ns-701 7 tft lcd free sample

Model 7 inch portable TV for car or office. Equipped with various displays, whether via Memory Cards, Flash Disk, AV links, or Antena antenna. Easy to install and equipped with a remote console for easy remote control. NS-701 Color Black silver MaterialPlastic Specification7 inch portable TV; Lightweight and thin design; Display: 16: 9 widesscreen; Solution: 480 x RGB x 234; Brightness: 300cd/square meter; Viewing angle: 120/130; OSD language: Chinese/English/German/Russian/French/Portuguese/Spanish/Italian; Supports global TV system: PAL/NTSC/SECAM full TV system; Display scale 16: 9 and 4: 3 switchable; Built-in speaker; Full function remote control; Supports USB and SD card; Supports FM radio, AV input jack; FM frequency: 87.5~108.0MHz; Supports SD card up to 16GB; Supports JPG/BMP image format; Supports MP3/WMA audio format; Supports VOB, DIVX, MP4, WMV, AVI video format Other FeaturesInterfaces: SD card slot, USB 2.0 port, AV-in, AV-out, 3.5mm earphone jack, DC port Packing List1 x Portable TV1 x Remote control (2 x AAA batteries, not included) 1 x Car charger (12V/87cm-cable) 1 x AV cable (90cm) 1 x Antenna (99cm) 1 x AC power adapter (EU plug/ 100~240V /111cm -cable) 1 x English user manual dimensions: 7.20 in x 5.91 in x 1.30 in (18.3 cm x 15.0 cm x 3.3 cm) Weight: 11.39 oz (323 g).

部 屮 局 消 费 合 竹 牡 印 hi --.1 ： A7 __B7五、發明説明（1 ) C發明之領域〕 本發明係與補正垂直方向之顯示位S，可獏得良好顯 示畫面之液晶顯示器之驅動電路有關· 〔先前之技術〕 茲用圖2之先前之TFT (薄膜電晶體·ΤΗη-ΡΠιιι-Transister)液晶顯示器之方塊圖，圖3之先前掃描越動 電路之構成圖，圖4之先前掃描驅動電路之動作波形面說 明先前之液晶顯示器之驅動方式* 圖2之先前液晶顯示器之方塊圖中* 1 0 1係轉送自 系統（未圖示）供給之顯示資料及同步信躭之信號匯流排 (Bus) ，20 1係液晶控制器· 202係信猇驩動電路 ，2 0 3係掃描驅動電路* 2 0 4係供給各種電麈之電源 電路，205係TFT液晶板•液晶控制器201输出之 信號中* 2 0 6係含轉送於信號驩動電路2 0 2之顯示資 料及同步信號之信號匯流排，2 0 7係開動掃描驅動電路 203之動作之FLM(首線標識信號）· 208係掃描 驅動電路2 0 3之動作時鐘脈衝（clock)之CL 3時鎗 脈衝* 2 0 9係供給電源電路2 0 4之液晶交流化信號· 2 1 0係將信猇既動電路2 0 2產生之色調電壓轉送 於TFT液晶板2 0 5之汲極（drain)匯流排· 2 1 1 係將掃描驅動竃路2 0 3產生之TFT液晶板2 0 5之各 線成爲選擇，非選擇狀態之閘極（gate )匯流排•電源電 路2 0 4產生之電壓中，2 1 2係供給掃描驅動竃路 I I— - i I I I -f !1 - -I — ^1- i I n, , 一iJ (?i先閱讀和而之11½事項再磧寫本頁) 本纸张尺度通用中國因家標净（（:NS ) Λ4規格（210X297公釐） ¾¾部屮次標卑局β-t消资合竹社印ΐί ___B2_：___ 五、發明説明（2 ) 2 Ο 3之竃應中’選擇電壓位準之V g ο η電壓，2 1 3 係供給掃描驩動電路2 0 3之電壓中非遘擇電壓位準之 Vgorf f電壓，214係轉送供給液晶板之對向電極電 壓之對向電極電壓線· 2 1 5係供給信號驩動電路2 0 2 之色調電壓* TFT液晶板2 0 5係由汲極匯流排2 1 0與閘極匯 流排2 1 1交叉成矩陣狀，構成像索部之交叉部由2 1 6 之開關元件之TFT，及2 1 7之液晶構成* TFT216之閘極連接閘匯流排211，而汲極連接汲 極匯流排2 1 0 ·故，TFT2 1 6之源電極2 1 8成爲 液晶217之一方之電極•液晶217之另一方之電極係 成爲2 1 9之雙向電極，而連接於對向電極線2 1 4 _ 圖3之先前掃描驅動電路之構成圇中，3 0 1 — 1至 301 - 8係掃描《動器，參考HD66215 (日立 L C D控制器/驅動器LSI data book :半導馕事業部 "94. 3出版P622 — 634)以8個構成•先前例 係以TFT液晶板2 0 5之垂直解像度爲7 6 8線說明* 惟掃描駆動器：HD1621 5因具有100輸出端子· 故掃描駆動器301 — 8使用G701至G768 · 掃描驅動器3 0 1 — 1中•输入啓黟（enable)信號 端子（DI 〇1)連接FLM(207)信號•掃描驅動 器3 0 1 — 2之输入啓動信號端子（D I 0 1)連接前段 掃描驅動器3 0 1 _ 1之输出啓動信號端子（D I 0 4 ) *而掃描蹑動器3 0 1 — 3以下之掃描18動器3 0 1亦同 本紙張尺度過用中因家標啤（rNS ) Λ4規格（210X297公瘦} (对先閲讀背面之注t·事項再填巧本頁) "訂 4 A7 B7 五、發明説明（3 ) 樣在输入啓動信號端子（D I 〇 1 )串聯（cascade)連 接前段之掃描驅動器3 0 1之輪出啓動信號端子（ D I 0 ,4 ) * 1Α 先 閱 讀 背- 之 i.i r 事 項 再 % < 本f、 頁 全部掃描驅動器3 0 1中，分別在時鐘脈衝（CL) 端子有CL3 (208)，電源端子VI，V6有選擇電 E位準Vgon，電源端子V5 »VEE有選擇電壓位準 Vg 〇 f f連接*而實現液晶交流化之交流化端子（M) 均固定於髙/位準· 訂 圖4之先前掃描驅動回路之動作波形圖中· FLM係 第1線檩記（First Line marker)信號2 0 7之駆動波 形C L 3係動作Clock 208之驅動波形，E 〇 1係掃描驅 動器301-1输出之输出故動（enable)信猇端子（ D I 04)之信號，Vgl至Vg768係閘極匯流排（ gate bus) 2 1 1之應動波形· 再由圖2說明先前例之詳細動作· 液晶控制器2 0 1 *係將信號匯流排10 1轉送之顯 示數據及同步信號變換爲驅動T F T液晶顯示器用之顯示 數據及液晶驩動信號*而·以信號匯流排2 0 6轉送供給 信號驅動電路2 0 2之顯示數據及液晶韁動信號，以 FLM: 207 · CL3 : 208轉送_給掃描驅動電路 2 0 3之液晶驅動信號•以Μ : 2 0 9轉送供給電源電路 2 0 4之信號· - 信號駆動電路2 0 2中，依序取進以信號匯流排 2 0 6轉送之顯示數據，完成取進一位準線分之顯示資料 本紙張尺度通用中國围家榡卑（} Λ4規格（210X25»7公釐） 6 Α7 Β7 五、發明説明（4 ) 時*欒換爲對應於一位準線分之顯示資料之色調電壓•自 汲極匯流排（Drain bus) 2 1 0輸出*信號驅動電路 2 0 2按每線重複此動作· 同步於信號驅動電路2 0 2經汲極匯流排將色調甯壓 输出於液晶板2 0 5，在掃描驅動電路2 0 3中依序將選 擇電屋附加於閘極匯流排2 1 1 *關於掃描電路2 0 3之 詳細動作則容後申述*惟將選擇電壓（Vg ο η )施加於 閘極匯流排21 1時，TFT液晶板205內之 TFT2 16成爲選擇狀態，將經汲極匯流排2 1 0之色 調電壓施加於液晶217·由施加於此液晶217之實效 電壓值將液晶之扭角變化，控制光透過率以實施色調顯示 β 又，經閘極匯流排2 1 1施加非選擇電壓（Department of Consumer Affairs and Consumption of Bamboo and Bamboo Seals Hi-. 1: A7 __B7 V. Description of the Invention (1) Field of the Invention] The present invention relates to the correction of the display position S in the vertical direction, which can obtain a liquid crystal display with a good display screen. Related to the driving circuit. [Previous technology] The block diagram of the previous TFT (thin-film transistor Τηη-ΡΠιι-Transister) liquid crystal display of FIG. 2 is used, the structure of the previous scanning overdrive circuit of FIG. 3, and the previous of FIG. 4 The scanning waveform of the scanning drive circuit explains the driving method of the previous liquid crystal display * Figure 2 Block diagram of the previous liquid crystal display * 1 0 1 is the display data and synchronizing signal signals transferred from the system (not shown) Bus (Bus), 20 1 series LCD controllers, 202 series letter drive circuits, 20 3 scan drive circuits * 2 0 4 series power circuits for various power sources, 205 series TFT LCD panels, and LCD controller 201 Among the output signals * 2 0 6 is a signal bus including display data and synchronization signals transmitted to the signal moving circuit 2 0 2, and 7 7 is a FLM (first line identification signal) that activates the operation of the scan driving circuit 203 · 208 series Describing the operation clock pulse of the driving circuit 2 03, CL 3 hour gun pulse * 2 0 9 is the liquid crystal AC signal supplied to the power circuit 2 0 4 · 2 1 0 is the signal generating circuit 2 0 2 The tone voltage is transferred to the drain bus of the TFT LCD panel 2 05. 2 1 1 is the gate of the TFT LCD panel 2 0 5 which is generated by the scanning drive circuit 2 3 and becomes the gate of the selected, non-selected state. Among the voltages generated by the gate bus and power circuit 204, 2 1 2 is for the scan drive circuit II—-i III -f! 1--I — ^ 1- i I n,, iJ ( ? i read the first and then 11½ items before writing this page) This paper size is based on China Standard Brand ((: NS) Λ4 size (210X297 mm) ¾ ¾ Department of Substandard Standards Bureau β-t Consumer Capital社 印 ΐί ___B2_: ___ V. Description of the invention (2) The voltage of the selected voltage level V g ο η in the application of 2 〇 3, 2 1 3 is the non-selection of the voltage supplied to the scanning joy circuit 2 0 3 Vgorf f voltage of the voltage level, 214 is the counter electrode voltage line for the counter electrode voltage supplied to the LCD panel. 2 1 5 is the hue voltage for the signal activation circuit 2 0 2 * TF The T liquid crystal panel 2 0 5 is composed of a drain bus bar 2 1 0 and a gate bus bar 2 1 1 in a matrix form, and a cross section constituting an image cable part is composed of a TFT of a switching element of 2 1 6 and a TFT of 2 1 7 Liquid crystal composition * The gate of TFT216 is connected to gate bus 211, and the drain is connected to drain bus 2 1 0. Therefore, the source electrode 2 1 8 of TFT 2 16 becomes one of the electrodes of liquid crystal 217 • The other of liquid crystal 217 The electrode system becomes a bidirectional electrode of 2 1 9 and is connected to the opposite electrode line 2 1 4 _ In the structure of the previous scan driving circuit of Fig. 3, 3 0 1 — 1 to 301-8 series of scanning "actuator, refer to HD66215 (Hitachi LCD Controller / Driver LSI data book: Semi-conductor Division, "94 .3 Publication P622 — 634) Structure of 8 • The previous example is based on a TFT LCD panel with a vertical resolution of 7 5 8 lines. * Scanning actuator: HD1621 5 has 100 output terminals. Therefore, scanning actuators 301 — 8 use G701 to G768. • Scanning driver 3 0 1 — 1 • Input enable signal terminal (DI 〇1) is connected to FLM ( 207) Signal • Scan driver 3 0 1 — 2 The input start signal terminal (DI 0 1) is connected to the previous scan driver 3 0 1 _ 1 output start signal terminal (DI 0 4) * and scanning actuator 3 0 1 — 3 or less scanning 18 actuator 3 0 1 is the same as the standard paper used in this paper because of the standard beer (rNS) Λ4 (210X297 male thin) (read the note t and matters on the back before filling in this page) "Order 4 A7 B7 V. Description of the invention (3) Also connect the front section of the input start signal terminal (DI 〇1) in series (cascade) The scan driver 3 0 1 turns on the start signal terminal (DI 0,4) * 1Α Read the ii r items first and then% < All scan drives 3 0 1 of this f and page are in the clock pulse (CL ) The terminals are CL3 (208), the power terminals VI, V6 have the selected electrical level E Vgon, the power terminals V5 »VEE have the selected voltage level Vg ffff connection *, and the AC terminals (M) that realize the AC liquid crystal are fixed In 髙 / level · Order the operation waveform diagram of the previous scan drive circuit in Figure 4 · FLM is the first waveform waveform of the first line marker signal 2 0 7 CL 3 is the driving waveform of the operation Clock 208, E 〇1 is the output signal of the enable signal terminal (DI 04) output from the scan driver 301-1, Vg l to Vg768 series gate bus (gate bus) 2 1 1 response waveforms, and then the detailed operation of the previous example will be explained by Figure 2 LCD controller 2 0 1 * is the display data transmitted by the signal bus 10 1 and Synchronization signal is converted into display data and liquid crystal moving signal for driving TFT liquid crystal display *, and the display data and liquid crystal moving signal of signal driving circuit 2 0 2 are transmitted to signal bus 2 0, with FLM: 207 · CL3 : 208 transfer_ LCD drive signal to scan drive circuit 2 0 3 • M: 2 0 9 to transfer the signal supplied to power supply circuit 2 0 4--in signal signal circuit 2 0 2 to sequentially take in signal bus 2 0 6 The transmitted display data is completed to take in one line of display data. The paper size is generally used by Chinese households. (4) Λ4 (210X25 »7 mm) 6 Α7 Β7 V. Description of the invention (4) Hour * Luan Change to the hue voltage corresponding to the display data of one bit line. • Self-drain bus (Drain bus) 2 1 0 output * signal drive circuit 2 0 2 Repeat this action for each line • Synchronized with the signal drive circuit 2 0 2 Output the color tone to the liquid crystal via the drain bus 2 0 5, in order to scan the drive circuit 2 0 3 in order to add the electric house to the gate bus 2 1 1 * The detailed operation of the scan circuit 2 0 3 will be described later * but the selection voltage (Vg ο η ) When applied to the gate bus 21 1, the TFT 2 16 in the TFT liquid crystal panel 205 becomes the selected state, and the hue voltage passing through the drain bus 2 1 0 is applied to the liquid crystal 217. The effective voltage value applied to the liquid crystal 217 The twist angle of the liquid crystal is changed, and the light transmittance is controlled to implement hue display β. Furthermore, a non-selective voltage is applied through the gate bus 2 1 1 (

Vgo f f)時TFT液晶板205內之TFT216成 爲非選擇狀態實施保持施加於液晶217之電壓之動作· 將此重複一幀期間*即可選擇全部TFT216 ·用圖3 ，圖4說明關於此掃描驅動電路2 0 3 · 掃描驅動電路2 0 3係如前述圖3所示，由8個掃描 驅動器301-1至301-8構成•當FLM信號翰入 掃描驅動器301 — 1時同步於CL3時φ將選擇竃壓（ Vgon)施加於第一閘極線G1 ·此時，自其他閘極線 G2將非選擇電壓（Vgof ί)施加於G768·* 用圓4說明道些動作*如前述，FLM信號成爲 "高 —位準，同步於CL3時鏟之降下時間，經第1閘極線G1將 本紙張尺度诚用中阀®家標準（CNS ) Μ規格（2 Η) X 297公釐） (对先閜讀背面之注意事項再續{?5本頁) 訂 -7 - ^ AU033 B7 灯於部中决行卑.^β-χίί贽合；P社印·«,"本 五、發明説明 (5 ) 選擇《壓 (V g on) 施加於電壓 波形V 8 1 •而當 1 i F L Μ 信 號成 爲 "•低- 位 準*再输 入 CL3 時鐘 時，同步於 1 降 下 時 間 ，將 非 選擇電 & (V g 0 f f ) 施加 於第1閘極 η 先 閱 I 線 G1之電壓波形Vg ] L ，將選擇電K(Vgon)施加 I 於 第 2 閘 極線 G2之電壓波形V g 2 *更當输入CL3時鐘時 硝 背‘ ifj 1 I » 同 步於 降下 時 間，將非 選擇罨蹉 ( V g of f )施加於 之 注 意- 1 1 第 2 G 2 之m 壓 波形V g 2，將選擇 電壓 (V g ο η )施 事 項 1 1 加 於 第 3 閘極 線 G 3之 電 壓波形V g 3 * 丹 填 % 本 { 装 由 重 複此 動 作，將 選 擇電壓（ V go η ) 施加於第 頁 1 1 • 1 0 0 閘 極線 G 10 0 之 電躔波形 V g 1 0 0 *當選擇電 1 1 壓 ( V g ο η ) 施加於 第 1 0 0閘 極線G 10 0之電壓波 1 I 形 V S 1 0 0 時 ，掃描 驩 動器3 0 1 -1 之输 出啓動信號 J 訂 I ( E 0 1 )成 爲 "髙> 位 準，输入 下 -段 之掃描親動器 1 1 I 3 0 1 2 · 掃描驅動 器 3 0 1- 2 中， 啓動 信號（ 1 ! Ε 0 1 ) 成爲 •V. 高/位 準 ，當输入 CL3時鐘時 同步於其 1 1 降 下 時 間 ，將 選 擇電壓 ( V g ο η ) 施加 於第 1 0 1閘極 { •.-I 線 G 1 0 1之 電壓波形 V g 1 0 1 • 以下 實施與掃描鼴動 1 I 器 3 0 1 -1 同 樣之動 作 • 1 I 又 9 掃描騙 劻器3 0 1 - 3以 下 之掃描臞 動器3 0 1 - 1 1 1 中 亦 同 樣输 入 输入啓 動 信號時同 步於C L 3 時鏟之降 - 1 1 1 下 時 間 寅施 依 序將選 擇 霄壓（V 8 ο η )施 加於閘極匯 1 1 流 排 2 1 1之 動 作•而 重 複此動作 一 幀期 間時 •因將選擇 1 1 電 壓 ( V g 0 η )施加 於 所有閘極 匯 流排 2 1 1，故液晶 1 I 板 2 0 5 內之 所 有T F T 2 1 6成 爲 選擇 狀態 ，而可將汲 1 1 本紙张反度诚州中國®家標淨（rNS Μ4現格（210X297公麈） 7 0 A7 B7 五、發明説明（6 ) 極匯流排210轉送之色調電壓施加於全像索之液晶 2 17· 完成一幀期間時，FLM信號再成爲、髙-位準•再 同步於CL3 時鐘之降下時問將選擇竃壓（Vgon) 施加於第1閘極線G 1之電壓波形Vg 1，而將非選擇電 壓（Vg 〇 f f )施加於第2閘極線G2以下之閘極匯流 排2 1 1 ·由於重複此動作，即可將各幀期間之顯示資料 顯示於液晶板2 0 5 · [發明欲解決之課題〕 用圖5之先前掃描现動回路之動作波形圖*圖6之& 前之液晶顯示器之顯示例說明先前例之課題· 圖5之先前掃描驅動電路之動作波形豳中，與圖4胃 號名之意相同，惟記載F LM脈街之產生間隔比圔4之_ 動波形短之狀態*圖6之先前液晶顯示器之顯示例中*在 畫面上部有顯示資料•畜面中央部有歸線期間之黑資料， 盡面下部有再度顋示資料顯示之顯示例* 圖4記載之定時圖係說明垂直總線數*即· F LM、 髙/位準至下一" 髙“位準止之CL3 時鐘數爲768 時鏟以上者·惟如圈5，圖6所示•垂直總線數即， \· F LM、髙-位準至下一、高—位準止之CL 3時鏟數爲 7 6 8時鐘以下時將發生課題•圖5說假想垂直總線舄 7 6 5線*對液晶板2 0 5之總線數不足3線之情形* 圖5中*因經閘極線G 7 6 6施加選擇電壓（ 本紙張尺度適圯中围因家標率（（:NS > Λ4規格（2丨0X297公釐} ("先"請背而之11意事項4%、^Γ本頁j -^ L. T _ *-β 417033 a? ___B7_五、發明説明（7 ) Vgon)時，FLM信號成爲"高•位準，故等於亦將 選擇電壓（Vgon)同時施加於閘極線G1 ·閘極線 G 1爲選擇狀態時，經汲極匯流排2 1 0轉送對應於顯示 有效資料之第1線資料之色調電壓•故*由於顯示於閘極 線7 6 6以下者成爲與顯示於閘極線G 1顯示之顯示資料 同一資料，故如圖6所示，顯示於畫面上部之賫料以雙重 顯示於畜面下部·因而發生無法獲得良好顯示之問題* 〔發明之目的〕 本發明之目的在提供自系統轉送之顯示資料中，即使 總線數比液晶板之總線數少時，亦能良好顯示之液晶囅動 電路及使用其之液晶顯示裝置· 〔解決課題之方法〕 以複數掃描隳動器構成掃描驅動電路，前述掃描驅動 器設使動作有效之控制信號即首線標識信號*及即使同一 資料，惟選擇髙電壓位準與低電壓位準之2種電壓中任一 種之控制信號之輸出交流化信號*而前述掃描驅動器設一 個以上之第1群掃描®動器，及分離爲第1群以外之第2 群掃描驅動器•前述首線標識信猇係以第1群掃描驅動器 及第2群掃描既動器分離•而前述輸出交流化信號係以第 1群掃描驅動器與第2群掃描驩動器分離，隨輸入之顯示 奎面資料之垂直總線數控制前述二個首線標識僧號及前述 二個输出交流化信猇之發生時間狀態之裝置· 本紙烺尺度適州中园®家標率（CNS ) Λ4吼格（2i〇X297公釐) (誚尤閲讀背面之注意事項再填3本頁) 裝 -訂 -10 - s:/:部中决#卑1,¾泠合竹社印¥ .f OA-" A? ________B7____五、發明説明（8 ) 輸入之顛示畫面資料之垂直總線數比液晶板之垂直線 數少時，使第1群之掃描驅動器之首線標識信號無效，而 使第1群之掃描®動器之输出交流化信號有效*將髙電壓 位準反映於第1群之掃描親動器之全输出信號•同時將液 晶板之對應之TFT爲ON狀態，具有可寫進動作之作用 〇 又，由於使第2群之掃描輻動器之输出交流化信號爲 無效，而使第2群之掃描驅動器之首線標識信號爲有效* 依序將髙電壓位準反映於第2群之掃描驅動器之输出信號 *將液晶板之對應之TFT爲ON狀態，具有可依序按各 線實施寫進動作之作用· 更又•输入之顯示S面資料之垂直總線數比液晶板之 垂直線數爲多時，由於使第1群之掃描驅動器之輪出交流 化信號爲無效，而使第1群之掃描驅動器之首線檩識信號 爲有效，依序將高電壓位準反映於第1群之掃描驅動器之 输出信號，將液晶板對應之TFT爲ON狀態，具有依序 按各線實施寫進動作之作用，依序將高電壓水平反映於第 1群之掃描驅動器之輸出信號，將液晶板對應之TFT依 序爲接通（ON)狀態後*由於使第2群之掃描®動器之 首線標識信號爲有效*依序將高電壓位準反映於第2群之 掃描糎動器之输出信號，將液晶板對應之TF T爲ON狀 態，具有可依序按各線實施寫進動作之作用· - 〔發明之效果〕 本纸張尺度边用中七@：家楳半.（(1^)八4規格（2]0乂297公* ) " ~ " -Π - -I» - HH I u^— ^^^1 I 4^r at-^i Ln ml 一^ (邻先閲讀t.il之注t-事項再續巧本頁) 1 417033 .¾¾-部中吹榡準局！oc-t消和At竹社印 五、發明説明（9 ) 依本發明因同時將選擇竃壓V g ο η反映於一個以上 之掃描驅動器之全输出端子，故可使TF Τ液晶板內之複 數線之iT F Τ爲選擇狀態*而可使複數線同時寫進動作· 故即使输入之顯示資料之垂直總線數比T F Τ液晶板之總 線數爲少*亦可防止因有效顯示資料之雙重顯示等之不良 顯示之發生*而可實現良好之顯示* 又，輸入之顯示資料之垂直總線數比T F Τ液晶板之 總線數多時*因掃描堪動電路與先前同樣自閘極匯流排 G1施加選擇電壓Vgon，故可實現良好之顯示· 〔實施例〕 茲以圖1本發明之液晶顯示器方塊圖，圈7本發明之 掃描驩動電路之構成圖•圖8本發明之掃描羼動電路之動 作波形圖*圖9本發明之掃描驅動器之電壓關係圖•圖 10本發明之掃描驅動器之交流化信號與資料與輸出電壓 位準之關係圖，圖1 1本發明之液晶顯示器之顯示例*圖 12本發明之液晶控制器之電路圖•圖13本發明之液晶 控制器之動作說明，圖14本發明之掃描驩動電路之另 一動作波形圚，說明本發明之寅施例* 圖1之本發明之液晶顯示裝置之方裨圖中，1 0 1係 由系統（未圓示）供給之顯示資料及轉送同步信號之信號 匯流排，1 0 2係液晶控制器· 1 0 3係信號驅動電路， 104係掃描穎動電路，105係電源電路，106係 TFT液晶板•液晶控制器102之输出信猇中，107 (讣先閱讀f.面之注t-事項再填巧本頁) Η.Vgo ff) When the TFT 216 in the TFT liquid crystal panel 205 becomes a non-selected state, the operation of maintaining the voltage applied to the liquid crystal 217 is performed. Repeat this for one frame period * to select all the TFT 216. Figure 3 and Figure 4 explain the scan drive. Circuit 2 0 3 · Scanning driving circuit 2 0 3 is composed of 8 scanning drivers 301-1 to 301-8 as shown in Figure 3 above. When the FLM signal is input to scanning driver 301-1, it will be synchronized to CL3 when φ will be The selection voltage (Vgon) is applied to the first gate line G1. At this time, a non-selection voltage (Vgof ί) is applied to G768 from the other gate line G2. * Use circle 4 to explain some actions. * As mentioned above, the FLM signal Become "high-level", synchronizing with the lowering time of the shovel at CL3, the paper size is used by the first gate line G1 in the middle valve® home standard (CNS) M size (2 mm) X 297 mm) (yes First read the precautions on the back (continued on page 5) -7-^ 033 AU033 B7 The light in the ministry must be humbled. ^ Β-χίί 贽; P company seal · «, "This fifth, invention description ( 5) Select "V g on" to be applied to the voltage waveform V 8 1 • and when the 1 i FL Μ signal becomes" • low-level * and then CL3 is input At the same time as the falling time of 1, apply the non-selective electric current & (V g 0 ff) to the first gate η and read the voltage waveform Vg] L of the I line G1 first, and apply the selective electric K (Vgon) I to the first 2 The voltage waveform Vg 2 of the gate line G2 * Even when the CL3 clock is input, the "ifj 1 I »synchronizes with the lowering time, and pays attention to the non-selective 罨 蹉 (V g of f)-1 1 2 The m voltage waveform V g 2 of G 2 is to add the selection voltage (V g ο η) to the voltage waveform V g 3 of the third gate line G 3. Apply the selection voltage (V go η) to page 1 1 • 1 0 0 The voltage waveform V g 1 0 0 of the gate line G 10 0 * When the selection voltage 1 1 voltage (V g ο η) is applied to the first 0 0 Gate line G 10 0 Voltage wave 1 I-shaped VS 1 0 0 When the scan actuator 3 0 1 -1 outputs the start signal J Order I (E 0 1) becomes" 髙 > level, input Scanning actuator 1 1 I 3 0 1 2 in the lower section-In the scanning driver 3 0 1- 2, the start signal (1! Ε 0 1) becomes • V. High / level When the CL3 clock is input, it is synchronized with its 1 1 fall time, and the selection voltage (V g ο η) is applied to the 1 0 1 gate {• .-I line G 1 0 1 voltage waveform V g 1 0 1 • below Perform the same operation as the scan auto 1 I device 3 0 1 -1 • 1 I and 9 scan fraud device 3 0 1-3 or less scan actuator 3 0 1-1 1 1 The input start signal is also input in the same way Time synchronization at CL 3 Hourly shovel drop-1 1 1 The next time Yin Shi applies the selection pressure (V 8 ο η) to the gate sink 1 1 bus 2 1 1 in sequence • and repeat this action for one frame During the period • Since a selection voltage of 1 1 (V g 0 η) is applied to all the gate buses 2 1 1, all the TFTs 2 1 6 in the liquid crystal 1 I panel 2 0 5 are selected, and the drain 1 1 This paper reverses Chengzhou China® House Standard Net (rNS Μ4 is present (210X297 cm) 7 0 A7 B7 V. Description of the invention (6) The hue voltage transferred by the pole bus 210 is applied to the LCD of the full image 2 17 · When one frame period is completed, the FLM signal will return to 髙 -level. • When it is synchronized to CL3 When the clock is lowered, a selective voltage (Vgon) is applied to the voltage waveform Vg 1 of the first gate line G 1, and a non-selective voltage (Vg ff) is applied to the gates below the second gate line G 2. Row 2 1 1 · As this action is repeated, the display data of each frame period can be displayed on the LCD panel 2 0 5 [Problem to be solved by the invention] Using the previous waveform of the current scanning circuit in Figure 5 * Figure 6 The & display example of the previous liquid crystal display illustrates the problem of the previous example. The operation waveform of the previous scan drive circuit in Fig. 5 has the same meaning as the name of the stomach in Fig. 4, but the interval ratio of the F LM pulse street is recorded. 4 of _ the state of short moving waveforms * In the previous LCD display example in Figure 6 * there is display data in the upper part of the screen Example * The timing diagram shown in Figure 4 illustrates the number of vertical buses *, that is, F LM, 髙 / level to the next "髙 "CL3 clock level up to 768 when the number of shovel is more than the circle · Figure 5 Shown • Number of vertical buses, ie, CL 3 of FLM, 髙 -level to next, high-level Problems occur when the number of shovel is below 7 6 8 clocks. Figure 5: Suppose that the vertical bus is 舄 7 6 5 lines * The number of buses to LCD panel 2 0 5 is less than 3 lines * In Figure 5 * due to the gate line G 7 6 6 Apply the selection voltage (The paper size is suitable for the house standard rate ((: NS > Λ4 specification (2 丨 0X297mm)) (" First " please note the 11th notice 4%, ^ Γ This page j-^ L. T _ * -β 417033 a? ___B7_V. In the description of the invention (7) Vgon), the FLM signal becomes " high • level, so it is equal to applying the selection voltage (Vgon) at the same time When the gate line G1 and gate line G1 are selected, the tone voltage corresponding to the first line data showing the effective data is transmitted via the drain bus 2 1 0. Therefore * because it is displayed on the gate line 7 6 6 The following is the same data as the display data displayed on the gate line G1. Therefore, as shown in FIG. 6, the material displayed on the upper part of the screen is displayed double on the lower part of the animal"s face. Therefore, a problem that a good display cannot be obtained * [ Object of the invention] The object of the present invention is to provide display data transferred from the system, even if the number of buses is less than that of the LCD panel. LCD liquid crystal display circuit with good display and liquid crystal display device using the same. [Method for solving the problem] The scan driving circuit is constituted by a plurality of scanning actuators. The aforementioned scanning driver is provided with a first line identification signal, which is a control signal for making the operation effective. The same data, but the output signal of the control signal of either one of the two voltages of the 髙 voltage level and the low voltage level is selected *, and the aforementioned scan driver is provided with more than one group 1 scan® actuator and separated into the first The second group scan driver other than the first group. The aforementioned front line identification signal is separated by the first group scan driver and the second group scan actuator. The output AC signal is separated by the first group scan driver and the second group. Scanners are separated, and the number of vertical buses that display the data on the Kui surface is input. The device that controls the aforementioned two front line identification monks and the aforementioned two output timings of the exchanged letter. This paper is the standard of Shizhou Zhongyuan®. Family standard rate (CNS) Λ4 roar (2i〇X297 mm) (Notes on the back of Chi You, please fill in this page again) Binding-book-10-s: /: 部 中 绝 # 贝 1, ¾ Linghe Bamboo Club Seal ¥ .f OA- " A? ________B7____V. Description of the invention (8) When the number of vertical buses of the inputted screen data is less than the number of vertical lines of the LCD panel, the first line identification signal of the scan driver of the first group is invalidated, and the first group is invalidated. The output AC signal of the Scanner® actuator is effective * The 髙 voltage level is reflected in the full output signal of the scanning parent actuators in the first group Action 〇 In addition, because the output AC signal of the scanning radiator of the second group is invalidated, the first line identification signal of the scanning driver of the second group is valid * The 髙 voltage level is sequentially reflected in the second group The output signal of the scan driver * turns the corresponding TFT of the liquid crystal panel to the ON state, which has the effect of sequentially writing into each line. Furthermore, the number of vertical buses of the input S display data is greater than the vertical line of the liquid crystal panel. When the number is large, the AC drive signal of the scan driver of the first group is invalidated, and the first line identification signal of the scan driver of the first group is enabled, and the high voltage level is sequentially reflected in the first Group Scan Driver The output signal turns the TFT corresponding to the liquid crystal panel into an ON state, which has the effect of sequentially writing in the lines, reflecting the high voltage level in sequence to the output signal of the scan driver of the first group, and changing the TFT corresponding to the liquid crystal panel according to After the sequence is ON *, because the first line identification signal of the Scanner® 2 actuator of the second group is enabled * The high voltage level is reflected in sequence to the output signal of the scan actuator of the second group. The TF T corresponding to the LCD panel is in the ON state, which has the effect of sequentially writing into the lines.-[Effects of the invention] Middle 7 in this paper scale @: 家 楳 半. ((1 ^) 8 4 Specifications (2) 0 乂 297 public *) "~ " -Π--I »-HH I u ^ — ^^^ 1 I 4 ^ r at- ^ i Ln ml 1 ^ (Read the t.il first Note t- matters continued on this page) 1 417033 .¾¾-Interpretation of the standard! oc-t elimination and At Bamboo Co., Ltd. V. Description of the invention (9) According to the present invention, since the selection pressure V g ο η is reflected in more than one full output terminal of the scan driver, the TF TFT LCD panel can be used. The iT F Τ of plural lines is selected state *, so that plural lines can be written at the same time. Therefore, even if the number of vertical buses of the input display data is less than the number of buses of the TF T LCD panel, it can also prevent double display due to the effective display of data. Occurrence of poor display such as display * and good display can be achieved * Also, when the number of vertical buses of the input display data is more than the number of buses of the TF TFT LCD panel * Because the scanning circuit is the same as the previous self-gate bus G1 [Selection voltage Vgon is applied, so good display can be achieved. [Embodiment] The block diagram of the liquid crystal display of the present invention is shown in FIG. 1, and the structure of the scanning motion circuit of the present invention is shown in circle 7. FIG. 8 The scanning motion circuit of the present invention Operation waveform diagram * Fig. 9 Voltage relationship diagram of the scan driver of the present invention. Fig. 10 Relationship diagram of AC signal and data and output voltage level of the scan driver of the present invention. Fig. 11 Example * Fig. 12 Circuit diagram of the liquid crystal controller of the present invention. Fig. 13 Operation description of the liquid crystal controller of the present invention. Fig. 14 Another operation waveform of the scanning motion circuit of the present invention. In the figure of the liquid crystal display device of the present invention, 101 is a display bus provided by a system (not shown) and a signal bus for transmitting a synchronization signal, and 102 is a liquid crystal controller · 103 series Signal drive circuit, 104 series scanning actuator circuit, 105 series power supply circuit, 106 series TFT LCD panel • LCD controller 102 output letter, 107 (讣 Please read the note t-face on f. Before filling in this page ) Η.

-.IT 本紙張尺度適用中囷®家標肀（i:NS ) Λ4規格（2】0Χ 297公廣） -12 - ^部中央枒準局G-T"fr合竹社印製 A7 ^ Α\10· -_ β7 ____五、發明説明（10 ) 係含轉送於信號驅動電路1 0 3之顯示資料及同步信號之 信號匯流排，1 0 8係掃描驅勖電路1 0 4之中反轉输出 電K之交流化信號GM，1 0 9，1 1 0係使掃插聪動電 路104之動作起動之FLM1 · FLM2 (首線檫識倌 號），111係掃描驅動電路104之動作時鏟之CL3 時鐘* 1 1 2係供給電源幫路1 0 5之液晶交流化信號· 1 1 3係將信號驅動電路1 0 3產生之調色m壓轉送 於TFT液晶板1 0 6之汲極匯流排* 1 1 4係將掃描駆 勖電路1 0 4產生之TFT液晶板1 0 6之各線爲選擇， 非選擇狀態之閘極匯流排•電源電路1 0 5產生之電源中 ，1 1 5係供給掃描隳動電路1 〇 4之電壓中選擇電抵位 準之Vgon電壓* 116係供給掃描驅動電路104之 竃壓中非選擇電壓位準之Vg 〇 f f電壓，1 1 7係轉送 供給液晶板之對向電極電壓之對向《極線，118係供給 信號驅動電路113之調色電壓· T F T液晶板1 0 6係汲極匯流排與閘極匯流排 1 1 4交叉成矩陣狀*構成像素部之交叉部•即由1 1 9 之開關元件之TFT，及1 2 0之液晶構成· TFT1 1 9之閘極連接閘棰匯流排1 1 4，而汲極連接 汲極匯流排113·故，121之TF了之119之源極 成爲液晶1 20 —方之電極•液晶1 2 0之另一方之電極 係1 22之對向電極，係連接於對向電極線1 1 7 * 圖7之本發明之掃描駆動電路之構成圓中，7 0 1 — 1至701_8係掃描驅動器，參考HD66215 (日 m I-I —I— m 1 j ^^1 · I -! I— - I ^^1· ^J. (請先聞讀^-而之注t事項再,Λί本頁) 本紙張尺度璉用中國国家標埤.{ CNS ) Λ4規格（210X297公釐） -13 - 4U033 五、發明説明（11 ) 立L C D控制器/驅動器LSI data book :半導II事業部 -94. 3製作，P622—634)，以8個構成•本 實施例I*因以7 6 8條線說明TFT液晶板1 〇 6之垂直 解線度，故由於掃描18動器：HD662 1 5具有1 00 输出端子’故掃描腰動器70 1 - 8使用G70 1至 G 7 6 8 * 掃描驅動器7 0 1 — 1中，分別在输入啓動信躭端子 (DI01)有 FLM1 (109)信號，在時鐘（CL )端子有CL3(111) ’在交流化端子（Μ)有交流 化信號GM (108) *在電源端子VI’ V6有選擇電 壓位準Vgon，在電源端子V5，VEE有選擇電應位 準Vg 〇 f f連接•掃描韁動器70 1_2中，输入啓動 信號端子（DI01)連接FLM2(110)· 掃描驅動器7 0 1 _ 3之输入啓動信號端子（ DI01)連接前段之掃描驅動器701—2之输出啓動 信號端子（DI04) •掃描驩動器701_4以下之掃 描驅動器7 0 1亦同樣在输入啓動信猇端子（D I 0 1 ) 串聯（cascade)連接前段之掃描臛動器7 0 1之輸出啓 動信號端子（DI04)· 又分別在掃描驩動器7 0 1 — 2以下之掃描驅動器 701之時鐘（CL)端子有CL3C111)，在電源 端子VI，V6有選擇電壓位準Vg〇n，在竜傾端子 V5，VEE有非選擇電壓位準Vgo f f連接·掃描激 勵器70 1 — 3以下之掃描驅動器70 1中，實現液晶交 本紙張尺度试用中园國家標率（CNS ) Λ4規格（210X 297公4 ) (請先站讀背面之注舍事項再填艿本頁) ¥ ，.丁 -=·β -14 - A7 B7 M浐部中决枕;?·^卩-τ·消资合0打印絮 五、發明説明（ 12 ) 流化之交流化端子 ( Μ ) 均 固 定於 髙 位 準 • I r 圖8之本 發 明 之掃描 U 動 電 路之動 作 波形 圚 中 本 圖 係使 交流化 倌 號 1 0 8 G Μ 有 效 時之 波 形 Bf 9 G Μ 係 交 流 η 先 Μ [ 化 信號1 0 8 之驅 動 波形 » F L Μ 1 > F L Μ 2 係 首線 標 | 識信 號1 0 9 * 1 1 0之 驅 動 波形 « C L 3 係 動 作 時 鐘 讀 背、 Ι& 1 I 1 1 1之驅 動 波形 » Ε 〇 2 係 掃描 驩 動 器 7 0 1 — 2 輸 出 之 注 1 1 I 之 輸 出啓動 信 號 端 子 (D I 0 4 ) 之信 號 V g 1 至 事 項 再 1 1 V S 7 6 8 係 閘 極 匯 流排 工 1 4 之 駆 動波 形 9 填 % 本 < 裝 面9之本 發 明 之掃插駆 動 器 之 電 壓 關 係 圖 中 V 1 % 頁 i 1 V 6 係掃描 堪 動 器 7 0 1 输出 之 電 壓 位 準 中 高 電 壓 位 準 t i 1 V 5 ，V Ε Ε 係 掃描 驅動 器 7 0 1 輸 出 之 電壓 位 準 中 低 電 1 1 壓 位 準•故 做 爲 T FT 液 晶 顯 示 器 用 掃描 驅 動 器 7 0 1 1 使 用 時*將 選 擇 電 壓 位準 之 V S 0 η 電 m 供 給 V 1 » V 6 1 ί I 端 子 ，將非 選 擇 電 懕 位準 之 V g 0 • f f 電 壓 供給 V 5 1 ! V ε Ε端子 • 1 I 圖1 0 之 本 發 明 之掃 描 驅 動 器 之 交 流 化 信 號 與 資 料與 ( Ί 输 出 電壓位 準 之 關 係 圖中 交 流 化端 子 Μ 爲 1 資 料 I 1 ( D a t a ) 爲 1 /時 1 選 擇 電 壓 位 準 V 1 同 樣交 流 1 I 化 接 頭Μ爲 - 1 資料 ( D a t a ) 爲 0 時 選 擇 - 1 1 I 電 壓 位準V 5 交 流化端 子 Μ 爲 0 資 料 ( D a t a 1 1 ) 爲 " 1 - 時 選 擇 電壓 位準 V £ E 交 流 化端 子 Μ 爲 1 1 0 ，資料 ( D a t a ) 爲 0 φ 時 1 選 擇 電壓 位 準 V 6 1 1 1 . 圖1 1 之 本 發 明 之液 晶 顯 示 器 之 顯 示 例 係 在 η 上 部 顯 1 1 1 適 度 尺 紙 本 率 標 家 格 規 A7 B7 餌^:郜十次楫淖局wh消於合竹.¾印"":本 五、發明説明 ( 13 ) J 示歸線期 間 之黑 資 料 t 在 匯中 央部 顯示 顯 示 資料 » 在 圖 下 部 顯 示 歸線 期 間 之 黑 資 料之顯 示 例 • 圖 丨1 2 之 本 發 明 之 液 晶控 制 器 之電 路 圓 中， 1 2 0 1 I 係 R S 正 反 器 ( f 1 ip -f 1 〇 P ) ] L 2 0 2 ] L 2 〇 3係正 先 閲 I 反 器 1 2 0 4 係 定 時 調 整電 路 產生 C L 3時 鏟 • 讀 背、 而 1 1 1 1 2 0 5 係 計數 器 12 0 6 係計 數 器 12 0 5 之 輸 之 注 意· 1 1 出 匯 流 排 1 2 0 7 係 閂 鎖以 計數器输出 匯 流排 轉 送 之 資 事 項 再 1 1 料 之 閂 鎖 器 1 2 0 8 係 轉送 閂 鎖 器1 2 0 7閂鎖之計 數 填 本 ( % 值 之 資 料 匯 流 排 1 2 0 9係加 算 -1 之 加 算電 路 » 頁 I ! 1 2 1 0 係 轉 送 加 算 電 路 12 0 9 输出 之 資 料之 資 料 匯 流 1 I 排 1 2 1 1 係 加 算 1 1 0 0 之 加 算電 路 t 12 1 2 係 轉 1 1 送 加 算 電 路 1 2 1 1 输 出 之資 料 之資料 匯 流排* 1 2 1 3 1. 訂 | » 1 2 1 4 1 2 1 5 係 比較 電 路 ,1 2 1 6係 正 反 器 » 1 1 1 2 1 7 1 2 1 8 係 0 R電 路 12 1 9 係選 擇 電 路 〇 1 1 圖 1 3 之 本發 明 之 液 晶控 制 器 之動 作 說 明圖 中 1 I V S Y Ν C Η S Y N C * D S P T Μ G 均 係含 於 白 系 統 < 1 轉 送 之 信 號 匯 流排 之 同 步 信號 V S Υ N C 係垂 直 同 步 信 1 I 號 t Η S Υ Ν C 係 位 準 同 步信 號 D S P T M G 係 表 示顯 1 I 示 資 料 有效 之 顯 示 有效信號之 各驅 動波形 圖 0 1 1 | 計數器输 出係 計數 器 12 0 5 输出 之值 V ，Ν 0 D £ 0 1 1 | 1 N 0 D Ε 1 » N 0 D E 2， N 0 D Ε 3 t NO D E 4 V 1 1 N 0 D Ε 5 * Ν 0 D E 6 係各爲 R 5正 反 器 12 0 1 t 正 1 1 反 器 1 2 0 2 觸 發 器 1 2 0 3 * 比較 電 路 12 1 3 1 正 1 I 反 器 1 2 1 6 比 較 電 路 12 1 4 •比 較 電 路1 2 1 5 输 1 1 本紙張尺度遶用中國围家標肀（CNS ) Λ4規格（2丨0.X297公釐） 16 - 經崁部中女杼卑^β-T消贽合作.ii印絮 Ί ΑΠ〇33_ y 一 五、發明説明（14 ) 出之驅動波形，而（a )爲脈衝發生於GM信號時之韁動 波形圖，（b )爲脈衡不發生於G Μ信號時之駆勖波形圚 • ! 圖14之本發明之掃描腐動電路之另一動作波形圖中 *本圖係使交流化信號1 0 8無效時之波形圚•關於信號 名之意係與圖8相同· 再由晒1說明本發明之詳細動作· 液晶控制器1 0 2係將以信猇匯流排1 0 1轉送之顯 示資料及同步信號變換爲驩動T F Τ液晶顯示器用之顯示 資料及液晶驅動信號•而以信號匯流排轉送供給信號藤動 電路1 0 3之顯示資料及液晶韁動信號，以GM : 1 0 8 ，FLM1 : 109-FLM2: 110，CL3: 1 1 1轉送供給掃描驅動電路1 0 4之液晶信號，以交流 化信號1 1 2轉送供給電源電路1 0 5之信號•在信號驩 動電路1 0 3，依序取進以信號匯流排1 0 7轉送之顯示 資料，完成一位準線分之顯示資料之取進時，變換爲對應 於一位準線分之顯示資料之調色電壓·自汲極匯流排 1 1 3输出•信猇驅動m路1 0 3將此按各線重複動作* 信號瓤動電路1 0 3同步於經汲極匯流排將色諝電壓 輸出於液晶板1 0 6 *在掃描驅動電路4 0 4依序將選擇 電壓施加於閘極匯流排1 1 4 ·關於掃描驅動《路1 0 4 之詳細動作容後申述•惟將選擇電懕（Vg 〇 η )施加於 閘極匯流排時TFT液晶板1 0 6內之TFT 1 1 9成爲 選擇狀態，將經汲極匯流排1 1 3之色調電壓施加於液晶 本紙伕尺度過用中國S家標率（f、NS ) Λ4規格（2IOX297公釐） 一 17 — (ΐίι閱讀背面之注意事項再填巧本頁) 訂 五、發明説明（15 ) 12 0* 由施加於此液晶1 化，控制光之透過率以 加非選擇電壓（Vg 〇 TFT1 1 9成爲非選 120之電壓之動作· 所有T F T 1 1 9 ·用 11說明此掃描驅動電 掃描驅動電路10 驅動器701 — 1至7 A7 B7 2 0之實效電壓值使液晶之扭角變 顯示色調·又閘極匯流排1 1 4印 f f)時TFT液晶板106內之 擇狀態，實施保持施加於液晶 由於將此重複一幀期間•即可選擇 圇7*圖8，圖9·圓10，圖 路 1 0 4 · 4係如前述匾7所示，由8個掃描 0 1 — 8構成*當GM信號以"低 >位準輸入掃描驅動器7 0 1 — 1時•選擇電壓（ Vg〇n)施加於全部第1閘極線G1至第1〇〇 閘極 線100。用圖8至圖10說明此情形· 掃描謳動器7 0 1之電壓關係如圖9所示VI，V6 爲高電壓位準，成爲選擇罨壓（Vgon) •而V5， VEE爲低電廬位準•而如圓1 0所示*交流化端子Μ爲 ·資料（〇313)爲、0>時，選擇電壓位準 V6 ·因對應於掃描駆動器701之全部閘極線G1至 G100之資料（Data)爲、0< ，故交流化信號 GM成爲、低> 位準時，輸入竈壓端子γ 6之選擇電壓位 準（Vg 〇 η)自所有閘極線输出於G 1 〇〇 ·由此因自 TF Τ液晶板1 〇 6內之閘極線G 1連接於G 1 〇 〇之 TFT 1 1 9成爲選擇狀態，故得以一位準期間寫進 100條線分之資料· 本紙张尺度適用中阈阈家標卒（rNS ) Λ4規格（210X 297公釐） a 閱 背i 1¾ 之 意· 事 項 再 η 本 頁 % 訂 -18 *-.IT This paper size is applicable to China 囷 ® House Standard 肀 (i: NS) Λ4 specification (2) 0 × 297 Gongguang -12-^ Printed by G-T " fr Hezhu Company A7 ^ Α \ 10 · -_ β7 ____ V. Description of the invention (10) is a signal bus including display data and synchronization signals transferred to the signal drive circuit 103, and 108 is the counter drive of the scanning drive circuit 104 The output GM of the alternating-current signal GM, 1 0, 1 1 0 is the FLM1 · FLM2 (first line identification number) which activates the operation of the smart circuit 104, and 111 is the operation of the scan drive circuit 104 CL3 clock of the shovel * 1 1 2 is the liquid crystal AC signal which supplies the power supply circuit 1 0 5 · 1 1 3 is the color pressure m generated by the signal drive circuit 1 0 3 is transferred to the TFT liquid crystal panel 1 0 6 drain Bus * 1 1 4 is the gate bus of the TFT LCD panel 1 0 6 generated by the scanning circuit 1 0 4 as a selection, and the non-selected gate bus • The power generated by the power circuit 1 0 5 is 1 1 5 It is the Vgon voltage selected from the voltage supplied to the scanning automatic circuit 1 〇 4 * 116 is the Vg ff voltage of the non-selected voltage level supplied to the scanning drive circuit 104, 1 1 7 is the counter electrode voltage supplied to the LCD panel. The polar line, 118 is the toning voltage of the signal drive circuit 113. TFT LCD panel 1 0 6 is the drain bus and the gate bus 1 1 4 crosses in a matrix form * The cross section of the pixel part is composed of a TFT with 1 1 9 switching elements and a 1 2 0 liquid crystal. The gate of TFT 1 1 9 is connected to the gate bus 1 1 4 and the drain Connected to the drain busbar 113 · Therefore, the source of 121 and 119 of the TF becomes the liquid crystal 1 20 — square electrode • the other electrode of the liquid crystal 1 2 0 is the counter electrode of 1 22, which is connected to the counter electrode Line 1 1 7 * In the constitution circle of the scanning motor circuit of the present invention shown in FIG. 7, 7 0 1 — 1 to 701_8 are scanning drivers, refer to HD66215 (Japan m II —I — m 1 j ^^ 1 · I-! I —-I ^^ 1 · ^ J. (Please read ^-and note the t-item, Λί this page) This paper size is in accordance with Chinese national standard. {CNS) Λ4 size (210X297 mm) -13 -4U033 V. Description of the invention (11) Stand-alone LCD controller / driver LSI data book: Semi-conductor II Division-94.3 Production, P622-634), consisting of 8 • This embodiment I * is based on 7 6 8 article Line description The vertical resolution of the TFT LCD panel 1 〇6, so scan 18 actuators: HD662 1 5 has 1 00 output terminal "so scan waist actuator 70 1-8 use G70 1 to G 7 6 8 * scan driver In 7 0 1 — 1, there is a FLM1 (109) signal at the input start signal terminal (DI01), and a CL3 (111) at the clock (CL) terminal. "An AC signal GM (108) at the AC terminal (M). ) * Select voltage level Vgon at power terminal VI "V6, select voltage level Vg at power terminal V5 and VEE 〇ff connection • Scan actuator 70 1_2, input start signal terminal (DI01) connected to FLM2 ( 110) · Scanning driver 7 0 1 _3 input start signal terminal (DI01) is connected to the output driver signal start terminal (DI04) of the previous scan driver 701-2. • Scan driver 7 0 1 below the scan driver 701_4 is also the same. The input start signal terminal (DI 0 1) is connected in series (cascade) to the output start signal terminal (DI04) of the previous scan driver 7 0 1 and the scan driver 701 is below the scan driver 7 0 1 — 2 The clock (CL) terminal is CL3C111), and the power terminal VI and V6 are optional Voltage level Vg〇n, at the tilt terminal V5, VEE has a non-selective voltage level Vgo ff connected to the scan driver 70 1 — Scanner driver 70 1 below 3, to achieve the LCD standard paper standard trial in the national standard Rate (CNS) Λ4 specification (210X 297 male 4) (please read the notes on the back and fill in this page) ¥ ，. 丁-= · β -14-A7 B7 M 浐 Middle part pillow;? · ^ 卩 -τ · Consumption information 0. Printing V. Explanation of the invention (12) The fluidized AC terminals (M) are all fixed at the 准 level • I r Fig. 8 The operation waveform of the scanning U moving circuit of the present invention 圚The figure in the center of the figure is the waveform when the AC No. 1 0 G G is valid. Bf 9 G Μ is the AC η first M [the driving waveform of the chemical signal 1 0 8 »FL Μ 1 > FL Μ 2 is the leading line mark | Ignition signal 1 0 9 * 1 1 0 driving waveform «CL 3 is the operation clock read back, Ι & 1 I 1 1 1 driving waveform» Ε 〇 2 is the scanning actuator 7 0 1 — 2 output note 1 1 Signal V g from output start signal terminal (DI 0 4) to Matters 1 1 VS 7 6 8 Series gate bus 1 1 4 of the dynamic waveform 9 fill %% < the voltage relationship diagram of the sweep plug actuator of the present invention with mounting surface 9 V 1% Page i 1 V 6 series The voltage level of the output of the scan driver 7 0 1 is the middle and high voltage level ti 1 V 5, and V Ε Ε is the voltage level of the output of the scan driver 7 0 1. The voltage level is low 1 1 • So it is a T FT LCD Scanner driver for display 7 0 1 1 When in use * supply VS 0 η voltage at selected voltage level to V 1 »V 6 1 ί I terminal V g 0 • ff voltage at non-selected voltage level to V 5 1! V ε Ε terminal • 1 I Figure 10 The AC signal and data of the scan driver of the present invention and (Ί Output voltage level in the diagram. The AC terminal M is 1 and the data I 1 (D ata) is 1 / Hour 1 Select the voltage level V 1 Same AC 1 I The connector M is-1 When the data (D ata) is 0, select-1 1 I Voltage level V 5 AC terminal M is 0. Data (D ata 1 1) is selected when voltage level V £ E AC terminal M is 1 1 0 and data (D ata) is 0 φ 1 is selected. Voltage level V 6 1 1 1. The display example of the liquid crystal display of the present invention shown in FIG. 1 is shown on the upper part of η. 1 1 1 Moderate rule of paper standard A7 B7 bait ^: 郜 Ten times 楫 淖 wh Disappear in the bamboo. ¾Print " ": This fifth, the invention description (13) J shows the black data during the return line t Shows the display data in the central part of the sink »The display example of the black data during the return line is shown in the lower part of the figure • Figure 丨 In the circuit circle of the LCD controller of the present invention, 1 2 0 1 I is an RS flip-flop (f 1 ip -f 1 〇P)] L 2 0 2] L 2 〇3 I Inverter 1 2 0 4 Series timing adjustment circuit generates CL 3 shovel • Read back, and 1 1 1 1 2 0 5 Series counter 12 0 6 Series counter 12 0 5 Note for input · 1 1 Out bus 1 2 0 7 The latches are transferred to the counter to output the data from the bus. 1 1 The latches are forwarded 1 2 0 8 are the latches that are transferred 1 2 0 7 The counted fill of the latches (% value data bus 1 2 0 9 Addition circuit for addition -1 »Page I! 1 2 1 0 is the transfer of the data from the addition circuit 12 0 9 data stream 1 I row 1 2 1 1 is the addition circuit for the addition 1 1 0 0 t 12 1 2 is the conversion 1 1 Send and add circuit 1 2 1 1 Data bus for output data * 1 2 1 3 1. Order | »1 2 1 4 1 2 1 5 is a comparison circuit, 1 2 1 6 is a flip-flop» 1 1 1 2 1 7 1 2 1 8 Series 0 R circuit 12 1 9 Series selection circuit 0 1 1 Figure 1 3 Description of the operation of the LCD controller of the present invention Figure 1 IVSY Ν C Η SYNC * DSPT MG are all included in the white system < 1 Sync signal VS 1 NC is a vertical sync signal 1 I t Η S Υ Ν C is a level synchronization signal DSPTMG is a display 1 I indicates that the data is valid Signal driving waveforms 0 1 1 | Counter output is the value V of the counter 12 0 5 output, Ν 0 D £ 0 1 1 | 1 N 0 D Ε 1 »N 0 DE 2, N 0 D Ε 3 t NO DE 4 V 1 1 N 0 D Ε 5 * Ν 0 DE 6 are R 5 flip-flops 12 0 1 t 1 1 flip-flop 1 2 0 2 flip-flop 1 2 0 3 * comparison circuit 12 1 3 1 positive 1 I Inverter 1 2 1 6 Comparison circuit 12 1 4 • Comparison circuit 1 2 1 5 Lose 1 1 This paper size uses the Chinese standard 围 (CNS) Λ4 specification (2 丨 0.X297 mm) 16-Warp The daughter-in-law of the ministry humbled ^ β-T elimination cooperation. Ii Yinxu ΑΠ〇33_ y 15. The driving waveforms shown in (14) of the invention, and (a) is the waveform of the pulse when the pulse occurs in the GM signal (B) is the waveform when the pulse balance does not occur in the G M signal. • Figure 14 shows another operation waveform of the scanning rotator circuit of the present invention. * This figure invalidates the AC signal 1 0 8 Waveform of time 圚 • The meaning of the signal name is the same as that in Figure 8 · The detailed operation of the present invention will be described by the sun 1 · The LCD controller 1 0 2 is the display information to be transferred by the letter bus 1 0 1 The data and synchronization signals are converted into display data and liquid crystal drive signals for the TF TD LCD display. And the signal bus is used to transfer the display data and liquid crystal automatic signals of the signal circuit 3 to GM: 108. FLM1: 109-FLM2: 110, CL3: 1 1 1 Transmits the liquid crystal signal supplied to the scan drive circuit 1 0 4 as an AC signal 1 1 2 Transmits the signal supplied to the power supply circuit 1 0 5 • In the signal joy circuit 1 0 3 In order to take in the display data transferred by the signal bus 1 0 7 in order, when the display data of one line point is taken in, it is converted to the toning voltage and self-draining of the display data corresponding to one line line. The pole bus 1 1 3 output • The signal driver drives the M channel 1 0 3 to repeat this action for each line * The signal motor circuit 1 0 3 synchronizes the color voltage output to the liquid crystal panel 1 0 6 via the sink bus * * The scanning drive circuit 4 0 4 sequentially applies the selection voltage to the gate bus 1 1 4 · The detailed operation of the scanning drive "circuit 104" will be described later. However, the selection voltage (Vg 〇η) is applied to the gate. The TFT 1 1 9 in the TFT LCD panel 1 06 becomes the selected state when the bus The hue voltage of the drain busbar 1 1 3 is applied to the liquid crystal paper. The scale is used in China"s S standard (f, NS). Λ4 specification (2IOX297 mm). 17 — (ΐίι read the precautions on the back and fill in this page again. ) Order V. Description of the invention (15) 12 0 * The action of controlling the light transmittance to add a non-selective voltage (Vg 〇TFT1 1 9 becomes a non-selective 120 voltage operation by applying to the liquid crystal 1) All TFTs 1 1 9 Use 11 to explain this scan drive. Electric scan drive circuit. 10 Driver 701 — 1 to 7 A7 B7 2 0 The effective voltage value changes the twist angle of the liquid crystal to display the color tone. Also the gate bus 1 1 4 ff) The selected state in 106 is implemented and applied to the liquid crystal. As this is repeated for one frame period, you can choose 囵 7 * Figure 8, Figure 9, Circle 10, and Figure Road 1 0 4 · 4 as shown in the aforementioned plaque 7. 8 scans 0 1 — 8 configuration * When the GM signal is input to the scan driver 7 0 1 — 1 at the " low > level • A selection voltage (Vg〇n) is applied to all of the first gate lines G1 to 1〇 〇Gate line 100. Use Figure 8 to Figure 10 to explain this situation. The voltage relationship of the scanning actuator 7 0 1 is shown in Figure VI. V6 is the high voltage level and becomes the selected voltage (Vgon). • V5 and VEE are the low voltage. Level • As shown in circle 10 * When the AC terminal M is • When the data (〇313) is 0 and gt, select the voltage level V6. Because it corresponds to all the gate lines G1 to G100 of the scan actuator 701. The data (Data) is 0 <, so when the AC signal GM becomes low, the selection voltage level (Vg 〇η) of the input stove pressure terminal γ 6 is output from all the gate lines to G 1 〇〇 · Therefore, since the gate line G 1 in the TF TFT liquid crystal panel 1 06 is connected to the TFT 1 1 9 of G 1 00, it is selected, so 100 lines of information can be written in a period of time. · This paper Applicable to the middle threshold threshold (rNS) Λ4 specification (210X 297 mm) a Read the meaning of i 1¾ · Matters again η This page% Order-18 *

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