TWI665595B - 自電容有機發光觸控顯示裝置 - Google Patents
自電容有機發光觸控顯示裝置 Download PDFInfo
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- H—ELECTRICITY
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Abstract
一種自電容有機發光觸控顯示裝置,包含:一薄膜電晶體基板;一共同電極層;一有機發光材料層;至少一個觸控電極層,包含多個觸控感應電極;一顯示控制電路;及一觸控控制電路。於觸控偵測,此觸控控制電路依序或隨機將一電容激勵信號交連至一選定的觸控感應電極,並自選定的觸控感應電極輸入一觸控感應信號。觸控控制電路又將一遮蔽反射訊號交連至顯示控制電路之一參考點或共同電極層。
Description
本發明係有關於一種有機發光觸控顯示裝置,特別是一種自電容有機發光觸控顯示裝置。
繼笨重的陰極射線管顯示器時代結束後,液晶顯示器、電漿顯示器與有機發光二極體顯示器等平板顯示器各自爭豔。行動裝置的興起帶動觸控顯示面板的潮流;更輕更薄已是行動電子裝置發展的共同趨勢,因此內嵌式觸控顯示面板已快速成為新寵。然而觸控電極嵌入面板結構後立刻面臨觸控電極太過接近液晶面板之共同電壓電極或OLED面板之共同陰極/共同陽極而面臨巨大背景雜散電容之困境。致使具出線少,易多點偵測與電路簡約優點之互電容觸控幾乎無用武之地。因此如何解決在巨大背景電容下難以偵測的觸碰互電容變化與屏除經此背景電容交連來的龐大雜訊,已成為業界迫切待解的共同課題。
為改善上述習知技術之缺點,本發明之目的在於提供一種自電容有機發光觸控顯示裝置。
依據本發明之一特色,本發明揭示一種自電容有機發光觸控顯示裝置,包含:一薄膜電晶體基板,其一表面設置多個薄膜電晶體、多個畫素電極、多條閘極線與多條資料線,其中該些薄膜電晶體分別連接到對應之該些畫素電極、該些閘極線與該些資料線;一共同電極層;一有機發光材料層,該有機發
光材料層置於該共同電極層與該薄膜電晶體基板之間;至少一個觸控電極層,設置於該共同電極層背對該有機發光材料層的一側,其包含多個觸控感應電極;一顯示控制電路具有一顯示螢幕電源,且電連接至該些薄膜電晶體、該些畫素電極及該共同電極層;一觸控控制電路包含一觸控電源且依序或隨機將一電容激勵信號交連至一選定的觸控感應電極,並自該選定的觸控感應電極輸入一觸控感應信號,該觸控控制電路又將一遮蔽反射訊號交連至該顯示控制電路之一參考點或該共同電極層,以利該觸控控制電作作觸控偵測操作,且於觸控偵測操作時該顯示控制電路與該觸控控制電路之間無共同之電流迴路。
為了能更進一步瞭解本發明為達成預定目的所採取之技術、手段及功效,請參閱以下有關本發明之詳細說明與附圖,相信本發明之目的、特徵與特點,當可由此得一深入且具體之瞭解,然而所附圖式僅提供參考與說明用,並非用來對本發明加以限制者。
10‧‧‧自電容有機發光顯示裝置
102‧‧‧薄膜電晶體基板
104‧‧‧有機發光材料層
106‧‧‧共同電極層
108‧‧‧封裝層
112‧‧‧觸控電極層
113‧‧‧第二觸控電極層
113'‧‧‧上方觸控電極層
115‧‧‧絕緣層
111‧‧‧第一觸控電極層
111b,113b‧‧‧金屬網格觸控電極層
111a,112a,113a‧‧‧黑金屬網格觸控電極層
116‧‧‧觸控保護層
120‧‧‧彩色濾光結構
122‧‧‧顯示控制電路
124‧‧‧觸控控制電路
145‧‧‧電容激勵驅動電路
145a‧‧‧信號源
145b‧‧‧驅動電路
140‧‧‧電容讀取電路
142‧‧‧增益大於零的放大電路(同相放大電路)
126‧‧‧電晶體基板
128‧‧‧薄膜電晶體層
130‧‧‧畫素電極層
132‧‧‧閘極線
134‧‧‧資料線
156‧‧‧彩色濾光基板
158‧‧‧黑矩陣層
159‧‧‧黑矩陣材料
160‧‧‧濾光材料層
161‧‧‧濾光材料
162‧‧‧有機發光材料
164‧‧‧觸控電源
166‧‧‧觸控地端
168‧‧‧顯示螢幕電源
170‧‧‧顯示地端
172‧‧‧畫素電極
174‧‧‧薄膜電晶體
TE01-TE16,TEn,XEn,YEn‧‧‧觸控感應電極
Vs‧‧‧觸控感應信號
VT1‧‧‧遮蔽反射訊號
VC‧‧‧預定電位訊號
VT‧‧‧電容激勵信號
圖1A-1B為說明本發明不同實施例之自電容有機發光觸控顯示裝置之疊層示意圖。
圖2A-2C為說明本發明不同實施例之自電容有機發光觸控顯示裝置之疊層示意圖。
圖3A-3B為說明本發明不同實施例之自電容有機發光觸控顯示裝置之疊層示意圖。
圖4A-4B說明本發明不同實施例之自電容有機發光觸控顯示裝置之操作示意圖。
圖5A-5B說明本發明不同實施例之自電容有機發光觸控顯示裝置之操作示意圖。
圖6為說明本發明之自電容有機發光觸控顯示裝置之觸控感應電極之一分布圖。
圖7為說明本發明自電容有機發光觸控顯示裝置之觸控感應電極之另一分布圖。
圖8-14為說明本發明不同實施例之自電容有機發光觸控顯示裝置之詳細結構圖。
圖15-17說明本發明之自電容有機發光觸控顯示裝置之操作示意圖。
圖18說明金屬網格電極示意圖。
茲有關本發明之技術內容及詳細說明,配合圖式說明如下:參見圖1A,為依據本發明一實施例之自電容有機發光觸控顯示裝置10(以下簡稱觸控顯示裝置10)疊層示意圖,此觸控顯示裝置10包含由上至下之一觸控保護層116、一觸控電極層112、一封裝層(thin film encapsulation,簡稱為TFE)108、一共同電極層106、一有機發光材料層104及一薄膜電晶體基板102;而該薄膜電晶體基板102由上而下則包含一畫素電極層130、一薄膜電晶體層128及一電晶體基板126。該觸控保護層116係設置於該觸控電極層112背對該封裝層108的一側,且係為一基板或一硬化塗層,例如為玻璃、PI、PE、PET等等高分子材料。該觸控電極層112可為透明導電材料所製作(例如銦錫氧化物ITO)或是以金屬網格實現(詳見後述)。該封裝層108亦可為上基板或保護層(隔絕水氣或空氣),係設置於該觸控電極層112與該共同電極層106之間。該共同電極層106係設置於該有機發光材料層104上,使得該有機發光材料層104被夾置於該共同電極層106與該薄膜電晶體基板102之間。參見圖6,為說明圖1A所示觸
控顯示裝置10之觸控電極層112的一種可行實踐方式,此觸控電極層112包含在同一平面之多數觸控感應電極TE01-TE16。該些觸控感應電極TE01-TE16可以彼此交錯之多邊形(例如三角形)形狀實現,且彼此互相絕緣。
參見圖8,為對應圖1A及圖6實施例之觸控顯示裝置10詳細結構圖。如圖8所示,該畫素電極層130包含多個畫素電極172,該薄膜電晶體層128包含多個薄膜電晶體174;該些畫素電極172係對應該些薄膜電晶體174設置。該多個畫素電極172的極性與該共同電極層106的極性相反(亦即,當該畫素電極172為陽極時,該共同電極層106為陰極;當該畫素電極172為陰極時,該共同電極層106為陽極)。該些薄膜電晶體174係設置於該電晶體基板126上。該薄膜電晶體基板102更包含多條閘極線132及多條資料線134,該些閘極線132分別電性連接至該些薄膜電晶體174,該些資料線134分別電性連接至該些薄膜電晶體174。此外,該有機發光材料層104包含一電洞傳輸子層(hole transporting layer,HTL)與一電子傳輸子層(electron transporting layer,HTL)將多個有機發光材料162夾置其間;圖8所示之該有機發光材料層104內的該些有機發光材料162之顏色彼此不同,例如分別為發紅色光材料,發綠色光材料,與發藍色光材料。
參見圖1B,為依據本發明另一實施例之觸控顯示裝置10疊層示意圖,此觸控顯示裝置10之觸控電極層112包含由上而下之第二觸控電極層113、絕緣層115及第一觸控電極層111。參見圖7,為對應圖1B實施例之觸控電極層112的一種可行實踐方式,該第二觸控電極層113包含多數之第二觸控感應電極XE01-XE06(沿著第二方向設置),而第一觸控電極層111包含多數第一觸控感應電極YE01~04(沿著第一方向設置),其中第一方向與第二方向不平行,且可大致垂直。再者,圖7所示之第二觸控感應電極XE01-XE06及第一觸控感應電極YE01~04彼此之間藉由絕緣層115(示於圖1B)而達成電性絕緣。換言之,第一觸控感應電極YE01~04與其上的第二觸控感應電極XE01-XE06彼此之間有
一絕緣層,以達成其間的電絕緣。觸控控制電路124依序或隨機將一電容激勵信號交連至一選定的觸控感應電極(第一觸控感應電極或第二觸控感應電極),並自該選定的觸控感應電極輸入一觸控感應信號,以作觸控偵測。
參見圖9,為對應圖1B及圖7實施例之觸控顯示裝置10詳細結構圖。如圖9所示,該畫素電極層130包含多個畫素電極172,該薄膜電晶體層128包含多個薄膜電晶體174。該些畫素電極172係對應該些薄膜電晶體174設置,且該多個畫素電極172的極性也與該共同電極層106的極性相反。該些薄膜電晶體174係設置於該電晶體基板126上。該薄膜電晶體基板102更包含多條閘極線132及多條資料線134,該些閘極線132分別電性連接至該些薄膜電晶體174,該些資料線134分別電性連接至該些薄膜電晶體174。此外,該有機發光材料層104包含一電洞傳輸子層(hole transporting layer,HTL)與一電子傳輸子層(electron transporting layer,HTL)將多個有機發光材料162夾置其間;圖9所示之該有機發光材料層104內的該些有機發光材料162之顏色彼此不同,例如分別為發紅色光材料,發綠色光材料,與發藍色光材料。
參見圖4A,為說明本發明一實施例之自電容有機發光觸控顯示裝置之操作示意圖,該自電容有機發光觸控顯示裝置例如可為圖1A,1B所示之觸控顯示裝置10。於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs,該觸控感應信號Vs由電容讀取電路140讀取。該觸控控制電路124將該觸控感應信號Vs交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1,該遮蔽反射訊號VT1交連至該共同電極層106,以利觸控顯示裝置10作觸控偵測操作。此外,於觸控操作時,該顯示控制電路122可依序輸出一掃描信號至如圖8所示之該閘極線132,該顯示控制電路122輸出資料訊號至如圖8所示之各該資料線134,且顯
示控制電路122輸出一預定電位訊號VC(例如一零電位訊號、負電位訊號、或一正電位訊號)至該共同電極層106以同時進行一顯示操作。
參見圖4B,為說明本發明一實施例之自電容有機發光觸控顯示裝置之操作示意圖,該自電容有機發光觸控顯示裝置例如可為圖1A,1B所示之觸控顯示裝置10。於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs,該觸控感應信號Vs由電容讀取電路140讀取。該觸控控制電路124將該觸控感應信號Vs交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1,該遮蔽反射訊號VT1交連至該顯示控制電路122之一參考點(例如是該顯示控制電路122的一電源輸出點,一接地點,其直流迴路的一節點,或一顯示信號驅動級的輸出點),以利觸控顯示裝置10作觸控偵測操作。此遮蔽反射訊號VT1也可經由顯示控制電路122而間接交連至共同電極層106,以提升觸控偵測操作精確度。
參見圖5A,為說明本發明另一實施例之自電容有機發光觸控顯示裝置之操作示意圖,該自電容有機發光觸控顯示裝置例如可為圖1A,1B所示之觸控顯示裝置10。於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs。於此實施例中,該觸控控制電路124係將該電容激勵信號VT交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1;或是直接將信號源145a之輸出交連至一增益大於零的放大電路142處理,以產生遮蔽反射訊號VT1。該遮蔽反射訊號VT1交連至該共同電極層106,以利觸控顯示裝置10作觸控偵測操作。
參見圖5B,為說明本發明另一實施例之自電容有機發光觸控顯示裝置之操作示意圖,該自電容有機發光觸控顯示裝置例如可為圖1A,1B所示之觸
控顯示裝置10。於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs。於此實施例中,該觸控控制電路124係將該電容激勵信號VT交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1;或是直接將信號源145a之輸出交連至一增益大於零的放大電路142處理,以產生遮蔽反射訊號VT1。該遮蔽反射訊號VT1交連至該顯示控制電路122之一參考點(例如是該顯示控制電路122的一電源輸出點,一接地點,其直流迴路的一節點,或一顯示信號驅動級的輸出點),以利觸控顯示裝置10作觸控偵測操作。此遮蔽反射訊號VT1也可經由顯示控制電路122而間接交連至共同電極層106,以提升觸控偵測操作精確度。在圖5A-5B所示實施例中,產生遮蔽反射訊號VT1的增益大於零的放大電路142之輸入不連接到電容讀取電路140,以避免來自電容讀取電路140的雜訊影響。
同樣的,在圖4A-4B,5A-5B所示實施例中,於觸控操作時,該顯示控制電路122可依序輸出一掃描信號至如圖8所示之該閘極線132,該顯示控制電路122輸出資料訊號至如圖8所示之各該資料線134,且顯示控制電路122輸出一預定電位訊號VC(例如一零電位訊號、負電位訊號、或一正電位訊號)至該共同電極層106以同時進行一顯示操作。
參見圖2A,為依據本發明另一實施例之觸控顯示裝置10疊層示意圖,圖2A所示實施例類似於圖1A所示者,且其觸控感應電極TEn之分布可參見圖6所示實施例。然此實施例之有機發光材料層104僅可發白光,因此需要額外之黑矩陣層158及濾光材料層160。圖2B及2C所示實施例與圖2A所示類似,且其觸控感應電極TEn之分布可參見圖6所示實施例,但是觸控電極層112、黑矩陣層158及濾光材料層160之位置不同。依據圖2A-2C所示實施例之觸控顯示裝置10也可應用如圖4A-4B、5A-5B所示之觸控感測架構。
參見圖3A,為依據本發明另一實施例之觸控顯示裝置10之疊層示意圖。圖3A所示實施例類似於圖2B及2C所示者,且觸控感應電極TEn之分布可參見圖6所示實施例。然而圖3A所示之實施例係以一黑金屬網格觸控電極層112a(參見圖18,黑金屬網格觸控電極層具有多數之黑金屬網格觸控感應電極TEn)取代黑矩陣層158及觸控電極層112。由於觸控電極層以黑金屬網格方式形成,除了提供遮光效果外,由金屬線段連結成的網格多邊形也可作為觸控感應電極。
參見圖3B,為依據本發明一實施例之觸控顯示裝置10之疊層示意圖。此實施例類似圖1B所示之觸控顯示裝置10,且其觸控感應電極之分布可參見圖7所示實施例。然圖3B所示實施例之有機發光材料層104僅可發白光,因此需要額外之黑矩陣層158及濾光材料層160。再者,圖3B所示之實施例係以一黑金屬網格觸控電極層113a(參見圖18)取代黑矩陣層及圖1B之第二觸控電極層113。由於黑金屬網格觸控電極層113a以金屬網格方式形成,除了提供遮光效果外,金屬網格之線段也可作為上方之第二觸控感應電極,而與下方第一觸控電極層111之觸控感應電極作為自電容偵測之觸控感應電極。依據圖3A-3B所示實施例之觸控顯示裝置10也可應用如圖4A-4B、5A-5B所示之觸控感測架構作觸控偵測操作。
參見圖10,為對應圖2B及圖6實施例之詳細結構圖。圖10所示之有機發光材料層104內的該些有機發光材料162皆為相同的發白色光材料,因此須額外之彩色濾光結構120。該彩色濾光結構120包含一彩色濾光基板156、一黑矩陣層158及一濾光材料層160。該黑矩陣層158係用以阻擋偏斜的光;該黑矩陣層158及該濾光材料層160係製作於該彩色濾光基板156上。圖10所示之該有機發光材料層104內的該些有機發光材料162可皆為相同的發白色光材料,而該些濾光材料161之顏色彼此不同,分別為紅色,綠色與藍色。
參見圖11,為依據本發明一實施例之觸控顯示裝置10之詳細結構圖。圖12所示實施例類似於圖9所示者,然圖11所示之該有機發光材料層104內的該些有機發光材料162皆為相同的發白色光材料,因此須額外之彩色濾光結構120。該彩色濾光結構120包含一彩色濾光基板156、一黑矩陣層158及一濾光材料層160。該黑矩陣層158係用以阻擋偏斜的光;該黑矩陣層158及該濾光材料層160係製作於該彩色濾光基板156上。圖11所示之該有機發光材料層104內的該些有機發光材料162可皆為相同的發白色光材料,而該些濾光材料161之顏色彼此不同,分別為紅色,綠色與藍色。
參見圖12,為依據本發明一實施例之觸控顯示裝置10之詳細結構圖。圖12所示實施例類似於圖11所示者,然第一觸控電極層係以金屬網格方式實現而為金屬網格觸控電極層111b且設立在黑矩陣層158之下。因為彩色濾光基板156可提供絕緣功效,因此可省略圖11之絕緣層115。同樣的,上方觸控電極層113'及金屬網格觸控電極層111b中的觸控感應電極可作為自電容偵測之觸控感應電極。
參見圖13,為依據本發明一實施例之觸控顯示裝置10之詳細結構圖。圖13所示實施例類似於圖11所示者,然而第一觸控電極層111係以黑金屬網格實現而形成黑金屬網格觸控電極層111a。由於黑金屬網格觸控電極層111a以黑金屬網格方式形成,除了提供遮光效果以取代黑矩陣層外,金屬網格之線段也可作為下方之第一觸控感應電極。再者,因為彩色濾光基板156可提供絕緣功效,因此可省略圖11之絕緣層115。同樣的,上方觸控電極層113'及黑金屬網格觸控電極層111a中的觸控感應電極可作為自電容偵測之觸控感應電極。
參見圖14,為依據本發明一實施例之觸控顯示裝置10之詳細結構圖。圖14所示實施例類似於圖11所示者,然而第一觸控電極層111係以金屬網格方式實現而為金屬網格觸控電極層111b、第二觸控金屬層113係以黑金屬網格
實現而形成黑金屬網格觸控電極層113a。因為黑金屬網格可以提供遮光效果,因此可以省略黑矩陣層。同樣的,上方之黑金屬網格觸控電極層113a及下方之金屬網格觸控電極層111b中的觸控感應電極可作為自電容偵測之觸控感應電極。
請參考圖15,說明本發明觸控顯示裝置10之操作示意圖。依據本發明之觸控顯示裝置10可以圖1-14所示之實施例實施,然本領域人員可知,依據本發明之精神,此高感測靈敏性之自電容觸控感測方法仍可適用於其他的自電容有機發光觸控顯示裝置10。依據本發明之觸控顯示裝置10至少包含多個觸控感應電極TEn(例如圖6所示之觸控感應電極TE01-TE16)、一觸控控制電路124。此觸控控制電路124包含一電容激勵驅動電路145(包含一信號源145a與一驅動電路145b)、一電容讀取電路140、一增益大於零的放大電路(同相放大電路)142。此外,該觸控控制電路124另外包含一觸控電源164及一觸控地端166。觸控顯示裝置10另外包含一顯示控制電路122、一顯示螢幕電源168、一顯示地端170及阻抗Z。
於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs,該觸控感應信號Vs由電容讀取電路140讀取。該觸控控制電路124將該觸控感應信號Vs交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1,該遮蔽反射訊號VT1交連至該顯示控制電路122之一參考點P,例如是該顯示控制電路122的一電源輸出點,一接地點,其直流迴路的一節點,或一顯示信號驅動級的輸出點,並透過該顯示控制電路122及一阻抗Z間接交連至該共同電極層106。
參見圖16,為說明本發明另一實施例之觸控顯示裝置10操作示意圖。與圖15實施例相比,該觸控顯示裝置10另外包含連接於該放大電路142及共
同電極層106之間的第一開關SW1;連接於觸控地端166及顯示地端170之間的第二開關SW2;及連接於觸控電源164與顯示螢幕電源168之間的一第三開關SW3。
於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs,該觸控感應信號Vs由電容讀取電路140讀取。該觸控控制電路124將該觸控感應信號Vs交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1,該遮蔽反射訊號VT1經由該第一開關SW1(狀態為導通)交連至該共同電極層106。此外,於觸控操作時,第二開關SW2及第三開關SW3之狀態為切斷。由於此時該顯示控制電路122及該觸控控制電路124之間僅有單一實體接點(經由第一開關SW1連接之接點),且該觸控地端166及該顯示地端170為不同接地端,使得該顯示控制電路122及該觸控控制電路124之間無共同之電流迴路,避免該顯示控制電路122之雜訊影響該壓力觸控控制電路124之量測結果。在非觸控操作階段,也可以切斷第一開關SW1,並導通第二開關SW2及第三開關SW3,以使顯示螢幕電源168可以對觸控電源164充電。
參見圖17,為說明本發明另一實施例之觸控顯示裝置10操作示意圖。與圖16實施例相比,該觸控顯示裝置可省略第三開關SW3。於觸控偵測時,該觸控顯示裝置10之觸控控制電路124之一電容激勵驅動電路145依序或隨機將一電容激勵信號VT交連至一選定的觸控感應電極TEn,並自該選定的觸控感應電極TEn輸入一觸控感應信號Vs,該觸控感應信號Vs由電容讀取電路140讀取。該觸控控制電路124將該觸控感應信號Vs交連至一增益大於零的放大電路142處理,以產生一遮蔽反射訊號VT1,該遮蔽反射訊號VT1經由該第一開關SW1(狀態為導通)交連至該共同電極層106。此外,於觸控操作時,第二開關SW2之狀態為切斷。由於此時該顯示控制電路122及該觸控控制電路124之間僅有單一實體
接點(經由第一開關SW1連接之接點),且該觸控地端166及該顯示地端170為不同接地端,使得該顯示控制電路122及該觸控控制電路124之間無共同之電流迴路,避免該顯示控制電路122之雜訊影響該觸控控制電路124之量測結果。
然以上所述者,僅為本發明之較佳實施例,當不能限定本發明實施之範圍,即凡依本發明申請專利範圍所作之均等變化與修飾等,皆應仍屬本發明之專利涵蓋範圍意圖保護之範疇。本發明還可有其它多種實施例,在不背離本發明精神及其實質的情況下,熟悉本領域的技術人員當可根據本發明作出各種相應的改變和變形,但這些相應的改變和變形都應屬於本發明所附的權利要求的保護範圍。綜上所述,當知本發明已具有產業利用性、新穎性與進步性,又本發明之構造亦未曾見於同類產品及公開使用,完全符合發明專利申請要件,爰依專利法提出申請。
Claims (12)
- 一種自電容有機發光觸控顯示裝置,包含:一薄膜電晶體基板,其一表面設置多個薄膜電晶體、多個畫素電極、多條閘極線與多條資料線,其中該些薄膜電晶體分別連接到對應之該些畫素電極、該些閘極線與該些資料線;一共同電極層;一有機發光材料層,該有機發光材料層置於該共同電極層與該薄膜電晶體基板之間;至少一個觸控電極層,設置於該共同電極層背對該有機發光材料層的一側,其包含多個觸控感應電極;一顯示控制電路具有一顯示螢幕電源,且電連接至該些薄膜電晶體、該些畫素電極及該共同電極層;一觸控控制電路包含一觸控電源且依序或隨機將一電容激勵信號交連至一選定的觸控感應電極,並自該選定的觸控感應電極輸入一觸控感應信號,該觸控控制電路又將一遮蔽反射訊號交連至該顯示控制電路之一參考點或該共同電極層,以利該觸控控制電路作觸控偵測操作,且於觸控偵測操作時該顯示控制電路與該觸控控制電路之間無共同之電流迴路;其中該顯示控制電路及該觸控控制電路具有不同之接地,且於觸控偵測操作時,該顯示控制電路及該觸控控制電路之間僅有單一實體接點。
- 如請求項1之自電容有機發光觸控顯示裝置,該遮蔽反射訊號是與該電容激勵信號或該觸控感應信號同相位的信號。
- 如請求項1之自電容有機發光觸控顯示裝置,該顯示控制電路依序輸出一掃描訊號至一條閘極線,又輸出一資料訊號至一資料線並輸出一零電位訊號、負電位訊號、或一正電位訊號至該共同電極層作顯示操作。
- 如請求項1之自電容有機發光觸控顯示裝置,又包含至少一開關置於該觸控控制電路與該共同電極層之間。
- 如請求項1之自電容有機發光觸控顯示裝置,又包含至少一開關置於該觸控控制電路與該顯示控制電路之間。
- 如請求項1之自電容有機發光觸控顯示裝置,其又包含一觸控保護層,設置於該觸控電極層背對該有機發光材料層的一側,該觸控保護層是一基板或一硬化塗層。
- 如請求項1之自電容有機發光觸控顯示裝置,該多個觸控感應電極是透明導電電極。
- 如請求項1之自電容有機發光觸控顯示裝置,該多個觸控感應電極是金屬網格電極。
- 如請求項8之自電容有機發光觸控顯示裝置,該多個觸控感應電極是黑色金屬網格電極。
- 如請求項6之自電容有機發光觸控顯示裝置,其又包含一彩色濾光層與一黑矩陣層,設置於該觸控保護層及該共同電極層之間。
- 如請求項10之自電容有機發光觸控顯示裝置,該多個觸控感應電極是金屬網格電極,且該金屬網格電極設置於該黑矩陣層的對應位置處。
- 如請求項1之自電容有機發光觸控顯示裝置,其中該顯示控制電路之一參考點是該顯示控制電路的一電源輸出點、該顯示控制電路的接地點、該顯示控制電路的直流迴路的一節點或該顯示控制電路的一驅動級。
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