Patent Application
20070139327
1. Field of Invention
The present invention relates to a driving apparatus and method for a thin film transistor liquid crystal display panel (TFT LCD panel). More particularly, the present invention relates to a dot inversion driving apparatus and method for an analog thin film transistor liquid crystal display panel.
2. Description of Related Art
To reduce cost, the line inversion driving mode is mostly used in the conventional medium to small sized analog TFT LCD panel. Taking
The common voltage of the traditional TFT LCD panel can be direct current or alternating current. The common voltage of direct current is constant while the common voltage of alternating current reverses along with the driving polarities, as shown in
As to the display quality, the line inversion driving mode of the traditional medium to small sized analog TFT LCD panel easily produces crosstalk and flickers. If the dot inversion driving mode is applied to improve the display quality, the cost will greatly increase due to the complicated circuit.
Accordingly, the present invention is directed to provide a dot inversion driving apparatus for an analog thin film transistor liquid crystal display panel so that the grayscale data of line inversion can be output by way of dot inversion and that the display quality of dot inversion can be obtained at a lower cost.
Besides, the present invention provides a dot inversion driving method for an analog thin film transistor liquid crystal display panel. Like the above driving apparatus, the grayscale data of line inversion can be output by way of dot inversion and that the display quality of dot inversion can be obtained at a lower cost.
In order to achieve the above and other objects, the present invention provides a dot inversion driving apparatus for an analog thin film transistor liquid crystal display panel. The driving apparatus includes a control circuit and a source driver IC. The control circuit receives the grayscale signal of the thin film transistor liquid crystal display panel from the front step system, rearranges the orders and polarities of the grayscale signals, and then outputs the grayscale signals of the first group during the first half period of each frame and outputs the grayscale signals of the second group during the second half period of each frame. The source driver IC collects the grayscale signals output by the control circuit. During the first half period, using one scan line of the first group as a unit, the source driver IC outputs the grayscale signals to the pixels of the first group, and during the second half period, using one scan line of the second group as a unit, the source driver IC outputs the grayscale signals to the pixels of the second group.
Wherein, the grayscale signals received by the control circuit change their polarities according to the line inversion driving mode. The aforementioned first group is the whole odd data lines or the whole even data lines of the aforementioned panel. The aforementioned second group is the whole data lines of the aforementioned panel deducting the first group. In the grayscale signals of the first group, all the odd scan lines are of the first polarity while all the even scan lines are of the second polarity. In addition, in the grayscale signals of the second group, all the odd scan lines are of the second polarity while all the even scan lines are of the first polarity.
In an embodiment of the aforementioned dot inversion driving apparatus for an analog thin film transistor liquid crystal display panel, the control circuit further outputs a first clock signal and a second clock signal. The source driver IC collects grayscale signals during the first half period based on the first clock signal while it collects grayscale signals during the second half period based on the second clock signal.
In an embodiment of the aforementioned dot inversion driving apparatus for an analog thin film transistor liquid crystal display panel, the common voltage of the aforementioned panel is alternating circuit voltage. When the grayscale signal output by the source driver IC is of the first polarity, the aforementioned common voltage is the first voltage; when the grayscale signal output by the source driver IC is of the second polarity, the aforementioned common voltage is the second voltage.
In an embodiment of the aforementioned dot inversion driving apparatus for an analog thin film transistor liquid crystal display panel, the first polarity is either positive polarity or negative polarity. If the first polarity is the positive polarity, the second polarity is the negative polarity and the aforementioned first voltage is lower than the voltage of the grayscale signal and the aforementioned second voltage is higher than the voltage of the grayscale signal. On the other hand, if the first polarity is the negative polarity, the second polarity is the positive polarity and the aforementioned first voltage is higher than the voltage of the grayscale signal and the aforementioned second voltage is lower than the voltage of the grayscale signal.
Based on the aforementioned dot inversion driving apparatus, the present invention further provides a dot inversion driving method for an analog thin film transistor liquid crystal display panel. The method includes the following steps: first, receiving the grayscale signals of the thin film transistor liquid crystal display panel from the front step system; after rearranging the orders and polarities of the grayscale signals, outputting the grayscale signals of the first group to the pixels of the first group during the first half period of each frame using one scan line of the first group as a unit, and outputting the grayscale signals of the second group to the pixels of the second group during the second half period of each frame using one scan line of the second group as a unit.
As described in the embodiment of the present invention, the present invention modifies the traditional timing controller and source driver IC, receives the grayscale data by way of line inversion, rearranges the orders and polarities of the grayscale data, and then outputs the grayscale data in two groups by way of line inversion, so that the grayscale data of the same frame can be disposed by way of dot inversion. In the present invention, the grayscale data are output by way of line inversion, thus the circuit is not complicated as a real dot inversion driving circuit, so that the dot inversion display quality can be obtained at a lower cost.
In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, a preferred embodiment accompanied with figures is described in detail below.
First, the image processing circuit 410 extracts the analog grayscale signals Va, Vb and Vc of the RGB trichromatism from the image signal 410. Here the grayscale signals Va, Vb and Vc change their polarities according to the line inversion driving mode. The control circuit 402 receives the grayscale signals Va, Vb and Vc and exchanges the synchronization signal 412 with the image processing circuit 401. Then, the control circuit 402 rearranges the orders and polarities of the grayscale signals Va, Vb and Vc into the grayscale signals Vo1˜Vo3 and Ve1˜Ve3.
The order of the grayscale signals Vo1˜Vo3 and Ve1˜Ve3 are shown in
In addition to the control signal 411 (details are stated below) from the control circuit 402, the source driver IC 403 also receives the grayscale signals Vo1˜Vo3 and Ve1˜Ve3. In the present embodiment, a frame is displayed in two periods. During the first half period of each frame, the control circuit 402 outputs the grayscale signals Vo1˜Vo3 of the first group to the source driver IC 403. The source driver IC 403 collects the grayscale signals Vo1˜Vo3 in series and then outputs the grayscale signals Vo1˜Vo3 to the pixels of the first group. On the other hand, during the second half period of each frame, the control circuit 402 outputs the grayscale signals Ve1˜Ve3 of the second group to the source driver IC 403. The source driver IC 403 collects the grayscale signals Ve1˜Ve3 in series and then outputs the grayscale signals Ve1˜Ve3 to the pixels of the second group.
In the aforementioned process, the position of the grayscale signals on the panel is as shown in
The TFT LCD panel of the present embodiment has a resolution of 480×234 and uses three source driver IC chips. The source driver IC 403 shown in
On the other hand,
The clock signals CLKH1, CLKH2 and the start pulses STH1, STH2 all come from the control circuit 402 shown in
In the above embodiment, it is assumed that the present embodiment uses the direct current common voltage. In fact, the present embodiment can also use the alternating current common voltage. If the alternating current common voltage is used, as shown in
The number of the scan lines of the TFT LCD panel of the present embodiment is even, so that, as shown in
In addition to the dot inversion driving apparatus for an analog TFT LCD panel, the present invention also provides a dot inversion driving method for an analog TFT LCD panel.
First of all, in the step 1010, the grayscale signals of the TFT LCD panel from the front step system are received. In the step 1020, the orders and polarities of the grayscale signals are rearranged, as the control circuit 402 in
The present invention is not limited to the above embodiments. For example, in the above embodiment, the first group includes all odd scan lines while the second group includes all even scan lines. Alternatively, in other embodiments, the first group includes all even scan lines while the second group includes all odd scan lines. In the two groups, the polarity arrangement of the scan lines may also be changed as long as the dot inversion driving mode can be achieved. For example, the first scan line of the first group may be changed into the negative polarity while the first scan line of the second group is changed into the positive polarity. Besides, in the above embodiments, the control circuit outputs the grayscale signals of three sub-pixels (e.g. Vo1˜Vo3 or Ve1˜Ve3) at one time; the source driver IC also collects the grayscale signals of three sub-pixels at one time. In fact, as long as the grayscale signals of at least one sub-pixel are output at one time, the present invention can be implemented.
In summary, the present invention modifies the traditional timing controller and source driver IC, receives the grayscale data by way of line inversion, rearranges the orders and polarities of the grayscale data, and then outputs the grayscale data in two groups by way of line inversion, so that the grayscale data of the same frame can be arranged by way of dot inversion. In the present invention, the grayscale data are output by way of line inversion, thus the circuit are not so complicated as a real dot inversion driving circuit, so that the dot inversion display quality can be obtained at a lower cost.
The present invention is disclosed above with its preferred embodiments. It is to be understood that the preferred embodiment of present invention is not to be taken in a limiting sense. It will be apparent to those skilled in the art that various modifications and variations can be made to the structure of the present invention without departing from the scope or spirit of the invention. The protection scope of the present invention is in accordance with the scope of the following claims and their equivalents.
