Transcript ITO
純玻璃觸控技術比較 比較項目 電容式 (Capacitive) 音波式 (SAW) 紅外線式 (IR) 觸控介質 手或其他帶導 體之介質 限手或其他軟 性介質 手(可戴手套) 或其他介質 感應方式 運用人體靜電 感應電流變化 偵測聲波 訊號遮斷 電場感應 90%以上 92%以上 100% 90% 佳(錯誤率<1%) 優 佳 佳 2億次 5,000萬次 千萬次以上 透光度 觸控準確度 觸控次數 特性 應用領域 近場感應式 (NFI) 手(可戴手套) 或其他介質 千萬次 防污、防火、 防火、耐刮 防靜電及灰塵、 耐刮、反應速 度快 可靠性高、耐 防火性佳、但 刮、防火性佳、 易受其他介質 但防水及防汙 干擾 性較差 ATM、POI 、 POS、公共查 詢機(KIOSK)、 工業用設備 ATM、OA事 醫療器材及其 務機、電子白 他工業、特殊 板、醫療器材、 用途設備 工業用設備 Source:全球產研整理,2001/11 公共查詢機、 自動售票機、 POI、POS、 醫療器材 Capacitive_ Surface process Capacitive Operation Principle Grounding Input Current Input Current Input Current Input Current 電阻式觸控面板構成及種類 Film/Film Film/Glass Glass/Glass Film/Plastic Dot (Film or Plastic) Spacer 上側 Film Film Glass Film 下側 Film Glass Glass Plastic 特性 應用產 品 1.重量輕 2.應用二層Film的貼 和,透光率至少 (80%以上) FA用途 Source:全球產研整理,2001/11 1.目前最主流使用 之產品,技術最成 熟 2.透光率達82%以 上 PDA 適合條件惡劣的環 境使用,抗候性、 抗衡性佳 車用顯示器 1.質量輕、不易破損 2.透光率可達80%以 上 PDA 電阻式觸控面板電極配線方式 四線式 上 部 電 極 下 部 電 極 X1 五線式 七線式 X2 Y1 Y1 Y1 X1 1.為最一般之配線方 式,不受專利權限制 2..產品不耐刮、壽命 較短 3.價格最低 Y2 1.美商ELO Touch System及3M Touch System之專利技術 2.改良四線式不耐刮 之缺點 Source:全球產研整理,2001/11 八線式 X1 X3 X2 X4 Y1 Y2 Y3 Y4 X1 X2 Y2 特 性 六線式 X2 Y2 1.國內廠商宇宙光電之 專利技術 2.除耐刮外,更增加防 電磁波及噪音功能 1.日商富士通之專利技 術 2.耐刮、準確度較高 1.3M Touch System 之專利 2.耐溼度及環境溫度 變化,適合工業用途 電阻式面板結構 手指或筆等介質 ( (Hard Coat Layer) 硬殼層 薄膜電極 (Film Electrode) 薄膜(ITO Membrane) 上部電極(Electrode X1) 點隔片(Dot Spacer) 下部電極(Electrode Y1) 玻璃電極 (Glass Electrode) Source:全球產研整理,2001/11 玻璃基板或薄膜 (Glass or Film Plate) 電磁感應式 Digitizer_ structure Battery Free, Digital Pen Cover and Protective Glass LCD Display Sensor Board Optical_ Infrared http://www.elotouch.com/products/Touchscreens/CarrollTouch/howitworks.asp *Ref.[5] Integrated Touch Panel AUO Proprietary & Confidential Optical_ Photo sensor Readout TFT Select line Cst2 Black Matrix Color Filter Pixel ITO Blue pixel Photo TFT W/L=6/6 Data line *Ref.[6] Sense line Photo-Sensor TFT Readout TFT Operating of Press_Type Touch Panel △Clc2 will depend on the pressure. Release Press Clc Clc reset VCOM Address TFT Select Cst on Com Cfb Clc Clc2 changed to Short VOUT Readout TFT - Clc2 + CF VCOM (DC is better) Charge Amplifier VREF Provide by RSEF0 JM Display Sensor Area Area Touch Panel Touch Panel: PS on CF CF 1.4mm Cell Gap (normal area) 4.8mm ITO (0.075mm) Photo Spacer (4.0mm) Photo Photo Spacer Spacer Cell Gap (Sensing Area) 0.6mm Pixel electrode Space > 5mm Pixel electrode Similar Hybrid PS structure No need to add bump, but CF ITO is deposited on PS. The space between PS and PX should be larger than 5mm in case of alignment shift. Touch Panel for New User Interface UI focusing on finger input (UI defines how user operates the device; not touch panel) Apple iPhone LG PRADA HTC Touch Screen Size 3.5” (HVGA 480x320) 3.0” (WQVGA 400x240) 2.8” (QVGA 320x240) Touch Panel Capacitive Touch Panel Capacitive Touch Panel on Protective Screen (Synaptics) Resistive Touch Panel Multi-touch Multi-touch Single-touch Single-touch Operation Two hand Single hand Single Hand UI iPhone UI on OS-X Adobe Flash Lite UI Windows Mobile & HTC’s TouchFLO Finger input only applications: DSC, Car navigation, PMP, MP3, information display For PDA, smart phone or GPS, UI can cover the need of pen writing using on-screen keypad. Non-Contact Presence Sensors (Proximity) • • Capacitive Type Touch Panel • Proximity of object to sensor provide different capacitance value for sensors • Detection of sensor can be done with two types • E-field Sensor • Detection of capacitance by change of electric field • Capacitive Sensor • Detection of capacitance by measuring holding charge Other sensor types • Inductive Sensors • Detection of the proximity of metal objects only (electro-magnetic) • Optical Sensors Capacitive Touch Panel • Sensor Design Consideration TPII Proposal v1 AG AG Glass (0.5mm) Touch Sensor Set PF CF Glass Color Resist PF CF Glass Color Resist LC LC TFT TFT Feature: Easy Process- Not necessary to be traIt could be attached by 雙面膠 in module process. Issue: Thick module-An extra glass and AG film is necessary. TPII Proposal v2 PF Touch Sensor Set CF Glass Color Resist LC TFT Feature: Thin module—No need extra glass. Issue: Process complexity– Due to CF maker could not pattern ITO, it is necessary to finish touch panel in Array Fab before CF process. TP side process TP Sensor Process Flow Glass 入料 3F ITO line 2F TBM line ITO Sputter ITO Etching 3F OC line OC1 deposit On cell OC2 deposit 3F PS line Metal Etching Metal Sputter 3F Metal etching line 2F Cr line APR Printing 3F PI coater line TP2 OC1 Moly ITO Glass TP side process Glass ITO target ITO Sputter ITO Etching OC2 Process APR Process Moly Etching OC1 Process TP Sensor One Glass Process ( 5PEP ) BM deposit ITO Sputter ITO Etching Metal Etching Metal Sputter OC1 deposit Glass 入料 APR Printing OC2 deposit TP sensor BM Glass Compare 5 pep with 6 pep process OC2 ITO Metal BM 1. The original 6 peps design to a new 5 peps design. OC0 OC2 Metal ITO BM OC1 ` 2. The new 5 peps design has few advantages, as cost down, lead time reduced and etc. One glass _ Original design with OC0 process Process sequence : BM, black matrix BM (black matrix frame) OC0, over coat layer0 BM OC0 (isolated BM and ITO) ITO ITO, (patterned sensor) BM OC0 One glass _ Original design with OC0 process Process sequence : ITO OC1, over coat layer1 BM OC0 (isolated ITO & metal) Metal ITO Metal, metal bridge (sensor connection) BM OC0 OC2 Metal OC2, over coat layer2 (Protection coating) ITO BM OC0 One glass _ New design remove OC0 process Process sequence : BM, black matrix BM (black matrix frame) ITO, ITO (patterned sensor) BM OC1, over coat layer1 (isolated ITO & metal) ITO BM OC1 One glass _ New design remove OC0 process Metal Metal, metal bridge ITO (sensor connection) BM OC1 ` OC2 Metal OC2, over coat layer2 (Protection coating) ITO BM OC1 ` CF side process CF Process Flow 2F RED line Glass reserve BM Formation R resistor coating 2F BLU line B resistor coating PS ITO OC 2F PS line 2F ITO line G resistor coating 2F Thermal OC line 2F GRN line Cr BM Process 空白玻璃 鍍第一層Cr膜 上光阻(coating) 光罩 去光阻液 強酸液 顯影液 對準,曝光(stepping) 去光阻(striping) 蝕刻(etching) 顯影(developing) RBM Process 光罩 空白玻璃 塗佈Resin film 顯影液 顯影成膜及硬烤 對準,曝光(exposing) RGB Process _ part 1 (2F_RGB line) Slit coater 光罩 BM玻璃 R光阻塗佈 => Spin 曝光 Slit coater 光罩 曝光 B光阻塗佈 => Spin R顯影成膜及硬烤 RGB Process _ part 2 (2F_RGB line) Slit coater B顯影成膜及硬烤 G光阻塗佈 => Spin 三色成品檢驗 曝光 B顯影成膜及硬烤 OC Process (2F_Thermal OC line) Spinless RGB基板 OC layer塗佈 烘烤 ITO Process ITO靶 RGB+OC基板 在基板上放遮罩 移去遮罩之成品 濺鍍 鍍好ITO膜之基板 MVA Process (4F_MVA line) UV 燈 MVA光罩 MVA光阻塗佈及旋轉 烘烤 曝光 顯影 PS Process (2F_PS line) UV 燈 PS光罩 PS光阻塗佈及旋轉 顯影 曝光 烘烤 TPII Mask Design 1. TPII 5m X 5m design ( Cypress Design ) TPII V1 : 根據Cypress Design Guide line 設計 Sensor size = 4.9mm x 4.9mm Sensor spacing = 0.3mm Sensor bridge width = 50um Space = 0.3mm Sensor density = 14*8 2. TPII 5m X 5m design ( for Yokohama ) V2 Sensor size = 4.9mm x 4.9mm Sensor spacing = 0.3mm Dummy width = 240um ITO spacing = 30um Sensor size = 4.9mm x 4.9mm Sensor spacing = 0.3mm Dummy width = 60um ITO spacing = 30um TPII Type G v2 Design Capacitive Sense Touch panel (Sample output:8/E) Sensors in the same plane Sensors in 2 plane ITO bridge ITO 300A A PC403 3.0um dummy ITO 300A sensor dummy sensor dummy dummy 30um PC403 3um Glass ITO 300A ITO 300A SiNx 1000A PC403 3.0um ITO 300A ITO 300A PC403 3um PC403 3um B 30um 30um60um sensor sensor sensor sensor dummy Glass Glass Cypress : 10k TPII v2 : 40~50k (14X), 105pF (14X) Type 1st insulator 2nd insulator T% ( x, y ) R 7.5X (1X) B SiNx PC403 95.36% (0.315,0.322) 28.8K (4.6k) B PC403 PC403 91.53% (0.316,0.323) 23.6K (3.1k) A PC403 PC403 91.90% (0.321,0.329) 23.2K (3.1k) LCDs with Integrated Touch Panel Wintek (Current status)Cypress CapSense AUO Samsung iTSP Samsung hTSP TMD Sensor Type In-cell Capacitive / Switch Sensor External Resistive Sensor In-cell Capacitive Sensor In-cell Photo Sensor In-cell Capacitive Sensor Capacitive (in-cell or integrated oncell) External Capacitive Sensor Detection Pressure <50g (touch mura) Pressure required Pressure required 0g 0g 0g 0g LCM Thickness LCM only LCM + 1 film LCM only LCM only LCM only LCM only LCM only + external TP Input Method Finger or stylus Finger or stylus Finger or stylus Finger or light pen Finger or metal stylus Finger or metal stylus Finger or metal stylus Pen Writing YES YES YES YES YES YES YES Multi-touch YES NO YES YES YES YES YES Issues Touch Mura Dual side process for CF Touch Mura Touch Mura Lighting required for sensing Patterned ITO process for CF Patterned ITO process for CF Vendor focuses on TP on protection screen Demo 3.6” QVGA 4.8” WSVGA 7.0” WVGA (SID 2007) 3.5” QVGA 2.8” WQVGA (SID 2007) 3.5” QVGA (SID 2007) Currently, there are only 4 companies with multi-touch technology and patent license: 1. Synaptics, 2. Cypress, 3. ALPS, 4. EMC Synaptic Onyx LG PRADA phone Touch Panel Technology Comparison AUO (Current) Traditional Resistive Traditional Capacitive Multi-touch Resistive Multi-touch Capacitive Photo Cypress CapSense Sensor Type In-cell Cap. / Switch Sensor Resistive Sensor Capacitive Sensor Res. Sensor Array Cap. Sensor Array Photo Sensor Array Cap. Sensor Sensing Pressure Pressure Proximity Pressure Proximity Shadow Proximity Pressure <50g < 30g 0g < 30g 0g 0g 0g LCM Thickness LCM only LCM + 1 glass / film LCM only LCM + 1 glass / film LCM only LCM only LCM only ITO for TP 0 2 1 2 1 0 1 Transmittance 80% 80% 90% 80% 90% 80% 90% Input Method Finger or stylus Finger or stylus Finger or metal stylus Finger or stylus Finger or metal stylus Finger or light pen Finger or metal stylus Pen Writing YES YES YES ** YES YES ** YES *** YES ** Multi-touch YES NO NO YES YES YES YES Single Hand YES * YES * YES YES * YES YES **** YES Detection Simple / Complicated Simple Complicated Simple Complicated Most Complicated Complicated Issues Touch Mura vs pressure TP cavity, film process, patterned ITO on CF patterned ITO on CF TP cavity, film process, patterned ITO on CF patterned ITO on CF Lighting required, complex algorithm Patterned ITO for CF HTC Touch Mid / Small size application LG Prada Large / Mid Size application Apple iPhone TMD WinTek Application * Single hand operation can be achieved if pressure is < 20g ** Stylus with metallic tip required for pen writing ** Light Pen required for pen writing *** Single hand operation depends on software capability Touch Panel Technology Comparison Capacitive Tech. Acoustic Optical Resistive 電磁感應式 Digitizer Infrared Detection Current Electric field Wave absorption Wave generation Light interruption Photo current Voltage Magnetic field Input medium Finger, conductive stylus Finger, Gloves, or conductive stylus Finger, Gloves Finger, Gloves, or Stylus (All) Obstacle Finger, Gloves Finger, Gloves, or Stylus (All) 專用電磁筆 特性 (差異點) 較次電靜反 不使或電應 適用溼及速 用需度灰度 於作造塵快 小校成 、 尺正誤但防 寸 動容污 面成作易、 板本 因防 高每靜 水外高 、陽精 灰光確 塵下度 等使 用抗 震 不 怕可 雨在 、戶 , ( 優點: 1.可整合現 行製程 2.Longer life time 缺點: 1.環境光影 響大 點改 良 表四 層線 破式 損不 時耐 仍刮 可之 使缺 用 6W 訊耐 刮 、 防 電 磁 波 、 防 雜 7W 耐 刮 、 準 確 度 較 高 8W 用環特 途境性 溫同 度四 變線 化式 適耐 合溼 工度 業及 優點: 1.成本低, 較輕薄 2.干擾性小 3.可增加palm rejection function 缺點: 1.透光率差 2.怕火 3.需施加壓力才能感應 也電 可磁 感筆 應不 到需 位接 置觸 訊到 息面 板 , 容 易 不 耐 刮 、 壽 命 短 、 便 宜 5W , , ), 優點: 1.防刮, 耐高溫 2.透光度高 3.手輕微碰觸即可動作 缺點: 1.製程較複雜 2.過去有專利問題, 成本較高 (APR例外) 3.易受周圍環境影響 (Surface, SAW, IR) 因應 環用 境於 光小 而尺 誤寸 動面 作板 , , ) 析較可 度差靠 發較、性 光差容高 量精易 會密誤但 衰度動防 退不作水 及 高、防 解 污 4W , , , , , 易 受 價移只佳拖 格現需 曳 便象出防、 宜 廠水耐 校、久 正防性 一塵、 次、穩 防定 無油性 飄 , , , Palm rejection, ( , , 優/缺 雜怕 質水 干、 擾油 水污 及 溼灰 氣塵 LED APR Item , SAW Photo Sensor , Surface Projected (NFI) 優點: 1.壓力感應度高 2.手掌接觸到面板 時不會誤動作 缺點: 1.需專用電磁筆 2.體積大, 組裝不 易, LCD內需設 置硬體線路 Resolution 1024 X 1024 4096 X 4096 1024 X 1024 4096 X 4096 1024 X 1024 4096 X 4096 1024 X 1024 4096 X 4096 100 X 100 1000 X 720 1024 X 1024 1024 X 1024 4096 X 4096 (視Driver, 應用電壓 及面板大小決定) 1024 X 1024 4096 X 4096 Response time 15 ~ 24ms 3ms/3M <20ms <10ms <10ms 50 ~ 300ms <16.6ms (60Hz) <20ms <8ms Cost (USD) 4 ~ 10 /inch 5~8 /inch 3~7 /inch -- 2~5 /inch 0.6 ~ 1.4 /inch 1~2 /inch 7 ~ 10 /inch Source: 全球產研整理2000/10 & 2001/11, 中華液晶資訊網2002/05, 工研院IEK-IT IS計畫2006/03, 時緯科技2003/05, Hi touch2005/04, Microtouch, G touch Touch Panel Technology Application Tech. Capacitive Acoustic Optical Resistive Surface Projected (NFI) SAW APR Infrared Photo Sensor ○ ○ ○ ○ ○ 5W 6W 7W ○ ○ ○ △ △ ○ AV ○ ○ ○ △ △ ○ NB** ○ ○ ○ △ △ ○ ○ ○ ○ ○ △ △ ○ ○ ○ ○ ○ △ △ ○ Appl. GD* DT ○ ○ ○ ○ TV ○ ○ ○ ○ Application Size 7” ↑ 42” -- 10” ↑ 42” -- 7” ↑ 42” -- 2” ↑ 42” -- ○ 19” ↑ 2” ↑ 4W 8W 電磁感應式 Digitizer 2” ↑ 80” -- 7” ↑ 21” -- △: 較少使用 * ATM, POI, POS, 公共查詢機(KIOSK), 工業用設備, 自動售票機, 醫療器材, OA事務機, 特殊用途設備 ** TABLET-PC Source: 全球產研整理2000/10 & 2001/11, 中華液晶資訊網2002/05, 工研院IEK-IT IS計畫2006/03, 時緯科技2003/05, Hi touch2005/04, Microtouch, G touch, KEYTEC