KR101761816B1 - Stereoscopic display apparatus and method of driving the same - Google Patents

Abstract

A stereoscopic image display apparatus and a driving method thereof are disclosed.
The disclosed stereoscopic image display device includes: a display panel that is scanned at an odd multiple of a field frequency; A video signal input unit for inputting a video signal to the display panel; And a backlight unit for emitting light to the display panel.

Description

[0001] The present invention relates to a stereoscopic display apparatus and a driving method thereof,

Embodiments of the present invention relate to a spectacled stereoscopic image display device and a driving method thereof.

Generally, three-dimensional images are made by the principle of stereoscopic vision through the two eyes of a person. Binocular parallax, which occurs because the eyes are separated by about 65mm, is the most important factor of the stereoscopic effect. The stereoscopic effect can be expressed by showing the same image as the actual image seen in each eye. To do this, the same two cameras are shot at a distance of two feet, then the left camera shows only the left eye, and the right camera only the right eye.

The stereoscopic image display device includes a display using glasses and a display without glasses. The glasses-type display includes a polarizing glasses system and a shutter glasses system. The non-glasses system displays include a parallax barrier system, a lenticular system, an integral imaging system, a holography system, and the like .

Among the three-dimensional display system of the spectacles type, the shutter glasses system realizes a stereoscopic image by using a liquid crystal shutter glass. The liquid crystal shutter glass system displays different images in the left and right eyes during a 120 Hz frequency. A stereoscopic image display apparatus using a liquid crystal shutter glass system alternately displays a left image and a right image, and opens and closes the liquid crystal shutter alternately left and right synchronously with display of a left image and a right image.

However, in the spectacled three-dimensional display, a crosstalk phenomenon in which the left eye image and the right eye image are mixed in one frame may occur. Such a crosstalk phenomenon may cause a viewer to feel fatigue by making the viewer see a wrong image on the left and right eyes.

Embodiments of the present invention provide a stereoscopic image display device and a method of driving the same that display an image in which crosstalk is reduced or eliminated.

A stereoscopic image display device according to an embodiment of the present invention includes: a display panel that scans at a frame frequency odd times a field frequency; A video signal input unit for inputting a video signal to the display panel; A backlight unit for emitting light to the display panel; And a shutter control unit for selectively opening and closing the left and right eye shutters of the shutter glass.

Wherein the display panel includes a first frame including a left eye image, a second frame including a half left eye image and a half right eye image, and a third frame including a right eye image, wherein the half left eye image includes half And a half-right eye image can be input up to the other half of the second frame.

The backlight unit may be turned on in the scanning period of the half left eye image and turned on in the scanning period of the second half of the right eye image signal.

The backlight unit may be blinking once for 1.5 frames.

The backlight unit is divided into a plurality of blocks and can be turned on / off according to the scanning of the image.

The shutter control unit opens the left eye shutter and closes the right eye shutter in the scanning interval of the half left eye image, closes the left eye shutter in the second half half scanning period of the right eye image, and opens the right eye shutter.

The display panel includes a first frame including a left eye image, a first half frame in which the left eye image is held during a half frame period, a second frame including a right eye image, and a second frame including the right eye image, And a half frame.

The backlight unit may be turned on in the first half frame period and turned on in the second half frame period.

In the first half frame period, the shutter control unit opens the left eye shutter, closes the right eye shutter, closes the left eye shutter in the second half frame period, and opens the right eye shutter.

The field frequency may be 50 Hz or 60 Hz.

The frame frequency may be 150 Hz or 180 Hz.

The display panel may include 1.5 frames each of a left eye image and a right eye image.

The video signal input unit may transmit a video signal from a timing controller.

The video signal input unit may transmit the vertical synchronization signal to a timing controller by modulating the vertical synchronization signal on an image board.

According to an embodiment of the present invention, there is provided a method of driving a stereoscopic image display device, comprising: inputting a video signal to a display panel in a video signal input unit; The display panel scanning an image signal at an odd multiple of a field frequency; Irradiating light to the display panel in a backlight unit; And selectively opening and closing the left-eye and right-eye shutters of the shutter glass by the shutter control unit.

The stereoscopic image display apparatus and the driving method thereof according to the embodiment of the present invention can display an image with reduced or eliminated crosstalk.

1 is a schematic block diagram of a stereoscopic image display apparatus according to an embodiment of the present invention.
2 illustrates a method of driving a stereoscopic image display apparatus according to an exemplary embodiment of the present invention.
3 illustrates a driving method of a stereoscopic image display apparatus according to another embodiment of the present invention.
4 illustrates a method of driving a stereoscopic image display apparatus according to another embodiment of the present invention.
5 illustrates a driving method of a stereoscopic image display apparatus according to another embodiment of the present invention.
FIG. 6 illustrates a stereoscopic image display apparatus according to another embodiment of the present invention.
FIG. 7 illustrates an example of a backlight unit employed in the stereoscopic image display apparatus shown in FIG.
FIG. 8 illustrates a stereoscopic image display apparatus according to another embodiment of the present invention.

Hereinafter, a stereoscopic image display device and a driving method thereof according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements, and the sizes and thicknesses of the respective elements may be exaggerated for convenience of explanation. On the other hand, the embodiments described below are merely illustrative, and various modifications are possible from these embodiments.

FIG. 1 schematically shows a stereoscopic image display apparatus according to an embodiment of the present invention. The stereoscopic image display apparatus according to an embodiment of the present invention includes a display panel 10 for displaying an image, a backlight unit 20 for irradiating light to the display panel 10, And a video signal input unit 30 for inputting a signal.

The stereoscopic image display device may be implemented by an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), an OLED (Organic Light Emitting Diodes), or the like. The display panel 10 may include, for example, a liquid crystal panel. The liquid crystal panel includes a plurality of pixels. Each pixel has a thin film transistor and an electrode. The liquid crystal panel applies an electric field to the liquid crystal in units of pixels according to a video signal input from the video signal input unit 25, The image can be displayed by modulating the light.

The backlight unit 20 includes a light source such as a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED), and the backlight unit control unit 35 can control the backlight unit 20. The backlight unit 20 may be implemented as a direct type or a photometric type. The image signal input unit 30 may include, for example, a two-dimensional image signal or a three-dimensional image signal.

In the stereoscopic image display apparatus according to the embodiment of the present invention, a three-dimensional image can be viewed using a shutter glass 45. [ The left eye image signal and the right eye image signal are sequentially input to the display panel 10 in the image signal input unit 30 and the shutter control unit 40 controls the left eye shutter 45a of the shutter glass 45 in synchronization with the left eye image signal, And closes the right eye shutter 45b. Then, the shutter control unit 40 closes the left-eye shutter 45a of the shutter glass 45 in synchronization with the right-eye image signal, and opens the right-eye shutter 45b so that a three-dimensional image can be displayed. The shutter glass 45 can be controlled wired or wirelessly. The shutter control unit 40 can control the opening and closing of the left and right eye shutters by selecting a section with respect to the right eye image signal and the left eye image signal. On the other hand, when a two-dimensional image signal is input from the image signal input unit 30 to the display panel 10, the shutter glass 45 can be removed and a two-dimensional image can be viewed.

Referring to FIG. 2, the display panel 10 may be driven at a predetermined frame frequency fo. The frame frequency f0 represents the number of frames per second and may indicate the speed at which a video signal input to one frame is scanned on the display panel 10. [ A period section in which a left-eye image and a right-eye image are combined to display one scene is referred to as a field, and the number of fields per second can be expressed as a field frequency f. In the stereoscopic image display apparatus according to the embodiment of the present invention, the frame frequency may be an odd multiple of the field frequency. For example, when the display panel 10 has a field frequency of 60 Hz, it may have a frame frequency of 180 Hz, 300 Hz, or 420 Hz. When the display panel 10 has a field frequency of 50 Hz, it may have a frame frequency of 150 Hz, 250 Hz, or 350 Hz. The field frequency and the frame frequency are not limited thereto and can be variously changed.

2, the image signal input unit 30, for example, left-eye image signal (L), the half (half), left-eye image signal (L _1/2), the half (half), right-eye image signal (R _1/2) , The right eye image signal R can be input to the display panel 10. In Fig. 2, an example in which one field includes first, second and third frames is shown. The first frame is a left eye image (L), the second frame comprising a half left-eye image (L _1/2) with a half-eye image (R _1/2), and a third frame comprise a right-eye image (R) . In this specification, the same reference numerals are used for the video and the video signals. The half left eye image (L _1/2) is input to the half of the second frame, the half-eye image may be input to the other half of the second frame. The half left eye image may be the upper half image of the left eye image, and the half right eye image may be the lower half image of the right eye image.

The video signals may be input to the display panel 10 in synchronization with a vertical synchronization signal (Vsync). When the display panel 10 has a field frequency of 60 Hz, each frame of the display panel 10 can be driven at a frame frequency of 180 Hz.

On the other hand, the backlight unit 20 is turned on at the scanning interval Ls of the half left eye image L _{1/2 and} is turned on at the scanning interval Rs of the second half of the right eye image R, on, and can be turned off in the remaining period. In this manner, the backlight unit 20 can perform blinking once for 1.5 frames. The left eye shutter 45a of the shutter glass 45 is opened and the right eye shutter 45b can be closed at the same time in the scanning interval of the left eye image L and the half left eye image L1 / And, a half-eye image (R _1/2) and a left eye shutter (45a) of the right eye image (R) shutter glasses 45 in the scanning period of being closed, at the same time there is a right eye shutter (45b) may be opened.

Alternatively, while the left eye shutter 45a is opened only in the scanning section Ls of the half left eye image and is closed in the remaining section, the right eye shutter 45b is opened only in the scanning section Rs of the second half of the right eye image R And may be closed in the remaining section. In this case, the backlight unit 20 is blinking motion or still turned on without the scanning interval of the half left eye image _{(L 1/2) (Ls} ) turned in (turn on) and the second half of the right eye image (R) half It may be turned on in the scanning period Rs and turned off in the remaining period.

The image in the scanning section Ls of the half left eye image and the scanning section Rs of the second half of the right eye image R is selected by the combination of the opening and closing operations of the left eye and right eye shutters and the turning on / Can be displayed. Only the left eye image can be displayed in the scanning section Ls of the half left eye image and only the right eye image can be displayed in the scanning section Rs of the second half of the right eye image R. [ In the section where the left eye image and the right eye image are mixed, the image can be prevented from being displayed by the combination of the opening and closing operations of the left and right eye shutters and the turn on / off operations of the backlight unit. Thus, the left eye image and the right eye image can be displayed without crosstalk.

In the stereoscopic image display apparatus according to the embodiment of the present invention, when a period for displaying one scene is a field, one field includes a number of frames and an even-numbered frame includes a half-left eye image and a half- . Then, the left eye shutter is opened in the scanning section of the half left eye image, the right eye shutter is closed, and the backlight unit is turned on to display the left eye image. The left eye shutter is closed, the right eye shutter is opened, the backlight unit is turned on, and the right eye image can be displayed in the scanning period Rs of the second half of the right eye image R.

In FIG. 3, the backlight unit is turned on in the entire section, and the scanning interval Ls of the half left eye image and the scanning interval Rs of the second half of the right eye image R are controlled by the opening and closing control of the left eye shutter and the right eye shutter, And the right eye image are displayed.

4 illustrates a method of driving a stereoscopic image display apparatus according to another embodiment of the present invention. The display panel 10 can operate at an odd multiple frame frequency fo of the field frequency f. For example, the display panel 10 may include a first frame, a first half frame, a second frame, and a second half frame. The first frame includes a left-eye image (L), and the first half-frame includes a half left-eye image (L _1/2) that the left-eye image is held for a half frame period (Le), the second frame is a right-eye image including (R), and the second half frame may include a half-eye image (R _1/2) in which the right eye image (R) is held for a half frame period (Re).

Referring to FIG. 4, a DE (Data Enable) signal and an OE (Open Enable) signal are input to the display panel 10. DE signal may include a left-eye image signal (L), half-left-eye image signal (L _1/2), right-eye image signal (R), a half-eye image signal (R _1/2). The left eye shutter can be opened and the right eye shutter can be closed during the first half frame period Le of the left eye image. Then, the right eye shutter can be opened and the left eye shutter can be closed during the second half frame period Re of the right eye image. Only the left eye image is displayed in the first half frame period Le of the left eye image and only the right eye image is displayed in the second half frame period Re of the right eye so that the crosstalk can be eliminated. At this time, the backlight unit can be turned on in all the sections. Alternatively, the left-eye image interval (L) and half left-eye image interval (L _1/2) opening the left eye shutter, and on the right-eye image interval (R) with a half-eye image interval (R _1/2) as shown in Figure 5 The backlight unit is turned on in the first half frame period Le of the left eye image and the second half frame period Re of the right eye and can be turned off in the remaining period. For example, the backlight unit can perform a blinking operation once for 1.5 frames.

The OE signal is a signal for switching each pixel of the display panel and can be input in the first half frame period Le of the left eye image and the second half frame period Re of the right eye image. OE signal may not be input in the remaining section. Thus, the image can be displayed only in the first half frame period of the left eye image and the second half frame period of the right eye image.

FIG. 6 illustrates a stereoscopic image display apparatus 100 according to an embodiment of the present invention. The stereoscopic image display apparatus 100 may include a display panel 110, a backlight unit 120, and a video signal input unit 130. The video signal input unit 130 may include a timing controller. A data driver 123 for supplying a data signal (DE signal) to the display panel 110 and a gate driver 125 for supplying a scan signal STV or Vsync. Image data and timing control data can be extracted from the left eye image signal and the right eye image signal output from the image signal input unit 130. [ Here, the image data is transmitted through mini-LVDS and includes POL (polarity control) and TP (latch clock input), and the gate timing control signal may include STV (Start Vertical) and CPV (Clock Pulse Vertical) have.

The display panel 110 includes m × n pixels arranged in a matrix type, m gate lines G1 through Gm and n data lines D1 through Dn intersecting with each other, A TFT (Thin Film Transistor) may be formed at the intersection of the data lines. The gate driver 125 may sequentially supply a scanning selection signal to the gate line in response to the timing control data generated from the video signal input unit 130 to select a line to which a data voltage is to be supplied. The data driver 123 supplies the video data supplied from the video signal input unit 130 to the corresponding data lines.

The backlight unit control unit 140 may control the backlight unit 120 according to a signal received from the video signal input unit 130. The backlight unit control unit 140 can control the blinking operation or the scanning operation of the backlight unit. The backlight unit control unit 140 may generate a backlight driving control signal using the vertical synchronization signal Vsync of the video signal extracted from the video signal input unit 130. [ The shutter control unit 150 can generate a shutter glass control signal using the vertical synchronization signal Vsync of the image signal extracted from the image signal input unit 130. [ In another embodiment, an STV (Start Vertical) signal may be used as a reference signal for the backlight unit control signal. The backlight unit control unit 140 can generate a toggle type backlight driving control signal in synchronization with the vertical synchronizing signal by using a logic circuit such as a latch or an inverter. On the other hand, the backlight unit control unit 140 turns off the backlight unit during a period in which the left eye image and the right eye image are mixed, and turns on the backlight unit during a period in which only the left eye image or the right eye image is displayed.

The backlight unit control unit 140 controls the turn-on period and the turn-on period of the backlight unit divided into a plurality of blocks in synchronization with the vertical synchronization (V-sync) signal of the video signal generated in the video signal input unit 130 A backlight driving control signal can be generated. 7, the backlight unit 120 is divided into first through fifth blocks 120a, 120b, 120c, 120d, and 120e, and the turn-on period of the backlight unit may be adjusted for each block . For example, the backlight unit may be turned on / off in units of the plurality of blocks in accordance with the scanning of the image.

The backlight unit 120 irradiates the display panel 110 with light in accordance with the backlight driving signal output from the backlight unit control unit 140. The display panel 110 is scanned at a frame frequency odd times the field frequency, and the image can be displayed in a section where the left eye image and the right eye image are not mixed, thereby reducing or eliminating crosstalk. There are various methods for selectively displaying an image only in a section where the left eye image and the right eye image are not mixed. For example, when the backlight unit is turned on only in a section where the left eye image and the right eye image are not mixed and turned off in the remaining section, and by controlling the opening and closing of the left and right eye shutters corresponding to the image of the section, Can be displayed.

FIG. 7 illustrates a stereoscopic image display apparatus 200 according to another embodiment of the present invention. The stereoscopic image display device 200 may include a display unit 250 for displaying an image and a video signal input unit 260 for inputting a video signal to the display unit 250. The display unit 250 may include a display panel 110 and a backlight unit 120. The video signal input unit 260 may include an image board 250. The video signal input unit 260 is provided as a separate device from the display unit 250 and can input video signals to the display unit 250 from the outside. A data driver 223 for supplying a data signal to the display panel 210, and a gate driver 225 for supplying a scan signal.

The video signal input unit 260 may transmit the vertical synchronization signal to the timing controller 230 by modulating the vertical synchronization signal on the video board 250. Then, the timing controller 230 inputs a signal to the gate driver 225 of the display panel 210. A vertical synchronization signal is input to the backlight unit control unit 240 in the image board 250 or the timing controller 230 and the backlight unit control unit 240 controls the backlight unit 220 in synchronization with the vertical synchronization signal. have.

The backlight unit 220 emits light to the display panel 210 according to the backlight driving signal output from the backlight unit controller 240. The display panel 210 scans at a frame frequency odd times the field frequency and can display an image in a section where the left eye image and the right eye image are not mixed, thereby reducing or eliminating crosstalk. A method of displaying an image in a section in which the left eye image and the right eye image are not mixed is as described with reference to FIGS.

The above-described embodiments are merely illustrative, and various modifications and equivalent other embodiments are possible without departing from the scope of the present invention. Therefore, the scope of the true technical protection according to the embodiment of the present invention should be determined by the technical idea of the invention described in the following claims.

10,110,210 ... display panel, 20,120,220 ... backlight unit
30, 130, 250 ... video signal input unit, 40, 150 ... shutter control unit
45 ... shutter glass, 123,223 ... data driver
125,225 ... gate driver

Claims (28)

A display panel scanned at a frame frequency odd times the field frequency;
A video signal input unit for inputting a video signal to the display panel;
A backlight unit for emitting light to the display panel; And
And a shutter control unit for selectively opening and closing the left and right eye shutters of the shutter glass,
Wherein the display panel includes a first frame including a left eye image, a second frame including a half left eye image and a half right eye image, and a third frame including a right eye image, wherein the half left eye image includes half And the half-right eye image is input to the remaining half of the second frame. delete The method according to claim 1,
Wherein the backlight unit is turned on in a scanning interval of a half left eye image and is turned on in a scanning interval of a second half of the right eye image signal. The method of claim 3,
Wherein the backlight unit blinks once for 1.5 frames. The method of claim 3,
Wherein the backlight unit is divided into a plurality of blocks and turned on / off according to scanning of an image. The method according to claim 1,
Wherein the shutter control unit opens the left eye shutter, closes the right eye shutter in the scanning interval of the half left eye image, closes the left eye shutter in the second half scanning period of the right eye image, and opens the right eye shutter. A display panel scanned at a frame frequency odd times the field frequency;
A video signal input unit for inputting a video signal to the display panel;
A backlight unit for emitting light to the display panel; And
And a shutter control unit for selectively opening and closing the left and right eye shutters of the shutter glass,
The display panel includes a first frame including a left eye image, a first half frame in which the left eye image is held during a half frame period, a second frame including a right eye image, and a second frame including the right eye image, A three-dimensional image display device comprising a half frame. 8. The method of claim 7,
Wherein the backlight unit is turned on in the first half frame period and turned on in the second half frame period. 9. The method of claim 8,
Wherein the backlight unit comprises a plurality of blocks and is turned on / off according to scanning of the image. 8. The method of claim 7,
Wherein the shutter control unit opens the left eye shutter, closes the right eye shutter in the first half frame period, closes the left eye shutter in the second half frame period, and opens the right eye shutter. 11. The method according to any one of claims 1 to 10,
Wherein the field frequency is 50 Hz or 60 Hz. 11. The method according to any one of claims 1 to 10,
Wherein the frame frequency is 150 Hz or 180 Hz. 11. The method according to any one of claims 1 to 10,
Wherein the display panel includes a left eye image and a right eye image in 1.5 frames each. 11. The method according to any one of claims 1 to 10,
Wherein the video signal input unit transmits a video signal from a timing controller. 11. The method according to any one of claims 1 to 10,
Wherein the video signal input unit modulates a vertical synchronization signal on an image board and transmits the modulated vertical synchronization signal to a timing controller. Inputting a video signal to a display panel in a video signal input unit;
The display panel scanning an image signal at an odd multiple of a field frequency;
Irradiating light to the display panel in a backlight unit; And
And selectively opening and closing the left-eye and right-eye shutters of the shutter glass,
Wherein the display panel includes a first frame including a left eye image, a second frame including a half left eye image and a half right eye image, and a third frame including a right eye image, wherein the half left eye image includes half And the half-right-eye image is input to the remaining half of the second frame. delete 17. The method of claim 16,
Wherein the backlight unit is turned on in a scanning interval of a half left eye image and is turned on in a scanning interval of a second half of the right eye image signal. 19. The method of claim 18,
Wherein the backlight unit blinks once every 1.5 frames. 19. The method of claim 18,
Wherein the backlight unit comprises a plurality of blocks and is turned on / off according to scanning of an image. 17. The method of claim 16,
A driving method of a stereoscopic image display apparatus in which the shutter control unit opens the left eye shutter, closes the right eye shutter in the scanning interval of the half left eye image, closes the left eye shutter in the second half scanning period of the right eye image and opens the right eye shutter . Inputting a video signal to a display panel in a video signal input unit;
The display panel scanning an image signal at an odd multiple of a field frequency;
Irradiating light to the display panel in a backlight unit; And
And selectively opening and closing the left-eye and right-eye shutters of the shutter glass,
The display panel includes a first frame including a left eye image, a first half frame in which the left eye image is held during a half frame period, a second frame including a right eye image, and a second frame including the right eye image, A method of driving a stereoscopic image display device including a half frame. 23. The method of claim 22,
Wherein the backlight unit is turned on in the first half frame period and turned on in the second half frame period. 23. The method of claim 22,
Wherein the backlight unit comprises a plurality of blocks and is turned on / off according to scanning of an image. 23. The method of claim 22,
Wherein the shutter control unit opens the left eye shutter, closes the right eye shutter in the first half frame period, closes the left eye shutter in the second half frame period, and opens the right eye shutter. The method according to any one of claims 16 to 19,
Wherein the field frequency is 50 Hz or 60 Hz. The method according to any one of claims 16 to 19,
Wherein the frame frequency is 150 Hz or 180 Hz. The method according to any one of claims 16 to 19,
Wherein the display panel includes 1.5 frames each of a left eye image and a right eye image.

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