Display device and method for driving display device

A method for driving a display device includes: dividing static frames displayed by the display device into a first frame and a second frame, which comprises a first sub-frame and a second sub-frame; outputting grey-scale images during the display period of the first frame and the first sub-frame; outputting dark state images during the display period of the second sub-frame, where the length of the display period of the second sub-frame is proportional to that of the static frames. The present invention also proposes a display device using the method. The brightness of the display device can be dynamically adjusted, preventing the device from operating in high brightness for a long period of time, and prolonging its lifespan.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to display technology field, more particularly to a display device and a method for driving the display device.

2. Description of the Prior Art

Compared to a liquid crystal display device, an organic light-emitting diode (OLED) display device consumes less energy, for it is self-lighting and needs no backlight modules. The brightness of an OLED display device is determined by driving current. The greater the driving current is, the brighter the display becomes. This means a significantly greater amount of driving current will be received when an OLED device displays high brightness images in a given amount of time, a fact leading to accelerated aging of the device, which enormously deteriorates display quality.

To prolong lifespan of an OLED display device, “black frame insertion” is a commonly deployed method in conventional technology for lowering brightness; that is, insertion of a black frame after an image frame. In current practice, the insertion rate is usually a simple constant based on frame time or frame numbers, not taking into account of mean-time brightness, and thus deteriorates image quality for viewers.

SUMMARY OF THE INVENTION

Accordingly, the present invention provides a display device and a method for driving the display device, which adjusts brightness according to display time of static frames in order to prolong lifespan of the display device.

According to the present invention, a method for driving a display device comprises: dividing static frames displayed by the display device into a first frame and a second frame, which comprises a first sub-frame and a second sub-frame, a length of the display period of the first frame being equivalent to that of the second frame; outputting grey-scale images during the display period of the first frame and the first sub-frame, wherein during the display period of the first frame, a plurality of gate lines of the display device are turned on one by one, and a plurality of data lines of the display device outputs grey-scale voltage so to display the grey-scale images, during the display period of the first sub-frame, all gate lines are turned off and all data lines stop outputting the grey-scale voltage; and during the display period of the second sub-frame, the plurality of gate lines are turned on at the same time and the data lines output dark state voltage to show dark state images, where the length of the display period of the second sub-frame is proportional to that of the static frames.

Furthermore, the method further comprises: outputting the grey-scale images during the display period of dynamic frames of the display device.

Furthermore, the dark state images comprise black images and grey images.

According to the present invention, a method for driving a display device comprises: dividing static frames displayed by the display device into a first frame and a second frame, which comprises a first sub-frame and a second sub-frame; outputting grey-scale images during the display period of the first frame and the first sub-frame; and outputting dark state images during the display period of the second sub-frame, where the length of the display period of the second sub-frame is proportional to that of the static frames.

Furthermore, during the display period of the first frame, a plurality of gate lines of the display device are turned on one by one, and a plurality of data lines of the display device outputs grey-scale voltage so to display the grey-scale images. During the display period of the first sub-frame, all gate lines are turned off and all data lines stop outputting the grey-scale voltage. During the display period of the second sub-frame, the plurality of gate lines are turned on at the same time and the data lines output dark state voltage to show dark state images.

Furthermore, the length of the display period of the first frame is equivalent to that of the second frame.

Furthermore, the method further comprises outputting the grey-scale images during the display period of dynamic frames of the display device.

Furthermore, the dark state images comprise black images and grey images.

According to the present invention, a display device comprises a timing controller and a data driver for driving data lines. The timing controller comprises: a detecting module, for detecting whether the display device enters into the display period of the static frames; a clock module, for dividing the display period of static frames into two display periods, one for the first frame and the other for the second frame, which comprises a first sub-frame and a second sub-frame; a timing module, for timing the length of the display period of static frames; a control module, for controlling the data driver to output grey-scale images during the display periods of the first frame and the first sub-frame, and output dark state images during the display period of the second sub-frame, wherein the length of the display period of the second sub-frame is proportional to that of the static frames.

Furthermore, the display device further comprises a plurality of gate lines and a gate driver for driving the gate lines. During the display period of the first frame, the control module controls the gate driver to turn on the plurality of gate lines one by one, and controls the data driver to output grey-scale voltage to the data lines so to show the grey-scale images. During the display period of the first sub-frame, the control module controls the gate driver to turn off all the gate lines, and controls the data driver to stop outputting the grey-scale voltage to all the data lines. During the display period of the second sub-frame, the control module controls the gate driver to turn on the plurality of gate lines at the same time, and controls the data driver to output dark state voltage to the data lines to show the dark state images.

Furthermore, the detecting module is further used to detect whether the display device enters into the display period of dynamic frames. If yes, then during the display period of dynamic frames, the control module controls the gate driver to turn on the plurality of gate lines one by one, and controls the data driver to output the grey-scale voltage to the data lines to show the grey-scale images.

Furthermore, the length of the display period of the first frame is equivalent to that of the second frame.

Furthermore, the dark state images comprise black images and grey images.

The display device and method for driving the display device of the present invention divides static frames into the first frame and the second frame. The second frame comprises the first sub-frame that shows grey-scale images and the second sub-frame that shows dark state images. The present invention adjusts the length of the display period of the second sub-frame proportional to that of the static frames. Therefore, the longer the static images display, the longer the dark state image displays; the shorter the static images display, the shorter the dark state image displays. By doing so, the brightness of the display device can be dynamically adjusted, preventing the device from operating in high brightness for a long period of time. The present invention thus slows down the device's aging and prolongs its lifespan, ensuring display quality.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The drawings illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

The embodiment of the present invention provides a method for driving display device, as shown inFIG. 1, to drive a display device, as shown inFIG. 2. The display device can be an OLED display device and comprises a timing controller21, a data driver22, a gate driver23and a display panel24. The timing controller21produces control signals to control the digital driver22and the gate driver23so to drive the display panel24to show images.

The display panel24comprises a plurality of gate lines G, arranged in horizontal rows with a space in between, and a plurality of data lines D, arranged in vertical lines with a space in between and perpendicularly intersecting with but insulated from the gate lines. A plurality of pixel units of the display device arranged in arrays is defined by the plurality of intersecting gate lines G and data lines D. Each pixel unit connects to a corresponding thin film transistor (TFT). A drain of the TFT connects the pixel unit, the gate connects the gate line and a source connects the data line. The gate driver23connects scan lines G and provides scan signals to pixel units through scan lines G. The data driver22connects data lines D and provides data signals (grey-scale signals) to pixel units through data lines D. The scan signals scan through each line, and control switch signals of pixel units of each line. The switch signals, jointly affecting the TFT with data signals, controls the TFT by turning it on and off, and therefore controls the current that runs through the pixel units that are connected to the TFT. When the TFT is turned on, the data signals can charge the storage capacitor through the TFT, and thus the display device can illuminate during the display period of each frame to show images.

Please refer toFIG. 1. The method for driving of the present embodiment comprises the following steps.

Step S11: divide the static frames displayed by the display device as a first frame and a second frame. The second frame comprises a first sub-frame and a second sub-frame.

Step S12: output a grey-scale image during the display period of the first frame and the first sub-frame.

Step S13: output a dark state image during the display period of the second sub-frame. The length of the display period of the second sub-frame is proportional to that of the static frames.

First, determine whether the current image to be displayed is a static frame or dynamic frame. For example, assume that there is a mountain and a cloud in a previous frame and the current frame, which are consecutive. If the position of the cloud in the previous frame is the same as that in the current frame, the current frame is static. Methods for determining whether the current frame is static or dynamic is not limited to the one mentioned here. The present embodiment of the invention does not impose any limit on the determining method.

When an image data is received, the display device analyzes the data and divides the display period of each static frame into an image period and a dark state period, as shown inFIG. 3. The image period comprises the display period of the first frame F1and the display period t1of the first sub-frame of the second frame F2. The dark state period is the display period t2of the second sub-frame. During the image period, the data driver22writes a grey-scale voltage corresponding to the grey-scale image for the display panel24under the control of the timing controller21. During the dark state period, the data driver22writes a dark state voltage corresponding to the dark state image for the display panel24under the control of the timing controller21. In addition, during the display period of dynamic frames of the display device, the data driver22writes a grey-scale voltage corresponding to the grey-scale image for the display panel24under the control of the timing controller21. Note that the grey-scale image during the image period and the dark state image during the dark state period are two kinds of images displayed by the display panel24.

The length of the display period of the first frame is the same as that of the second frame. It means that an image with frequency at 60 Hz will become an image with frequency at 120 Hz if frequency multiplication is applied to each static frame.

In practice, the embodiment of the present invention is a method for driving through insertion of black or grey frames, referred to as dark state images in the previous texts. The timing of black or grey frame insertion can be adjusted by the length of the display period of the static frames.

As shown inFIG. 3, the embodiment of the present invention controls signal output of the gate lines through output enable (OE) signal, a gate driving signal; controls signal output of the data lines through strobe input (STB), a grey-scale driving signal; and controls and turns on all the gate lines G through XAO signal, a voltage detection result signal. More specifically:

During the display period of the first frame F1, the gate driving signal OE outputs high level. The gate driver23controls and turns on each gate line G one by one to output high level, and turns on TFT corresponding to each gate line G. The first grey-scale driving signal STB1turns from high to low, while the data driver22outputs grey-scale signal SO to data lines D. The grey-scale signal SO corresponds to grey-scale voltage Vdata, and charges pixel units to show grey-scale images.

During the display period t1of the first sub-frame of the second frame F2, the gate driving signal OE outputs low level, and the gate driver23controls and turns off all the gate lines G. Concurrently, the first grey-scale driving signal STB1outputs low level, and data driver22outputs a low level grey-scale signal SO, such as zero, to the data line D. That is, all the data lines D stop outputting grey-scale voltage. At this moment, the storage capacitor of pixel units provides power so that the display device can still show grey-scale images.

During the display period t2of the second sub-frame of the second frame F2, the gate driving signal OE outputs high level, and the gate driver23controls and turns on each gate line G at the same time to output high level. Concurrently, the second grey-scale driving signal STB2comes to its falling edge. The data driver22outputs grey-scale signal SO to the data line D. The grey-scale signal SO corresponds to a grey-scale voltage Vref, which is smaller than a grey-scale voltage Vdata. The pixel units are thus charged to show dark state images. If dark state images are black images, the grey-scale voltage Vrefwould appear as the grey-scale driving voltage when the display device shows black images; if dark state images are grey images, the grey-scale voltage Vrefwould appear as the grey-scale driving voltage when the display device shows grey images.

In the embodiment of the present invention, the length of the display period t2of the second sub-frame is proportional to that of the static frames. In other words, the embodiment of the present invention adjusts the length of the display period t2of the second sub-frame proportional to that of the static frames. Therefore, the longer the static images display, the longer the dark state image displays; the shorter the static images display, the shorter the dark state image displays. By doing so, the brightness of the display device can be dynamically adjusted, lowering the brightness of the display device when it is operating in static image mode for a long period of time, and thus slowing down the device's aging and prolonging its lifespan, ensuring display quality.

The embodiment of the present invention further provides a display device as shown inFIG. 4. A display device40comprises a timing controller41, data driver42and gate driver43. The timing controller41is for producing control signals to control the data driver42and gate driver43so that the display device40shows images. The timing controller41comprises a detecting module411, a clock module412, a timing module413and a control module414.

The detecting module411is for detecting whether the display device40enters into the display period of static frames. Therefore, it is also used to detect whether the display device40enters into the display period of dynamic frames.

The clock module412is for dividing the display period of static frames into two display periods, one for the first frame and the other for the second frame. The second frame comprises the first sub-frame and second sub-frame. The length of the display period of the first frame can be equivalent to that of the second frame.

The timing module413is for timing the length of the display period of static frames.

The control module414is for controlling the data driver42so that the display device40outputs grey-scale images during the display periods of the first frame and the first sub-frame, and outputs dark state images during the display period of the second sub-frame. The dark state images comprise black images and grey images.

The length of the display period of the second sub-frame is proportional to that of the static frames. More specifically, during the display period of the first frame, the control module414controls the gate driver43to turn on a plurality of gate lines one by one, and controls the data driver42to output grey-scale voltage to data lines to show grey-scale images. During the display period of the first sub-frame, the control module414controls the gate driver43to turn off all gate lines, and controls the data driver42to stop outputting grey-scale voltage to data lines. During the display period of the second sub-frame, the control module414controls the gate driver43to turn on the plurality of gate lines at the same time, and controls the data driver42to output dark state voltage to data lines to show dark state images.

In addition, when the detecting module411detects that the display device40enters into the display period of dynamic frames, it controls the gate driver43to turn on the plurality of gate lines one by one, and controls the data driver42to output grey-scale voltage to data lines to show grey-scale images.

The multi-module structure of the timing controller41of the display device40delivers the same technical effect when implementing the method of the embodiment mentioned above.

The implementation of the timing controller41is merely schematic. The modules are divided merely based on their logical functions, and can be divided differently when putting into practice. For example, two modules can be integrated into another system, or some features can be ignored, or skipped during implementation. In addition, modules can be connected through interfaces, or electrically, or by other means. The modules, as components of timing controller41, are not limited to physical blocks. They can locate in one place or be deployed to a plurality of network units. They can appear in the form of software functional blocks or as hardware.

The display device and method for driving the display device of the present invention divides static frames into the first frame and the second frame. The second frame comprises the first sub-frame that shows grey-scale images and the second sub-frame that shows dark state images. The present invention adjusts the length of the display period of the second sub-frame proportional to that of the static frames. Therefore, the longer the static images display, the longer the dark state image displays; the shorter the static images display, the shorter the dark state image displays. By doing so, the brightness of the display device can be dynamically adjusted, preventing the device from operating in high brightness for a long period of time. The present invention thus slows down the device's aging and prolongs its lifespan, ensuring display quality.

The present disclosure is described in detail in accordance with the above contents with the specific preferred examples. However, this present disclosure is not limited to the specific examples. For the ordinary technical personnel of the technical field of the present disclosure, on the premise of keeping the conception of the present disclosure, the technical personnel can also make simple deductions or replacements, and all of which should be considered to belong to the protection scope of the present disclosure.