TW201246169A - Image display method and image display system - Google Patents

Abstract

An image display method includes increasing at least a horizontal blanking interval (HBI) data included in a scan line data corresponding to a scan line and accordingly generating an adjusted HBI data; and transmitting a non-HBI data included in the scan line data and the adjusted HBI data to a display screen.

Description

201246169 VI. Description of the invention: [Technical field of invention] This month is related to image display technology, especially to adjust (increase) the horizontal blanking interval data of at least one line so that the effective display of the image can be completed earlier. The transmitted image display method and image display system. [Previous technology] For the liquid crystal display screen, since the rotation of the liquid crystal cell (liquid crystalcdl) itself takes a while to achieve stability, whether it is a liquid crystal display screen with stereo glasses (such as shutter glasses) to present stereo (three_di_si〇 Nal) image effect to the user or application of the liquid crystal display screen to display the plane (plus _dimensi〇nai) image to the user 'how to face early to complete the new 敎 4 off interference (_stalk) asked? It has become an important topic in this technical field. SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide an image display method and image display system that adjusts (increases) the horizontal obscuration of at least one scan line so that the effective display data of the image surface can be transmitted early. According to this (4), the example of the fresh-mixed display method. The image display method includes: adding a horizontal blanking interval data in the scan line data corresponding to the scan line to generate the adjusted horizontal blanking interval data; and transmitting the scan line in the 201246169 data A non-horizontal obscuration interval data and the adjusted horizontal obscuration interval data to a display screen. In accordance with an embodiment of the present invention, an image display system is further disclosed. The image display system includes a display screen, an adjustment circuit, and an output circuit. The adjustment power is used to increase - the scan line corresponds to - scan - shot - horizontally mask the interval material to produce - the adjusted horizontal blanking interval (four). The output circuit rotates to the entire circuit and the display screen to transmit the non-horizontal mask: interval data and the adjusted horizontal mask interval data to the display screen. The image display method is not disclosed in accordance with an embodiment of the present invention. The method comprises: adjusting at least one of the scan line data corresponding to the scan line data: the second mask interval: the secret, so that the scan lines corresponding to the plurality of scan lines respectively = the length of the horizontal mask interval data, wherein The plural transfer _ corresponds to the same as the I-Dong image and contains a bribe; the corresponding scan line data of Lin Lu Wei to a display screen. "Field," is not according to an embodiment of the present invention, and further discloses an image display = system includes - display screen, i whole circuit and - input (four) way. == no need to adjust one of the corresponding scan lines Scanning line data X. Circuit data, which is divided into two parts: The scanning line data corresponding to the scanning lines are respectively displayed on the display screen. [Embodiment] Please refer to FIG. 1 , which is a functional block diagram of the first embodiment of the image display system of the present invention. The display system is directly implemented by the video display device (10). As shown, the video display device 1& contains (but is not limited to) a display screen 102, an adjustment circuit 104, and an output Wei 1〇6 The adjustment circuit • 104 increases a horizontal blanking interval (HBI) data in one of the scan line data corresponding to at least one scan line to generate an adjusted horizontal blanking interval data. And the output circuit 106 transmits a non-horizontal blanking interval data in the scan line data and the adjusted horizontal blanking interval data to the display camp 1〇2. In this embodiment, the adjusting circuit 104 includes ( However, it is not limited to a processing unit 112 and a temporary storage unit 114. For example, the disparity unit 112 may be a scalar processor that can handle the processing of each scan line. Scanning #线资料' In addition, the temporary storage unit 1H may be a frame buffer (framebuffer), which may be used to temporarily store the data to be transmitted to the display screen 1〇2, and therefore, the scan corresponding to the scan line to be processed as described above. For the line data, the processing unit 112 temporarily stores the non-horizontal blanking interval data other than the horizontal blanking interval data to the temporary storage unit 114. In addition, for the horizontal blanking interval data, the processing unit 112 adds the horizontal blanking interval data to Generate adjusted horizontal blanking interval data (please note that the adjusted horizontal blanking interval data amount will be larger than the original horizontal blanking interval data amount) and will be adjusted The horizontal blanking interval data is temporarily stored in the temporary storage unit 114. Thereafter, the output circuit 1〇6 201246169 reads the scan line data corresponding to the scan line from the temporary storage unit 114 (including the original non-horizontal blanking interval). The data and the adjusted horizontal blanking interval data are transmitted to the display screen 102 for subsequent display of the image. Please note that the above-mentioned non-horizontal blanking interval data may be valid display data corresponding to the effective display area ( & (^ generation data) or vertical blanking interval data corresponding to vertical blanking interyal (VBI), and further explanation will be described later. Referring to Fig. 2, Fig. 2 is a schematic diagram showing the output pupil of the display screen 1〇2 shown in Fig. 1. As shown in the figure, the output screen of the display screen 102 can be divided into an effective display area AA and a blank area (including horizontal blanking interval areas HBI_u, HBI-12, HBI-2, HBI_22, and vertical blanking area VBI). Let the horizontal obscuration area hBU dip _21 correspond to the effective display area 水平 in the horizontal direction, and the horizontal obscuration interval area deletes 12, and the Cong-22 corresponds to the vertical occlusion interval area VBI in the horizontal direction. In addition, the output screen of the display screen 1 () 2 can be regarded as the display result of the scan line data of the plurality of scan lines L_0 to L_N, wherein the scan lines L_0 L L I correspond to the effective display area aa, and the scan line Lj +i~l-n corresponds to the vertical blanking interval area VB. For each scanning line L_〇~LJ, the scanning line = the material of the shell, which will contain the horizontal spacing (four) and the non-horizontal blanking interval. Data (ie, active data) 'The horizontal blanking interval data belonging to the horizontal blanking interval area will contain the -sync (synchr〇nizati〇n) signal swc and the trailing edge Ifl number (baCkP〇). rCh) BP, and the horizontal blanking interval data belonging to another horizontal blanking interval area HBI_21 includes a leading edge signal gamma P〇rCh) FP. In addition, for the scanning line data of each scanning line LJ+1~L_N, the basin 201246169 will contain a horizontal blocking interval (4) with a horizontal horizontal spacing (four) (10), ie vertical shading = interval data), the towel belongs to the horizontal obscuration_region hbi The horizontal blanking interval data of 2 will include a synchronous signal SYNC and a trailing edge signal Bp in sequence, and the horizontal blanking interval belonging to another horizontal blanking interval area HBI-22 will include a leading edge signal FP. . As described above, for each scan line L-〇~L-N scan line data, it will contain horizontal blanking interval data (ie, sync signal SYNC, trailing edge signal assist and leading edge signal FP) and non-level In order to cover the gap data (that is, the effective display data or the vertical blanking interval data, in order to facilitate the description of the technical features of the present invention, the output screen of the display screen 〇2 can be further represented by the third figure, wherein the display screen (10) The output pupil surface can be divided into a valid display area AA and a blank area (including a horizontal blanking interval area hbiaa, hbivbi, and a vertical blanking interval area VBI), wherein the horizontal blanking interval area HBIAA corresponds to a valid display in the horizontal direction. The area is, and can be regarded as the set of the synchronization signal SYNC, the trailing edge signal Bp and the leading edge signal FP of the scanning line LJ)~LJ+1, and the horizontal blanking interval area corresponds to the vertical blanking interval in the horizontal direction. The area is Cong, and can be regarded as the sweeping LJ+1~L_N(4) step SYNC, the trailing edge signal BP and the leading edge signal FP, which is mentioned in the embodiment of the present invention. Alas modulation step Save syNc, five weeks after the entire edge signals BP and / or adjusting the leading edge signal Fp. 4 is a schematic view of the first embodiment of the adjustment circuit shown in FIG. In this embodiment, the sweep line adjusted by the whole circuit 104 is adjusted to display the last strip scan in the display area AA displayed by the screen ι 2, and the line LJ (if the effective display area is from the = In order to delete Xl_, the adjustment line of the adjustment circuit 1〇4 is adjusted to be the 丨_th scan line of the area AA, so, in addition to the original water=data D-HBI person 1, after adjustment The horizontal obscuration interval data also includes the new 2: 2 blanking interval data D-HBLL", in other words, the adjusted horizontal obscuration post: D_HBLLJ+D-HBI-LJ, therefore, the new level The masking interval D_HBI-L can be regarded as the positive horizontal obscuration interval data of the original horizontal obscuration interval data. Therefore, by adding the horizontal obscuration interval data I stretched D abdomen-LJ, The transmission of other data can be accelerated. In this way, since the effective display data for the display area AA can be completed by the output circuit 106, the display screen 1〇2 is displayed, for example, the liquid crystal display screen completes the entire image. Stable display, which greatly enhances the quality of the enamel. Refer to the 5th, 5th _increasing level opacity. The effective display of the data can be used to complete the transfer operation. In Fig. = Fig. (), the scan mechanism of the present invention is not used to add any scan. The display is covered and separated. Therefore, the driving time for completing a complete kneading can be simply flat (1) FT = ΤΜ + ΤΗΒΙ + Τνι shouting in the above (1) towel ~ representative single - complete chowder t-line drive The time ' and rj on behalf of the output circuit 106 to transmit the complete image 1 face 1 double display area 201246169 AA effective display data to display the time required for the glory off, ^ represents _ send corresponding horizontal occlusion interval area service ^ Congqing The time required for the water to the display material _, and the vertical occlusion interval of the recognition wheel to cover the interval area to the display screen of the second __ attached to the curtain, and increased by the 嶋The 102 valid display areas from the last one are covered by the interval data. Therefore, the completion of the complete picture can be simplified (2) ΡΊΆ + τ ΗΒ, '+ τν Β, ' right; In equation (2), V represents the output of the output circuit 106. Effective display image capture full resources of the effective display area AA = ~ frit image plane corresponding to the swash day light __ hbiaa & Hm

D HBI water transfer _ _ _ _ horizontal navigation interval VBI transmission reverse to display 1Q2 required (four), coffee /, represents the output circuit ω6 suitable for the vertical occlusion interval ^ 106 106 102 time. —11 Straight cover without gap data to display the curtain. It can be clearly seen from Figure 5, in ^

When the output circuit needs to transmit extra 2 · 4 昼 drive time q, _ _6 _ _ _ W season transfer width to transmit data, therefore, 201246169 will be less than L (also known as Γ. < τ, μ, change s, compared to the conventional driving mechanism, the driving mechanism will make the effective __ early delivery, thus allowing the display to reach a stable 1〇2 (for example, = crystal display screen) There is more time for the display of the image to be scanned. τ τ / No. In the embodiment, the adjustment circuit 104 only adjusts (increases) the horizontal blanking interval data of a single scanning line (ie, two, "-" However, for the sake of illustration, it is not a limitation of the present invention. Please refer to FIG. 6 and FIG. 6 is the first ==== _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The horizontal obscuration interval of the plurality of scanning lines is different. In other words, the scanning line adjusted by the adjusting circuit 1G4 corresponds to the first scanning line in the effective display area AA of the display/input display... —I 'so' except for the original horizontal obscuration interval & post II - HBI - L - I, adjusted horizontal obscuration The other information includes the reversal: please ask one person for the information. 'There is no interval information D_HBLL-〇, D-HBI_LJ,, (4) road =: transmission bandwidth to transmit data' thus achieve effective display of f material early In the second embodiment shown in FIG. 4, the adjustment circuit is separated by a long time, and the horizontal masking interval corresponding to the display of the other scanning lines displayed on the screen 1〇2 is not performed. The domain is adjusted from the middle, and similarly, in 201246169, the radiation adjustment circuit 104 only adds the horizontal obscuration interval data corresponding to the display of the crab screen, and the first selection line L_I in the effective display area AA. W A scan display area ΛΛ Level 2 of the line drawn == Valid ^ No. '*b is only used as an example' instead of the limitations of the present invention. Please refer to the figure ==8, and Figure 7 is the figure A schematic diagram of a third embodiment for generating an adjusted blanking interval data, and a fourth implementation of the adjusted horizontal blanking interval data by the eighth adjusting circuit HH = Fig. 7 and Fig. 8 In the embodiment shown, the adjustment circuit will be reduced by = Other scans from the display area _ horizontal obscuration 贝 net bedding 'so-to, allow new horizontal occlusion interval data as shown in Figure 4, Figure 6, Figure 7, and Figure 8 above In the embodiment, the scan lines adjusted by the adjustment circuit 1G4 are all corresponding to the scan lines of the effective display area AA displayed on the display screen 102, that is, the non-horizontal blanking interval data in the above embodiment corresponds to the effective display ton. The domain Μ depends on the dragon, but in other embodiments, the 'non-horizontal opacity coffee (4) may also be the vertical occlusion interval data corresponding to the vertical occlusion interval ΥβΙ. See Figure 9, Figure 9 is the first The adjustment circuit shown in the figure has just been adjusted and the ruler is flat/closed: a schematic view of the fifth embodiment of the bedding. In this embodiment, the scan line adjusted by the adjustment circuit 201246169 corresponds to the scan line LJ+1~L_N of the vertical blanking interval area VBI in the screen 1〇2, so that, in addition to the original horizontal cover No room = material: BIvbi, the adjusted horizontal blanking interval data also includes the new horizontal blanking interval data HBW. In short, the new horizontal blanking interval data HBIW can be regarded as the original horizontal embedding interval data HBIvbi extended horizontal obscuration interval data, so 'with the new horizontal obscuration room HBW, the same It can speed up the 2nd output of other data. The effective display data corresponding to the effective display area can be transmitted by the output circuit hall early to display 1G2, thus making the display of the money clearer: the screen has more abundant time. Face _ age. Since the skilled person can easily and easily according to the side system of Fig. 5, the method of adding the surface should be directly obscured, and the horizontal image can be used to cover the data so that the full image can be effectively displayed. The principle of operation of the transmission is completed early, so there is no additional description here. ΗρΛ9^ The implementation of the money, the adjustment circuit 1G4 Langa corresponds to the vertical cover; The horizontal obscuration interval data is not the inflammation of the dragon. This is only a case system, and the county (four) is limited. ^ Horizontal sore 10Fig. Fig. 10 is a view showing a sixth embodiment in which the adjustment circuit 104 shown in Fig. 1 produces the adjusted medium=interval data. The fine second circuit 1〇4 shown in the figure K) will reduce the horizontal display interval data of the effective display area ^ / trace and line L_〇 ~ LJ displayed on the screen 1 〇 2, so that Allows the added horizontal cover (10) to separate the data HbIvbi, with the amount of data of the drum. 201246169 In addition, any of the embodiments of FIG. 9 and FIG. 10 can also be appropriately modified based on any of the fourth, sixth, seventh, and eighth embodiments, such as FIG. 11 and Figure 12 shows. Fig. 11 is a view showing a seventh embodiment in which the adjustment circuit 104 shown in Fig. 1 generates the adjusted horizontal blanking interval data, and Fig. 12 is a horizontal mask in which the adjustment circuit 104 shown in Fig. 1 produces the adjustment. A schematic diagram of an eighth embodiment without spacing information. The embodiment shown in FIG. 11 can be regarded as a combination of the technical contents of the embodiments in FIGS. 9 and 4, and the embodiment shown in FIG. 12 can be regarded as a mixture of the first and eighth figures. Technical content of an embodiment. Since the skilled person can easily understand the technical contents of the embodiments shown in Figs. 11 and 12 in accordance with the above description, it will not be further described herein. Please note that the driving mechanism disclosed in the present invention can be applied to stereoscopic image display in addition to flat image display. Referring to Figure 13, Figure 13 is a functional block diagram of a second embodiment of the image display system of the present invention. In the present embodiment, the image display system 1300 includes, but is not limited to, a video display device 13〇2 and a stereoscopic eyepiece 〇3〇4. The video display device 1302 includes the above-described display screen 1, the output circuit 106, and the adjustment circuit 1-4, and another backlight module 1306 that is used to provide a display screen (such as a liquid crystal display screen) 102. Stereo glasses 1304 include, but are not limited to, a control circuit 1308, a left eyeglass lens 1310, and a right eyeglass lens 1312. The § K display device 1302 is provided with stereo glasses 1304 to provide a stereoscopic image to the user. The left lens 1310 is for the user to view the left eye image, and the right lens 1312 is for the user to view the right eye image. In addition, the control circuit 1308 is electrically connected to the left lens 131 and the right lens. 1312, for respectively outputting the control signal 13 201246169 Sb S2 to the left eyeglass lens 131A and the right eyeglass lens 1312, to control the left eyeglass lens i3i to switch between the on state and the lasing state and control the right eyeglass lens 丨3丨2 switching between the on state and the off state. For example, the stereo glasses are a shutter glasses, therefore, the left glasses 1310 and the right glasses # 1312 are both shutter lenses, and the cutter has a liquid crystal layer 'and the control signal Si, S2 may be a control voltage for controlling the rotation of the liquid crystal cell in the liquid crystal layer to achieve the purpose of controlling the light transmittance. However, this is only used as Fan Jianming, and is not used as the hair __, for example, any The structure with light transmittance control can be used to realize the left eyeglass lens 131〇 and the right eyeglass lens 1312, and also can control the left eyeglass lens mo and the right eyeglass lens: the 丨 312 is in the open state and The purpose of switching between the closed state. In addition, the stereo glasses 13〇4 are not limited to shutter glasses, and any stereo glasses that can be used with the video display device 13〇2 to view stereoscopic images and apply the stereoscopic image display mechanism disclosed by the present invention are all in accordance with the spirit of the present invention. In the present invention, the above-mentioned "closed state" means that the left eye/right eyeglass lens (for example, the shutter lens) is completely opaque (that is, the light transmittance is 〇%), and therefore, as long as the left eye/φ right lens It is not completely opaque (that is, the light transmittance is not 〇%), and can be regarded as being "on". For example, when the shutter lens is fully open (for example, the light transmittance is 100%), half-open (for example) The light transmittance is 50%) or slightly open (for example, the light penetration rate is 0.1%), and the shutter lens can be regarded as being open. In short, when the light transmittance of the left/right eye lens is greater than 0% (but less than or equal to 100 〇/〇), the left eye/right eye lens can be regarded as entering the open state. 14 201246169 The stereo glasses 1304 are available for the user to wear to view the stereoscopic image presented by the video display device 13〇2 through the display screen 102. For example, in the embodiment shown in the figure, the video display device 1302 can be a liquid crystal display. Therefore, the display screen 1〇2 is the liquid crystal display, and the video generated by the display screen 1G2 is recorded. The stereo glasses 1304 are used to control whether the user's left or right eyes can be accessed. Please note that the video output device 1302 is not limited to a liquid crystal display, that is, the video output device 1302 can also be any video output device that can be used together with the stereo glasses 13〇4 to present a stereo image to the user. In other words, if the stereo glasses η〇4 are shutter glasses, the video display device 1302 is any display or projector that can be used with the shutter glasses. For the example that the stereo glasses 13〇4 are shutter glasses, the left eye piece 1310 and the right eye piece 1312 can be controlled to switch between the open state and the _ state by the control circuit. For example, the video display device (10) can borrow Communication with the stereo glasses 1304 by a signal transmitter (not shown), for example, stereo glasses (eg, shutter eye φ mirror) 13〇4 can be transmitted by wire or wirelessly (for example, infrared transmission, ZigBee transmission, ultra-wideband (Ultmwidebanci) , uwB) transmission, WiFi transmission, radio frequency (Radi〇 Frequency, RF) transmission, DLP optical signal transmission or Bluetooth _et〇〇t_transmission) to receive information from the video display device change, and the control circuit 118 can Based on the received, the collected silk produces the required (four) i job S Bu S2. Since the skilled artisan can easily understand the communication mechanism between the stereo glasses and the video display device, the relevant details will not be described herein. 15 201246169 For the 13th image display system 13〇〇, at least the scan line that has been adjusted by the adjustment circuit corresponds to the last display line LJ in the effective display area displayed in the display screen. Therefore, in addition to the original horizontal blanking interval data, the adjusted horizontal blanking interval data additionally includes a new horizontal blanking interval data D__HBI_L_I. When the output circuit 1〇6 transmits the adjusted horizontal blanking interval data (including D_HBI_L_I and D_HBI_L_r) to the display screen 1〇2, the backlight module 1306 corresponding to the display screen 102 is turned on to provide a display screen. The desired backlight and/or control circuitry i308 turns on one of the left and right eyeglasses j3, j13 and 1312. In other words, by increasing the horizontal blanking interval data corresponding to the last scanning line L-I in the effective display area AA displayed on the display screen 102, in addition to speeding up the transmission of the effective display data to allow the display screen 2 (for example, liquid crystal) In addition to the more stable time to complete the stable display of the entire image, it is also possible to use the time of transmitting the newly added horizontal masking data to allow the user to view the stereoscopic image (ie, open the stereo glasses 13〇) 4 one lens and / or start backlight module 13 〇 6). In the embodiment shown in Figs. 1 and 13, the adjustment circuit 1〇4 is disposed in the video display device (e.g., liquid crystal display) 1〇〇, 1302, however, the present invention is not limited thereto. Please refer to FIG. 14, which is a functional block diagram of a third embodiment of the image display system of the present invention. The image display system 1400 includes, but is not limited to, a video display device 1402 and the aforementioned adjustment circuit 104. The video display device 14A includes the aforementioned display screen 1〇2 and the output circuit 106. The adjustment circuit 104 is disposed outside the video display device 1402. For example, the adjustment circuit 104 is disposed in a computer host. Therefore, after the adjustment circuit 1〇4 finishes processing to increase the water 201246169 flat mask interval data, The adjusted horizontal blanking interval data is input to the video display device 1402 and transmitted to the display screen 1〇2 by the output circuit 106. Referring to Figure 15, Figure 15 is a functional block diagram of a fourth embodiment of the image display system of the present invention. The image display system 1500 includes, but is not limited to, a video display device 1502 and the aforementioned adjustment circuit 104 and stereo glasses 1304. The video display device 1502 includes the foregoing display screen 1, the output circuit 106, and the backlight module. 1306' In this embodiment, the adjustment circuit 1〇4 is disposed outside the video display device 15〇2, for example, the adjustment circuit 104 is disposed in a computer host, and therefore, the adjustment circuit 104 is added. After the processing of the horizontal blanking interval data, the adjusted horizontal blanking interval data is input to the video display device 1502, and transmitted to the display screen 102 by the output circuit 1〇6. Since the function and operation of the various elements in Figs. 14 and 15 can be easily understood by those skilled in the art through the previous description of the embodiments of other image display systems, no further details are provided herein. In summary, the image display method of the present invention can be summarized as follows: increase at least one horizontal blanking interval data in one of the scan line data corresponding to the scan line to generate a horizontal blanking interval data after the ancient week And transmitting the non-horizontal blanking interval data (such as valid image data or vertical blanking interval data) in the scan line data and the adjusted horizontal blanking interval data to a display screen (such as a liquid crystal display screen). In other words, by adjusting a horizontal blanking interval data in one of the scanning line data corresponding to the at least one scanning line, the plurality of scanning lines corresponding to the driving of the same image surface respectively have different lengths (different data amounts). Masking interval data (for example, the scan line data corresponding to a part of the scan line will have an increased horizontal blanking interval data, and the other part

S 17 201246169 Horizontal occlusion interval data) ^There is more original time for the horizontal leveling of the material or the reduction of the display of the luminescent material, so that the display output reaches the urr screen) Let the image of the image reach A, and greatly improve the quality of the flat image / stereo image. The above is the subject of the (four) reading the good real customs, the test of the solution made by Wei Women's decoration 1 阙 Hanwei of the invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a functional block diagram of a first embodiment of an image display system of the present invention. Figure 2 is a schematic diagram of the output screen of the display screen shown at 1@. Figure 3 is a simplified schematic diagram of the output pupil of the display screen shown in Figure 2. Fig. 4 is a view showing the first embodiment in which the adjustment circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. Figure 5 is a schematic diagram of the operation of adding horizontal obscuration data so that the effective display of the complete image can be completed early. Fig. 6 is a schematic view showing the second embodiment in which the adjustment circuit shown in Fig. 1 produces an adjusted horizontal blanking interval. y ' Fig. 7 is a view showing a third embodiment in which the adjustment circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. Fig. 8 is a view showing a fourth embodiment in which the trimming circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. 201246169 Fig. 9 is a diagram showing a fifth embodiment of the adjustment circuit shown in Fig. 7 for generating the adjusted horizontal blanking interval data. Fig. 10 is a view showing a sixth embodiment in which the adjustment circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. Fig. 11 is a view showing a seventh embodiment in which the adjustment circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. Fig. 12 is a view showing the eighth embodiment in which the adjustment circuit shown in Fig. 1 produces the adjusted horizontal blanking interval data. > Figure 13 is a functional block diagram of a second embodiment of the image display system of the present invention. Figure 14 is a functional block diagram of a third embodiment of the image display system of the present invention. Figure 15 is a functional block diagram showing a fourth embodiment of the image display system of the present invention. [Main component symbol description] 100, 1302, 1402, 1502 video display device 102 display screen 104 adjustment circuit 106 wheel circuit 112 processing unit 114 wheel unit 1300, 1400, 1500 image display system 1304 stereo glasses 1306 backlight module 1308 control Circuit 19 201246169 1310 left eye lens 1312 right eye lens

•afi 20

Claims (1)

201246169 VII. Patent application scope: 1. An image display method, comprising: adding a horizontal blanking interval (HBI) data in one scan line data corresponding to at least one scan line to generate an adjusted The horizontal obscuration interval data; and transmitting a non-horizontal obscuration interval data in the scan line data and the adjusted horizontal obscuration interval data to a display screen. φ 2. The image display method according to claim 1, wherein the non-horizontal blanking interval data is an active data. 3. The method of claim 2, wherein the scan line corresponds to a last scan line in the effective display area displayed by the display screen. 4. The image display method according to claim 3, further comprising: a lens of one of the stereo glasses. #Open the display method during the adjustment of the horizontal blanking interval data to the display of the honor screen, and further include: during the display of the screen, open 5. The image display as described in claim 3 After the adjustment, the horizontal masking interval data transmission should correspond to one of the backlight modules of the screen. The method of displaying, wherein the non-horizontal obscuration 6. The image as recited in claim 1 is continued as a vertical blanking interval (VBI) data. 7. The image display method according to claim 1, further comprising: receiving, by the video display device including the display screen, the scan line data corresponding to the scan line; wherein the adjusted level is obscured Interval data is generated by increasing the level of blanking interval data received. 8. An image display system comprising: a display screen; an adjustment circuit for increasing a horizontal blanking interval (ΗΒΙ) of the scan line data corresponding to the at least one scan line Generating an adjusted horizontal blanking interval data; and an output circuit coupled to the adjusting circuit and the display screen for transmitting a non-horizontal blanking interval data in the scan line data and the adjusted horizontal mask Lu did not have time to read the information! Bei Shi screen. The image display system of item 8, wherein the non-horizontal obscuration interval data is a display material (a-). 10. The image display system of claim 9, wherein the scan line corresponds to the last scan 22 201246169 line in one of the effective display areas of the display screen display. 11. The image display system of claim 10, further comprising: a stereoscopic eyeglass; wherein, during the adjusted horizontal blanking interval data is transmitted to the display screen, one of the stereoscopic glasses is Open. 12. The image display system of claim 10, further comprising: a Luyi backlight module; wherein the adjusted horizontal masking interval data is transmitted to the display screen, corresponding to the display screen The backlight module will turn on. 13. The image display system of claim 8, wherein the non-horizontal occlusion interval data is a vertical blanking interval (VBI) data. 14. The image display system of claim 8, wherein the display screen, the adjustment circuit, and the output circuit are all disposed in a video display device. 15. The image display system of claim 8, wherein the display screen and the output circuit are disposed in a video display device, and the adjustment circuit is disposed outside the video display device. 23 201246169 16. A method for displaying images, comprising: touching the y-scan corresponding to the horizontal line of the scanning line (h〇ri_alblankinginteml, the data corresponding to the scanning line corresponding to the plurality of lines) The data has different lengths of the horizontal masking line, and the picture (4) moves and includes the scanning line data corresponding to the plurality of scanning lines to a display screen. 如. Corresponding to the scan line data 2 "No method, wherein the scan line is all - effective display data (active data) 〇 18. If the scope of application patent i7 corresponds to the display of the display screen = image display method 'where the scan Line line. The last scan interval in the attack display area is sent to the continuation. ~The horizontal cover area after the babies', _, 贝, 不, 触, 触, 读 - - - - - - - - - - - - - 'In addition, there are 2 〇. As shown in the application for the scope of the patent, the scan line corresponding to the scan line is transmitted to the display screen - the adjusted horizontal cover In the case of a backlight module, the image display method according to claim 18, wherein the scan line corresponding to the scan line data further includes a vertical blanking interval. The image display method according to claim 16, further comprising: receiving, by the video display device including the display screen, the scan line corresponding to the plurality of scan lines The data is adjusted based on the received scanning line corresponding to the scanning line. 23. An image display system comprising: a display screen; - an adjustment circuit for adjusting at least A horizontal blanking- (资料) data in the scan line data corresponding to a scan line, so that the multi-wire sweeping scales depend on the sweeping money (4) with the same length of the forest The interval data 'shoots the plurality of scanning lines corresponding to the same - the driving of the image plane and includes the scanning line; and the H channel/connected to the axis reading screen and the adjustment a circuit, (4) transmitting the scan line data of the plurality of scan lines respectively to the display screen. 24. The image display system according to the scan line data corresponding to the patent scope, wherein the scan line The format includes an effective display data (activedata). 25 201246169 25. The image as described in claim 24 corresponds to one of the effective display lines displayed on the display screen. 1 member display system, wherein the scan line system The last broom in the display area. The image display system of claim 25, further comprising: a stereoscopic eyeglass; wherein an adjustment in the scan line data corresponding to the sweep line When the horizontal blanking interval data is transmitted to the display, the lens of the stereoscopic glasses will be turned on. 27. The image display system of claim 25, wherein the image display system includes: an adjusted horizontal cover in the scan line data corresponding to the scan line The shell material conveys the outline of hiding, and the backlight module of the shop reveals the secret. 28. The image display system of claim 25, wherein the line of the corresponding line of the scan line further comprises an ane Wanking interval (VBI) data. Eight, schema: 26