal with different duty cycles; and a gate high level voltage signal generating unit electrically coupled to the chamfering control signal generating unit for receiving the first chamfering control signal and the second chamfering control signal, and configured for generating the first gate high level voltage signal and the second gate high level voltage signal by referring to a duration time of a falling edge of the original gate high level voltage signal which is changed respectively according to the first chamfering control signal and the second chamfering control signal.
11 . The flat display apparatus as claimed in claim 9 , wherein the first gate driving unit and the second gate driving unit are electrically coupled to the signal generating module via a same electronic route.
12 . The flat display apparatus as claimed in claim 9 , wherein the first gate driving unit and the second gate driving unit are electrically coupled to the signal generating module via a respective electronic route.
13 . The flat display apparatus as claimed in claim 9 , wherein the signal generating module comprises:
a chamfering control signal generating unit for generating a plurality of chamfering control signals; and a gate high level voltage signal generating unit comprising:
an original signal generating unit for generating an original gate high level voltage signal; and
a plurality of processing circuits, each of which receives the original gate high level voltage signal and corresponding one of the chamfering control signals,
wherein, each of the processing circuits respectively processing the received chamfering control signals incorporated with the original gate high level voltage signal to obtain corresponding one gate high level voltage signal.Join the waitlist — get patent alerts
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