TW501357B - Liquid crystal display and driving method for liquid crystal display - Google Patents
Liquid crystal display and driving method for liquid crystal display Download PDFInfo
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- TW501357B TW501357B TW089125092A TW89125092A TW501357B TW 501357 B TW501357 B TW 501357B TW 089125092 A TW089125092 A TW 089125092A TW 89125092 A TW89125092 A TW 89125092A TW 501357 B TW501357 B TW 501357B
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
- G09G3/34—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source
- G09G3/36—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters by control of light from an independent source using liquid crystals
- G09G3/3611—Control of matrices with row and column drivers
- G09G3/3648—Control of matrices with row and column drivers using an active matrix
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2310/00—Command of the display device
- G09G2310/02—Addressing, scanning or driving the display screen or processing steps related thereto
- G09G2310/0202—Addressing of scan or signal lines
- G09G2310/0205—Simultaneous scanning of several lines in flat panels
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2310/00—Command of the display device
- G09G2310/02—Addressing, scanning or driving the display screen or processing steps related thereto
- G09G2310/0232—Special driving of display border areas
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G2310/00—Command of the display device
- G09G2310/02—Addressing, scanning or driving the display screen or processing steps related thereto
- G09G2310/0264—Details of driving circuits
- G09G2310/0267—Details of drivers for scan electrodes, other than drivers for liquid crystal, plasma or OLED displays
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- G—PHYSICS
- G09—EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
- G09G—ARRANGEMENTS OR CIRCUITS FOR CONTROL OF INDICATING DEVICES USING STATIC MEANS TO PRESENT VARIABLE INFORMATION
- G09G3/00—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes
- G09G3/20—Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters
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- Crystallography & Structural Chemistry (AREA)
- Physics & Mathematics (AREA)
- Computer Hardware Design (AREA)
- General Physics & Mathematics (AREA)
- Theoretical Computer Science (AREA)
- Liquid Crystal Display Device Control (AREA)
- Control Of Indicators Other Than Cathode Ray Tubes (AREA)
- Liquid Crystal (AREA)
Abstract
Description
501357 五、發明說明(1) 【發明背景】 1 ·【發明領域】 本發明係關於使用液晶面板之顯示器,特別指的是液 晶顯示器及其驅動方法,在空白區域(空白期間)執行完 全的空白顯示,亦即在畫面上方和下方皆無影像顯示。 本發明主張於1999年11月25日提出申請的日本專利申 請案第平1 1 —3351 7〇號之優先權,該曰本專利申請案於 此併入供作參考。 2 ·【習知技術之描述】 如圖5所示之傳統式液晶顯示器,設有一控制器1和 :$電路2。控制器!接收由外侧供應之一影像輸入訊 / * ^ i及由振盪電路2供應之一時鐘訊號S 2。控制器 铲mm—影像資料訊號SU、一輸入脈衝Slb、一時 】將其輸出C。、控及制—=號Sld,以產生掃描訊號 掃描訊號電路4 :- 顯示訊號電路3和一501357 V. Description of the invention (1) [Background of the invention] 1. [Field of the invention] The present invention relates to a display using a liquid crystal panel, and particularly to a liquid crystal display and a driving method thereof. A complete blank is performed in a blank area (blank period). Display, that is, no image is displayed at the top and bottom of the screen. The present invention claims the priority of Japanese Patent Application Nos. Hei 11-3351 70, which was filed on November 25, 1999. This patent application is hereby incorporated by reference. 2 [Description of Known Technology] The conventional LCD as shown in FIG. 5 is provided with a controller 1 and a: $ circuit 2. Controller! Receives an image input signal / * ^ i supplied from the outside and a clock signal S2 supplied from the oscillation circuit 2. Controller shovel mm—image data signal SU, one input pulse Slb, one time] outputs it C. , Control and control — = No. Sld to generate a scanning signal Scanning signal circuit 4:-Display signal circuit 3 and a
Sla,產生像素(圖像-^號電路3 #收影像資料訊號 號S3i,並將像素資件料訊號⑵-1至像素資料訊 輸出到液晶面板5掃科/號^1至像素資料訊號Μι (無顯示),用5】收號電路4設有-移位暫存器 nl „ “ 要收輸入脈衝Sib,並將之盥眛旖切咕 :v移位;’描訊號電路4 ϋ在收到輪出賦:t:: ,時,將輸入脈衝Slb輸出…面板二2::號 ΐ垃S至知描訊號S41。顯示訊號電路3之浐中知,訊 連接至液晶面板5之資料訊號線η…訊號輪線出;:係Sla, generate pixels (Image- ^ 号 电路 3 #Receive image data signal S3i, and output the pixel data signal ⑵-1 to the pixel data signal to the LCD panel 5 scan / number ^ 1 to the pixel data signal Μι (Not shown), use 5] number receiving circuit 4 is provided with a shift register nl „“ to receive the input pulse Sib and cut it: v shift; 'tracing signal circuit 4' is receiving When the time comes: t ::, output the input pulse Slb ... Panel 2: 2: No. ΐ S to Zhi Sing signal S41. Display the signal in the circuit 3, the signal is connected to the LCD panel 5 data signal Line η ... signal wheel line out;
第6頁 五、發明說明(2) 掃描訊號電路4之輸出端係連接至液晶面板5之Page 6 V. Description of the invention (2) The output terminal of the scanning signal circuit 4 is connected to the LCD panel 5
Ym至掃號線χη。液晶面板5係在資料訊號線 土!料訊號以及掃描訊號、線^1掃描訊號線 ^點设有夕數之像素區㉟,並將像素資料訊號 ^ 1供應至由掃描訊號S4_1至S4_n從所有 象素區域所選出之像素區域,以顯示影像。 以作2式液晶顯示器之操作將參照圖6所顯示之時序圖 將影像輸入訊號lin和時鐘訊號S2輸入至控制哭 ”像資料訊號Sla、輸入脈衝Slb、時鐘訊號 /S;aUS…自控制器1輸出。將影像資料訊 號\ Λ/Λ示器訊號電路3,然後將像素資料訊 出。輸入脈衝S二枓=二广顯示器訊號電路3輸 則輪 >入至掃^ 及輸出賦能訊號Sld 脈衝=號=二,輸人 ,處於現用模式,即是高移 =賦^^號 號S3-1至田S4-n:P輸出賦能訊號Sld。像素資料訊 域,並顯示出對應至選好的像素至資 501357 五、發明說明(3) 之影像。 然而,傳統式液晶顯示器有下列之問題。 圖7係說明於掃描訊號XI至Xn的數目是1 200, 影像輸入訊號I i η的影像顯示區域(影像顯示期間)之掃 描線數目為1 0 8 0,而掃描線之總數為11 2 5 時,傳統式液 晶顯示器之操作圖。 如圖7所示,狀態[1 ]顯示在影像顯示區域(影像 顯示期間)的第一線之像素資料訊號S3-1至S3-m首次 被寫在液晶面板5 時之掃描訊號為S4-1。輸出賦能訊號 S1 d —直處於現用模式。然後,輸入脈衝S1 b與時鐘訊 號Sic則同步移位,且第二線之像素資料訊號S3-1至 S3-m被寫入至液晶面板5 。依此方式,從第一線直到第 1 080條線,像素資料訊號S3-1至S3-m 均被寫入至液 晶面板5上。狀態[2 ]顯示第1 0 8 0條線之像素資料訊號 53- 1至S3-ni被寫入至液晶面板5 時之掃描訊號為 54- 1080 。 然後,當收到時鐘訊號Sic 時,空白區域(黑色帶) 即被寫入。空白區域(空白期間)包括45條線,且液晶面 板5在空白區域會變成黑色。狀態[3 ]顯示在下一條線 是第11 2 6條時,亦即再其次會回至第一條線時,第一線 之掃描訊號為S4-1 以及第1126 條線之掃描訊號為 S4-1126。因此,關於第1126條線及其以下各線,像素 資料訊號S3-1至S3-m會同樣地被寫在第五線至1125 條線。狀態[4 ]為一範例5於其中,液晶面板5顯示出Ym to the scan line χη. The LCD panel 5 is in the data signal line. Material signal and scanning signal, line ^ 1 scanning signal line ^ points are provided with pixel areas 夕, and the pixel data signal ^ 1 is supplied to the pixel area selected from all pixel areas by the scanning signals S4_1 to S4_n, to Display the image. For the operation of the type 2 LCD, the image input signal lin and the clock signal S2 are input to the control cry with reference to the timing chart shown in FIG. 6 "like the data signal Sla, the input pulse Slb, the clock signal / S; aUS ... from the controller 1 output. The image data signal \ Λ / Λ indicator signal circuit 3, and then the pixel data is output. Input pulse S 2 枓 = Erguang display signal circuit 3 input wheel > input to scan ^ and output enable signal Sld Pulse = sign = two, input, is in active mode, that is, high shift = assigned ^^ No. S3-1 to Tian S4-n: P output enable signal Sld. Pixel data signal field, and display corresponding to The selected pixels are 501357. 5. The image of the invention description (3). However, the conventional LCD has the following problems. Figure 7 illustrates that the number of scanning signals XI to Xn is 1 200, and the image input signal I i η When the number of scan lines in the image display area (image display period) is 1 0 0 0 and the total number of scan lines is 11 2 5, the operation diagram of the conventional LCD monitor is shown in Figure 7. As shown in FIG. First in display area (during image display) The pixel data signals S3-1 to S3-m are first written on the LCD panel 5. The scanning signal is S4-1. The output enable signal S1 d is directly in the active mode. Then, the input pulse S1 b and the clock signal Sic are Synchronized shifting, and pixel data signals S3-1 to S3-m of the second line are written to the LCD panel 5. In this way, from the first line to the 1 080th line, the pixel data signals S3-1 to S3 -m are all written on the LCD panel 5. The state [2] shows the pixel data signals 53-1 to S3-ni of the 1 080th line when they are written to the LCD panel 5 and the scanning signal is 54-1080. Then, when the clock signal Sic is received, a blank area (black band) is written. The blank area (blank period) includes 45 lines, and the LCD panel 5 becomes black in the blank area. The status [3] is displayed below When one line is 11 2 6, that is, when the next line will return to the first line, the scanning signal of the first line is S4-1 and the scanning signal of the 1126 line is S4-1126. Therefore, regarding the first For 1126 lines and the following lines, the pixel data signals S3-1 to S3-m will be similarly written on the fifth line to 1125 The state [4] of Example 5 in which a liquid crystal display panel 5 shown
观357 五、發明說明(4) ,空白區域的開始視為影像顯示區域的開始之狀態。於狀 I、[4]中,黑色部分顯示空白區域5a和空白區域5c, 而白色部分則為影像顯示區域5b。如狀態[4 ]所顯示, 空白區域5a和空白區域5c皆寫在影像顯示區域5b之 上方和下方’而另一影像顯示區域5d則顯示在下方之空 白區域5 c。因此’其中出現一問題便是不能在影像顯示 區域上方和下方寫完全的空白區域。Viewing 357 V. Description of the Invention (4), the beginning of the blank area is regarded as the beginning of the image display area. In states I and [4], the black part shows the blank area 5a and the blank area 5c, and the white part is the image display area 5b. As shown by the state [4], the blank area 5a and the blank area 5c are both written above and below the image display area 5b 'and the other image display area 5d is displayed below the blank area 5c. So one of the problems is that you ca n’t write a complete blank area above and below the image display area.
為解決此一問題,當掃描訊號線X1至Χη的數目大 於垂直周期的掃描線總數時,便使用對於影像輸入訊號 Ι^η施以數位訊號處理的技術。例如,當液晶面板&之 掃描訊號線X1至χη的數目是1 2 〇 0,影像顯示區域之 影像輸入訊號Π η的掃描線數目是1 〇 8 〇,而掃描線之 ,數是11 2 5時;將影像輪入訊號I i η儲存於幀記憶體。 藉此操作,而進行影像顯示期間之掃描線數目保持在 iOSO ’而掃描線總數為ι2〇〇的液晶顯示。 但是,當掃描線總數因執行此數位處理而增加時,就 會產生幘記憶體和幀記憶體控制器等元件增加,且構造變 传複雜且龐大的問題。 再者,日本專利公報第282006 1號揭露一種液晶面 板’係使用多晶矽技術,其中提議將一複雜之掃描訊號電 路設置於液晶面板中,藉由令多數之掃描訊號處於現用模 式的方式,而達到將完全的空白區域寫入於影像顯示區域 之上方和下方。然而,構成目前主流之採用非晶矽的液晶 面板之技術,若將之與使用多晶矽技術之液晶面板相較,To solve this problem, when the number of scanning signal lines X1 to Xη is larger than the total number of scanning lines of a vertical period, a digital signal processing technique is applied to the image input signal I ^ η. For example, when the number of scanning signal lines X1 to χη of the LCD panel & is 1 2 0 0, the number of scanning lines of the image input signal Π η in the image display area is 1 0 0 0, and the number of scanning lines is 11 2 At 5 o'clock, the image wheel-in signal I i η is stored in the frame memory. With this operation, the number of scanning lines during the image display period is kept at iOSO ′ and the total number of scanning lines is ι200. However, when the total number of scan lines is increased due to the execution of this digital processing, problems such as increase in components such as memory and frame memory controllers, and complicated and large-scale structural changes will occur. Furthermore, Japanese Patent Gazette No. 282006 1 discloses a type of liquid crystal panel using polycrystalline silicon technology, in which a complex scanning signal circuit is proposed to be arranged in the liquid crystal panel, so that most of the scanning signals are in an active mode to achieve Write a completely blank area above and below the image display area. However, if the technology that constitutes the current mainstream liquid crystal panel using amorphous silicon is compared with the liquid crystal panel using polycrystalline silicon technology,
第9頁 501357Page 9 501357
便很明顯的遲緩下來,因此’即使將 即,由於掃描以= :板中亦無實用價值。亦 動方法便不可能令多數之掃μ㈣時處 【發明概述】 鑾於以上所述,本發明之 器,即使於掃描訊號線數目較 描線總數為大,且採用非晶矽 路維持習用構造的情形下,將 之影像顯示區域上方和下方。 依本發明之第一實施樣態 括: 目的係提供一種液晶顯示 影像訊號在一垂直周期之掃 技術時,仍可在掃描訊號電 元王的二白寫入於液晶面板 ’提供一種液晶顯示器,包 像資;面ΪΠ:多數之資料訊號線,用以輸入影 '夕, 〜,夕之掃描讯號線,用以輸入掃描訊號;以 31 i ΐ素區域,配置於資料訊號線和掃描訊號線之交 ρ ^ 、耆將影像資料訊號供應至由掃描訊號從像素區域 曰所選出之像素區域,來顯示對應於該影像資料訊號之影 顯示訊號電路,依照影像輸入訊號,將訊 號輸送至資料訊號線; 掃^田訊號電路,用以輸入用來產生掃描訊號之輸入 氏=,使其與時鐘訊號同步移動,並於輸出指示訊號是輸 ^將4輸入脈衝送至該掃描訊號線作為該掃描訊號;It's obviously slowed down, so even if it's going to be, there is no practical value in the scan because ==. It ’s impossible to make most scans with the moving method. [Summary of the Invention] As described above, the device of the present invention uses an amorphous silicon circuit to maintain the conventional structure even when the number of scanning signal lines is larger than the total number of trace lines. In the case, the image is displayed above and below the area. According to the first embodiment of the present invention, the purpose is to provide a liquid crystal display image signal in a vertical period sweep technology, which can still be written on the liquid crystal panel while scanning the signal element of the two kings to provide a liquid crystal display, Package image data; ΪΠ: Most of the data signal lines are used to input the scanning signal lines of the evening, ~, and evening, and the scanning signals are used to input the scanning signals; the 31 i element area is arranged on the data signal lines and the scanning signals The intersection of the lines ρ ^ and 耆 supplies the image data signal to the pixel area selected from the pixel area by the scanning signal to display the image display signal circuit corresponding to the image data signal, and transmits the signal to the data according to the image input signal Signal line; sweep signal circuit, used to input the input signal used to generate the scanning signal =, so that it moves in synchronization with the clock signal, and the output indicates that the signal is input ^ send 4 input pulses to the scanning signal line as the Scanning signal
501357 _ "I" 1 _ 五、發明說明(6) 以及 一控制器,用以料 ^ 衝、時鐘訊號、及許:^影像輸入訊號,並將該輸入脈 此控制器於垂直周期二二,號輸出至掃描訊號電路; 之掃描線數目時,在曰备1^號線數目大於影像輸入訊葱 域,係依第一操作掇=面板晝面垂直方向的影像顯示區 出指示訊號;而在液::出該輸入脈衝、時鐘訊號、及輸 影像顯示的影像顯示:域板:::直二向之上方和下方無 衝、: = 訊號予1;,作模式將該輸入脈 訊號電路在影:輪=:操作模式中’掃描 一次;且在第二操作模々 周期間將掃描訊號輸出 區域輸出多數之掃描訊號^。 ’ ▼描訊號電路同時為空白 又較佳之模式為在第一操作禮+ ^影像輸入訊號之―水平周期間^中’掃描訊號電路 電略同時為空白區域輸出多數之掃二核式/,掃描訊號 又,較佳之模式為在第二操作模=夺 線夕數之掃描訊號輸出至從掃描、=^掃描訊號電路 線和偶數線。 處線所分離出來之奇數 敗 車乂佳之模式為在第二操作楹4 、奇數線和偶數線使該掃描訊號之二地,於掃描訊號電 、丧再者,較佳之模式為在此模==逆轉。 %曰面板,將非晶石夕的薄膜電晶體當板係用-矩陣 田作主動7L件使用。 二 實施樣態’係設有一液晶顯示器之驅 液晶面板之知描訊號線數目大於影像輸 的掃描線數目;且在一液晶面板垂直方 區域’為一水平周期之影像輸入訊號來 及同時為空白區域輸出多數之掃描訊 中,垂直方向晝面的上方和下方無影像 三實施樣態,係設有一液晶顯示器之驅 液晶面板之掃描 的掃描線數目; 多次之掃描訊號 放大影像之目的 訊號,於此空白 像顯示。 一較佳之模式係 域之奇數線和偶 的上方和下方無 模式係於其中之 0 感液晶面板之 周期的掃描線數 、及輪出指示訊 -— 五、發明說明(7) 依本發问之第 動方法,包括 —步驟,其中 ;;;號在垂直周期 ^面之影像顯示 輸出掃描訊號;以 號’於此空白區域501357 _ " I " 1 _ V. Description of the invention (6) and a controller for data input, clock signal, and video signal input signal, and the controller pulses the input signal in the vertical period 22 , The number is output to the scanning signal circuit; when the number of scanning lines is 1, the number of lines in the line 1 ^ is larger than the image input signal field, according to the first operation 掇 = the image display area in the vertical direction of the daytime display panel to indicate the signal; and In the liquid :: output the input pulse, clock signal, and the image display of the input image display: field board ::: straight up and down without impulse,: = signal to 1 ;, the mode of the input pulse signal circuit In the shadow: wheel =: operation mode, 'scan once; and during the second operation mode, the scan signal output area outputs a majority of scan signals ^. '▼ The signal signal circuit is blank at the same time and the better mode is in the first operation ceremony + ^ image input signal-horizontal period ^ during the' scan signal circuit circuit to output a majority of scan two-core / scan for the blank area at the same time The signal is also preferably a scan signal output in the second operation mode = line capture to the slave scan, = ^ scan signal circuit lines and even-numbered lines. The best mode for the odd number of broken cars separated by the line is to make the scanning signal the second place in the second operation, 4, the odd line and the even line. In the scanning signal, the best mode is this mode = = Reverse. % Said panel, using the thin film transistor of amorphous stone as the board system-matrix field as an active 7L. The second implementation mode is that the number of signal lines of the LCD panel driving the LCD panel is greater than the number of scanning lines of the image input; and the vertical area of an LCD panel is a horizontal period of the image input signal and blank at the same time In most of the scanning signals output by the area, there are no images above and below the daytime surface in the vertical direction. There are three scanning lines that are equipped with a liquid crystal display to drive the LCD panel. Multiple scanning signals enlarge the purpose of the image. A blank image is displayed here. A better mode is the odd number lines of the field and the upper and lower non-modes are among them. The number of scanning lines of the cycle of the 0-sense liquid crystal panel and the rotation-out instruction message-V. Explanation of the invention (7) The first moving method includes-steps, where; ;; the image display output scanning signal on the vertical period ^ plane; the number 'in this blank area
顯示D 依本發明之第 動方法,包括: 一步驟,其中 入訊號在垂直周期 像輸入訊號來輪出 域垂直方向的晝面 域輸出多數之掃描 的上方和下方無影 於前述文中, 分別輸出到空白區 中’垂直方向晝面 又,一較佳之 描訊號之極性逆轉 ^依上述之構造 影像輸入訊號垂直 入脈衝、時鐘訊號 訊號線數目大於影像輸 並為一水平周期之影 ,以達到為影像顯示區 ;以及同時為空白區 區域中,垂直方向畫面 將其中之多數掃描訊號 數線,於此空白區域 影像顯示。 奇數線和偶數線使該掃 掃描訊號線的數目等於 目時’控制器便輪出輸 7虎,此係在液晶面板垂The display D according to the first method of the present invention includes: a step in which the input signal is rotated in the vertical period like the input signal to output the vertical direction of the daytime domain output. The upper and lower parts of the scan are not reflected in the foregoing text and are output separately. In the blank area, the vertical direction of the day and again, the polarity of a better tracing signal is reversed. ^ According to the above-mentioned structure, the image input signal has vertical input pulses, and the number of clock signal signal lines is greater than the image input and is a horizontal period shadow. Image display area; and in the blank area at the same time, the vertical direction screen will scan most of the signal lines and display the image in this blank area. The odd and even lines make the number of scanning signal lines equal to the current time. The controller will output 7 tigers by turns, which is a vertical line on the LCD panel.
第12頁 五、發明說明(8) 五、發明說明(8) 直方向 空白區 和輪出 方無影 方寫完 理,而 器收到 像素數 且掃描 因此, 影像輸 目的一 訊號電 便可以 畫面依 域之第 指示訊 像顯示 全的空 只使用 f操作模式之顯示區域予以輪出.廿 一操作模式中來輸出,於並在 號,此空白Ρ 0 /查 衝、時鐘訊號、 白G域在畫面垂直方向之上方和 白因此,可以在影像顯示區域之上方和下下 非貞ΐ憶體之類的數位式訊號處 單的技術。再者,在控制 丰^ ^丨、中之像素數目是液晶面板掃描 =更少_,控制器會多次輸出時鐘訊號, 路會將掃描訊號與時鐘訊號多次同步輸出, 放大影像。 【較佳實施例之詳細說明】 以下將更詳細描述貫施本發明之最佳模式,所使用者 為不同之實施例和所參照之圖示。 第一實施例 圖1係根據本發明之第一實施例來顯示液晶顯示器 之電性構造之方塊圖。 如圖1所示根據第一實施例之液晶顯示器,設有一控 制器11和振盪電路12。控制器11包括多數之邏輯電 路之類,它接收來自外端之影像輸入訊號丨i n,及來自振 盪電路12之時鐘訊號S1 2 ’產生影像資料訊號§ 11 a和 輸入脈衝Sllb ; 一時鐘訊號Sllc及輸出指示訊號(如 輸出賦能訊號S11 d)’用以產生掃描訊號以便輸出此等訊 號。再者,控制器11,於液晶顯示器的液晶面板1 5之 五、發明說明(9) 掃描訊號雜目大於影像輸入訊號在一垂直周 時,便會輸出輸入脈衝SUb、時鐘訊號suc、出赋 能讯號Slid,此係在液晶面板15垂直 冑, 操作模式之顯示區域予以輪屮.并认,上 面依第 一操作模式之輪入脈衝Sllb、時鐘訊號Sllc、 能讯说Slid,此空白區域在畫面 及^ 無影像顯示。 7 I上方和下方 控制器11係連接至一顯示莠1φt 替WSt 1Λ細 鴻不器矾唬電路U和一掃描 =產生像素訊號電路13接收影像 S13-m,及輸出此貝等1 ^虎?3 —1至像素資料訊號 # 5| μ ^ ^ 等讯唬。知描訊號電路14包括一移位暫Page 12 V. Description of the invention (8) V. Description of the invention (8) The blank area in the vertical direction and the non-moving side of the round-out side have finished writing, and the device receives the number of pixels and scans. Therefore, a signal can be sent to the destination of the image. The display of the first indication image in the field is completely empty. Only the display area of the f operation mode is used to rotate it out. The first operation mode is used to output, and the number is blank. P 0 / check, clock signal, white G The field is above and below the vertical direction of the screen. Therefore, digital signal processing technology such as non-chrysanthemum memory can be placed above and below the image display area. Furthermore, the number of pixels in the control panel is LCD panel scan = less. The controller will output the clock signal multiple times, and the circuit will output the scan signal and the clock signal multiple times simultaneously to enlarge the image. [Detailed description of the preferred embodiment] The best mode for carrying out the present invention will be described in more detail below. The users are the different embodiments and the drawings referred to. First Embodiment FIG. 1 is a block diagram showing an electrical structure of a liquid crystal display according to a first embodiment of the present invention. As shown in FIG. 1, the liquid crystal display according to the first embodiment is provided with a controller 11 and an oscillation circuit 12. The controller 11 includes a majority of logic circuits and the like, which receives an image input signal 丨 in from the external end, and a clock signal S1 2 'from the oscillation circuit 12 to generate an image data signal § 11 a and an input pulse Sllb; a clock signal Sllc And output indication signal (such as output enable signal S11 d) 'is used to generate a scanning signal in order to output these signals. In addition, the controller 11 is on the LCD panel 15-5 of the liquid crystal display. Fifth, the invention is described. (9) When the scanning signal is larger than the image input signal in a vertical cycle, it will output the input pulse SUb, the clock signal suc, The energy signal Slid is vertical on the LCD panel 15, and the display area of the operation mode is rotated. It is recognized that the above is the pulse Sllb, the clock signal Sllc, and the empty area according to the first operation mode. No image is displayed on the screen and ^. 7 I The upper and lower controllers 11 are connected to a display 莠 1φt for WSt 1 Λ fine circuit circuit U and a scan = generating pixel signal circuit 13 receives the image S13-m, and outputs this signal etc. 3 —1 to the pixel data signal # 5 | μ ^ ^ and so on. The imaging signal circuit 14 includes a shift register.
^ Sllb In SH 輸出。顯示訊號電路13之輪出端知/田/號S14_n而將之 之資料訊號線Y1至資料祝味綠1係連接至液晶面板15 之輸出端係連接至掃描1^ ^ ν γ m ,掃描訊號電路1 4 晶面板15包括多U。1至掃描訊號線Xn。液 =點L象;χι至掃描訊號線x“ JL竹1豕常貝枓訊號sn】 描訊號S14-1至S14_n從 至_S13~m供應至由柃 域,以顯示影像。液晶面H有/素區域所選出之像素區 (薄膜電晶體)之主動元件你Λ主動矩陣型’並包括tft 儲存像素資料訊號S13] 非^/和記憶體儲存格來 主像素貝枓訊號S13-m,以作 第14頁^ Sllb In SH output. The signal output line of the signal circuit 13 is known as / Tian / No. S14_n, and the data signal line Y1 to the data Wish Green 1 is connected to the LCD panel 15 and the output terminal is connected to the scan 1 ^ ^ ν γ m, the scan signal The circuit 14 crystal panel 15 includes multiple U. 1 to scan signal line Xn. Liquid = point L image; χι to scanning signal line x "JL Bamboo 1 Changbei signal sn" The trace signals S14-1 to S14_n are supplied from to _S13 ~ m to the field to display the image. The LCD surface H has / Active area of the pixel area (thin-film transistor) selected in the prime area. You are active matrix type and include tft to store the pixel data signal S13. Non-^ / and the memory cell to the main pixel signal S13-m. For page 14
501357 五、發明說明(ίο) 為像素區域。 於液晶顯示器中,將影像輸入訊號I i η和時鐘訊號 S1 2輸入至控制器11 ; 影像資料訊號S11 a、輸入脈衝 Sllb、時鐘訊號Sllc、及輸出賦能訊號Slid則自控制 器11輸出。影像資料訊號S11 a輸入至顯示訊號電路 13; 像素資料訊號S13-1至像素資料訊號S13-η則自 顯示器訊號電路1 3輸出。輸入脈衝S11 b、時鐘訊號 Sllc,及輸出賦能訊號Slid輸入至掃描訊號電路14。 於掃描訊號電路14中,輸入脈衝S11 b與時鐘訊號 Sllc同步移位;掃描訊號S14-1至掃描訊號S14-n則 於輸出賦能訊號Slid在Η位準時輸出。像素資料訊號 S13-1至像素資料訊號S13i ,以及掃描訊號S14-1至 掃描訊號S14-η輸入至液晶面板15。於液晶面板15 中,像素資料訊號S1 3-1至像素資料訊號S1 3 —m則供應 至由掃描訊號S14-1至掃描訊號S14_n所選擇出來之像 素區域,而顯示出對應至像素資料訊號su — 丨至像素資 料訊號S13-m之影像。 圖2A係一時序圖’而圖μ係解釋圖丨所示之液晶 顯示器操作之圖,此圖係根據第一實施例之掃描訊號線 XI至Xn的數目大於影像輸入訊號Iin之掃描線總數而 作。圖2A和圖2B亦顯示出在掃描訊號線X1至Χη 的數目是^⑽、影像顯示區域之影像輸入訊號iin的數 目是1 080、及掃描線的總數是1125時,液晶顯示器之操 作。501357 V. Description of the Invention (ίο) is the pixel area. In the liquid crystal display, the image input signal I i η and the clock signal S1 2 are input to the controller 11; the image data signal S11 a, the input pulse Sllb, the clock signal Sllc, and the output enable signal Slid are output from the controller 11. The image data signal S11 a is input to the display signal circuit 13; the pixel data signal S13-1 to the pixel data signal S13-η are output from the display signal circuit 13. The input pulse S11 b, the clock signal Sllc, and the output enable signal Slid are input to the scanning signal circuit 14. In the scanning signal circuit 14, the input pulse S11b is shifted synchronously with the clock signal Sllc; the scanning signals S14-1 to S14-n are output when the output enable signal Slid is at the on-position. The pixel data signals S13-1 to S13i and the scan data S14-1 to S14-n are input to the liquid crystal panel 15. In the LCD panel 15, the pixel data signal S1 3-1 to the pixel data signal S1 3 —m are supplied to the pixel area selected by the scanning signal S14-1 to the scanning signal S14_n, and the corresponding pixel data signal su is displayed. — The image to the pixel data signal S13-m. FIG. 2A is a timing diagram 'and FIG. Μ is a diagram explaining the operation of the liquid crystal display shown in FIG. 丨. This diagram is based on that the number of scanning signal lines XI to Xn according to the first embodiment is greater than the total number of scanning lines of the image input signal Iin. Make. 2A and 2B also show the operation of the liquid crystal display when the number of scanning signal lines X1 to Xη is ^ ⑽, the number of image input signals iin in the image display area is 1 080, and the total number of scanning lines is 1125.
第15頁Page 15
501357 五、發明說明(11) 請參照圖2A和2B以說明液晶顯示器。 口 如圖2A和2B所示,於狀態Π]中,輸出職能訊 號Slid變成Η位準;掃描訊號S14-1140從掃描訊號 電路1 4輸出;以及在影像顯示區域中的1 〇 8 〇條線中)U 最後一項像素資料訊號S13-1至最後一項像素資料訊 s 1 3 -m則從顯示訊號電路1 3被輸入至液晶面板丨5。如 圖2A和2B所示,從狀態[1]至狀態[2]的移位 中,輸出賦能訊號Slid變成L位準,而在狀態[ 掃描訊號S14-1140則變成非主動狀態。此時,3〇條脒= 以一次一脈衝的方式反轉時鐘訊號SUc之每一脈衝 之26),匕們被輸入至掃描訊號電路,且在掃描%缺 電路14中與時鐘訊號Sllc同步移位。 如圖2A和2B所示之狀態[2],控制器u :操作模式中執行操作。輸出賦能訊號SUd變成Η在: =,且30條奇數線同時自掃描訊號至掃描气 14之*白區诚i方。甘从汛谠來自掃描訊號電路 工白戈上.方 其結果,空白綠fsi η主从徐各 板15上方之30條奇數線上,_ 夺被寫在液晶面 ⑻’控制ϋ U在第二操作模°圖2\和?戶斤示之狀態 訊號Slid變成H位準,30條^ 2 ^作。輸出賦能 訊號Sllc同步移位到脈與一時鐘 自掃描訊號S14-1至掃描& 4,且30條偶數線同時 出,此掃描訊號來自:描描;W14-60的60個訊號中輸 廿z丄 娜^田δί1戒電路14之空白卩硤i«七 其結果,空白線同時被寫在 白&域上方。 履曰曰面板15上方之3〇條偶數501357 V. Description of the invention (11) Please refer to FIGS. 2A and 2B to explain the liquid crystal display. As shown in FIGS. 2A and 2B, in the state Π], the output signal Slid becomes the Η level; the scan signal S14-1140 is output from the scan signal circuit 14; and 1080 lines in the image display area. (Middle) U The last pixel data signal S13-1 to the last pixel data signal s 1 3 -m are input from the display signal circuit 13 to the liquid crystal panel 5. As shown in Figures 2A and 2B, during the shift from state [1] to state [2], the output enable signal Slid becomes the L level, and in the state [scanning signal S14-1140, it becomes the inactive state. At this time, 30 脒 = one pulse at a time to invert each pulse of the clock signal SUc 26), the knives are input to the scanning signal circuit, and are synchronized with the clock signal Sllc in the scanning circuit 14 Bit. As shown in the state [2] shown in FIGS. 2A and 2B, the controller u: performs an operation in the operation mode. The output enable signal SUd becomes Η in: =, and 30 odd-numbered lines are simultaneously scanned from the scanning signal to the 14th side of the white area. Gan Congxun from the scanning signal circuit engineer Bai Ge. As a result, the blank green fsi η master and slave 30 odd lines above the Xu board 15 were written on the LCD surface ⑻'controlϋ U in the second operation Figure 2 and the status signal Slid shown by the customer are changed to the H level, and 30 pieces of ^ 2 ^ work. The output enable signal Sllc is synchronously shifted to the pulse and a clock self-scanning signal S14-1 to scan & 4, and 30 even-numbered lines come out at the same time. This scanning signal comes from: trace; 60 signals of W14-60 are input.廿 z 丄 娜 ^ 田 δί1 or the blank of circuit 14 卩 硖 «As a result, a blank line is written over the white & field at the same time. 30 even numbers above the panel 15
第16頁 501357 五、發明說明(12) ----- 線上。該掃描訊號之兩極則被反置在狀態[2 ]之3〇條奇 數掃描訊號。如圖2 A和2B所示之狀態[2 ]和狀態 [一3 ],為了在寫入的時間上配合在影像顯示區域之影像顯 示期卩j,與影像顯示期間相似之一周期的時鐘訊號會被輸 入至掃描訊號電路14。只要空白區域是寫在液晶面板“ 上,狀態[2 ]和狀態[3 ;]之周期便可比一水平周期長或 短。如圖2A和2B所示之從狀態[3]移位至狀態[4] 之移位期,輸出賦能訊號Slld變成H位準,且掃描訊 號變成非現用模式。於此時,一時鐘訊號S1 lc輸入至掃 描訊號電路14 ,且30條輸入脈衝Sllb與時鐘訊號Page 16 501357 V. Description of Invention (12) ----- Online. The two poles of the scanning signal are inverted at 30 odd scanning signals in state [2]. State [2] and state [1-3] shown in Figures 2 A and 2B. In order to match the image display period 卩 j in the image display area at the time of writing, a clock signal of a cycle similar to the image display period. Will be input to the scanning signal circuit 14. As long as the blank area is written on the LCD panel, the period of the state [2] and the state [3;] can be longer or shorter than a horizontal period. As shown in FIGS. 2A and 2B, the state [3] is shifted to the state [ 4] during the shift period, the output enable signal Slld becomes H level and the scan signal becomes inactive mode. At this time, a clock signal S1 lc is input to the scan signal circuit 14 and 30 input pulses Sllb and the clock signal
Sllc同步移位至下方之空白區域。 然後,如圖2A和2B所示之狀態[4],輸出賦能訊 號Slid變成Η位準,而30條奇數掃描訊號從出自6〇條 在下方空白區域之掃描訊號S14-1141至掃描訊號 S1 4-1 200的訊號輸出。其結果,空白線同時被寫在液晶 面板15下方之30條奇數線中。如圖2Α和2Β所示之狀 態[5 ],輸出賦能訊號s 11 d變成Η位準,3 0條輸入脈 衝與時鐘訊號Sllc在掃播訊號電路14中同步移位 Sllb ’且30條偶數掃描訊號出自6〇條在下方空白區域之掃 描訊號S14-1141至掃描訊號S1 4 -1 2 0 0的訊號。其結 果’空白線同時被寫在液晶面板1 5下方之3〇條偶數線 中。如圖2 A和2B所示之狀態[4 ]和狀態[5 ],為了 使寫入的時間能配合影像顯示期間,在時鐘訊號S丨丨c的 周期等於影像顯示區域的期間時,會被輪入至掃描訊號電Sllc is shifted to the blank area below. Then, as shown in the state [4] as shown in FIGS. 2A and 2B, the output enable signal Slid becomes a high level, and the 30 odd-numbered scanning signals range from 60 scanning signals S14-1141 to scanning signals S1 in a blank area below. 4-1 200 signal output. As a result, blank lines are simultaneously written in 30 odd-numbered lines below the liquid crystal panel 15. As shown in the state [5] shown in FIGS. 2A and 2B, the output enable signal s 11 d becomes the Η level, and 30 input pulses and clock signals Sllc are shifted in the sweep signal circuit 14 by Sllb 'and 30 even numbers. The scanning signals are from 60 scanning signals S14-1141 in the blank area below to scanning signals S1 4 -1 2 0 0. As a result, a blank line is written in 30 even lines below the liquid crystal panel 15 at the same time. State [4] and state [5] as shown in Figures 2 A and 2B. In order to make the writing time match the image display period, when the period of the clock signal S 丨 丨 c is equal to the period of the image display area, it will be changed. Turn to scan signal
第17頁 501357 五、發明說明(13) 路14。只要空白被寫入,狀態[4 ]和狀態[5 ]的周期 可比水平周期短或長。 如圖2 A和2B所示,在進入狀態[5 ]之後,Η位準 之輸入脈衝S11 b係為一時鐘訊號S11 c而輸入。從狀態 [5 ]至狀態[6 ]的移位周期中,一時鐘訊號si 1 c被輸 入至掃描訊號電路1 4。然後,3 0條輸入脈衝S11 b變成 非現用模式,且一輸入脈衝S11 b移位至影像顯示區域的 開始。如圖2A和2B所示之狀態[6 ],控制器i i執行 第一操作模式’輸出賦能訊號S11 d變成η位準,掃描訊 號S14-61從掃描訊號電路14輸出,且於第一線具1〇8〇 條線之影像顯示區域中,像素資料訊號Si 3-1至S1 3-ιή 則從顯示訊號電路1 3被輸入至液晶面板1 $。同樣地, 掃描訊號S14-62至掃描訊號S14-1140按順序以影像輸 入訊號Iin —水平周期一次的方式從顯示訊號電路13輸 出到液晶面板15。如是,對應至像素資料訊號S1 3-丨至 S13-m之線便從顯示訊號電路13輪入至液晶面板ι5。 如上所述,根據第一實施例,當液晶面板丨5之掃 描訊號線數目大於一垂直周期之影像輪入訊號Ηη的數 目時,於液晶面板15垂直方向之影像顯示區域的控制器 11,會輸出在第一操作模式之輸入脈衝s丨1 b、時鐘訊 號Sllc、及輸出賦能訊號S11(i ,且於主面上方和下方 垂直方向之空白區域,輸出在第二操作模&式之輸入脈衝 Sllb、時鐘訊號Sllc 、及輸出賦能訊號311(1。因此, 雖然是使用非晶石夕技術此種具相對簡單構造之液晶面板Page 17 501357 V. Description of the invention (13) Road 14. As long as the blank is written, the period of state [4] and state [5] can be shorter or longer than the horizontal period. As shown in FIGS. 2A and 2B, after entering the state [5], the input pulse S11b of the chirp level is inputted as a clock signal S11c. In the shift period from the state [5] to the state [6], a clock signal si 1 c is input to the scanning signal circuit 14. Then, 30 input pulses S11 b become inactive mode, and one input pulse S11 b is shifted to the beginning of the image display area. As shown in the state [6] shown in FIGS. 2A and 2B, the controller ii executes the first operation mode, the output enable signal S11 d becomes the η level, and the scanning signals S14-61 are output from the scanning signal circuit 14 and are on the first line. In the image display area with 1080 lines, the pixel data signals Si 3-1 to S1 3-ι price are input from the display signal circuit 13 to the LCD panel 1 $. Similarly, the scanning signals S14-62 to S14-1140 are sequentially output from the display signal circuit 13 to the liquid crystal panel 15 in a manner that the image input signal Iin-a horizontal cycle is once. If so, the lines corresponding to the pixel data signals S1 3- 丨 to S13-m are rotated from the display signal circuit 13 to the liquid crystal panel ι5. As described above, according to the first embodiment, when the number of scanning signal lines of the LCD panel 5 is greater than the number of image wheel-in signals Ηη of a vertical period, the controller 11 in the image display area of the liquid crystal panel 15 in the vertical direction will The input pulse s1b, the clock signal Sllc, and the output enable signal S11 (i in the first operation mode are output in the first operation mode, and the blank area in the vertical direction above and below the main surface is output in the second operation mode & The input pulse Sllb, the clock signal Sllc, and the output enable signal 311 (1. Therefore, although it is a relatively simple structure liquid crystal panel using amorphous stone technology
501357 五、發明說明(14) 15,亦可在上方和下方寫完全的空白。 第二實施例 再者’將根據本發明描述第二實施例。 圖3係根據第二實施例顯示液晶顯示器電性_造之 方塊圖’而與圖1相同之編號所指者便是與圖1相同之元 件0 液晶顯不器提供了控制器2丨,它與圖1之控制器1 1 f。於圖1之控制器21接收影像訊號inH如 二:解析度電視]訊號之交織訊號,其中垂直周期之 知描線疋液晶面板15之掃描訊號的一半或更少,而= 出者為輸入脈衝S21b、時鐘1缺S21 斤輪 〇91H , . ^ 吁鐘戒虓S21C、及輸出賦能旬% = 在液晶面板15垂直方向晝面依第-摔;Si 號並為影像輸入訊““水;周期以 ,4係、解釋液晶顯示器操作之時序 ^軏層次,而水平軸顯示時間。圖4係顯干f直軸顯示 中HDTV之交織訊號中,掃 ” ’Ύ、種操作, m Μλ /a 押描線的數目是 :;ίϊ示區域是1 080 ’掃描線總數是ι12 此乃 破寫作影像輸入訊號i nIi。 5 ’而該總數 =下顯示第二實施例和第—實施例 其不同為··在影像顯示區祕占μ ▲作之不同。 時鐘訊號S21c到一條線之像素次w工1器21兩次輪出 <像素資料訊號Sl3 E〗出 i 至501357 V. Description of the invention (14) 15, You can also write a complete blank above and below. Second Embodiment Further, a second embodiment will be described according to the present invention. FIG. 3 is a block diagram showing the electrical properties of the liquid crystal display according to the second embodiment. The same reference numerals as in FIG. 1 refer to the same components as those in FIG. 1. The liquid crystal display provides a controller 2. With the controller 1 1 f of FIG. 1. The controller 21 in FIG. 1 receives the image signal inH as in two: resolution TV] signal interlaced signal, in which the vertical period is known as the trace 疋 half or less of the scanning signal of the LCD panel 15, and the output is the input pulse S21b The clock 1 lacks the S21 pounder 〇91H,. ^ Call Zhongjie 虓 S21C, and the output enable tenth% = day-throw in the vertical direction of the LCD panel 15; the Si number and input signal for the image "" water; period Therefore, the 4 series explains the timing of the operation of the LCD monitor, and the horizontal axis shows the time. Figure 4 shows the interlaced signal of HDTV in the direct-axis display. The number of scanning lines is “mΜm / a”. The number of scanning lines is: 1 080. The total number of scanning lines is 12 and this is broken. Write the image input signal i nIi. 5 'and the total number = below shows the second embodiment and the first embodiment-the difference is that in the image display area, μ ▲ makes a difference. The clock signal S21c is the number of pixels per line. The W1 unit 21 turns out twice < the pixel data signal Sl3 E〗 out i to
第19頁 501357 五、發明說明(15) S13-m ; 掃描訊號電路14與時鐘訊號S21c則同步按順 序輸出掃描訊號S14-k和掃描訊號S14-(k + l)。其結 果,同樣的像素資料訊號S13-1 至S13-in則被寫入此兩 條線之液晶面板1 5,如此影像便放大了。於此時,輸出賦 能訊號S2 1 d並非總在現用模式,而脈衝之寬度則製成窄 頻,且像素資料訊號S13-1至SI 3i於第一次寫的時間 和第二次寫的時間之脈衝頻寬是相似的。如此,可避免在 像素資料訊號S13-1至S13-in升起時,欲將之輸入資料 訊號線Y1至Ym的速度會變慢,因此不致使像素資料訊 號S13-1至S13-m產生亮度差異。其他的操作與第一 實施例相似。 如上所述,根據第二實施例,其中之控制器21兩次 ,出時鐘訊號S21C到一條線之像素資料訊號S13 —丨至 3认m ,掃描訊號電路1 4與時鐘訊號S2 i c則同步按順 出掃描訊號S14-k和掃描訊號S14_(k+1)。當控制 ,到影像輸人訊號時’訊號中在—垂直周期之掃描 面板15之掃描訊號線的一半或更少,控制写 21兩次輸出時鐘訊號S21c, ^制為 與時鐘訊號S2U同步輸出掃描^按順序 叫一(K+1);因此,影像=说號S14-k和掃描訊號 像顯示區域之上方和下方里 了,且空白線區域寫在影 报明顯的,本= = =造。 例如’液晶面板可不偈限在主動矩陣型,亦可使用被Page 19 501357 V. Description of the invention (15) S13-m; The scanning signal circuit 14 and the clock signal S21c output the scanning signal S14-k and the scanning signal S14- (k + l) in sequence in synchronization with each other. As a result, the same pixel data signals S13-1 to S13-in are written into the two-line LCD panel 15 so that the image is enlarged. At this time, the output enable signal S2 1 d is not always in the active mode, and the pulse width is made into a narrow frequency, and the pixel data signals S13-1 to SI 3i are written at the first writing time and the second writing time. The pulse widths of time are similar. In this way, when the pixel data signals S13-1 to S13-in are raised, the speed of the input data signal lines Y1 to Ym will be slowed down, so that the pixel data signals S13-1 to S13-m will not cause brightness. difference. The other operations are similar to those of the first embodiment. As described above, according to the second embodiment, the controller 21 outputs the clock signal S21C to the pixel data signal S13 of a line twice to 3m, and the scanning signal circuit 14 and the clock signal S2 ic are simultaneously pressed. Scan signals S14-k and S14_ (k + 1) are output in sequence. When the control signal is input to the image, the signal is half or less of the scanning signal line of the scanning panel 15 in the vertical period. The control write 21 outputs the clock signal S21c twice, and the output signal is synchronized with the clock signal S2U. ^ Called one in order (K + 1); therefore, the image = the sign S14-k and the scan signal image above and below the display area, and the blank line area is written in the film clearly, this = = = made. For example, the LCD panel is not limited to the active matrix type.
第20頁 不偏=發明之範圍和精神下做二=例’它可以在 501357 五、發明說明(16) 動矩陣型;又,亦瓦私加# 訊號的掃描線數目、所/增,或減少影像輸入掃描 ^ ^ i- ^ 工白£域之掃描線數目、影像顯示區 /〜罗田線數、以及液晶面板1 5之掃描線數目。於第 二貫施例中,像素資判雜ο,π 、弟 曰面叔1 ς 科讯唬S13 —1至13-m可以按照液 晶面板1 5之抑"描§fL號齡日&^ ^ , 在兩次。如圖^和圖而:皮寫,或更多次,可不揭限 影像輸入訊號接收進來,且^之屮^號去電广』13可以直接將 Sl3-m。再者,太//且輸出像素資料訊號Sl3-J至 只需將像素資料^/可以應用在用來顯示影像的裝置, 501357 圖式簡單說明 本發明之上述和其他目的、利益、及特徵,從下列敘 述及對照所跟隨之圖示可更形明瞭,其中 圖1係根據第一實施例顯示液晶顯示器電性構造之 方塊圖; 圖2A係一時序圖,而圖2B係解釋圖1所示之液晶 顯示器操作之,圖; 圖3係根據第二實施例顯示液晶顯示器電性構造之 方塊圖, 圖4係解释圖3所示之液晶顯示器操作之時序圖; 圖5係顯示傳統式液晶顯示器電性構造之方塊圖; 圖6係解釋圖5所示之傳統式液晶顯示器操作之時序 圖;以及 圖7係解釋圖5所示之傳統式液晶顯示器操作之圖。 符號說明 1〜控制器 2〜振盪電路 3〜顯示訊號電路 4〜掃描訊號電路 5〜液晶面板 11〜控制器 12〜振盪電路 1 3〜顯示器訊號電路 1 4〜掃描訊號電路Page 20 Unbiased = Do the scope and spirit of the invention = Example 2: It can be described in 501357 V. Invention description (16) Dynamic matrix type; Also, the number of scan lines, # / increase, or decrease Image input scanning ^ ^ i- ^ The number of scanning lines in the white space, the number of image display areas / ~ Luotian lines, and the number of scanning lines of the LCD panel 15. In the second embodiment, the pixel information is miscellaneous. Π, 面, uncle face 1 科 Ke Xun S13 -1 to 13-m can be described in accordance with the LCD panel 15 5 " Description §fL 号 AGE & ^ ^, Twice. As shown in figure ^ and figure: Paper writing, or more times, can be unrestricted. The image input signal is received, and the number ^^^ can be directly transmitted to the TV. 13 can directly convert Sl3-m. Furthermore, // and the pixel data signal Sl3-J is output to the point where only the pixel data ^ / can be applied to a device for displaying an image, 501357 diagrams briefly explain the above and other objects, benefits, and features of the present invention, The following description and comparison can be more clearly illustrated, in which FIG. 1 is a block diagram showing the electrical structure of the liquid crystal display according to the first embodiment; FIG. 2A is a timing diagram, and FIG. 2B is an explanation of FIG. Fig. 3 is a block diagram showing the electrical structure of the liquid crystal display according to the second embodiment, and Fig. 4 is a timing chart explaining the operation of the liquid crystal display shown in Fig. 3; Fig. 5 is a conventional liquid crystal display A block diagram of the electrical structure; FIG. 6 is a timing diagram explaining the operation of the conventional liquid crystal display shown in FIG. 5; and FIG. 7 is a diagram explaining the operation of the conventional liquid crystal display shown in FIG. Explanation of symbols 1 ~ controller 2 ~ oscillation circuit 3 ~ display signal circuit 4 ~ scanning signal circuit 5 ~ liquid crystal panel 11 ~ controller 12 ~ oscillation circuit 1 3 ~ display signal circuit 1 4 ~ scanning signal circuit
第22頁 501357 圖式簡單說明 1 5〜液晶面板 21〜控制器 I i η〜影像輸入訊號 S2〜時鐘訊號 53- 1至S3-m〜像素資料訊號 54- 1至S4-η〜掃描訊號 SI la〜影像資料訊號 S11 b〜輸入脈衝 S11 c〜時鐘訊號 S11 d〜賦能訊號 S1 2〜時鐘訊號 513- 1至S13-m〜像素資料訊號 514- 1至S14-η〜掃描訊號 S21b〜輸入脈衝 S21c〜時鐘訊號 S 2 1 d〜輸出賦能訊號 S 1 a〜掃描訊號影像資料 S1 b〜訊號輸入脈衝 S1 c〜時鐘訊號 S1 d〜輸入賦能訊號 Y1至Ym〜資料訊號線 XI至Xn〜掃描訊號線 5a、5c〜空白區域 5b、5d〜影像顯示區域Page 22 501357 Brief description of the drawings 1 5 ~ LCD panel 21 ~ Controller I i η ~ Image input signal S2 ~ Clock signal 53-1 to S3-m ~ Pixel data signal 54-1 to S4-η ~ Scan signal SI la ~ image data signal S11 b ~ input pulse S11 c ~ clock signal S11 d ~ enable signal S1 2 ~ clock signal 513-1 to S13-m ~ pixel data signal 514-1 to S14-η ~ scan signal S21b ~ input Pulse S21c ~ Clock signal S 2 1 d ~ Output enable signal S 1 a ~ Scan signal image data S1 b ~ Signal input pulse S1 c ~ Clock signal S1 d ~ Input enable signal Y1 to Ym ~ Data signal line XI to Xn ~ Scan signal line 5a, 5c ~ Blank area 5b, 5d ~ Image display area
第23頁Page 23
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JP33517099A JP2001154639A (en) | 1999-11-25 | 1999-11-25 | Liquid crystal display device and driving method therefor |
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TW501357B true TW501357B (en) | 2002-09-01 |
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TW089125092A TW501357B (en) | 1999-11-25 | 2000-11-24 | Liquid crystal display and driving method for liquid crystal display |
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EP (1) | EP1111576A3 (en) |
JP (1) | JP2001154639A (en) |
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JP2001194642A (en) * | 2000-01-12 | 2001-07-19 | Nec Viewtechnology Ltd | Blanking device of liquid crystal display, and its blanking method |
JP4843166B2 (en) * | 2001-09-17 | 2011-12-21 | 東芝モバイルディスプレイ株式会社 | Liquid crystal display |
KR100464208B1 (en) | 2001-12-20 | 2005-01-03 | 엘지.필립스 엘시디 주식회사 | Liquid crystal display and drivig method thereof |
JP4846217B2 (en) * | 2004-09-17 | 2011-12-28 | 東芝モバイルディスプレイ株式会社 | Liquid crystal display |
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JP2585463B2 (en) * | 1990-10-30 | 1997-02-26 | 株式会社東芝 | Driving method of liquid crystal display device |
JP2799095B2 (en) * | 1991-12-02 | 1998-09-17 | 株式会社東芝 | LCD display driver |
JPH08234703A (en) * | 1995-02-28 | 1996-09-13 | Sony Corp | Display device |
JP2820061B2 (en) * | 1995-03-30 | 1998-11-05 | 日本電気株式会社 | Driving method of liquid crystal display device |
TW455725B (en) * | 1996-11-08 | 2001-09-21 | Seiko Epson Corp | Driver of liquid crystal panel, liquid crystal device, and electronic equipment |
JP2982722B2 (en) * | 1996-12-04 | 1999-11-29 | 日本電気株式会社 | Video display device |
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1999
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KR20010051914A (en) | 2001-06-25 |
EP1111576A2 (en) | 2001-06-27 |
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