This application claims the benefit of Taiwan application Serial No. 95111675, filed Mar. 31, 2006, the subject matter of which is incorporated herein by reference.
1. Field of the Invention
The invention relates in general to a flat panel display and a pixel driving method applied thereto, and more particularly to a flat panel display and a pixel multiplexing driving method applied thereto.
2. Description of the Related Art
In a conventional flat panel display, each pixel is connected to a data line and a scan line separately and is provided a corresponding data voltage and an corresponding scan voltage by a driving circuit. Because of the requirements of current market, the size of the flat panel display is getting larger and the resolution is getting higher, so that the cost of the driving circuit and the cost of the flat panel display are getting more. Therefore, the flat panel display with pixel multiplexing structure appears in order to reduce the cost of the display and increase the competitiveness in the market.
Referring to
However, according to the characteristic of TFT, when the TFT M2 is conducted, the gate voltage of the TFT M1 outputted from the TFT M2 is not equal to the scan voltage Vn+1 provided by the scan line Gn+1. Instead, the gate voltage of TFT M1 is lower than the scan voltage Vn+1 by a threshold voltage. That is, the gate voltage of the TFT M1 is 20V−5V=15V. Moreover, the gate voltage of the TFT M3 is equal to the scan voltage Vn of the scan line Gn (=20V). In other words, when the pixels A and B receive the data voltage D1 in the time period from t0 to t1, the gate voltage of the TFT M1 (=15V) is substantially lower than the gate voltage of the TFT M3 (=20V), such that the charging capability of the pixel A is worse than that of the pixel B. Also, the unequal charging capability between pixel A and B may cause the phenomenon of flickering on the flat panel display.
It is therefore an object of the invention to provide a flat panel display and a pixel driving method applied thereto in order to solve the problem of unequal voltage between the pixels caused by a pixel multiplexing structure in the flat panel display efficiently, such that the phenomenon of flickering has improved remarkably.
The invention achieves the above-identified object by providing a pixel driving method applied to a flat panel display. First, in a first time period, the scan line provides a first scan voltage to a pixel row to conduct the corresponding thin film transistors (TFTs). Also, the next scan line provides a second scan voltage via the conducted TFTs to the corresponding first switches to conduct the first switches, and the corresponding data line outputs a number of first data voltages to the corresponding first pixel electrodes. The absolute value of the difference between the first scan voltage and the second scan voltage is not smaller than a threshold voltage of TFT Then, in a second time period, the scan line provides a third scan voltage to the pixel row to conduct the corresponding TFTs and the second switches, also the next scan line provides a fourth scan voltage via the conducted TFTs to the corresponding first switches to turn off the first switches. At the same time, the corresponding data line outputs a number of second data voltages via the conducted second switches to the corresponding second pixel electrodes.
The invention achieves the above-identified object also by providing a flat panel display comprising a substrate and a number of pixels. Each pixel has a first sub-pixel and a second sub-pixel. The first sub-pixel has a first pixel electrode, a first switch and a thin film transistor (TFT). The second sub-pixel has a second pixel electrode and a second switch. In a first time period, the scan line outputs a first scan voltage to a pixel row among the pixels to conduct the corresponding TFTs, the next scan line also outputs a second scan voltage via the conducted TFTs to the corresponding first switches to conduct the first switches and the corresponding data lines output a number of first data voltages via the conducted first switches to the corresponding first pixel electrodes. The absolute value of the difference between the first scan voltage and the second scan voltage is not smaller than a threshold voltage of TFT. In a second time period, the scan line provides a third scan voltage to the pixel row to conduct the corresponding TFTs and the second switches, the next scan line also provides a fourth scan voltage via the conducted TFTs to the corresponding first switches to turn off the first switches, at the same time, the corresponding data lines output a number of second data voltages via the conducted second switches to the corresponding second pixel electrodes.
Other objects, features, and advantages of the invention will become apparent from the following detailed description of the preferred but non-limiting embodiments. The following description is made with reference to the accompanying drawings.
Referring to
Referring to
Referring to
Next, in the time period from t1 to t2, the scan line Gn provides a third scan voltage V3 to the Nth pixel row Ln to conduct the corresponding TFT 30 and the second switch 50, wherein the third scan voltage V3 is substantially equal to the second scan voltage V2. At the same time, the next scan line Gn+1 provides a fourth scan voltage V4 (for example equal to 0V) through the conducted TFT 30 to the corresponding first switch 20 to turn off the first switch 20. Then, the corresponding data line Dm outputs a second data voltage D2 via the conducted second switch 50 to the corresponding second pixel electrode 40, and the corresponding pixel frame is displayed according to the second data voltage D2.
In order to solve the problem of flickering caused by the unequal charging capability of the two adjacent pixels in the flat panel display with the pixel multiplexing structure mentioned above, in the preferable embodiment of the invention, the first scan voltage V1 is at least a threshold voltage Vh larger than the second scan voltage V2, such that the TFT 30 can be conducted completely by the first scan voltage V1 in the time period from t0 to t1. Then, the second scan voltage V2 (=20V) outputted by the conducted TFT 30 conducts the first switch 20, and then the corresponding data line Dm outputs the first data voltage D1 via the conducted first switch 20 to the first pixel electrode 10. In the time period from t1 to t2, the third scan voltage V3 (=20V) conducts the second switch 50, and then the corresponding data line Dm outputs the second data voltage D2 via the conducted second switch 50 to the second pixel electrode 40. Thus, the gate voltage of the first switch (MOS) 20 is substantially equal to the gate voltage of the second switch (MOS) 50, such that the charging capability of the first sub-pixel P1 equals to that of the second sub-pixel P2. As a result, it solves the problem of flickering efficiently.
In the following time period from t2 to t3, the first scan voltage V1 outputted by the next scan line Gn+1 drives the pixels in the N+1th pixel row. At the same time, the scan line Gn outputs a fifth scan voltage V5 (for example 0V) in order to turn off the corresponding TFT 30 and the second switch 50.
Referring to
In the practical application, the pixel multiplexing driving method of the invention is not limited to the embodiment mentioned above, the timing sequence of the scan lines and the data lines can be adjusted according to the practical requirement. Referring to
As mentioned above, in the pixel driving method of the invention, although it is taken for example that the first scan voltage V1 and the second scan voltage V2 are high-level voltages, and the first scan voltage V1 is at least a threshold voltage larger than the second scan voltage V2, the TFT 30, the first switch 20 and the second switch 50 of the invention can be P-type metal oxide semiconductors (PMOS), and the first scan voltage V1 and the second scan voltage V2 are low-level voltages. Moreover, the second scan voltage V2 can still be not equal to the third scan V3. As long as the absolute value of the difference between the first scan voltage V1 and the second scan voltage V2 is not smaller than a threshold voltage of the TFT and the second scan voltage V2 and the third scan voltage V3 can conduct the first switch 20 and the second switch 50 completely, the charging capability of the first sub-pixel P1 and the second sub-pixel P2 is almost the same and the phenomenon of flickering can be avoided.
Preferably, the pixel multiplexing driving method can be applied to the structure that more than two pixels are connected to the same data line. Referring to
The flat panel display disclosed in the embodiment of the invention is adopted by the pixel multiplexing driving method that adjusts the scan voltages of the adjacent two scan lines driving the same pixel, such that the absolute value of the difference between the previous scan voltage and the next scan voltage is not smaller than a threshold voltage of the pixel transistor. Therefore, the adjacent two sub-pixels in the same pixel can reach the same charging capability, and then improve the problem of flickering in the conventional flat panel display.
While the invention has been described by way of example and in terms of a preferred embodiment, it is to be understood that the invention is not limited thereto. On the contrary, it is intended to cover various modifications and similar arrangements and procedures, and the scope of the appended claims therefore should be accorded the broadest interpretation so as to encompass all such modifications and similar arrangements and procedures.
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