TWM517829U - Display device and driving circuit, electronic device thereof - Google Patents

Description

顯示裝置及其驅動電路、電子設備 Display device and its driving circuit, electronic device

本創作涉及平板顯示領域，尤其涉及一種顯示裝置及其驅動電路、及電子設備。 The present invention relates to the field of flat panel display, and in particular to a display device and a driving circuit thereof, and an electronic device.

智慧型手機、平板電腦等電子設備的普及影響著人們的生活方式。隨著各種支付客戶端等應用的使用，如何提高電子設備安全性和私密性成為技術人員研究的重點之一。 The popularity of electronic devices such as smart phones and tablets has affected people's lifestyles. With the use of various payment clients and other applications, how to improve the security and privacy of electronic devices has become one of the research priorities of technicians.

參考第1圖，示出了現有技術一種具有指紋識別功能的電子設備示意圖。電子設備1中設置有指紋感測裝置2，所述指紋感測裝置2能實現指紋識別。電子設備1用戶藉由所述指紋感測裝置2進行指紋識別，可以將指紋圖像作為手機開機密鑰或支付客戶端密鑰，從而提高了電子設備的使用安全性。 Referring to Figure 1, there is shown a schematic diagram of an electronic device having a fingerprint recognition function in the prior art. A fingerprint sensing device 2 is disposed in the electronic device 1, and the fingerprint sensing device 2 can implement fingerprint recognition. The user of the electronic device 1 performs fingerprint recognition by the fingerprint sensing device 2, and can use the fingerprint image as a mobile phone startup key or a payment client key, thereby improving the security of use of the electronic device.

但是，如第1圖所示，所述指紋感測裝置2為一獨立的感測裝置，且置於電子設備1的顯示區域3之外。 However, as shown in FIG. 1, the fingerprint sensing device 2 is a separate sensing device and is placed outside the display area 3 of the electronic device 1.

所述指紋感測裝置2佔據電子設備1的空間，不符合電子設備1輕薄化的要求。此外，所述指紋感測裝置2為一單獨的電子器件，成本較高、生產工藝複雜、不便於集成。 The fingerprint sensing device 2 occupies a space of the electronic device 1 and does not meet the requirements of the thinning of the electronic device 1. In addition, the fingerprint sensing device 2 is a separate electronic device, which has high cost, complicated production process, and inconvenience in integration.

本創作解決的問題是提供一種顯示裝置及其驅動電路、液 晶顯示裝置，提高顯示裝置的積體密度。 The problem solved by the present invention is to provide a display device, a driving circuit thereof, and a liquid The crystal display device increases the integrated density of the display device.

為了解決所述技術問題，本創作提供一種顯示裝置，所述顯示裝置包括：顯示面板，設置有多個顯示電極，所述多個顯示電極用於圖像顯示，定義位於所述顯示面板預定區域的顯示電極為第一電極，其中，第一電極進一步用於指紋感測，定義第一電極執行指紋感測的階段為指紋感測階段；驅動電路，用於向所述多個顯示電極提供顯示訊號，以實現圖像顯示；還用於在指紋感測階段向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測。 In order to solve the technical problem, the present invention provides a display device, the display device comprising: a display panel provided with a plurality of display electrodes, the plurality of display electrodes being used for image display, and the definition is located in a predetermined area of the display panel The display electrode is a first electrode, wherein the first electrode is further used for fingerprint sensing, the stage for defining the first electrode to perform fingerprint sensing is a fingerprint sensing phase, and the driving circuit is configured to provide a display to the plurality of display electrodes The signal is used to implement image display; and is further configured to provide a fingerprint sensing signal to the first electrode during a fingerprint sensing phase, and perform self-capacitance detection on the first electrode to implement fingerprint sensing.

相應地，本創作還提供一種顯示裝置，包括：顯示面板，設置有位於顯示面板預定區域的第一電極、以及位於所述預定區域外的第二電極；驅動電路，用於向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；還用於向所述第二電極提供顯示訊號，以實現圖像顯示。 Correspondingly, the present invention also provides a display device comprising: a display panel provided with a first electrode located in a predetermined area of the display panel; and a second electrode located outside the predetermined area; a driving circuit for the first The electrode provides a fingerprint sensing signal, performs self-capacitance detection on the first electrode to implement fingerprint sensing, and is further configured to provide a display signal to the second electrode to implement image display.

相應地，本創作還提供一種顯示裝置的驅動電路，所述顯示裝置包括：顯示面板，設置有多個顯示電極，所述多個顯示電極用於圖像顯示，定義位於所述顯示面板預定區域的顯示電極為第一電極，其中，第一電極進一步用於指紋感測，定義第一電極執行指紋感測的階段為指紋感測階段；所述驅動電路包括：顯示驅動單元，用於向所述多個顯示電極提供顯示訊號，以實現圖像顯示；指紋感測單元，用於對所述第一電極提供所述指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；控制單元，用於在指紋感測階段控制所述指紋感測單元向所述第一電極提供所述指紋感測訊號，以控制所述指紋感測單元對所 述第一電極進行指紋感測。 Correspondingly, the present invention also provides a driving circuit of a display device, the display device comprising: a display panel provided with a plurality of display electrodes, the plurality of display electrodes being used for image display, and the definition is located in a predetermined area of the display panel The display electrode is a first electrode, wherein the first electrode is further used for fingerprint sensing, and the stage for defining the first electrode to perform fingerprint sensing is a fingerprint sensing phase; the driving circuit comprises: a display driving unit, The plurality of display electrodes provide display signals for image display; the fingerprint sensing unit is configured to provide the fingerprint sensing signals to the first electrodes, and perform self-capacitance detection on the first electrodes to implement fingerprints. a sensing unit, configured to control the fingerprint sensing unit to provide the fingerprint sensing signal to the first electrode during a fingerprint sensing phase to control the fingerprint sensing unit The first electrode is described for fingerprint sensing.

相應地，本發明還提供一種液晶顯示裝置，所述液晶顯示裝置包括：顯示面板，設置有多個顯示電極，所述多個顯示電極用於圖像顯示，定義位於所述顯示面板預定區域的顯示電極為第一電極，其中，第一電極進一步用於指紋感測，定義第一電極執行指紋感測的階段為指紋感測階段；驅動電路，用於向所述多個顯示電極提供顯示訊號，以實現圖像顯示；還用於在指紋感測階段向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測。 Correspondingly, the present invention further provides a liquid crystal display device, comprising: a display panel provided with a plurality of display electrodes, the plurality of display electrodes being used for image display, defined in a predetermined area of the display panel The display electrode is a first electrode, wherein the first electrode is further used for fingerprint sensing, the stage for defining the first electrode to perform fingerprint sensing is a fingerprint sensing phase, and the driving circuit is configured to provide a display signal to the plurality of display electrodes And performing image display; and is further configured to provide a fingerprint sensing signal to the first electrode during a fingerprint sensing phase, and perform self-capacitance detection on the first electrode to implement fingerprint sensing.

相應地，本發明還提供一種液晶顯示裝置，包括：顯示面板，設置有位於顯示面板預定區域的第一電極、以及位於所述預定區域外的第二電極；驅動電路，用於向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；還用於向所述第二電極提供顯示訊號，以實現圖像顯示。 Accordingly, the present invention further provides a liquid crystal display device comprising: a display panel provided with a first electrode located in a predetermined area of the display panel; and a second electrode located outside the predetermined area; and a driving circuit for the An electrode provides a fingerprint sensing signal, and the first electrode is self-capacitance detected to implement fingerprint sensing; and is further configured to provide a display signal to the second electrode to implement image display.

相應地，本創作還提供一種顯示裝置，用於圖像顯示與指紋感測，顯示面板，包括多個畫素單元，每一畫素單元包括一顯示電極，定義位於顯示面板預定區域內的畫素單元為第一畫素單元，第一畫素單元的顯示電極為第一電極；和資料線驅動電路，與所述多個畫素單元連接，所述資料線驅動電路用於提供顯示訊號給所述多個畫素單元的顯示電極，以實現圖像顯示；所述顯示裝置進一步包括：指紋感測檢測單元，與第一畫素單元連接，用於提供指紋感測訊號給所述第一畫素單元的第一電極，以藉由感測所述第一電極的自電容大小來感測指紋；和控制單元，控制單元用於控制所述資料線驅動電路是否提供所述圖像訊號給所 述多個畫素單元，以及用於控制所述指紋感測檢測單元是否驅動第一畫素單元的第一電極執行指紋感測，其中，在所述控制單元的控制下，當所述指紋感測檢測單元驅動所述第一畫素單元的第一電極執行指紋感測時，所述資料線驅動電路與所述第一畫素單元之間處於斷開狀態，或所述資料線驅動電路停止輸出顯示訊號給第一畫素單元的第一電極。 Correspondingly, the present invention also provides a display device for image display and fingerprint sensing, a display panel comprising a plurality of pixel units, each pixel unit including a display electrode defining a picture located in a predetermined area of the display panel The prime unit is a first pixel unit, the display electrode of the first pixel unit is a first electrode, and a data line driving circuit is connected to the plurality of pixel units, and the data line driving circuit is configured to provide a display signal to Displaying electrodes of the plurality of pixel units to implement image display; the display device further comprising: a fingerprint sensing detecting unit connected to the first pixel unit for providing a fingerprint sensing signal to the first a first electrode of the pixel unit for sensing a fingerprint by sensing a self-capacitance of the first electrode; and a control unit, the control unit is configured to control whether the data line driving circuit provides the image signal to Place a plurality of pixel units, and a first electrode for controlling whether the fingerprint sensing detecting unit drives the first pixel unit performs fingerprint sensing, wherein the fingerprint sense is under the control of the control unit When the detecting unit drives the first electrode of the first pixel unit to perform fingerprint sensing, the data line driving circuit and the first pixel unit are in an off state, or the data line driving circuit is stopped. The display display signal is sent to the first electrode of the first pixel unit.

相應地，本創作還提供一種顯示裝置，其包括：顯示面板，包括多個畫素單元以及與所述多個畫素單元相連接的多條資料線，每一畫素單元包括一顯示電極，所述顯示電極用於顯示圖像，定義位於顯示面板預定區域內的畫素單元為第一畫素單元，第一畫素單元的顯示電極為第一電極，第一電極還用於指紋感測；和資料線驅動電路，藉由所述多條資料線與所述多個畫素單元連接，所述資料線驅動電路用於藉由所述多條資料線提供顯示訊號給所述多個畫素單元的顯示電極，以實現圖像顯示；所述顯示面板進一步包括傳輸線，所述顯示裝置進一步包括：指紋感測檢測單元，藉由所述傳輸線與第一畫素單元連接，用於藉由所述傳輸線提供指紋感測訊號給所述第一畫素單元的第一電極，以藉由感測所述第一電極的自電容大小來感測指紋；和控制單元，用於控制第一電極是執行指紋感測還是執行圖像顯示。 Correspondingly, the present invention also provides a display device, comprising: a display panel comprising a plurality of pixel units and a plurality of data lines connected to the plurality of pixel units, each pixel unit comprising a display electrode, The display electrode is configured to display an image, and the pixel unit defined in the predetermined area of the display panel is a first pixel unit, the display electrode of the first pixel unit is a first electrode, and the first electrode is further used for fingerprint sensing. And a data line driving circuit, wherein the plurality of data lines are connected to the plurality of pixel units, wherein the data line driving circuit is configured to provide a display signal to the plurality of pictures by using the plurality of data lines a display unit of the element unit for image display; the display panel further includes a transmission line, the display device further comprising: a fingerprint sensing detection unit, wherein the transmission line is connected to the first pixel unit for The transmission line provides a fingerprint sensing signal to the first electrode of the first pixel unit to sense a fingerprint by sensing a self-capacitance of the first electrode; and a control unit for controlling The first electrode is a fingerprint sensing performed or to perform image display.

與現有技術相比，本創作的技術方案具有以下優點：本創作顯示裝置除了能夠實現圖像顯示還可以在預定區域實現指紋感測，即本創作顯示裝置集成了指紋感測的功能，具有較好的積體密度。對於包括所述顯示裝置的電子設備而言，無需再單獨設置一指紋感測裝置，可以減少指紋感測裝置佔據的空間和重量、降低了成 本。 Compared with the prior art, the technical solution of the present invention has the following advantages: the creation display device can realize fingerprint sensing in a predetermined area in addition to image display, that is, the creative display device integrates the function of fingerprint sensing, and has the same function. Good bulk density. For the electronic device including the display device, it is not necessary to separately provide a fingerprint sensing device, which can reduce the space and weight occupied by the fingerprint sensing device and reduce the formation. this.

本創作顯示裝置能夠實現圖像顯示、在預定區域實現指紋感測，還能實現觸控檢測，進一步提高了顯示裝置的積體密度。減少顯示裝置的體積和重量，也降低了成本。 The creation display device can realize image display, realize fingerprint sensing in a predetermined area, and can realize touch detection, thereby further improving the integrated density of the display device. Reducing the size and weight of the display device also reduces costs.

本創作電子設備能實現圖像顯示和指紋感測，具有良好的安全性，積體密度高，還可以具有較小的體積和重量。 The creation electronic device can realize image display and fingerprint sensing, has good security, high integral density, and can also have small volume and weight.

1‧‧‧電子設備 1‧‧‧Electronic equipment

2‧‧‧指紋感測裝置 2‧‧‧Fingerprint sensing device

3‧‧‧顯示區域 3‧‧‧Display area

4‧‧‧電子設備 4‧‧‧Electronic equipment

5‧‧‧顯示裝置 5‧‧‧Display device

6‧‧‧顯示區域 6‧‧‧Display area

8‧‧‧指紋感測指令單元 8‧‧‧Fingerprint command unit

10‧‧‧顯示面板 10‧‧‧ display panel

101‧‧‧預定區域 101‧‧‧Predetermined area

20‧‧‧驅動電路 20‧‧‧Drive circuit

202‧‧‧指紋感測單元 202‧‧‧Finger sensing unit

203‧‧‧掃描線驅動電路 203‧‧‧Scan line driver circuit

204‧‧‧資料線驅動電路 204‧‧‧Data line driver circuit

205‧‧‧指紋感測控制電路 205‧‧‧Fingerprint sensing control circuit

206‧‧‧指紋感測檢測電路 206‧‧‧Fingerprint detection and detection circuit

207‧‧‧公共電壓產生電路 207‧‧‧Common voltage generating circuit

208‧‧‧第一訊號產生電路 208‧‧‧First signal generation circuit

209‧‧‧觸控驅動電路 209‧‧‧Touch drive circuit

21‧‧‧顯示驅動單元 21‧‧‧Display drive unit

210‧‧‧指紋感測檢測模組 210‧‧‧Fingerprint sensing module

211‧‧‧運算放大器 211‧‧‧Operational Amplifier

2111‧‧‧第一開關 2111‧‧‧First switch

2112‧‧‧第二開關 2112‧‧‧second switch

2113‧‧‧第三開關 2113‧‧‧ third switch

2114‧‧‧第八開關 2114‧‧‧ eighth switch

2115‧‧‧第九開關 2115‧‧‧ninth switch

212‧‧‧參考電壓源 212‧‧‧reference voltage source

213‧‧‧反饋電容 213‧‧‧ Feedback Capacitance

214‧‧‧控制器 214‧‧‧ Controller

215‧‧‧第一電壓源 215‧‧‧First voltage source

216‧‧‧第二電壓源 216‧‧‧second voltage source

22‧‧‧指紋感測單元 22‧‧‧Finger sensing unit

224‧‧‧控制器 224‧‧‧ Controller

23‧‧‧控制單元 23‧‧‧Control unit

30‧‧‧驅動電路 30‧‧‧Drive circuit

300‧‧‧顯示電極 300‧‧‧ display electrode

301‧‧‧第一畫素單元 301‧‧‧ first pixel unit

302‧‧‧第二子畫素單元 302‧‧‧Second sub-pixel unit

3011‧‧‧第一電極 3011‧‧‧First electrode

3012‧‧‧第一控制開關 3012‧‧‧First control switch

3021‧‧‧第二電極 3021‧‧‧second electrode

3022‧‧‧第二控制開關 3022‧‧‧Second control switch

31‧‧‧顯示驅動單元 31‧‧‧Display drive unit

311‧‧‧第一畫素單元 311‧‧‧ first pixel unit

3111‧‧‧第一電極 3111‧‧‧First electrode

3112‧‧‧第一控制開關 3112‧‧‧First control switch

3122‧‧‧第二控制開關 3122‧‧‧Second control switch

32‧‧‧指紋感測單元 32‧‧‧Finger sensing unit

33‧‧‧觸控驅動電路 33‧‧‧Touch drive circuit

34‧‧‧控制單元 34‧‧‧Control unit

40‧‧‧顯示面板 40‧‧‧ display panel

400‧‧‧掃描線 400‧‧‧ scan line

401‧‧‧第一掃描線 401‧‧‧ first scan line

402‧‧‧第二掃描線 402‧‧‧Second scan line

50‧‧‧觸控感應單元 50‧‧‧Touch sensing unit

500‧‧‧資料線 500‧‧‧Information line

501‧‧‧第一資料線 501‧‧‧First data line

502‧‧‧第二資料線 502‧‧‧Second data line

600‧‧‧公共電極 600‧‧‧Common electrode

601‧‧‧公共電極 601‧‧‧Common electrode

611‧‧‧畫素電極 611‧‧‧ pixel electrodes

7‧‧‧顯示裝置 7‧‧‧Display device

70‧‧‧顯示面板 70‧‧‧ display panel

701‧‧‧預定區域 701‧‧‧Predetermined area

71‧‧‧驅動電路 71‧‧‧Drive circuit

711‧‧‧顯示驅動單元 711‧‧‧Display drive unit

7111‧‧‧掃描線驅動電路 7111‧‧‧Scan line driver circuit

7112‧‧‧資料線驅動電路 7112‧‧‧Data line driver circuit

712‧‧‧指紋感測單元 712‧‧‧Finger sensing unit

7121‧‧‧指紋感測控制電路 7121‧‧‧Fingerprint sensing control circuit

7122‧‧‧指紋感測檢測電路 7122‧‧‧Fingerprint detection circuit

801‧‧‧第一控制開關 801‧‧‧First control switch

802‧‧‧第二控制開關 802‧‧‧Second control switch

81‧‧‧第一電極 81‧‧‧First electrode

82‧‧‧第二電極 82‧‧‧second electrode

B‧‧‧藍色第一子畫素單元 B‧‧‧Blue first sub-pixel unit

C‧‧‧指紋感測控制訊號 C‧‧‧Fingerprint sensing control signal

c1‧‧‧第一指紋感測控制訊號 C1‧‧‧first fingerprint sensing control signal

c2‧‧‧第二指紋感測控制訊號 C2‧‧‧Second fingerprint sensing control signal

D‧‧‧指紋感測訊號 D‧‧‧Fingerprint sensing signal

D₁‧‧‧第一資料線 D ₁ ‧‧‧First data line

G‧‧‧綠色第一子畫素單元 G‧‧‧Green first sub-pixel unit

G₁‧‧‧掃描驅動訊號 G ₁ ‧‧‧ scan drive signal

G₂‧‧‧掃描驅動訊號 G ₂ ‧‧‧ scan drive signal

G_N‧‧‧掃描驅動訊號 G _N ‧‧‧ scan drive signal

K1‧‧‧第四開關 K1‧‧‧fourth switch

K2‧‧‧第四開關 K2‧‧‧fourth switch

K1B‧‧‧第五開關 K1B‧‧‧ fifth switch

K2B‧‧‧第五開關 K2B‧‧‧ fifth switch

KQB‧‧‧第五開關 KQB‧‧‧ fifth switch

K3‧‧‧第六開關 K3‧‧‧ sixth switch

K4‧‧‧第七開關 K4‧‧‧ seventh switch

K5‧‧‧第十開關 K5‧‧‧ tenth switch

KQ‧‧‧第四開關 KQ‧‧‧fourth switch

N‧‧‧第一節點 N‧‧‧ first node

N1‧‧‧第一訊號 N1‧‧‧ first signal

N2‧‧‧第二訊號 N2‧‧‧ second signal

N3‧‧‧第三訊號 N3‧‧‧ third signal

Q1‧‧‧節點 Q1‧‧‧ node

Q2‧‧‧節點 Q2‧‧‧ node

Q3‧‧‧節點 Q3‧‧‧ node

Q4‧‧‧節點 Q4‧‧‧ node

P‧‧‧第二節點 P‧‧‧second node

R‧‧‧紅色第一子畫素單元 R‧‧‧Red first sub-pixel unit

S₁‧‧‧顯示資料 S ₁ ‧‧‧Display information

S_N‧‧‧顯示資料 S _N ‧‧‧Display information

T‧‧‧觸控檢測訊號 T‧‧‧ touch detection signal

a₁‧‧‧第二資料線 a ₁ ‧‧‧second data line

a₂‧‧‧第二資料線 a ₂ ‧‧‧second data line

a_N‧‧‧第二資料線 a _N ‧‧‧second data line

d‧‧‧第二導通端 D‧‧‧second conduction end

g‧‧‧控制端 g‧‧‧Control end

g₁‧‧‧第二掃描線 g ₁ ‧‧‧second scan line

g₂‧‧‧第二掃描線 g ₂ ‧‧‧second scan line

g_M‧‧‧第二掃描線 g _M ‧‧‧second scan line

s‧‧‧第一導通端 S‧‧‧first conduction end

[第1圖]係現有技術一種具有指紋識別功能的電子設備示意圖。 [Fig. 1] is a schematic diagram of an electronic device having a fingerprint recognition function in the prior art.

[第2圖]係本創作電子設備一實施例的示意圖。 [Fig. 2] is a schematic diagram of an embodiment of the present electronic device.

[第3圖]係本創作顯示裝置第一實施例的功能框圖。 [Fig. 3] is a functional block diagram of the first embodiment of the present creation display apparatus.

[第4圖]係第3圖所示顯示裝置的結構示意圖。 [Fig. 4] is a schematic view showing the structure of the display device shown in Fig. 3.

[第5圖]係第4圖中顯示面板的結構示意圖。 [Fig. 5] is a schematic structural view of the display panel in Fig. 4.

[第6圖]係第4圖中驅動電路的訊號示意圖。 [Fig. 6] is a signal diagram of the driving circuit in Fig. 4.

[第7圖]係第4圖中指紋感測檢測電路的示意圖。 [Fig. 7] is a schematic diagram of the fingerprint sensing detection circuit in Fig. 4.

[第8圖]係第7圖中指紋感測檢測模組一實施例的示意圖。 [Fig. 8] is a schematic diagram of an embodiment of the fingerprint sensing detection module in Fig. 7.

[第9圖]係第7圖中指紋感測檢測模組另一實施例的示意圖。 [Fig. 9] is a schematic view showing another embodiment of the fingerprint sensing detection module in Fig. 7.

[第10圖]係第7圖中指紋感測檢測模組再一實施例的示意圖。 [Fig. 10] Fig. 7 is a schematic view showing still another embodiment of the fingerprint sensing detection module in Fig. 7.

[第11圖]係本創作顯示裝置第二實施例中指紋感測單元的示意圖。 [Fig. 11] is a schematic diagram of a fingerprint sensing unit in the second embodiment of the present creation display device.

[第12圖]係第11圖中指紋感測單元的指紋感測訊號的示意圖。 [Fig. 12] is a schematic diagram of a fingerprint sensing signal of the fingerprint sensing unit in Fig. 11.

[第13圖]係本創作顯示裝置第三實施例的示意圖。 [Fig. 13] is a schematic view showing a third embodiment of the present creation display device.

[第14圖]係本創作顯示裝置第四實施例的示意圖。 [Fig. 14] is a schematic view showing a fourth embodiment of the present creation display device.

[第15圖]係第14圖中觸控感應單元的示意圖。 [Fig. 15] is a schematic view of the touch sensing unit in Fig. 14.

[第16圖]係第14圖中驅動電路的訊號示意圖。 [Fig. 16] is a signal diagram of the driving circuit in Fig. 14.

[第17圖]係本創作顯示裝置第五實施例的示意圖。 [17] Fig. 17 is a schematic view showing a fifth embodiment of the present creation display device.

[第18圖]係本創作顯示裝置第六實施例的示意圖。 [Fig. 18] is a schematic view showing a sixth embodiment of the present creation display device.

為使本創作的上述目的、特徵和優點能夠更為明顯易懂，下面結合附圖對本創作的具體實施例做詳細的說明。 In order to make the above objects, features and advantages of the present invention more obvious and obvious, the specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

為了解決先前技術中提到的問題，本創作提供一種電子設備，參考第2圖，示出了本創作電子設備一實施例的示意圖，所述電子設備4包括顯示裝置5，所述顯示裝置5具有一用於進行圖像顯示的顯示區域6，所述顯示區域6的預定區域101可用於實現指紋感測。 In order to solve the problems mentioned in the prior art, the present invention provides an electronic device. Referring to FIG. 2, there is shown a schematic diagram of an embodiment of the present electronic device, the electronic device 4 including a display device 5, the display device 5 There is a display area 6 for image display, and the predetermined area 101 of the display area 6 can be used to implement fingerprint sensing.

電子設備4中可以設置有指紋感測指令單元8，與所述顯示裝置5相連(包括直接相連或無線連接)，用於觸發所述顯示裝置5進行指紋感測。 The electronic device 4 may be provided with a fingerprint sensing instruction unit 8 connected to the display device 5 (including direct connection or wireless connection) for triggering the display device 5 to perform fingerprint sensing.

需要說明的是，第2圖中採用虛線框表示指紋感測指令單元8，僅為示意電子設備4中可以包含此單元，不應以此限制指紋感測指令單元8的位置和形式。 It should be noted that the fingerprint sensing instruction unit 8 is represented by a dashed box in FIG. 2, and only the unit can be included in the electronic device 4, and the position and form of the fingerprint sensing instruction unit 8 should not be limited.

例如：所述電子設備4中設置有開機裝置，用於啟動所述電子設備4，所述開機裝置可以包括所述指紋感測指令單元8，用於在啟動所述電子設備4時觸發所述顯示裝置5進行指紋感測。 For example, the electronic device 4 is provided with a booting device for activating the electronic device 4, and the booting device may include the fingerprint sensing command unit 8 for triggering the electronic device 4 when the device is activated. The display device 5 performs fingerprint sensing.

或者，所述電子設備4中設置有應用程序裝置，用於提供應用程序。所述應用程序裝置可以包括所述指紋感測指令單元8，用於在應用程序被選中或應用程序使用過程中觸發所述顯示裝置5進行指紋感測。 Alternatively, the electronic device 4 is provided with an application device for providing an application. The application device may include the fingerprint sensing instruction unit 8 for triggering the display device 5 to perform fingerprint sensing during an application being selected or during use of the application.

再或者，所述電子設備4中設置有觸控檢測裝置，用於進行觸控檢測，所述觸控檢測裝置可以包括所述指紋感測指令單元8，用於在用戶觸控所述的預定區域101時觸發所述顯示裝置5進行指紋感測。 In addition, the electronic device 4 is provided with a touch detection device for performing touch detection, and the touch detection device may include the fingerprint sensing instruction unit 8 for using the user to touch the predetermined reservation. The area 101 triggers the display device 5 to perform fingerprint sensing.

可選地，所述指紋感測指令單元8設置於所述開機裝置、應用程序裝置或觸控檢測裝置等裝置中的任意一個或多個，以為電子設備4的用戶提供更多選擇，且使電子設備4安全性得到進一步提高。 Optionally, the fingerprint sensing instruction unit 8 is disposed in any one or more of the booting device, the application device, or the touch detecting device to provide more options for the user of the electronic device 4, and The security of the electronic device 4 is further improved.

需要說明的是，本創作對電子設備4中是否設置有指紋感測指令單元不作限制，其他實施例中，還可以藉由其他方式或手段觸發所述顯示裝置5進行指紋感測。 It should be noted that the present invention does not limit whether the fingerprint sensing instruction unit is disposed in the electronic device 4. In other embodiments, the display device 5 may be triggered to perform fingerprint sensing by other means or means.

具體地，所述電子設備4可以是手機、平板電腦、筆記型電腦或桌上型電腦。本創作對此不作限制。 Specifically, the electronic device 4 can be a mobile phone, a tablet computer, a notebook computer or a desktop computer. This creation does not limit this.

參考第3圖，示出了本創作顯示裝置第一實施例的功能框圖。顯示裝置5包括顯示面板10與驅動電路20。驅動電路20與顯示面板10連接。 Referring to Fig. 3, a functional block diagram of the first embodiment of the present creation display apparatus is shown. The display device 5 includes a display panel 10 and a drive circuit 20. The drive circuit 20 is connected to the display panel 10.

顯示面板10，設置有多個顯示電極300，所述多個顯示電極300用於圖像顯示，定義位於所述顯示面板10預定區域101的顯示電極300為第一電極3011，其中，第一電極3011進一步用於指紋感測，定義第一電極3011執行指紋感測的階段為指紋感測階段。 The display panel 10 is provided with a plurality of display electrodes 300 for image display, and the display electrode 300 located in the predetermined area 101 of the display panel 10 is defined as a first electrode 3011, wherein the first electrode The 3011 is further used for fingerprint sensing, and the stage in which the first electrode 3011 performs fingerprint sensing is defined as a fingerprint sensing stage.

驅動電路20，用於向所述多個顯示電極300提供顯示訊號，以實現圖像顯示；還用於在指紋感測階段向所述第一電極3011提供指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。 The driving circuit 20 is configured to provide a display signal to the plurality of display electrodes 300 for image display, and is further configured to provide a fingerprint sensing signal to the first electrode 3011 during the fingerprint sensing phase, for the first The electrode 3011 performs self-capacitance detection to implement fingerprint sensing.

本創作顯示裝置除了能夠實現圖像顯示還可以在預定區域101實現指紋感測，即本創作顯示裝置集成了指紋感測的功能，具有較好的積體密度。對於包括所述顯示裝置的電子設備而言，無需再單獨設置一指紋感測裝置，可以減少指紋感測裝置佔據的空間和重量，進一步地，也減少了電子設備的成本。 The creation display device can realize fingerprint sensing in the predetermined area 101 in addition to image display, that is, the creation display device integrates the function of fingerprint sensing and has better integrated density. For the electronic device including the display device, it is not necessary to separately provide a fingerprint sensing device, which can reduce the space and weight occupied by the fingerprint sensing device, and further reduce the cost of the electronic device.

具體地，以電子設備為手機進行說明，手機開機觸發指紋感測階段，所述驅動電路20向所述第一電極3011提供指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。手機用戶手指放置在所述預定區域101進行指紋感測，藉由指紋感測所獲取的手機用戶指紋如果與存儲在手機中的指紋資訊相匹配，則開機成功，如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊不匹配，則開機不成功，從而可以防止手機資訊洩露，提高了手機使用的安全性。 Specifically, the electronic device is used for the mobile phone, and the mobile phone is turned on to trigger the fingerprint sensing phase. The driving circuit 20 provides a fingerprint sensing signal to the first electrode 3011, and performs self-capacitance detection on the first electrode 3011. Implement fingerprint sensing. The fingerprint of the mobile phone user is placed in the predetermined area 101 for fingerprint sensing. If the fingerprint of the mobile phone user obtained by the fingerprint sensing matches the fingerprint information stored in the mobile phone, the booting is successful, if the mobile phone obtained during the fingerprint sensing phase If the fingerprint of the user does not match the fingerprint information stored in the mobile phone, the booting is unsuccessful, thereby preventing the leakage of the mobile phone information and improving the security of the mobile phone.

需要說明的是，除了手機開機觸發指紋感測階段，還可以藉由指紋感測指令觸發所述指紋感測階段。 It should be noted that, in addition to the fingerprint activation phase of the mobile phone, the fingerprint sensing phase may be triggered by a fingerprint sensing command.

同樣以電子設備為手機進行說明，手機用戶使用支付寶客戶端進行支付，在點選支付寶客戶端的應用程序(APP)時向驅動電路20發送指紋感測指令，以觸發所述指紋感測階段。又例如，當手機處於螢幕閉鎖狀態、需要解鎖時，藉由觸控檢測或控制按鍵觸發向驅動電路20發送指紋感測指令，以觸發所述指紋感測階段，以利用指紋使手機解 鎖。 The electronic device is also described as a mobile phone. The mobile phone user uses the Alipay client to make a payment, and sends a fingerprint sensing command to the driving circuit 20 when the application (APP) of the Alipay client is clicked to trigger the fingerprint sensing phase. For example, when the mobile phone is in the screen lock state and needs to be unlocked, the fingerprint sensing command is triggered to be sent to the driving circuit 20 by the touch detection or control button to trigger the fingerprint sensing phase to use the fingerprint to solve the mobile phone solution. lock.

需要說明的是，驅動電路20在所述指紋感測階段之前向所述顯示電極300(包括所述第一電極3011)提供顯示訊號，以實現圖像顯示；驅動電路20接收到指紋感測指令(也可以是其他方式觸發指紋感測階段)而觸發指紋感測階段，並在指紋感測階段切換提供圖像訊號為指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。 It should be noted that the driving circuit 20 provides a display signal to the display electrode 300 (including the first electrode 3011) to realize image display before the fingerprint sensing phase; the driving circuit 20 receives the fingerprint sensing instruction. (The fingerprint sensing phase may be triggered by other means), and the fingerprint sensing phase is triggered, and the image signal is provided as a fingerprint sensing signal during the fingerprint sensing phase, and the first electrode 3011 is self-capacitance detected to implement Fingerprint sensing.

手機用戶手指放置在所述預定區域101進行指紋感測，如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊相匹配，則支付寶客戶端能夠成功打開，手機用戶可以進行支付；如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊不匹配，則支付寶客戶端不能成功打開，從而可以提高手機支付的安全性。 The user of the mobile phone is placed in the predetermined area 101 for fingerprint sensing. If the fingerprint of the mobile phone user acquired in the fingerprint sensing phase matches the fingerprint information stored in the mobile phone, the Alipay client can be successfully opened, and the mobile phone user can make a payment; If the fingerprint of the mobile phone user acquired in the fingerprint sensing phase does not match the fingerprint information stored in the mobile phone, the Alipay client cannot be successfully opened, thereby improving the security of the mobile payment.

具體地，請繼續參考第3圖，驅動電路20包括：顯示驅動單元21，用於向所述多個顯示電極300提供顯示訊號，以實現圖像顯示；指紋感測單元22，用於對所述第一電極3011提供所述指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測；控制單元23，用於在指紋感測階段控制所述指紋感測單元22向所述第一電極3011提供所述指紋感測訊號，以控制所述指紋感測單元22對所述第一電極3011進行指紋感測。 Specifically, please refer to FIG. 3, the driving circuit 20 includes: a display driving unit 21 for providing display signals to the plurality of display electrodes 300 to implement image display; and a fingerprint sensing unit 22 for The first electrode 3011 provides the fingerprint sensing signal, and performs self-capacitance detection on the first electrode 3011 to implement fingerprint sensing. The control unit 23 is configured to control the fingerprint sensing unit 22 in the fingerprint sensing stage. The fingerprint sensing signal is provided to the first electrode 3011 to control the fingerprint sensing unit 22 to perform fingerprint sensing on the first electrode 3011.

以電子設備為手機進行說明，手機的開機裝置與所述控制單元23相連，用戶藉由開機裝置開機時觸發所述控制單元23，從而觸發指紋感測階段，所述控制單元23控制所述指紋感測單元22向所述第一電極3011提供所述指紋感測訊號，以進行指紋感測。 The electronic device is used for the mobile phone. The booting device of the mobile phone is connected to the control unit 23, and the user triggers the control unit 23 when the booting device is powered on, thereby triggering the fingerprint sensing phase, and the control unit 23 controls the fingerprint. The sensing unit 22 provides the fingerprint sensing signal to the first electrode 3011 for fingerprint sensing.

或者，手機使用過程中，控制單元23控制顯示驅動單元21向所述多個顯示電極300提供顯示訊號，以在手機整個顯示面板上實現圖像顯示。用戶在點選支付寶客戶端的APP時，向所述控制單元23發送指紋感測指令以觸發指紋感測階段，所述控制單元23接收所述指紋感測指令，切換提供顯示訊號為指紋感測訊號給所述第一電極3011，對所述第一電極3011進行自電容檢測，以實現指紋感測。具體地，所述控制單元23可以控制顯示驅動單元21不向所述第一電極3011提供顯示訊號，而控制指紋感測單元向所述第一電極3011提供指紋感測訊號，從而實現所述切換操作。 Alternatively, during use of the mobile phone, the control unit 23 controls the display driving unit 21 to provide a display signal to the plurality of display electrodes 300 to implement image display on the entire display panel of the mobile phone. When the user selects the APP of the Alipay client, the user sends a fingerprint sensing command to the control unit 23 to trigger the fingerprint sensing phase, and the control unit 23 receives the fingerprint sensing command, and switches the display display signal to the fingerprint sensing signal. The first electrode 3011 is subjected to self-capacitance detection to the first electrode 3011 to implement fingerprint sensing. Specifically, the control unit 23 can control the display driving unit 21 not to provide a display signal to the first electrode 3011, and control the fingerprint sensing unit to provide a fingerprint sensing signal to the first electrode 3011, thereby implementing the switching. operating.

請結合參考第4圖、第5圖和第6圖，分別示出了第3圖所示顯示裝置5的結構示意圖、第3圖中顯示裝置5的顯示面板10的結構示意圖、第3圖中驅動電路20的訊號示意圖。需要說明的是，此處以顯示裝置5為液晶顯示裝置為例進行說明，相應地，顯示介質為液晶。但是本創作顯示裝置是否為液晶顯示裝置不作限制，在其他實施例中所述顯示裝置5還可以是其它合適類型的顯示裝置。本實施例顯示裝置5包括顯示面板10和驅動電路20。 Referring to FIG. 4, FIG. 5, and FIG. 6, a schematic structural view of the display device 5 shown in FIG. 3, a schematic structural view of the display panel 10 of the display device 5 in FIG. 3, and FIG. 3 are respectively shown. A schematic diagram of the signal of the drive circuit 20. In addition, here, the display device 5 is demonstrated as a liquid crystal display device, and correspondingly, a display medium is liquid crystal. However, the present display device is not limited to a liquid crystal display device. In other embodiments, the display device 5 may be other suitable types of display devices. The display device 5 of the present embodiment includes a display panel 10 and a drive circuit 20.

在本實施例顯示裝置5中，顯示面板10還設置有按列排序的掃描線400、按行排序的資料線500以及與所述掃描線400和資料線500相連的控制開關100；所述控制開關100包括控制端g、第一導通端s與第二導通端d，所述控制端g用於控制所述第一導通端s與第二導通端d之間是否導通；所述控制開關100的控制端g與所述掃描線400相連，所述第一導通端s與所述資料線500相連，所述第二導通端d與所述多個顯 示電極300對應連接(見第5圖)。 In the display device 5 of the present embodiment, the display panel 10 is further provided with a scan line 400 sorted by columns, a data line 500 sorted by rows, and a control switch 100 connected to the scan line 400 and the data line 500; the control The switch 100 includes a control terminal g, a first conductive terminal s and a second conductive terminal d, and the control terminal g is configured to control whether the first conductive terminal s and the second conductive terminal d are conductive; the control switch 100 The control terminal g is connected to the scan line 400, the first conductive terminal s is connected to the data line 500, and the second conductive terminal d and the plurality of display terminals The electrodes 300 are connected in correspondence (see Fig. 5).

具體地，所述控制開關100可以是薄膜電晶體(TFT)，所述薄膜電晶體為非晶矽薄膜電晶體或多晶矽薄膜電晶體。所述控制開關100也可以是其他結構的控制開關。 Specifically, the control switch 100 may be a thin film transistor (TFT), and the thin film transistor is an amorphous germanium thin film transistor or a polycrystalline germanium thin film transistor. The control switch 100 can also be a control switch of other configurations.

在本實施例顯示裝置5中，所述顯示驅動單元21包括：掃描線驅動電路203，與所述掃描線400相連，用於向掃描線400發送掃描驅動訊號G₁、G₂......G_N，以導通所述控制開關100。資料線驅動電路204，與所述資料線500相連，用於向資料線500發送顯示資料S₁......S_N，使導通的控制開關100將所述顯示資料S₁......S_N傳輸至所述多個顯示電極300(見第4圖)。 In the display device 5 of the present embodiment, the display driving unit 21 includes a scanning line driving circuit 203 connected to the scanning line 400 for transmitting scanning driving signals G ₁ , G ₂ ... to the scanning line 400. ..G _N to turn on the control switch 100. The data line driving circuit 204 is connected to the data line 500 for transmitting the display data S ₁ ... S _N to the data line 500, so that the conductive control switch 100 turns the display data S ₁ ... ...S _{N is} transmitted to the plurality of display electrodes 300 (see Fig. 4).

需要說明的是，第4圖中的液晶顯示面板採用GIP(gate-in-panel)技術，所述掃描線驅動電路203設置於所述顯示面板10上。但是本創作對此不作限制，所述掃描線驅動電路203也可以不設置在所述顯示面板10上，而是集成在驅動電路20中。 It should be noted that the liquid crystal display panel in FIG. 4 adopts a GIP (gate-in-panel) technology, and the scan line driving circuit 203 is disposed on the display panel 10. However, the present invention does not limit this, and the scan line driving circuit 203 may not be disposed on the display panel 10, but may be integrated in the driving circuit 20.

如第5圖所示，所述顯示面板10包括多個子畫素單元，所述顯示電極300為畫素電極，所述顯示面板10上還設置有與所述畫素電極相對的公共電極600，所述公共電極600與所述顯示電極(具體說為畫素電極)用作顯示面板10中一子畫素單元的二極板。所述顯示資料S₁......S_N為畫素電壓，所述公共電極600上加載有公共電壓VCOM，子畫素單元上畫素電壓和公共電壓VCOM決定子畫素單元內液晶分子的偏轉，從而決定子畫素單元的透光率，結合彩色濾光片的色彩實現圖像顯示。 As shown in FIG. 5, the display panel 10 includes a plurality of sub-pixel units, the display electrode 300 is a pixel electrode, and the display panel 10 is further provided with a common electrode 600 opposite to the pixel electrode. The common electrode 600 and the display electrode (specifically, a pixel electrode) are used as a two-pole plate of a sub-pixel unit in the display panel 10. The display data S ₁ . . . S _N is a pixel voltage, the common electrode 600 is loaded with a common voltage VCOM, and the pixel voltage and the common voltage VCOM on the sub-pixel unit determine the liquid crystal in the sub-pixel unit. The deflection of the molecules, thereby determining the transmittance of the sub-pixel unit, and combining the color of the color filter to achieve image display.

具體地，每一子畫素單元包括一顯示電極300以及與所述顯示電極相連接的控制開關100，其中，定義包括第一電極3011的子畫素單元為第一畫素單元301；其它子畫素單元為第二子畫素單元302，第一畫素單元301中的控制開關100為第一控制開關3012，定義第二子畫素單元302的顯示電極300為第二電極3021，第二子畫素單元302中的控制開關100為第二控制開關3022，與第一畫素單元301相連接的掃描線400為第一掃描線401，與第二子畫素單元302相連接且非與第一畫素單元301相連接的掃描線為第二掃描線402，與第一畫素單元301相連接的資料線500為第一資料線501，與第二子畫素單元302相連接且非與第一畫素單元301相連接的資料線500為第二資料線502。 Specifically, each sub-pixel unit includes a display electrode 300 and a control switch 100 connected to the display electrode, wherein the sub-pixel unit including the first electrode 3011 is defined as the first pixel unit 301; The pixel unit is a second sub-pixel unit 302. The control switch 100 in the first pixel unit 301 is a first control switch 3012. The display electrode 300 defining the second sub-pixel unit 302 is a second electrode 3021. The control switch 100 in the sub-pixel unit 302 is a second control switch 3022. The scan line 400 connected to the first pixel unit 301 is a first scan line 401, and is connected to the second sub-pixel unit 302. The scan line connected to the first pixel unit 301 is the second scan line 402, and the data line 500 connected to the first pixel unit 301 is the first data line 501, and is connected to the second sub-pixel unit 302. The data line 500 connected to the first pixel unit 301 is the second data line 502.

在驅動電路20中，所述指紋感測單元202包括指紋感測控制電路205和指紋感測檢測電路206。指紋感測控制電路205，與所述第一掃描線401相連，用於提供指紋感測控制訊號C，以導通所述第一控制開關3012。 In the driving circuit 20, the fingerprint sensing unit 202 includes a fingerprint sensing control circuit 205 and a fingerprint sensing detecting circuit 206. The fingerprint sensing control circuit 205 is connected to the first scan line 401 for providing a fingerprint sensing control signal C to turn on the first control switch 3012.

指紋感測檢測電路206，與所述第一資料線501相連，用於提供進行自電容檢測的指紋感測訊號D，使導通的第一控制開關3012將所述指紋感測訊號D傳輸至所述第一電極3011，以對所述第一電極3011進行指紋感測。 The fingerprint sensing detection circuit 206 is connected to the first data line 501 for providing a fingerprint sensing signal D for self-capacitance detection, so that the first control switch 3012 that is turned on transmits the fingerprint sensing signal D to the The first electrode 3011 is described to perform fingerprint sensing on the first electrode 3011.

所述控制單元23可以在指紋感測階段控制所述指紋感測控制電路205向所述第一掃描線501發送指紋感測控制訊號C，以導通所述第一控制開關3012，並控制所述指紋感測檢測電路206向所述第一資料線401發送指紋感測訊號D，以在預定區域101內藉由所述第一電極 3011實現指紋感測。 The control unit 23 may control the fingerprint sensing control circuit 205 to send a fingerprint sensing control signal C to the first scan line 501 during the fingerprint sensing phase to turn on the first control switch 3012 and control the The fingerprint sensing detection circuit 206 sends a fingerprint sensing signal D to the first data line 401 to pass the first electrode in the predetermined area 101. 3011 implements fingerprint sensing.

具體地，預定區域101內第一電極即能在圖像顯示時達到顯示電極的作用，還能在指紋感測階段達到自電容檢測電極的作用。自定義第一電極執行圖像顯示的階段為圖像顯示階段。結合參考第4圖和第5圖，多條第一資料線501與所述資料線驅動電路204之間均設置有第四開關K1、K2......KQ；多條第一資料線501與所述指紋感測檢測電路206之間均設置有第五開關K1B、K2B......KQB。所述控制單元23可以藉由控制所述第四開關K1、K2......KQ和所述第五開關K1B、K2B......KQB實現圖像顯示階段和指紋感測階段的切換。 Specifically, the first electrode in the predetermined area 101 can achieve the function of the display electrode when the image is displayed, and can also reach the function of the self-capacitance detecting electrode in the fingerprint sensing stage. The stage in which the custom first electrode performs image display is the image display phase. With reference to FIG. 4 and FIG. 5, a fourth switch K1, K2, ..., KQ is disposed between the plurality of first data lines 501 and the data line driving circuit 204; and a plurality of first data lines are provided. A fifth switch K1B, K2B, ..., KQB is disposed between the 501 and the fingerprint sensing detection circuit 206. The control unit 23 can implement an image display phase and a fingerprint sensing phase by controlling the fourth switches K1, K2, ..., KQ and the fifth switches K1B, K2B, ..., KQB. Switching.

具體地，所述控制單元23用於在圖像顯示階段控制所述第四開關K1、K2......KQ導通、第五開關K1B、K2B......KQB關斷，從而使資料線驅動電路204與所述第一資料線501導通，以實現資料線驅動電路204藉由所述第一資料線501向所述第一電極3011提供顯示資料。需要說明的是，此處是藉由開關使所述資料線驅動電路204與第一資料線501(更具體地，是與第一子畫素單元)之間斷開，但是本創作對此不作限制，還可以採用其他方式實現資料線驅動電路204與第一資料線501之間的斷開，或者，所述資料線驅動電路停止輸出顯示訊號給第一畫素單元的第一電極。 Specifically, the control unit 23 is configured to control the fourth switches K1, K2, ..., KQ to be turned on, and the fifth switches K1B, K2B, ..., KQB to be turned off during an image display phase, thereby The data line driving circuit 204 is electrically connected to the first data line 501, so that the data line driving circuit 204 provides display data to the first electrode 3011 via the first data line 501. It should be noted that the data line driving circuit 204 is disconnected from the first data line 501 (more specifically, the first sub-pixel unit) by a switch, but the present invention does not limit this. The disconnection between the data line driving circuit 204 and the first data line 501 may be implemented in other manners, or the data line driving circuit stops outputting the display signal to the first electrode of the first pixel unit.

所述控制單元23還用於在指紋感測階段(例如在接收到指紋感測指令時)控制所述第五開關K1B、K2B......KQB導通、第四開關K1、K2......KQ關斷，從而使所述指紋感測檢測電路206與所述第一資料線501導通，以實現指紋感測檢測電路206藉由所述第一資料線501向 所述第一電極3011提供指紋感測訊號，進而對所述第一電極3011實現自電容指紋感測。 The control unit 23 is further configured to control the fifth switch K1B, K2B, ..., KQB to be turned on, and the fourth switch K1, K2 when the fingerprint sensing stage (for example, when receiving the fingerprint sensing instruction). The KQ is turned off, so that the fingerprint sensing and detecting circuit 206 is electrically connected to the first data line 501, so that the fingerprint sensing and detecting circuit 206 is turned by the first data line 501. The first electrode 3011 provides a fingerprint sensing signal, thereby implementing self-capacitance fingerprint sensing on the first electrode 3011.

需要說明的是，此處是以資料線驅動電路204與指紋感測檢測電路206均藉由同一第一資料線501向第一電極3011提供訊號為例進行說明。但是本創作對此不作限制，在其他實施例中，指紋感測檢測電路206還可以藉由其他的傳輸線向所述第一電極3011提供指紋感測訊號。控制單元，用於控制第一電極是執行指紋感測還是執行圖像顯示，以分別進行指紋感測階段還是圖像顯示階段。 It should be noted that, here, the data line driving circuit 204 and the fingerprint sensing detecting circuit 206 both provide signals to the first electrode 3011 through the same first data line 501 as an example for description. However, the present invention does not limit this. In other embodiments, the fingerprint sensing detection circuit 206 can also provide a fingerprint sensing signal to the first electrode 3011 by using other transmission lines. And a control unit, configured to control whether the first electrode performs fingerprint sensing or image display to perform a fingerprint sensing phase or an image display phase, respectively.

如第6圖所示，本實施例中，所述指紋感測訊號D為低電平為0V、高電平為2V方波脈衝訊號，用於對第一電極3011的自電容進行指紋感測。 As shown in FIG. 6, in the embodiment, the fingerprint sensing signal D is a low-level 0V, high-level 2V square wave pulse signal, and is used for fingerprint sensing of the self-capacitance of the first electrode 3011. .

為了減少所述第一電極3011與所述第一掃描線401之間的寄生電容，可選的，所述指紋感測控制訊號C為與所述指紋感測訊號D為同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關3012導通，同時能減少所述第一掃描線401與所述第一電極3011構成的電容器的充放電電量。 In order to reduce the parasitic capacitance between the first electrode 3011 and the first scan line 401, the fingerprint sensing control signal C is the same frequency as the fingerprint sensing signal D. The pulse signal is used to turn on the first control switch 3012 during fingerprint sensing, and at the same time reduce the charge and discharge power of the capacitor formed by the first scan line 401 and the first electrode 3011.

具體地，本實施例中，所述第一控制開關3012為N型TFT，開啟電壓為15V，截止電壓-12V。 Specifically, in this embodiment, the first control switch 3012 is an N-type TFT, the turn-on voltage is 15V, and the turn-off voltage is -12V.

如第6圖所示，所述指紋感測控制訊號C具有高電平區域和低電平區域，其中高電平區域為以開啟電壓15V為基準電壓、幅度為2V(即高電平區域的高電平為17V)的脈衝訊號，這樣在指紋感測階段，加載在第一掃描線401上的指紋感測控制訊號C高電平區域的低電平為 15V，高電平17V能使所述第一控制開關3012導通，並且由於與加載在第一電極3011上的指紋感測訊號為同頻同相，與第一掃描線401中未傳輸同頻同相脈衝訊號相比，可以減少第一電極3011與所述第一掃描線401之間寄生電容的充放電電量，從而減少第一電極3011與所述第一掃描線401之間寄生電容對指紋感測的影響。 As shown in FIG. 6, the fingerprint sensing control signal C has a high level region and a low level region, wherein the high level region has a turn-on voltage of 15V as a reference voltage and an amplitude of 2V (ie, a high level region). a high-level 17V pulse signal, such that during the fingerprint sensing phase, the low level of the high-level region of the fingerprint sensing control signal C loaded on the first scan line 401 is 15V, a high level of 17V enables the first control switch 3012 to be turned on, and since the fingerprint sensing signal loaded on the first electrode 3011 is in-phase in phase, the same-frequency in-phase pulse is not transmitted in the first scan line 401. Compared with the signal, the charge and discharge power of the parasitic capacitance between the first electrode 3011 and the first scan line 401 can be reduced, thereby reducing the parasitic capacitance between the first electrode 3011 and the first scan line 401 to sense the fingerprint. influences.

類似地，低電平區域為以-12V為基準電壓、幅度為2V(即低電平區域的高電平為-10V)，對於N型TFT而言，截止電壓一般為-12V，-10V也能使所述N型TFT截止，因此，低電平區域的訊號能使N型TFT截止，同時還減少第一電極3011與所述第一掃描線401之間寄生電容的充放電電量。 Similarly, the low-level region has a reference voltage of -12V and an amplitude of 2V (that is, a high level of -10V in the low-level region). For an N-type TFT, the cut-off voltage is generally -12V, and -10V is also The N-type TFT can be turned off, and therefore, the signal of the low-level region can turn off the N-type TFT while reducing the charge and discharge power of the parasitic capacitance between the first electrode 3011 and the first scan line 401.

需要說明的是，此處以指紋感測控制訊號為與所述指紋感測訊號為同頻同相同幅的脈衝訊號為例進行說明，但是本創作對此不作限制，在其他實施例中，指紋感測控制訊號為與所述指紋感測訊號為同頻同相的脈衝訊號，也同樣能在指紋感測時使所述第一控制開關3012導通，同時能減少所述第一掃描線401與所述第一電極3011構成的電容器的充放電電量。 It should be noted that the fingerprint sensing control signal is taken as an example of the same pulse signal as the fingerprint sensing signal, but the present invention does not limit this. In other embodiments, the fingerprint sense is not limited. The measurement control signal is a pulse signal that is in phase with the fingerprint sensing signal, and can also turn on the first control switch 3012 during fingerprint sensing, and can reduce the first scan line 401 and the The charge and discharge electric quantity of the capacitor constituted by the first electrode 3011.

需要說明的是，雖然第6圖中的所述指紋感測控制訊號C與掃描驅動訊號G₁、G₂......G_N略有不同。在其他實施例中，由於第一電極3011與位於預定區域101之外的其他顯示電極300，並且第一控制開關3012與所述第二控制開關3022相同，第一掃描線401與所述第二掃描線402相同，可選的，所述指紋感測控制電路205可以集成在所述掃描線驅動電路中(如第4圖所示)，也就是說，指紋感測控制訊號C可以與所 述掃描驅動訊號G₁、G₂......G_N，相同。例如，對於N型TFT，所述指紋感測控制訊號C可以與掃描驅動訊號G₁、G₂......G_N均為採用高電平為15V、低電平為-12V的脈衝訊號。 It should be noted that although the fingerprint sensing control signal C in FIG. 6 is slightly different from the scanning driving signals G ₁ , G ₂ . . . , G _N . In other embodiments, since the first electrode 3011 and other display electrodes 300 located outside the predetermined area 101, and the first control switch 3012 is identical to the second control switch 3022, the first scan line 401 and the second The scan line 402 is the same. Optionally, the fingerprint sensing control circuit 205 can be integrated in the scan line driving circuit (as shown in FIG. 4 ), that is, the fingerprint sensing control signal C can be The scan drive signals G ₁ , G ₂ ... G _{N are the} same. For example, for the N-type TFT, the fingerprint sensing control signal C and the scan driving signals G ₁ , G _{2 ,} . . . , G _N are both pulses with a high level of 15V and a low level of -12V. Signal.

請繼續結合參考第4圖、第5圖和第6圖，所述驅動電路20還包括：公共電壓產生電路207，與所述公共電極600相連，用於在圖像顯示階段向所述公共電極600提供公共電壓VCOM，使子畫素單元二極板分別加載有公共電壓和畫素電壓，以實現圖像顯示。 Please continue to refer to FIG. 4, FIG. 5 and FIG. 6, the driving circuit 20 further includes a common voltage generating circuit 207 connected to the common electrode 600 for the common electrode in the image display stage. 600 provides a common voltage VCOM, so that the sub-pixel unit diodes are respectively loaded with a common voltage and a pixel voltage to achieve image display.

所述公共電極600通常與所述顯示電極300相對設置，容易產生寄生電容。可選的，所述驅動電路20還可以包括一第一訊號產生電路208，與所述公共電極600相連，用於提供第一訊號N1，用於在指紋感測階段減少所述第一電極3011與所述公共電極600構成的電容器的充放電電量。 The common electrode 600 is generally disposed opposite to the display electrode 300, and parasitic capacitance is easily generated. Optionally, the driving circuit 20 further includes a first signal generating circuit 208 connected to the common electrode 600 for providing a first signal N1 for reducing the first electrode 3011 in a fingerprint sensing stage. The charge and discharge amount of the capacitor formed by the common electrode 600.

所述控制單元23用於在圖像顯示階段控制所述公共電壓產生電路207向所述公共電極600提供公共電壓VCOM；還用於在指紋感測階段控制所述第一訊號產生電路208向所述公共電極600提供第一訊號N1，以用於在指紋感測時減少所述第一電極3011與所述公共電極600構成的電容器的充放電電量。 The control unit 23 is configured to control the common voltage generating circuit 207 to provide a common voltage VCOM to the common electrode 600 during an image display phase; and to control the first signal generating circuit 208 to be in a fingerprint sensing phase. The common electrode 600 provides a first signal N1 for reducing the charge and discharge capacity of the capacitor formed by the first electrode 3011 and the common electrode 600 during fingerprint sensing.

具體地，可以在第一訊號產生電路208與所述公共電極600之間設置開關，所述控制單元23藉由控制所述開關來控制是第一訊號產生電路208還是公共電壓產生電路207與所述公共電極600相連接。 Specifically, a switch may be disposed between the first signal generating circuit 208 and the common electrode 600, and the control unit 23 controls whether the first signal generating circuit 208 or the common voltage generating circuit 207 is controlled by controlling the switch. The common electrodes 600 are connected.

如第6圖所示，本實施例中，第一訊號N1與所述指紋感測訊號D相同，均為低電平為低電平為0V、高電平為2V的方波脈衝訊號， 加載有所述第一訊號N1的公共電極和加載有所述指紋感測訊號D的第一電極3011之間電勢差保持不變，在指紋感測階段減少第一電極3011與所述公共電極600構成的電容器基本不發生的充放電現象。但是本創作對第一訊號N1與所述指紋感測訊號D是否相同並不作限制，在其他實施例中，所述第一訊號N1還可以和指紋感測訊號為同頻同相的脈衝訊號，或者，所述第一訊號N1為與指紋感測訊號為同頻同相同幅的脈衝訊號，均能在指紋感測階段減少第一電極3011與所述公共電極600構成的電容器的充放電電量。 As shown in FIG. 6, in the embodiment, the first signal N1 is the same as the fingerprint sensing signal D, and is a square wave pulse signal with a low level of 0V and a high level of 2V. The potential difference between the common electrode loaded with the first signal N1 and the first electrode 3011 loaded with the fingerprint sensing signal D remains unchanged, and the first electrode 3011 and the common electrode 600 are reduced during the fingerprint sensing phase. The capacitor does not substantially charge or discharge. However, the first signal N1 and the fingerprint sensing signal may be pulse signals of the same frequency in the same frequency, or in other embodiments, the first signal N1 may be the same as the fingerprint sensing signal D. The first signal N1 is a pulse signal having the same amplitude as the fingerprint sensing signal, and can reduce the charge and discharge power of the capacitor formed by the first electrode 3011 and the common electrode 600 in the fingerprint sensing stage.

由於本實施例中，第一訊號N1與所述指紋感測訊號D相同，可選的，所述第一訊號產生電路208可以集成於所述指紋感測檢測電路206中。即所述指紋感測檢測電路206在指紋感測階段除了向第一資料線501發送指紋感測訊號D，還在指紋感測階段向公共電極600發送第一訊號N1。 In the embodiment, the first signal N1 is the same as the fingerprint sensing signal D. Optionally, the first signal generating circuit 208 can be integrated into the fingerprint sensing and detecting circuit 206. That is, the fingerprint sensing detection circuit 206 sends the first signal N1 to the common electrode 600 in the fingerprint sensing stage in addition to sending the fingerprint sensing signal D to the first data line 501 during the fingerprint sensing phase.

如第4圖所示，所述公共電壓產生電路207與公共電極600之間設置有第六開關K3，所述指紋感測檢測電路206與公共電極600之間設置有第七開關K4。 As shown in FIG. 4, a sixth switch K3 is disposed between the common voltage generating circuit 207 and the common electrode 600, and a seventh switch K4 is disposed between the fingerprint sensing detecting circuit 206 and the common electrode 600.

所述控制單元23在圖像顯示階段控制述第六開關K3導通、第七開關K4關斷，使所述公共電壓產生電路207與所述公共電極600之間導通，以藉由公共電壓產生電路207向所述公共電極600提供公共電壓VCOM。 The control unit 23 controls the sixth switch K3 to be turned on and the seventh switch K4 to be turned off during the image display phase to turn on the common voltage generating circuit 207 and the common electrode 600 to form a common voltage generating circuit. 207 provides a common voltage VCOM to the common electrode 600.

所述控制單元23在指紋感測階段(如接收到指紋感測指令時)控制所述第七開關K4導通、第六開關K3關斷，以藉由所述指紋感 測檢測電路206向所述公共電極發送第一訊號N1。 The control unit 23 controls the seventh switch K4 to be turned on and the sixth switch K3 to be turned off during the fingerprint sensing phase (such as when receiving the fingerprint sensing instruction), by using the fingerprint sense The detection circuit 206 sends a first signal N1 to the common electrode.

更具體地，在圖像顯示階段，所述控制單元23發送顯示控制訊號，用於同時控制所述第四開關K1、K2......KQ以及第六開關K3導通，第五開關K1B、K2B......KQB以及第七開關K4關斷，從而使資料線驅動電路204向所述第一電極3011提供顯示資料S₁......S_N，同時使所述公共電壓產生電路207向所述公共電極600提供公共電壓VCOM。 More specifically, in the image display stage, the control unit 23 sends a display control signal for simultaneously controlling the fourth switches K1, K2, ..., KQ and the sixth switch K3 to be turned on, and the fifth switch K1B , K2B ... KQB and the seventh switch K4 are turned off, thereby causing the data line driving circuit 204 to supply the display material S ₁ ... S _N to the first electrode 3011 while making the public The voltage generating circuit 207 supplies the common voltage VCOM to the common electrode 600.

在指紋感測階段(例如所述控制單元23收到指紋感測指令)，所述控制單元23發送指紋感測控制訊號，用於同時控制所述第五開關K1B、K2B......KQB以及第七開關K4導通，第四開關K1、K2......KQ以及第六開關K3關斷，從而使指紋感測檢測電路206同時向所述第一電極3011以及公共電極600提供方波脈衝訊號，所述方波脈衝訊號加載在所述第一電極3011用作指紋感測訊號D，所述方波脈衝訊號加載在公共電極600上用作第一訊號N1。 In the fingerprint sensing phase (for example, the control unit 23 receives the fingerprint sensing command), the control unit 23 sends a fingerprint sensing control signal for simultaneously controlling the fifth switch K1B, K2B... The KQB and the seventh switch K4 are turned on, and the fourth switches K1, K2, ..., KQ and the sixth switch K3 are turned off, so that the fingerprint sensing detection circuit 206 simultaneously supplies the first electrode 3011 and the common electrode 600. The square wave pulse signal is applied to the first electrode 3011 as a fingerprint sensing signal D, and the square wave pulse signal is loaded on the common electrode 600 for use as the first signal N1.

請繼續參考第4圖和第5圖，為了使指紋感測階段位於預定區域101上方的第二子畫素單元302顯示的顏色不變，可選的，所述控制單元23還用於在指紋感測階段控制與第二掃描線402相連接的第二控制開關3022關閉，這樣與與第二掃描線402相連的第二電極3021上的畫素電壓保持不變。公共電極600上公共電壓保持不變，可以位於預定區域101上方的第二子畫素單元302中液晶分子偏轉角度保持不變。之後，所述控制單元23控制所述指紋感測控制電路205向所述第一掃描線401發送指紋感測控制訊號C，以導通所述第一控制開關3012，並控制所述指紋感測檢測電路206向所述第一資料線501發送指紋感測訊號D。 Please continue to refer to FIG. 4 and FIG. 5, in order to make the color displayed by the second sub-pixel unit 302 above the predetermined area 101 of the fingerprint sensing stage unchanged, optionally, the control unit 23 is also used for the fingerprint. The sensing phase controls the second control switch 3022 connected to the second scan line 402 to be turned off so that the pixel voltage on the second electrode 3021 connected to the second scan line 402 remains unchanged. The common voltage on the common electrode 600 remains unchanged, and the liquid crystal molecule deflection angle may remain unchanged in the second sub-pixel unit 302 above the predetermined area 101. Thereafter, the control unit 23 controls the fingerprint sensing control circuit 205 to send a fingerprint sensing control signal C to the first scan line 401 to turn on the first control switch 3012 and control the fingerprint sensing detection. The circuit 206 sends a fingerprint sensing signal D to the first data line 501.

如第4圖和第5圖所示的預定區域101為位於顯示面板10下方的長方形區域，除了位於預定區域101上方的顯示面板10具有第二子畫素單元302，在所述預定區域101兩側的顯示面板10也具有多個第二子畫素單元302。 The predetermined area 101 as shown in FIGS. 4 and 5 is a rectangular area located below the display panel 10, except that the display panel 10 located above the predetermined area 101 has a second sub-pixel unit 302 in which two predetermined areas 101 The side display panel 10 also has a plurality of second sub-pixel units 302.

在所述預定區域101兩側的顯示面板10的多個第二子畫素單元302與第一掃描線401以及第二資料線502相連。當所述指紋感測控制電路205發送指紋感測控制訊號C給第一掃描線401時，不僅使位於預定區域101內的第一控制開關3012導通，還使與第一掃描線401相連接的第二子畫素單元302的第二控制開關3022導通。 A plurality of second sub-pixel units 302 of the display panel 10 on both sides of the predetermined area 101 are connected to the first scan line 401 and the second data line 502. When the fingerprint sensing control circuit 205 sends the fingerprint sensing control signal C to the first scan line 401, not only the first control switch 3012 located in the predetermined area 101 is turned on, but also connected to the first scan line 401. The second control switch 3022 of the second sub-pixel unit 302 is turned on.

可選的，所述控制單元23還用於控制資料線驅動電路204向第二資料線502發送顯示資料S₁......S_N，以提供顯示資料S₁......S_N給與第一掃描線401相連接的第二子畫素單元302的第二電極3021，以使位於所述預定區域101兩側的顯示面板區域在指紋感測階段也能實現圖像顯示。 Optionally, the control unit 23 is further configured to control the data line driving circuit 204 to send the display materials S ₁ . . . S _N to the second data line 502 to provide the display data S ₁ . S _{N is applied} to the second electrode 3021 of the second sub-pixel unit 302 connected to the first scan line 401, so that the display panel area located on both sides of the predetermined area 101 can also realize image display in the fingerprint sensing stage. .

如第4圖和第5圖所示，顯示面板10包括位於預定區域101內的多個第一畫素單元301和位於預定區域101之外的多個第二子畫素單元302，其中，所述多個第一畫素單元301包括紅色第一子畫素單元、綠色第一子畫素單元、和藍色第一子畫素單元。所述多個第二子畫素單元302包括紅色第二子畫素單元、綠色第二子畫素單元、和藍色第二子畫素單元。 As shown in FIGS. 4 and 5, the display panel 10 includes a plurality of first pixel units 301 located in the predetermined area 101 and a plurality of second sub-pixel units 302 located outside the predetermined area 101, wherein The plurality of first pixel units 301 include a red first sub-pixel unit, a green first sub-pixel unit, and a blue first sub-pixel unit. The plurality of second sub-pixel units 302 include a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit.

結合參考第7圖，示出了第4圖中指紋感測檢測電路的示意圖。如所述指紋感測檢測電路206包括：多個指紋感測檢測模組210，所 述指紋感測檢測模組210用於對顯示面板的多個第一畫素單元301同時進行指紋感測。具體地，一指紋感測檢測模組210用於對顯示面板的紅色第一子畫素單元(R)、綠色第一子畫素單元(G)、和藍色第一子畫素單元(B)同時進行指紋感測，以提高指紋感測的效率並簡化指紋感測檢測電路206。 Referring to Figure 7, a schematic diagram of the fingerprint sensing detection circuit of Figure 4 is shown. The fingerprint sensing detection circuit 206 includes: a plurality of fingerprint sensing detection modules 210, The fingerprint sensing detection module 210 is configured to simultaneously perform fingerprint sensing on the plurality of first pixel units 301 of the display panel. Specifically, a fingerprint sensing detection module 210 is configured to use a red first sub-pixel unit (R), a green first sub-pixel unit (G), and a blue first sub-pixel unit (B) of the display panel. Fingerprint sensing is performed simultaneously to improve the efficiency of fingerprint sensing and to simplify the fingerprint sensing detection circuit 206.

但是本創作對此不作限制，在其他實施例中，一指紋感測檢測模組210還可以只對一個第一畫素單元301進行指紋感測，以提高指紋感測的精度。 However, the present invention does not limit this. In other embodiments, a fingerprint sensing detection module 210 can perform fingerprint sensing on only one first pixel unit 301 to improve the accuracy of fingerprint sensing.

顯示面板10中一畫素單元至少包括一紅色子畫素單元(R)、一綠色子畫素單元(G)、藍色子畫素單元(B)(例如：有的畫素單元還可能包括諸如白色子畫素單元的其他子畫素單元)。具體地，定義位於所述預定區域101內用於實現指紋感測與圖像顯示為第一畫素單元，每一第一畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元和藍色第一子畫素單元；定義位於所述預定區域101之外的畫素單元為第二畫素單元，所述第二畫素的單元包括紅色第二子畫素單元、綠色第二子畫素單元、和藍色第二子畫素單元。 A pixel unit in the display panel 10 includes at least a red sub-pixel unit (R), a green sub-pixel unit (G), and a blue sub-pixel unit (B) (for example, some pixel units may also include Other sub-pixel elements such as white sub-pixel elements). Specifically, the definition is located in the predetermined area 101 for implementing fingerprint sensing and image display as a first pixel unit, and each first pixel unit includes a red first sub-pixel unit and a green first sub-pixel. a unit and a blue first sub-pixel unit; defining a pixel unit outside the predetermined area 101 as a second pixel unit, the second pixel unit including a red second sub-pixel unit, green The second sub-pixel unit and the blue second sub-pixel unit.

可選的，所述指紋感測檢測模組210用於對一第一畫素單元301中的所有子畫素單元同時進行指紋感測。一方面能提高指紋感測效率，另一方面也更容易控制。 Optionally, the fingerprint sensing detection module 210 is configured to simultaneously perform fingerprint sensing on all the sub-pixel units in a first pixel unit 301. On the one hand, it can improve the fingerprint sensing efficiency, on the other hand, it is easier to control.

參考第8圖，示出了第7圖所示指紋感測檢測模組210的示意圖。需要說明的是，在指紋感測階段，第一電極3011與資料線501之間的第一控制開關3012導通，相當於一條導線，此第8圖對應省略示出 所述導通的第一控制開關3012。 Referring to FIG. 8, a schematic diagram of the fingerprint sensing detection module 210 shown in FIG. 7 is shown. It should be noted that, in the fingerprint sensing phase, the first control switch 3012 between the first electrode 3011 and the data line 501 is turned on, which is equivalent to one wire, and FIG. 8 is omitted for corresponding illustration. The first control switch 3012 that is turned on.

具體地，所述指紋感測檢測模組210包括：運算放大器211，為虛短狀態；參考電壓源212，與所述運算放大器211的反相輸入端相連，用於提供參考電壓，本實施例參考電壓為2V；反饋電容213，一端與所述運算放大器211的正相輸入端相連，另一端與運算放大器211的輸出端相連；第一開關2111，一端連接於第一資料線501，另一端連接於用於輸出第一電壓的第一電壓源，此處所述第一電壓源為地端(0V)，所述第一開關2111與所述第一資料線501之間定義第一節點N；第二開關2112，一端連接於所述第一節點N，另一端連接於運算放大器211的正相輸入端；第三開關2113，與所述反饋電容213並聯；控制器214，用於分時輸出第一控制訊號和第二控制訊號；所述第一控制訊號用於使所述第一開關2111以及第三開關2113導通，且使所述第二開關2112關斷，從而使得反饋電容213存儲的電容被釋放；所述第二控制訊號用於使第二開關2112導通，且使所述第一開關2111以及第三開關2113關斷，從而藉由所述參考電壓源212對所述第一電極3011的自電容以及所述反饋電容213進行充電。 Specifically, the fingerprint sensing detection module 210 includes an operational amplifier 211 that is in a virtual short state, and a reference voltage source 212 that is connected to the inverting input terminal of the operational amplifier 211 for providing a reference voltage. The reference voltage is 2V; the feedback capacitor 213 has one end connected to the non-inverting input end of the operational amplifier 211 and the other end connected to the output end of the operational amplifier 211; the first switch 2111 has one end connected to the first data line 501 and the other end connected to the first data line 501. Connected to a first voltage source for outputting a first voltage, where the first voltage source is a ground terminal (0V), and a first node N is defined between the first switch 2111 and the first data line 501 a second switch 2112 having one end connected to the first node N and the other end connected to the non-inverting input terminal of the operational amplifier 211; a third switch 2113 connected in parallel with the feedback capacitor 213; and a controller 214 for time sharing And outputting the first control signal and the second control signal; the first control signal is used to turn on the first switch 2111 and the third switch 2113, and turn off the second switch 2112, so that the feedback capacitor 213 is stored Capacitance Released; the second control signal is used to turn on the second switch 2112, and the first switch 2111 and the third switch 2113 are turned off, so that the reference voltage source 212 is opposite to the first electrode 3011. The self capacitance and the feedback capacitance 213 are charged.

控制器214分時輸出第一控制訊號和第二控制訊號，形成如第6圖所示的低電平為0V、高電平為2V的方波脈衝訊號作為指紋感測訊號D，以對第一電極3011的自電容實現檢測。具體地，所述指紋感測 檢測模組210還包括：計算單元，與所述運算放大器211的輸出端相連，用於獲取運算放大器211的輸出端電壓，還用於根據所述運算放大器211的輸出端電壓Vout、參考電壓源的參考電壓Vref和反饋電容的電容值C15獲得第一電極的自電容C11大小。具體的地，第一電極3011的自電容C11可以由以下公式獲得。 The controller 214 outputs the first control signal and the second control signal in time to form a square wave pulse signal with a low level of 0V and a high level of 2V as the fingerprint sensing signal D as shown in FIG. The self-capacitance of an electrode 3011 enables detection. Specifically, the fingerprint sensing The detection module 210 further includes a calculation unit connected to the output end of the operational amplifier 211 for obtaining the output terminal voltage of the operational amplifier 211, and is further configured to be used according to the output voltage Vout of the operational amplifier 211 and the reference voltage source. The reference voltage Vref and the capacitance value C15 of the feedback capacitor obtain the self-capacitance C11 of the first electrode. Specifically, the self-capacitance C11 of the first electrode 3011 can be obtained by the following formula.

C11=[(Vout-Vref)*C15]/Vref，進行指紋感測時，手指碰觸預定區域101而導致第一電極3011對地的電容C11(即自電容)發生電容值變化，手指指紋的凹凸不平的紋路使電容值C11有不同的電容值變化量，藉由所述電容值變化量可以獲知手指指紋距離第一電極3011的距離，同時結合第一電極3011在顯示面板10中的位置，可以獲知手指指紋的資訊，進而完成指紋感測。 C11=[(Vout-Vref)*C15]/Vref, when the fingerprint is sensed, the finger touches the predetermined area 101, causing the capacitance value C11 (ie, self-capacitance) of the first electrode 3011 to the ground to change, and the fingerprint of the finger The unevenness of the texture causes the capacitance value C11 to have a different amount of change in the capacitance value. The amount of change in the capacitance value can be used to know the distance of the finger fingerprint from the first electrode 3011, and at the same time, the position of the first electrode 3011 in the display panel 10 is combined. The fingerprint information can be obtained, and fingerprint sensing can be completed.

需要說明的是，對於第一訊號N1與所述指紋感測訊號D相同，所述第一訊號產生電路208集成於所述指紋感測檢測電路206中的情況，所述指紋感測檢測模組210還可以採用其他實現方式。 It should be noted that, when the first signal N1 is the same as the fingerprint sensing signal D, the first signal generating circuit 208 is integrated in the fingerprint sensing detecting circuit 206, and the fingerprint sensing detecting module is used. 210 can also adopt other implementations.

如第9圖所示，與第8圖所示指紋感測檢測模組210相同之處不再贅述，與第8圖所示指紋感測檢測模組210的不同之處在於，所述指紋感測檢測模組210還包括：第八開關2114，一端連接於公共電極600，另一端連接於用於輸出第二電壓的第二電壓源，本實施例中所述第二電壓為0V，所述第二電壓源為地端；所述第八開關2114與所述公共電極600之間定義一第二節點P。 As shown in FIG. 9 , the same as the fingerprint sensing detection module 210 shown in FIG. 8 is not described again, and the difference from the fingerprint sensing detection module 210 shown in FIG. 8 is that the fingerprint sense is The detection module 210 further includes an eighth switch 2114, one end is connected to the common electrode 600, and the other end is connected to a second voltage source for outputting a second voltage. In the embodiment, the second voltage is 0V, The second voltage source is a ground end; a second node P is defined between the eighth switch 2114 and the common electrode 600.

第九開關2115，一端連接於所述第二節點P，另一端連接於參考電壓源212。 The ninth switch 2115 has one end connected to the second node P and the other end connected to the reference voltage source 212.

控制器224，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關2111、第八開關2114以及第三開關2113導通，且使所述第二開關2112和第九開關2115關斷，從而使反饋電容213存儲的電容被釋放。所述第四控制訊號用於使所述第二開關2112和第九開關2115導通，且使所述第一開關2111、第八開關2114以及第三開關2113關斷，從而藉由所述參考電壓源212對所述第一電極3011的自電容、所述公共電極600的自電容以及所述反饋電容213進行充電。 The controller 224 is configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used to turn on the first switch 2111, the eighth switch 2114, and the third switch 2113, and enable the The second switch 2112 and the ninth switch 2115 are turned off, so that the capacitance stored by the feedback capacitor 213 is released. The fourth control signal is used to turn on the second switch 2112 and the ninth switch 2115, and turn off the first switch 2111, the eighth switch 2114, and the third switch 2113, thereby using the reference voltage The source 212 charges the self capacitance of the first electrode 3011, the self capacitance of the common electrode 600, and the feedback capacitance 213.

控制器224分時輸出第三控制訊號和第四控制訊號，形成如第6圖所示的低電平為0V、高電平為2V的方波脈衝訊號，指紋感測檢測模組210輸出的所述方波脈衝訊號提供給所述第一電極3011用作指紋感測訊號D，還提供給公共電極600用作第一訊號N1。 The controller 224 outputs the third control signal and the fourth control signal in time to form a square wave pulse signal with a low level of 0V and a high level of 2V as shown in FIG. 6 , and the output of the fingerprint sensing detection module 210 The square wave pulse signal is supplied to the first electrode 3011 for use as a fingerprint sensing signal D, and is also supplied to the common electrode 600 for use as the first signal N1.

需要說明的是，如第6圖所示，指紋感測訊號D為高電平與低電平交替輸出的週期性方波脈衝訊號，具體地，本實施例中所述指紋感測訊號D的低電平為0、高電平為2V。但是本創作對指紋感測訊號D的訊號形式、訊號幅度、頻率等不作限制。所述指紋感測訊號D也可以是階梯型訊號等其它合適類型的訊號。 It should be noted that, as shown in FIG. 6 , the fingerprint sensing signal D is a periodic square wave pulse signal that is alternately outputted at a high level and a low level. Specifically, the fingerprint sensing signal D in the embodiment is The low level is 0 and the high level is 2V. However, this creation does not limit the signal form, signal amplitude, frequency, etc. of the fingerprint sensing signal D. The fingerprint sensing signal D can also be other suitable types of signals such as a ladder signal.

還需要說明的是，第8圖和第9圖中第一電壓源和第二電壓源均為地端，輸出電壓均為0V，均小於所述參考電壓2V。但是本創作對此不作限制，所述第一電壓源提供的第一電壓與所述第二電壓源提供 的第二電壓可以相同也可以不相同。此外所述第一電壓和第二電壓還可以大於所述參考電壓。 It should be noted that, in the 8th and 9th diagrams, the first voltage source and the second voltage source are ground terminals, and the output voltages are both 0V, which are both smaller than the reference voltage 2V. However, the present invention does not limit this, the first voltage provided by the first voltage source and the second voltage source provide The second voltages may or may not be the same. Furthermore, the first voltage and the second voltage may also be greater than the reference voltage.

第10圖所示指紋感測檢測模組與第9圖所示指紋感測檢測模組的相同之處不再贅述，第10圖所示指紋感測檢測模組與第9圖所示指紋感測檢測模組的不同之處在於： The fingerprint sensing detection module shown in FIG. 10 is the same as the fingerprint sensing detection module shown in FIG. 9, and the fingerprint sensing detection module shown in FIG. 10 and the fingerprint feeling shown in FIG. 9 are not described. The difference between the test module is:

第一開關2111，一端連接於第一資料線501，另一端連接於用於輸出第一電壓的第一電壓源215；第八開關2114，一端連接於公共電極600，另一端連接於用於輸出第二電壓的第二電壓源216。 The first switch 2111 has one end connected to the first data line 501, the other end connected to the first voltage source 215 for outputting the first voltage, and the eighth switch 2114, one end is connected to the common electrode 600, and the other end is connected to the output. A second voltage source 216 of the second voltage.

本實施例中所述第一電壓源215提供的第一電壓、所述第二電壓源216提供的第二電壓為12V均高於所述參考電壓，為高電壓Vh。 In the embodiment, the first voltage provided by the first voltage source 215 and the second voltage provided by the second voltage source 216 are both 12V higher than the reference voltage, and are a high voltage Vh.

控制器224，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關2111、第八開關2114以及第三開關2113導通，且使所述第二開關2112和第九開關2115關斷，先藉由高電壓Vh對所述第一電極3011的自電容進行充電；所述第四控制訊號用於使所述第二開關2112和第九開關2115導通，且使所述第一開關2111、第八開關2114以及第三開關2113關斷，藉由參考電壓使所述第一電極3011的自電容進行放電。 The controller 224 is configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used to turn on the first switch 2111, the eighth switch 2114, and the third switch 2113, and enable the The second switch 2112 and the ninth switch 2115 are turned off, and the self-capacitance of the first electrode 3011 is first charged by the high voltage Vh; the fourth control signal is used to make the second switch 2112 and the ninth switch 2115 is turned on, and the first switch 2111, the eighth switch 2114, and the third switch 2113 are turned off, and the self-capacitance of the first electrode 3011 is discharged by a reference voltage.

具體的地，第一電極3011的自電容C11可以由以下公式獲得：C11=[(Vout-Vref)*C15]/(Vh-Vref) Specifically, the self-capacitance C11 of the first electrode 3011 can be obtained by the following formula: C11=[(Vout-Vref)*C15]/(Vh-Vref)

第10圖所示指紋感測檢測模組輸出的指紋感測訊號低電平為2V高電平為12V，指紋感測訊號的幅度為10V，與第6圖所示的幅 度為2V的指紋感測訊號相比，能提高指紋感測的信噪比5倍以上，從而可以提高指紋感測的精度。 The fingerprint sensing signal output by the fingerprint sensing detection module shown in Fig. 10 is low level of 2V for 12V, and the amplitude of the fingerprint sensing signal is 10V, and the amplitude shown in Fig. 6 Compared with the 2V fingerprint sensing signal, the signal-to-noise ratio of the fingerprint sensing can be improved by more than 5 times, thereby improving the accuracy of fingerprint sensing.

第11圖和第1.2圖，分別示出了本創作顯示裝置第二實施例中指紋感測單元的示意圖以及指紋感測訊號的示意圖。此處以低溫多晶矽的顯示裝置為例進行說明，所述顯示裝置的顯示面板中第一控制開關3112與第二控制開關3122均為多晶矽薄膜電晶體。 11 and 1.2 are schematic views respectively showing a fingerprint sensing unit and a fingerprint sensing signal in the second embodiment of the present creative display device. Here, the display device of the low temperature polysilicon is taken as an example. In the display panel of the display device, the first control switch 3112 and the second control switch 3122 are both polycrystalline thin film transistors.

位於預定區域101的第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112分別與不同的第一掃描線411相連且均與同一第一資料線511相連； The first control switch 3112 of the red first sub-pixel unit R, the green first sub-pixel unit G, and the blue first sub-pixel unit B in the first pixel unit 311 located in the predetermined area 101 is different from the first A scan line 411 is connected and connected to the same first data line 511;

指紋感測控制電路205，同時提供指紋感測控制訊號給與一第一畫素單元311中的第一紅色子畫素單元R、第一綠色子畫素單元G、第一藍色子畫素單元B相連的三第一掃描線411，以同時導通一第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112。例如，向第一掃描線411中的G_p、G_p+1、G_p+2同時提供第一指紋感測控制訊號c1，所述第一指紋感測控制訊號c1同時導通與G_p相連的第一紅色子畫素單元R、與G_p+1相連的第一綠色子畫素單元G、與G_p+2相連的第一藍色子畫素單元B。或者，向第一掃描線411中的G_p+3、G_p+4、G_p+5同時提供第二指紋感測控制訊號c2，所述第二指紋感測控制訊號c2同時導通與G_p+3相連的第一紅色子畫素單元R、與G_p+4相連的第一綠色子畫素單元G、與G_p+5相連的第一藍色子畫素單元B。 The fingerprint sensing control circuit 205 simultaneously provides the fingerprint sensing control signal to the first red sub-pixel unit R, the first green sub-pixel unit G, and the first blue sub-pixel in a first pixel unit 311. Three first scan lines 411 connected to the unit B to simultaneously turn on the red first sub-pixel unit R, the green first sub-pixel unit G and the blue first sub-pixel unit B in a first pixel unit 311 The first control switch 3112. For example, the first fingerprint sensing control signal c1 is simultaneously provided to G _p , G _p+1 , G _p+2 in the first scan line 411, and the first fingerprint sensing control signal c1 is simultaneously connected to the G _p . The first red sub-pixel unit R, the first green sub-pixel unit G connected to G _p+1 , and the first blue sub-pixel unit B connected to G _p+2 . Alternatively, the second fingerprint sensing control signal c2 is simultaneously provided to G _p+3 , G _p+4 , G _p+5 in the first scan line 411, and the second fingerprint sensing control signal c2 is simultaneously turned on and G _{p +3} connected first red sub-pixel unit R, first green sub-pixel unit G connected to G _p+4 , and first blue sub-pixel unit B connected to G _p+5 .

所述指紋感測檢測電路，藉由所述第一資料線511向所述第一畫素單元311中的紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B提供進行自電容檢測的指紋感測訊號D。 The fingerprint sensing detection circuit passes the first data line 511 to the first red pixel unit R, the green first sub pixel unit G, and the blue first in the first pixel unit 311. The sub-pixel unit B provides a fingerprint sensing signal D for self-capacitance detection.

需要說明的是，第12圖中所示的第一、第二指紋感測控制訊號c1、c2為與所述指紋感測訊號D同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關3112導通，同時能減少所述第一掃描線411與所述第一電極3111構成的電容器的充放電電量。 It should be noted that the first and second fingerprint sensing control signals c1 and c2 shown in FIG. 12 are pulse signals of the same frequency as the fingerprint sensing signal D, and are used for fingerprint sensing. The first control switch 3112 is turned on, and the charge and discharge amount of the capacitor formed by the first scan line 411 and the first electrode 3111 can be reduced.

但是新型對不作限制，在其他實施例中，所述第一、第二指紋感測控制訊號c1、c2為與所述指紋感測訊號D同頻同相的脈衝訊號，也能在指紋感測時使所述第一控制開關3112導通，同時能減少所述第一掃描線411與所述第一電極3111構成的電容器的充放電電量。或者，所述第一、第二指紋感測控制訊號c1、c2為與掃描驅動訊號相同的訊號，也能同時導通一第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112。 However, in the other embodiments, the first and second fingerprint sensing control signals c1 and c2 are pulse signals that are in phase with the fingerprint sensing signal D, and can also be used during fingerprint sensing. The first control switch 3112 is turned on, and the charge and discharge amount of the capacitor formed by the first scan line 411 and the first electrode 3111 can be reduced. Alternatively, the first and second fingerprint sensing control signals c1 and c2 are the same signal as the scan driving signal, and can simultaneously turn on the red first sub-pixel unit R and the green first in the first pixel unit 311. The first control switch 3112 of the sub-pixel unit G and the blue first sub-pixel unit B.

第13圖，示出了本創作顯示裝置第三實施例的示意圖。本實施例以IPS(In-Plane Switching，平面轉換)液晶顯示裝置為例進行說明。本實施例液晶顯示裝置中的顯示面板為液晶顯示面板，包括第一基板(圖未示)、第二基板(圖未示)以及位於第一基板和第二基板之間的液晶層(圖未示)；所述顯示電極為畫素電極611，所述畫素電極611位於所述第一基板和第二基板之間；所述公共電極601位於所述畫素電極611與所述液晶層之間，且所述公共電極601與畫素電極611交疊的區域之間設置絕緣層(圖未示)，以間隔所述所述公共電極601與畫素電極611。本 實施例中，所述公共電極601在畫素電極611上的投影面積小於所述畫素電極611的面積，從而形成平行電場。 Figure 13 is a diagram showing a third embodiment of the present creative display device. In this embodiment, an IPS (In-Plane Switching) liquid crystal display device will be described as an example. The display panel in the liquid crystal display device of the present embodiment is a liquid crystal display panel, including a first substrate (not shown), a second substrate (not shown), and a liquid crystal layer between the first substrate and the second substrate (not shown) The display electrode is a pixel electrode 611, and the pixel electrode 611 is located between the first substrate and the second substrate; the common electrode 601 is located between the pixel electrode 611 and the liquid crystal layer. An insulating layer (not shown) is disposed between the common electrode 601 and the region where the pixel electrode 611 overlaps to space the common electrode 601 and the pixel electrode 611. this In an embodiment, a projected area of the common electrode 601 on the pixel electrode 611 is smaller than an area of the pixel electrode 611, thereby forming a parallel electric field.

需要說明的是，在液晶顯示裝置中，所述第一基板、畫素電極611、公共電極601、液晶層、第二基板層層堆疊，所述公共電極601在畫素電極611上的投影指的是所述公共電極601沿堆疊方向在所述畫素電極611上的投影。 It should be noted that, in the liquid crystal display device, the first substrate, the pixel electrode 611, the common electrode 601, the liquid crystal layer, and the second substrate layer are stacked, and the projection electrode of the common electrode 601 on the pixel electrode 611 The projection of the common electrode 601 on the pixel electrode 611 in the stacking direction.

本實施例中，所述公共電極601為條形電極，但是本創作對此不作限制，所述公共電極601還可以是梳狀或正四邊形。 In this embodiment, the common electrode 601 is a strip electrode, but the present invention does not limit this. The common electrode 601 may also be a comb or a regular quadrangle.

在上述實施例中，顯示裝置集成了圖像顯示和指紋感測的功能，但是本創作提供的顯示裝置並不限制於此，本創作提供的顯示裝置還可以兼具觸控檢測的功能。 In the above embodiment, the display device integrates the functions of image display and fingerprint sensing, but the display device provided by the present invention is not limited thereto, and the display device provided by the present invention can also have the function of touch detection.

如第14圖，示出了本創作顯示裝置第四實施例的示意圖。 所述顯示裝置7還包括觸控感應單元50，所述觸控感應單元50堆疊於所述顯示面板40上，例如：所述觸控感應單元50為外掛式觸控感應單元。 或者，所述觸控感應單元50為所述顯示面板40的一部分，例如：所述觸控感應單元50為螢幕上觸控感應單元(on cell)或所述觸控感應單元50為內嵌式觸控感應單元。 As shown in Fig. 14, a schematic view of a fourth embodiment of the present creation display apparatus is shown. The display device 7 further includes a touch sensing unit 50. The touch sensing unit 50 is stacked on the display panel 40. For example, the touch sensing unit 50 is an external touch sensing unit. Alternatively, the touch sensing unit 50 is a part of the display panel 40. For example, the touch sensing unit 50 is an on-screen touch sensing unit (on cell) or the touch sensing unit 50 is in-line. Touch sensing unit.

所述驅動電路30還包括：觸控驅動電路33，用於對所述觸控感應單元50進行觸控檢測。 The driving circuit 30 further includes a touch driving circuit 33 for performing touch detection on the touch sensing unit 50.

所述控制單元34，與所述觸控驅動電路33相連，用於分時地控制所述顯示驅動單元31、所述觸控驅動電路33和所述指紋感測單元32，以分別實現圖像顯示階段、觸控檢測階段和指紋感測階段。 The control unit 34 is connected to the touch driving circuit 33 for time-divisionally controlling the display driving unit 31, the touch driving circuit 33 and the fingerprint sensing unit 32 to implement images respectively. Display phase, touch detection phase, and fingerprint sensing phase.

第15圖，示出了第14圖中觸控感應單元的示意圖。此處，顯示面板中公共電極601的數量為多個，多個公共電極601一方面可以在顯示階段用於向子畫素單元提供公共電壓VCOM，另一方面所述多個公共電極601還可以用作觸控檢測的自電容電極。 Fig. 15 is a view showing the touch sensing unit of Fig. 14. Here, the number of the common electrodes 601 in the display panel is plural, and the plurality of common electrodes 601 may be used to provide a common voltage VCOM to the sub-pixel unit in the display phase, and the plurality of common electrodes 601 may also be Used as a self-capacitance electrode for touch detection.

具體地，如第15圖所示，多個公共電極601可以分為多組，同一組的公共電極連接至所述觸控驅動電路209的同一個節點Q1、Q2、Q3或Q4，觸控檢測極端，所述觸控驅動電路向連接於同一節點Q1、Q2、Q3或Q4的公共電極自電容觸控檢測訊號。 Specifically, as shown in FIG. 15, the plurality of common electrodes 601 can be divided into multiple groups, and the common electrodes of the same group are connected to the same node Q1, Q2, Q3 or Q4 of the touch driving circuit 209, and the touch detection is performed. In an extreme, the touch driving circuit self-capacitance touch detection signal to a common electrode connected to the same node Q1, Q2, Q3 or Q4.

請繼續參考第4圖和第5圖，可選的，所述公共電極601與所述公共電壓產生電路207設置有第六開關K3，所述公共電極601還與所述觸控驅動電路209之間設置有第十開關K5。所述控制單元23可以在圖像顯示階段控制所述第六開關K3導通、第十開關K5關斷，以向所述公共電極601提供公共電壓VCOM，還在觸摸檢測階段控制所述第十開關K5導通、第六開關K3關斷，以向公共電極601提供觸控檢測訊號，以對手指是否觸控顯示面板以及手指觸控顯示面板的位置進行檢測。 Please refer to FIG. 4 and FIG. 5 . Optionally, the common electrode 601 and the common voltage generating circuit 207 are provided with a sixth switch K3, and the common electrode 601 is further connected to the touch driving circuit 209. There is a tenth switch K5. The control unit 23 may control the sixth switch K3 to be turned on, the tenth switch K5 to be turned off to provide the common voltage VCOM to the common electrode 601, and to control the tenth switch during the touch detection phase. The K5 is turned on and the sixth switch K3 is turned off to provide a touch detection signal to the common electrode 601 to detect whether the finger touches the display panel and the position of the finger touch display panel.

可選地，對於公共電極601還可以在指紋感測階段用於加載第一訊號，以提高指紋感測的精度的情況。公共電極601還與指紋感測檢測電路206之間設置有第七開關K4，控制單元23用於在圖像顯示階段控制所述第六開關K3導通、第七開關K4和第十開關K5關斷；在觸摸檢測階段控制所述第十開關K5導通、第六開關K3和第七開關K4關斷，在指紋感測階段控制所述第七開關K4導通、第六開關K3和第十開關K5關斷。 Optionally, for the common electrode 601, the first signal may be used in the fingerprint sensing phase to improve the accuracy of the fingerprint sensing. The seventh electrode K4 is further disposed between the common electrode 601 and the fingerprint sensing detection circuit 206. The control unit 23 is configured to control the sixth switch K3 to be turned on, the seventh switch K4 and the tenth switch K5 to be turned off during the image display phase. Controlling, in the touch detection phase, the tenth switch K5 is turned on, the sixth switch K3, and the seventh switch K4 are turned off, and the seventh switch K4 is turned on, the sixth switch K3, and the tenth switch K5 are turned off during the fingerprint sensing phase. Broken.

結合參考第4圖、第5圖和第16圖，第16圖示出了第14圖所示顯示裝置中驅動電路的訊號示意圖，為了提高觸控檢測階段的精度，驅動電路20還包括： 第二訊號產生電路(圖未示)，與所述第一掃描線401、第二掃描線402相連、用於提供第二訊號N2；所述控制單元23，用於在觸控檢測時控制所述第二訊號產生電路向所述第一掃描線401、第二掃描線402提供第二訊號N2，所述第二訊號N2能控制所述控制開關處於關閉狀態，同時還能減少公共電極與第一掃描線401、第二掃描線402構成的電容器的充放電電量。 Referring to FIG. 4, FIG. 5 and FIG. 16, FIG. 16 is a schematic diagram showing the signal of the driving circuit in the display device shown in FIG. 14. In order to improve the accuracy of the touch detection phase, the driving circuit 20 further includes: The second signal generating circuit (not shown) is connected to the first scan line 401 and the second scan line 402 for providing the second signal N2. The control unit 23 is configured to control the touch control. The second signal generating circuit provides a second signal N2 to the first scan line 401 and the second scan line 402. The second signal N2 can control the control switch to be in a closed state, and can also reduce the common electrode and the first The charge and discharge electric quantity of the capacitor constituted by one scanning line 401 and the second scanning line 402.

具體地，可以在第二訊號產生電路與所述第一掃描線401、第二掃描線402之間、掃描線驅動電路與所述第一掃描線401、第二掃描線402之間分別設置一組開關，所述控制單元23可以藉由控制所述開關來控制是第二訊號產生電路還是掃描線驅動電路與所述第一掃描線401、第二掃描線402相連接。 Specifically, a second signal generating circuit is disposed between the first scan line 401 and the second scan line 402, and between the scan line driving circuit and the first scan line 401 and the second scan line 402. The control unit 23 can control whether the second signal generating circuit or the scan line driving circuit is connected to the first scan line 401 and the second scan line 402 by controlling the switch.

本實施例中，控制開關為N型TFT，觸控檢測訊號T為低電平為0V高電平為2V的方波脈衝訊號，所述第二訊號N2為高電平為-10V低電平-12V且與所述觸控檢測訊號T為同頻同相同幅(幅度均為2V)的脈衝訊號。-10V或-12V的電平能能使所述N型TFT截止，同時由於公共電極600與第一掃描線401(或第二掃描線402)構成的電容器極板的電壓差為零，從而可以在觸控檢測階段減少公共電極600與所述第一掃描線401、第二資料線402構成的電容器的充放電電量。從而減少公共電極與第一掃描線401、第二掃描線401之間的寄生電容，提高自電容觸控檢 測的精度。 In this embodiment, the control switch is an N-type TFT, and the touch detection signal T is a square wave pulse signal whose low level is 0V high level is 2V, and the second signal N2 is high level is -10V low level. -12V and the touch detection signal T is the same frequency (the amplitude is 2V) pulse signal. A level of -10 V or -12 V can turn off the N-type TFT while the voltage difference between the common electrode 600 and the first scan line 401 (or the second scan line 402) is zero, thereby The charge and discharge amount of the capacitor formed by the common electrode 600 and the first scan line 401 and the second data line 402 is reduced in the touch detection phase. Thereby reducing the parasitic capacitance between the common electrode and the first scan line 401 and the second scan line 401, and improving the self-capacitance touch detection The accuracy of the measurement.

需要說明的是，此處以所述第二訊號N2為與所述觸控檢測訊號T為同頻同相同幅的脈衝訊號為例進行說明，但是本創作對此不作顯示，所述第二訊號N2還可以是與所述觸控檢測訊號T同頻同相的脈衝訊號，只要電容器兩端的電壓減少也能達到減少電容器充放電電量的效果。 It should be noted that the second signal N2 is taken as an example of a pulse signal having the same frequency and the same frequency as the touch detection signal T, but the present invention does not display the second signal N2. It can also be a pulse signal that is in phase with the touch detection signal T, and the effect of reducing the charge and discharge capacity of the capacitor can be achieved as long as the voltage across the capacitor is reduced.

類似地，驅動電路20還可以包括第三訊號產生電路(圖未示)，與所述第一資料線501、第二資料線502相連、用於提供第三訊號N3，所述控制單元23，用於在觸控檢測時控制所述第三訊號產生電路向所述第一資料線501、第二資料線502提供第三訊號N3，所述第三訊號能減少公共電極600與所述第一資料線501、第二資料線502構成的電容器的充放電電量。 Similarly, the driving circuit 20 may further include a third signal generating circuit (not shown) connected to the first data line 501 and the second data line 502 for providing a third signal N3, the control unit 23, The third signal generating circuit is configured to provide a third signal N3 to the first data line 501 and the second data line 502 during touch detection, wherein the third signal can reduce the common electrode 600 and the first The charge and discharge electric quantities of the capacitor constituted by the data line 501 and the second data line 502.

具體地，可以在第三訊號產生電路與所述第一資料線501、第二資料線502之間、資料線驅動電路與所述第一資料線501、第二資料線502之間均設置一組開關，所述控制單元23藉由控制所述開關來控制是第三訊號產生電路還是資料線驅動電路與第一資料線501、第二資料線502相連接。 Specifically, a third signal generating circuit is disposed between the first data line 501 and the second data line 502, and between the data line driving circuit and the first data line 501 and the second data line 502. The control unit 23 controls whether the third signal generating circuit or the data line driving circuit is connected to the first data line 501 and the second data line 502 by controlling the switch.

本實施例中，觸控檢測訊號T為低電平為0V高電平為2V的方波脈衝訊號，所述第三訊號N3也為低電平為0V高電平為2V的方波脈衝訊號，所述第三訊號N3與觸控檢測訊號T相同，可以使由於公共電極600與第一資料線501(或第二資料線502)構成的電容器極板上電壓保持不變，從而可以在觸控檢測階段減少公共電極600與所述第一資料線 501、第二資料線502構成的電容器的充放電電量。從而減少公共電極600與第一資料線501、第二資料線501之間的寄生電容，提高自電容觸控檢測的精度。 In this embodiment, the touch detection signal T is a square wave pulse signal with a low level of 0V and a high level of 2V, and the third signal N3 is also a square wave pulse signal with a low level of 0V and a high level of 2V. The third signal N3 is the same as the touch detection signal T, so that the voltage on the capacitor plate formed by the common electrode 600 and the first data line 501 (or the second data line 502) can be kept constant, so that the third signal N3 can be touched. Controlling the detection phase to reduce the common electrode 600 and the first data line 501. The charge and discharge capacity of the capacitor formed by the second data line 502. Thereby, the parasitic capacitance between the common electrode 600 and the first data line 501 and the second data line 501 is reduced, and the precision of the self-capacitive touch detection is improved.

需要說明的是，此處以所述第三訊號N3為與所述觸控檢測訊號T相同為例進行說明，但是本創作對此不作限制，所述第三訊號N3可以為與所述觸控檢測訊號T為同頻同相同幅的脈衝訊號，使公共電極600與第一資料線501、第二資料線501之間構成的電容器中兩極板的電壓差為零，或者，所述第三訊號N3可以為與所述觸控檢測訊號T為同頻同相的脈衝訊號，使公共電極600與第一資料線501、第二資料線502之間構成的電容器中兩極板的電壓差減少，也能達到減少電容器充放電電量的效果。 It should be noted that the third signal N3 is the same as the touch detection signal T, but the present invention does not limit the third signal N3, and the third signal N3 may be the touch detection. The signal T is a pulse signal of the same frequency and the same frequency, so that the voltage difference between the two electrodes in the capacitor formed between the common electrode 600 and the first data line 501 and the second data line 501 is zero, or the third signal N3 The pulse signal having the same frequency as the touch detection signal T may be in the same phase, so that the voltage difference between the two electrodes in the capacitor formed between the common electrode 600 and the first data line 501 and the second data line 502 is reduced. Reduce the effect of capacitor charging and discharging.

第17圖，示出了本創作顯示裝置第五實施例的示意圖。本實施例顯示裝置還可以將藉由預定區域101進行指紋感測獲得的指紋圖像呈現在顯示面板10上。 Fig. 17 is a view showing a fifth embodiment of the present creation display device. The display device of the present embodiment can also present a fingerprint image obtained by fingerprint sensing by the predetermined area 101 on the display panel 10.

具體的，結合參考第3圖，所述控制單元23還用於在指紋感測單元22完成指紋感測後或執行指紋感測時，將指紋感測單元22獲得的指紋資訊發送至顯示驅動單元21；所述顯示驅動單元21，還用於向所述顯示電極300提供與所述指紋資訊相對應的顯示訊號，以實現指紋圖像的顯示。 Specifically, in conjunction with reference to FIG. 3, the control unit 23 is further configured to send the fingerprint information obtained by the fingerprint sensing unit 22 to the display driving unit after the fingerprint sensing unit 22 completes the fingerprint sensing or performs fingerprint sensing. The display driving unit 21 is further configured to provide the display electrode 300 with a display signal corresponding to the fingerprint information to implement display of the fingerprint image.

藉由在顯示面板10上顯示指紋圖像，可以使用戶較為明確的獲知手指在預定區域101內的位置，從而能較為準確、全面地對手指指紋進行指紋感測。 By displaying the fingerprint image on the display panel 10, the user can more clearly know the position of the finger in the predetermined area 101, thereby enabling fingerprint sensing of the finger fingerprint more accurately and comprehensively.

需要說明的是，在上述實施例中，顯示裝置5中的第一電極3011即在圖像顯示階段用作顯示電極，又在指紋感測階段用作自電容檢測電極，即位於預定區域101的第一電極3011具有兩個功能。但是本創作對此不作限制，本創作還提供一種顯示裝置，顯示面板10預定區域101的第一電極3011僅在指紋感測階段用作自電容檢測電極，可以減少圖像顯示與指紋感測之間的相互干擾。 It should be noted that, in the above embodiment, the first electrode 3011 in the display device 5 is used as a display electrode in the image display stage, and is used as a self-capacitance detecting electrode in the fingerprint sensing stage, that is, in the predetermined area 101. The first electrode 3011 has two functions. However, the present invention does not limit this. The present invention also provides a display device. The first electrode 3011 of the predetermined area 101 of the display panel 10 is used as a self-capacitance detecting electrode only in the fingerprint sensing stage, which can reduce image display and fingerprint sensing. Mutual interference.

如第18圖，示出了本創作顯示裝置第六實施例的示意圖。所述顯示裝置包括：顯示面板70，設置有位於顯示面板預定區域701的第一電極81、以及位於所述預定區域701外的第二電極82；驅動電路71，用於向所述第一電極81提供指紋感測訊號，對所述第一電極81進行自電容檢測，以實現指紋感測；還用於向所述第二電極82提供顯示訊號，以實現圖像顯示。 As Fig. 18, a schematic view of a sixth embodiment of the present creation display apparatus is shown. The display device includes: a display panel 70 provided with a first electrode 81 located in a predetermined area 701 of the display panel, and a second electrode 82 located outside the predetermined area 701; a driving circuit 71 for the first electrode 81 provides a fingerprint sensing signal, performs self-capacitance detection on the first electrode 81 to implement fingerprint sensing, and is further configured to provide a display signal to the second electrode 82 to implement image display.

如第17圖所示，所述驅動電路71包括：顯示驅動單元711，用於向所述第二電極82提供顯示訊號，以實現圖像顯示；指紋感測單元712，用於向所述第一電極81提供所述指紋感測訊號，對所述第一電極81進行自電容檢測，以實現指紋感測。 As shown in FIG. 17, the driving circuit 71 includes a display driving unit 711 for providing a display signal to the second electrode 82 for image display, and a fingerprint sensing unit 712 for the An electrode 81 provides the fingerprint sensing signal, and the first electrode 81 is self-capacitance detected to implement fingerprint sensing.

具體地，所述顯示面板70設置有按列排序的第一掃描線C₁、C₂......C_p、按行排序第一資料線D₁、D₂......D_N以及與第一掃描線C₁、C₂......C_p和第一資料線D₁、D₂......D_N相連的第一控制開關801；所述第一控制開關801包括控制端、第一導通端與第二導通端，所述控 制端用於控制所述第一導通端與第二導通端之間是否導通；所述第一控制開關801的控制端與所述第一掃描線相連，所述第一導通端與所述第一資料線D₁、D₂......D_N相連，所述第二導通端與所述多個第一電極81對應連接。 Specifically, the display panel 70 is provided with first scan lines C ₁ , C ₂ . . . C _p sorted by columns, and the first data lines D ₁ , D _{2 are} sorted by rows. D _N and a first control switch 801 connected to the first scan lines C ₁ , C ₂ . . . C _p and the first data lines D ₁ , D ₂ . . . D _N ; A control switch 801 includes a control end, a first conductive end and a second conductive end, wherein the control end is configured to control whether the first conductive end and the second conductive end are conductive; the control of the first control switch 801 The end is connected to the first scan line, the first conductive end is connected to the first data lines D ₁ , D ₂ . . . D _N , and the second conductive end and the plurality of One electrode 81 is connected in correspondence.

相應地，所述指紋感測單元712包括：指紋感測控制電路7121，與所述第一掃描線C₁、C₂......C_p相連，用於提供指紋感測控制訊號，以導通所述第一控制開關801；指紋感測檢測電路7122，與所述第一資料線D₁、D₂......D_N相連，用於提供進行自電容檢測的指紋感測訊號，使導通的第一控制開關801將所述指紋感測訊號傳輸至所述第一電極81，以對所述第一電極81進行自電容檢測，基於所述自電容的變化量獲得手指指紋資訊。 Correspondingly, the fingerprint sensing unit 712 includes: a fingerprint sensing control circuit 7121 connected to the first scan lines C ₁ , C ₂ . . . C _p for providing a fingerprint sensing control signal. The first control switch 801 is turned on; the fingerprint sensing detection circuit 7122 is connected to the first data lines D ₁ , D ₂ . . . D _N for providing fingerprint sensing for self-capacitance detection. a signal, wherein the first control switch 801 is configured to transmit the fingerprint sensing signal to the first electrode 81 to perform self-capacitance detection on the first electrode 81, and obtain a finger fingerprint based on the amount of change in the self-capacitance News.

具體地，所述指紋感測單元712可以基於指紋感測指令的觸發進行指紋感測。 Specifically, the fingerprint sensing unit 712 can perform fingerprint sensing based on a trigger of the fingerprint sensing instruction.

如第18圖所示，所述顯示面板70還設置有按列排序的第二掃描線g₁、g₂......g_M，按行排序第二資料線a₁、a₂......a_N以及與第二掃描線g₁、g₂......g_M和第二資料線相連a₁、a₂......a_N的第二控制開關802；所述第二控制開關802包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二導通端之間是否導通；所述第二控制開關802的控制端與所述第二掃描線g₁、g₂......g_M相連，所述第一導通端與所述第二資料線a₁、a₂......a_N相連，所述第二導通端與所述多個第二電極82對應連接。 As shown in FIG. 18, the display panel 70 is further provided with second scan lines g ₁ , g ₂ . . . , g _M sorted by columns, and the second data lines a ₁ , a _{2 are} sorted by rows. .....a _N and a second control switch connected to the second scan lines g ₁ , g ₂ . . . g _M and the second data line a ₁ , a ₂ . . . a _N The second control switch 802 includes a control end, a first conductive end and a second conductive end, wherein the control end is configured to control whether the first conductive end and the second conductive end are conductive; The control end of the control switch 802 is connected to the second scan lines g ₁ , g ₂ . . . g _M , the first conductive end and the second data line a ₁ , a ₂ .... ..a _N is connected to a second conduction terminal connected to the second electrode 82 corresponding to the plurality.

所述顯示驅動單元711包括：掃描線驅動電路7111，與所 述第二掃描線g₁、g₂......g_M相連，用於向第二掃描線g₁、g₂......g_M發送掃描驅動訊號，以導通所述第二控制開關802；資料線驅動電路7112，與所述第二資料線a₁、a₂......a_N相連，用於向第二資料線a₁、a₂......a_N發送顯示資料，使導通的第二控制開關802將所述顯示資料傳輸至第二電極82。 The display driving unit 711 includes: a scan line driving circuit 7111 connected to the second scan lines g ₁ , g ₂ . . . g _M for the second scan lines g ₁ , g ₂ .. ....g _M sends a scan driving signal to turn on the second control switch 802; the data line driving circuit 7112 is connected to the second data lines a ₁ , a ₂ ... a _N The display data is transmitted to the second data lines a ₁ , a _{2 ,} . . . , a _N , and the turned-on second control switch 802 transmits the display data to the second electrode 82 .

具體地，所述顯示裝置可以是液晶顯示裝置，所述第二電極82為畫素電極，用於和公共電極相配合作為顯示面板70中一子畫素單元的二極板。所述顯示資料可以是畫素電壓，所述公共電極上加載有公共電壓VCOM，子畫素單元的液晶分子基於所述畫素電壓和公共電壓VCOM的電壓差進行偏轉，以實現顯示。 Specifically, the display device may be a liquid crystal display device, and the second electrode 82 is a pixel electrode for cooperating with a common electrode as a two-pole plate of a sub-pixel unit in the display panel 70. The display material may be a pixel voltage, and the common electrode is loaded with a common voltage VCOM, and liquid crystal molecules of the sub-pixel unit are deflected based on a voltage difference between the pixel voltage and the common voltage VCOM to achieve display.

在其他實施例中所述顯示裝置還可以是等離子體顯示裝置或有機電激光顯示裝置等。所述第一控制開關801、所述第二控制開關802可以是薄膜電晶體(TFT)，也可以是其他結構的控制開關。 In other embodiments, the display device may also be a plasma display device or an organic electro-laser display device or the like. The first control switch 801 and the second control switch 802 may be thin film transistors (TFTs), or may be other structure control switches.

本實施例顯示裝置中，第一電極和第二電極相互獨立，可以減少圖像顯示和指紋感測之間的干擾。此外，所述第一電極和第二電極可以分別採用不同的驅動單元進行驅動，可以簡化驅動電路。 In the display device of this embodiment, the first electrode and the second electrode are independent of each other, and interference between image display and fingerprint sensing can be reduced. In addition, the first electrode and the second electrode can be driven by different driving units, respectively, which can simplify the driving circuit.

相應地，為了解決技術問題，本創作還提供一種顯示裝置的驅動電路。如第3圖，示出了本創作顯示裝置的驅動電路第一實施例的示意圖，所示的顯示裝置5包括：顯示面板10，設置有多個顯示電極300，所述多個顯示電極300用於圖像顯示，定義位於所述顯示面板10預定區域101的顯示電極300為第一電極3011，其中，第一電極3011進一步用於指紋感測，定 義第一電極3011執行指紋感測的階段為指紋感測階段。 Accordingly, in order to solve the technical problem, the present invention also provides a driving circuit of a display device. FIG. 3 is a schematic view showing a first embodiment of a driving circuit of the present display device. The display device 5 includes a display panel 10 and a plurality of display electrodes 300. The plurality of display electrodes 300 are used. In the image display, the display electrode 300 located in the predetermined area 101 of the display panel 10 is defined as the first electrode 3011, wherein the first electrode 3011 is further used for fingerprint sensing. The stage in which the first electrode 3011 performs fingerprint sensing is a fingerprint sensing stage.

第3圖中驅動電路20，用於向所述多個顯示電極300提供顯示訊號，以實現圖像顯示；還用於在指紋感測階段向所述第一電極3011提供指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。 The driving circuit 20 is configured to provide a display signal to the plurality of display electrodes 300 to implement image display, and is further configured to provide a fingerprint sensing signal to the first electrode 3011 during a fingerprint sensing phase. The first electrode 3011 performs self-capacitance detection to implement fingerprint sensing.

本創作驅動電路除了能夠使所述顯示裝置實現圖像顯示還可以在預定區域101實現指紋感測，即本創作驅動電路能使顯示裝置實現集成了指紋感測的功能，具有較好的積體密度。對於包括所述顯示裝置的電子設備而言，無需再單獨設置一指紋感測裝置，可以減少指紋感測裝置佔據的空間和重量，進一步地，也減少了電子設備的成本。 The authoring driving circuit can realize fingerprint sensing in the predetermined area 101 in addition to enabling the display device to realize image display, that is, the authoring driving circuit can enable the display device to integrate the function of fingerprint sensing, and has a better integrated body. density. For the electronic device including the display device, it is not necessary to separately provide a fingerprint sensing device, which can reduce the space and weight occupied by the fingerprint sensing device, and further reduce the cost of the electronic device.

具體地，以電子設備為手機進行說明，手機開機觸發指紋感測階段，所述驅動電路20向所述第一電極3011提供指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。手機用戶手指放置在所述預定區域101進行指紋感測，指紋感測獲取的手機用戶指紋如果與存儲在手機中的指紋資訊相匹配，則開機成功，如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊不匹配，則開機不成功，從而可以防止手機資訊洩露，提高了手機使用的安全性。 Specifically, the electronic device is used for the mobile phone, and the mobile phone is turned on to trigger the fingerprint sensing phase. The driving circuit 20 provides a fingerprint sensing signal to the first electrode 3011, and performs self-capacitance detection on the first electrode 3011. Implement fingerprint sensing. The fingerprint of the mobile phone user is placed in the predetermined area 101 for fingerprint sensing. If the fingerprint of the mobile phone user obtained by the fingerprint sensing matches the fingerprint information stored in the mobile phone, the booting is successful, and if the fingerprint of the mobile phone user obtained during the fingerprint sensing phase is If the fingerprint information stored in the mobile phone does not match, the booting is unsuccessful, thereby preventing the leakage of the mobile phone information and improving the security of the mobile phone.

需要說明的是，除了手機開機觸發指紋感測階段，還可以藉由指紋感測指令觸發所述指紋感測階段。 It should be noted that, in addition to the fingerprint activation phase of the mobile phone, the fingerprint sensing phase may be triggered by a fingerprint sensing command.

同樣以電子設備為手機進行說明，手機用戶使用支付寶客戶端進行支付，在點選支付寶客戶端的應用程序(APP)時向驅動電路20發送指紋感測指令，以觸發所述指紋感測階段。 The electronic device is also described as a mobile phone. The mobile phone user uses the Alipay client to make a payment, and sends a fingerprint sensing command to the driving circuit 20 when the application (APP) of the Alipay client is clicked to trigger the fingerprint sensing phase.

需要說明的是，驅動電路20在所述指紋感測階段之前向所述顯示電極300(包括所述第一電極3011)提供顯示訊號，以實現圖像顯示；驅動電路20接收到指紋感測指令(也可以是其他方式觸發指紋感測階段)而觸發指紋感測階段，並在指紋感測階段切換提供圖像訊號為指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測。 It should be noted that the driving circuit 20 provides a display signal to the display electrode 300 (including the first electrode 3011) to realize image display before the fingerprint sensing phase; the driving circuit 20 receives the fingerprint sensing instruction. (The fingerprint sensing phase may be triggered by other means), and the fingerprint sensing phase is triggered, and the image signal is provided as a fingerprint sensing signal during the fingerprint sensing phase, and the first electrode 3011 is self-capacitance detected to implement Fingerprint sensing.

手機用戶手指放置在所述預定區域101進行指紋感測，如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊相匹配，則支付寶客戶端能夠成功打開，手機用戶可以進行支付；如果指紋感測階段獲取的手機用戶指紋與存儲在手機中的指紋資訊不匹配，則支付寶客戶端不能成功打開，從而可以防止提高手機支付的安全性。 The user of the mobile phone is placed in the predetermined area 101 for fingerprint sensing. If the fingerprint of the mobile phone user acquired in the fingerprint sensing phase matches the fingerprint information stored in the mobile phone, the Alipay client can be successfully opened, and the mobile phone user can make a payment; If the fingerprint of the mobile phone user acquired in the fingerprint sensing phase does not match the fingerprint information stored in the mobile phone, the Alipay client cannot be successfully opened, thereby preventing the security of the mobile payment from being improved.

具體地，請繼續參考第3圖，驅動電路20包括：顯示驅動單元21，用於向所述多個顯示電極300提供顯示訊號，以實現圖像顯示；指紋感測單元22，用於對所述第一電極3011提供所述指紋感測訊號，對所述第一電極3011進行自電容檢測，以實現指紋感測；控制單元23，用於在指紋感測階段控制所述指紋感測單元22向所述第一電極3011提供所述指紋感測訊號，以控制所述指紋感測單元22對所述第一電極3011進行指紋感測。 Specifically, please refer to FIG. 3, the driving circuit 20 includes: a display driving unit 21 for providing display signals to the plurality of display electrodes 300 to implement image display; and a fingerprint sensing unit 22 for The first electrode 3011 provides the fingerprint sensing signal, and performs self-capacitance detection on the first electrode 3011 to implement fingerprint sensing. The control unit 23 is configured to control the fingerprint sensing unit 22 in the fingerprint sensing stage. The fingerprint sensing signal is provided to the first electrode 3011 to control the fingerprint sensing unit 22 to perform fingerprint sensing on the first electrode 3011.

以電子設備為手機進行說明，手機的開機裝置與所述控制單元23相連，用戶藉由開機裝置開機時觸發所述控制單元23，從而觸發指紋感測階段，所述控制單元23控制所述指紋感測單元22向所述第一電極3011提供所述指紋感測訊號，以進行指紋感測。 The electronic device is used for the mobile phone. The booting device of the mobile phone is connected to the control unit 23, and the user triggers the control unit 23 when the booting device is powered on, thereby triggering the fingerprint sensing phase, and the control unit 23 controls the fingerprint. The sensing unit 22 provides the fingerprint sensing signal to the first electrode 3011 for fingerprint sensing.

或者，手機使用過程中，控制單元23控制顯示驅動單元21 向所述多個顯示電極300提供顯示訊號，以在手機整個顯示面板上實現圖像顯示。用戶在點選支付寶客戶端的APP時，向所述控制單元23發送指紋感測指令以觸發指紋感測階段，所述控制單元23接收所述指紋感測指令，切換提供顯示訊號為指紋感測訊號給所述第一電極3011，對所述第一電極3011進行自電容檢測，以實現指紋感測。具體地，所述控制單元23可以控制顯示驅動單元21不向所述第一電極3011提供顯示訊號，而控制指紋感測單元向所述第一電極3011提供指紋感測訊號，從而實現所述切換操作。 Alternatively, the control unit 23 controls the display driving unit 21 during use of the mobile phone. Display signals are provided to the plurality of display electrodes 300 to effect image display on the entire display panel of the mobile phone. When the user selects the APP of the Alipay client, the user sends a fingerprint sensing command to the control unit 23 to trigger the fingerprint sensing phase, and the control unit 23 receives the fingerprint sensing command, and switches the display display signal to the fingerprint sensing signal. The first electrode 3011 is subjected to self-capacitance detection to the first electrode 3011 to implement fingerprint sensing. Specifically, the control unit 23 can control the display driving unit 21 not to provide a display signal to the first electrode 3011, and control the fingerprint sensing unit to provide a fingerprint sensing signal to the first electrode 3011, thereby implementing the switching. operating.

請結合參考第4圖、第5圖和第6圖，分別示出了第3圖所示顯示裝置的結構示意圖、第4圖中顯示裝置的顯示面板的結構、第4圖中驅動電路訊號示意圖。需要說明的是，此處以顯示裝置為液晶顯示裝置為例進行說明，但是本創作對此不作限制，在其他實施例中所述顯示裝置還可以是等離子體顯示裝置或有機電激發光顯示裝置等。顯示裝置包括顯示面板10和驅動電路20。 Referring to FIG. 4, FIG. 5 and FIG. 6 respectively, the schematic diagram of the structure of the display device shown in FIG. 3, the structure of the display panel of the display device in FIG. 4, and the signal diagram of the driving circuit in FIG. 4 are respectively shown. . It is to be noted that the display device is a liquid crystal display device as an example. However, the present disclosure is not limited thereto. In other embodiments, the display device may be a plasma display device or an organic electroluminescent display device. . The display device includes a display panel 10 and a drive circuit 20.

在本實施例中，顯示面板10還設置有按列排序的掃描線400、按行排序的資料線500以及與所述掃描線和資料線相連的控制開關100；所述控制開關100包括控制端g、第一導通端s與第二導通端d，所述控制端g用於控制所述第一導通端s與第二導通端d之間是否導通；所述控制開關100的控制端g與所述掃描線400相連，所述第一導通端s與所述資料線500相連，所述第二導通端d與所述多個顯示電極300對應連接。 In this embodiment, the display panel 10 is further provided with a scan line 400 sorted by columns, a data line 500 sorted by rows, and a control switch 100 connected to the scan line and the data line; the control switch 100 includes a control end a first conductive terminal s and a second conductive terminal d, wherein the control terminal g is configured to control whether the first conductive terminal s and the second conductive terminal d are conductive; the control terminal g of the control switch 100 is The scan lines 400 are connected, the first conductive end s is connected to the data line 500, and the second conductive end d is connected to the plurality of display electrodes 300.

具體地，所述控制開關111可以是薄膜電晶體(TFT)，所述薄膜電晶體為非晶矽薄膜電晶體或多晶矽薄膜電晶體。所述控制開 關也可以是其他結構的控制開關。 Specifically, the control switch 111 may be a thin film transistor (TFT), and the thin film transistor is an amorphous germanium thin film transistor or a polycrystalline germanium thin film transistor. The control is on The switch can also be a control switch of other structures.

在本實施例中，所述顯示驅動單元21包括：掃描線驅動電路203，與所述掃描線400相連，用於向掃描線400發送掃描驅動訊號G₁、G₂......G_N，以導通所述控制開關100。資料線驅動電路204，與所述資料線500相連，用於向資料線500發送顯示資料S₁......S_N，使導通的控制開關將所述顯示資料S₁......S_N傳輸至所述多個顯示電極300。 In this embodiment, the display driving unit 21 includes a scan line driving circuit 203 connected to the scan line 400 for transmitting scan driving signals G ₁ , G _{2 ,} ... G to the scan line 400. _N to turn on the control switch 100. The data line driving circuit 204 is connected to the data line 500 for transmitting the display data S ₁ . . . S _N to the data line 500, so that the conductive control switch turns the display data S ₁ .... . . . _{N is} transmitted to the plurality of display electrodes 300.

需要說明的是，第4圖中的液晶顯示面板採用GIP(gate-in-panel)技術，所述掃描線驅動電路203設置於所述顯示面板10上。但是本創作對此不作限制，所述掃描線驅動電路203也可以不設置在所述顯示面板10上，而是集成在驅動電路20中。 It should be noted that the liquid crystal display panel in FIG. 4 adopts a GIP (gate-in-panel) technology, and the scan line driving circuit 203 is disposed on the display panel 10. However, the present invention does not limit this, and the scan line driving circuit 203 may not be disposed on the display panel 10, but may be integrated in the driving circuit 20.

如第5圖所示，所述顯示面板10包括多個子畫素單元，所述顯示電極300為畫素電極，所述顯示面板10上還設置有與所述畫素電極相對的公共電極600，所述公共電極600與所述顯示電極(具體說為畫素電極)用作顯示面板10中一子畫素單元的二極板。所述顯示資料S₁......S_N為畫素電壓，所述公共電極600上加載有公共電壓VCOM，子畫素單元上畫素電壓和公共電壓VCOM決定子畫素單元內液晶分子的偏轉，從而決定子畫素單元的透光率，結合彩色濾光片的色彩實現圖像顯示。 As shown in FIG. 5, the display panel 10 includes a plurality of sub-pixel units, the display electrode 300 is a pixel electrode, and the display panel 10 is further provided with a common electrode 600 opposite to the pixel electrode. The common electrode 600 and the display electrode (specifically, a pixel electrode) are used as a two-pole plate of a sub-pixel unit in the display panel 10. The display data S ₁ . . . S _N is a pixel voltage, the common electrode 600 is loaded with a common voltage VCOM, and the pixel voltage and the common voltage VCOM on the sub-pixel unit determine the liquid crystal in the sub-pixel unit. The deflection of the molecules, thereby determining the transmittance of the sub-pixel unit, and combining the color of the color filter to achieve image display.

具體地，每一子畫素單元包括一顯示電極300以及與所述顯示電極相連接的控制開關100，其中，定義包括第一電極3011的子畫素單元為第一畫素單元301，其它子畫素單元為第二子畫素單元302，第一畫素單元301中的控制開關100為第一控制開關3012，定義第二子畫 素單元的顯示電極為第二電極，第二子畫素單元302中的控制開關100為第二控制開關3022，與第一畫素單元301相連接的掃描線400為第一掃描線401，與第二子畫素單元302相連接且非與第一畫素單元301相連接的掃描線為第二掃描線402，與第一畫素單元301相連接的資料線500為第一資料線501，與第二子畫素單元302相連接且非與第一畫素單元301相連接的資料線500為第二資料線502。 Specifically, each sub-pixel unit includes a display electrode 300 and a control switch 100 connected to the display electrode, wherein the sub-pixel unit including the first electrode 3011 is defined as the first pixel unit 301, and other sub-pixels The pixel unit is a second sub-pixel unit 302. The control switch 100 in the first pixel unit 301 is a first control switch 3012, and defines a second sub-picture. The display electrode of the prime unit is the second electrode, the control switch 100 of the second sub-pixel unit 302 is the second control switch 3022, and the scan line 400 connected to the first pixel unit 301 is the first scan line 401, and The scan line connecting the second sub-pixel unit 302 and not connected to the first pixel unit 301 is the second scan line 402, and the data line 500 connected to the first pixel unit 301 is the first data line 501. The data line 500 connected to the second sub-pixel unit 302 and not connected to the first pixel unit 301 is the second data line 502.

在驅動電路20中，所述指紋感測單元202包括指紋感測控制電路205與指紋感測檢測電路206。 In the driving circuit 20, the fingerprint sensing unit 202 includes a fingerprint sensing control circuit 205 and a fingerprint sensing detecting circuit 206.

指紋感測控制電路205，與所述第一掃描線401相連，用於提供指紋感測控制訊號C，以導通所述第一控制開關3012。 The fingerprint sensing control circuit 205 is connected to the first scan line 401 for providing a fingerprint sensing control signal C to turn on the first control switch 3012.

指紋感測檢測電路206，與所述第一資料線501相連，用於提供進行自電容檢測的指紋感測訊號D，使導通的第一控制開關3012將所述指紋感測訊號D傳輸至所述第一電極3011，以對所述第一電極3011進行指紋感測。 The fingerprint sensing detection circuit 206 is connected to the first data line 501 for providing a fingerprint sensing signal D for self-capacitance detection, so that the first control switch 3012 that is turned on transmits the fingerprint sensing signal D to the The first electrode 3011 is described to perform fingerprint sensing on the first electrode 3011.

所述控制單元23可以在指紋感測階段控制所述指紋感測控制電路205向所述第一掃描線401發送指紋感測控制訊號C，以導通所述第一控制開關3012，並控制所述指紋感測檢測電路206向所述第一資料線501發送指紋感測訊號D，以在預定區域101內藉由所述第一電極3011實現指紋感測。 The control unit 23 may control the fingerprint sensing control circuit 205 to send a fingerprint sensing control signal C to the first scan line 401 during the fingerprint sensing phase to turn on the first control switch 3012 and control the The fingerprint sensing detection circuit 206 sends a fingerprint sensing signal D to the first data line 501 to implement fingerprint sensing by the first electrode 3011 in the predetermined area 101.

具體地，預定區域101內第一電極3011即能在圖像顯示時達到顯示電極的作用，還能在指紋感測階段達到自電容檢測電極的作用。自定義第一電極3011執行圖像顯示的階段為圖像顯示階段。結合參 考第4圖和第5圖，多條第一資料線501與所述資料線驅動電路204之間均設置有第四開關K1、K2......KQ；多條第一資料線501與所述指紋感測檢測電路206之間均設置有第五開關K1B、K2B......KQB。所述控制單元23可以藉由控制所述第四開關K1、K2......KQ和所述第五開關K1B、K2B......KQB實現圖像顯示階段和指紋感測階段的切換。 Specifically, the first electrode 3011 in the predetermined area 101 can achieve the function of the display electrode when the image is displayed, and can also reach the function of the self-capacitance detecting electrode in the fingerprint sensing stage. The stage in which the custom first electrode 3011 performs image display is an image display stage. Combined reference In the fourth and fifth figures, a fourth switch K1, K2, ..., KQ is disposed between the plurality of first data lines 501 and the data line driving circuit 204; and the plurality of first data lines 501 are provided. A fifth switch K1B, K2B, ..., KQB is disposed between the fingerprint sensing and detecting circuit 206. The control unit 23 can implement an image display phase and a fingerprint sensing phase by controlling the fourth switches K1, K2, ..., KQ and the fifth switches K1B, K2B, ..., KQB. Switching.

具體地，所述控制單元23用於在圖像顯示階段控制所述第四開關K1、K2......KQ導通、第五開關K1B、K2B......KQB關斷，從而使資料線驅動電路204與所述第一資料線501導通，以實現資料線驅動電路204藉由所述第一資料線501向所述第一電極3011提供顯示資料。 Specifically, the control unit 23 is configured to control the fourth switches K1, K2, ..., KQ to be turned on, and the fifth switches K1B, K2B, ..., KQB to be turned off during an image display phase, thereby The data line driving circuit 204 is electrically connected to the first data line 501, so that the data line driving circuit 204 provides display data to the first electrode 3011 via the first data line 501.

所述控制單元23還用於在指紋感測階段(例如在接收到指紋感測指令時)控制所述第五開關K1B、K2B......KQB導通、第四開關K1、K2......KQ關斷，從而使所述指紋感測檢測電路206與所述第一資料線501導通，以實現指紋感測檢測電路206藉由所述第一資料線501向所述第一電極3011提供指紋感測訊號，進而對所述第一電極3011實現自電容指紋感測。 The control unit 23 is further configured to control the fifth switch K1B, K2B, ..., KQB to be turned on, and the fourth switch K1, K2 when the fingerprint sensing stage (for example, when receiving the fingerprint sensing instruction). The KQ is turned off, so that the fingerprint sensing and detecting circuit 206 is electrically connected to the first data line 501, so that the fingerprint sensing and detecting circuit 206 is turned to the first by the first data line 501. The electrode 3011 provides a fingerprint sensing signal, thereby implementing self-capacitance fingerprint sensing on the first electrode 3011.

如第6圖所示，本實施例中，指紋感測訊號D例如為週期性變化的感測訊號。具體地，所述週期性變化的感測訊號為方波訊號，所述方波訊號的低電平為0V、高電平為2V，用於對第一電極3011進行自電容指紋感測。 As shown in FIG. 6, in the embodiment, the fingerprint sensing signal D is, for example, a periodically varying sensing signal. Specifically, the periodically changing sensing signal is a square wave signal, and the low level of the square wave signal is 0V and the high level is 2V, which is used for self-capacitance fingerprint sensing of the first electrode 3011.

為了減少所述第一電極3011與所述第一掃描線501之間的寄生電容，可選的，所述指紋感測控制訊號C為與所述指紋感測訊號D為同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關 3012導通，同時能減少所述第一掃描線501與所述第一電極3011構成的電容器的充放電電量。 In order to reduce the parasitic capacitance between the first electrode 3011 and the first scan line 501, the fingerprint sensing control signal C is the same frequency as the fingerprint sensing signal D. a pulse signal for causing the first control switch during fingerprint sensing 3012 is turned on, and at the same time, the charge and discharge amount of the capacitor formed by the first scan line 501 and the first electrode 3011 can be reduced.

具體地，本實施例中，所述第一控制開關3012為N型TFT，開啟電壓為15V，截止電壓-12V。 Specifically, in this embodiment, the first control switch 3012 is an N-type TFT, the turn-on voltage is 15V, and the turn-off voltage is -12V.

如第6圖所示，所述指紋感測控制訊號C具有高電平區域和低電平區域，其中高電平區域為以開啟電壓15V為基準電壓、幅度為2V(即高電平區域的高電平為17V)的脈衝訊號，這樣在指紋感測階段，加載在第一掃描線401上的指紋感測控制訊號C高電平區域的低電平為15V，高電平17V能使所述第一控制開關3012導通，並且由於與加載在第一電極3011上的指紋感測訊號為同頻同相，與第一掃描線401中未傳輸同頻同相脈衝訊號相比，可以減少第一電極3011與所述第一掃描線401之間寄生電容的充放電電量，從而減少第一電極3011與所述第一掃描線401之間寄生電容對指紋感測的影響。 As shown in FIG. 6, the fingerprint sensing control signal C has a high level region and a low level region, wherein the high level region has a turn-on voltage of 15V as a reference voltage and an amplitude of 2V (ie, a high level region). The high level is 17V) pulse signal, so that in the fingerprint sensing stage, the low level of the high level region of the fingerprint sensing control signal C loaded on the first scanning line 401 is 15V, and the high level is 17V. The first control switch 3012 is turned on, and since the fingerprint sensing signal loaded on the first electrode 3011 is in-phase in phase, the first electrode can be reduced compared with the untransmitted in-phase in-phase pulse signal in the first scan line 401. The charge and discharge electric quantity of the parasitic capacitance between the first scan line 401 and the first scan line 401 is reduced, thereby reducing the influence of the parasitic capacitance between the first electrode 3011 and the first scan line 401 on the fingerprint sensing.

類似地，低電平區域為以-12V為基準電壓、幅度為2V(即低電平區域的高電平為-10V)，對於N型TFT而言，截止電壓一般為-12V，-10V也能使所述N型TFT截止，因此，低電平區域的訊號能使N型TFT截止，同時還減少第一電極3011與所述第一掃描線401之間寄生電容的充放電電量。 Similarly, the low-level region has a reference voltage of -12V and an amplitude of 2V (that is, a high level of -10V in the low-level region). For an N-type TFT, the cut-off voltage is generally -12V, and -10V is also The N-type TFT can be turned off, and therefore, the signal of the low-level region can turn off the N-type TFT while reducing the charge and discharge power of the parasitic capacitance between the first electrode 3011 and the first scan line 401.

需要說明的是，此處以指紋感測控制訊號為與所述指紋感測訊號為同頻同相同幅的脈衝訊號為例進行說明，但是本創作對此不作限制，在其他實施例中，指紋感測控制訊號為與所述指紋感測訊號為同頻同相的脈衝訊號，也同樣能在指紋感測時使所述第一控制開關3012 導通，同時能減少所述第一掃描線401與所述第一電極3011構成的電容器的充放電電量。 It should be noted that the fingerprint sensing control signal is taken as an example of the same pulse signal as the fingerprint sensing signal, but the present invention does not limit this. In other embodiments, the fingerprint sense is not limited. The measurement control signal is a pulse signal that is in phase with the fingerprint sensing signal, and the first control switch 3012 can also be used during fingerprint sensing. When it is turned on, the charge and discharge amount of the capacitor formed by the first scan line 401 and the first electrode 3011 can be reduced.

需要說明的是，雖然第6圖中的所述指紋感測控制訊號C與掃描驅動訊號G₁、G₂......G_N略有不同。在其他實施例中，由於第一電極3011與位於預定區域101之外的其他顯示電極300，並且第一控制開關3012與所述第二控制開關3022相同，第一掃描線401與所述第二掃描線402相同，可選的，所述指紋感測控制電路205可以集成在所述掃描線驅動電路中(如第4圖所示)，也就是說，指紋感測控制訊號C可以與所述掃描驅動訊號G₁、G₂......G_N，相同。例如，對於N型TFT，所述指紋感測控制訊號C可以與掃描驅動訊號G₁、G₂......G_N均為採用高電平為15V、低電平為-12V的脈衝訊號。 It should be noted that although the fingerprint sensing control signal C in FIG. 6 is slightly different from the scanning driving signals G ₁ , G ₂ . . . , G _N . In other embodiments, since the first electrode 3011 and other display electrodes 300 located outside the predetermined area 101, and the first control switch 3012 is identical to the second control switch 3022, the first scan line 401 and the second The scan line 402 is the same. Optionally, the fingerprint sensing control circuit 205 can be integrated in the scan line driving circuit (as shown in FIG. 4 ), that is, the fingerprint sensing control signal C can be The scan drive signals G ₁ , G ₂ ... G _{N are the} same. For example, for the N-type TFT, the fingerprint sensing control signal C and the scan driving signals G ₁ , G _{2 ,} . . . , G _N are both pulses with a high level of 15V and a low level of -12V. Signal.

請繼續結合參考第4圖、第5圖和第6圖，所述驅動電路20還包括：公共電壓產生電路207，與所述公共電極600相連，用於在圖像顯示階段向所述公共電極600提供公共電壓VCOM，使子畫素單元二極板分別加載有公共電壓和畫素電壓，以實現圖像顯示。 Please continue to refer to FIG. 4, FIG. 5 and FIG. 6, the driving circuit 20 further includes a common voltage generating circuit 207 connected to the common electrode 600 for the common electrode in the image display stage. 600 provides a common voltage VCOM, so that the sub-pixel unit diodes are respectively loaded with a common voltage and a pixel voltage to achieve image display.

所述公共電極600通常與所述顯示電極300相對設置，容易產生寄生電容。可選的，所述驅動電路20還可以包括一第一訊號產生電路208，與所述公共電極600相連，用於提供第一訊號N1，用於在指紋感測階段減少所述第一電極3011與所述公共電極600構成的電容器的充放電電量。 The common electrode 600 is generally disposed opposite to the display electrode 300, and parasitic capacitance is easily generated. Optionally, the driving circuit 20 further includes a first signal generating circuit 208 connected to the common electrode 600 for providing a first signal N1 for reducing the first electrode 3011 in a fingerprint sensing stage. The charge and discharge amount of the capacitor formed by the common electrode 600.

所述控制單元23用於在圖像顯示階段控制所述公共電壓產生電路207向所述公共電極600提供公共電壓VCOM；還用於在指紋 感測階段控制所述第一訊號產生電路208向所述公共電極600提供第一訊號N1，以用於在指紋感測時減少所述第一電極3011與所述公共電極600構成的電容器的充放電電量。 The control unit 23 is configured to control the common voltage generating circuit 207 to provide a common voltage VCOM to the common electrode 600 during an image display phase; The sensing stage controls the first signal generating circuit 208 to provide the first signal N1 to the common electrode 600 for reducing the charging of the capacitor formed by the first electrode 3011 and the common electrode 600 during fingerprint sensing. Discharged electricity.

如第6圖所示。本實施例中，第一訊號N1與所述指紋感測訊號D相同，均為低電平為0V、高電平為2V的方波脈衝訊號，加載有所述第一訊號N1的公共電極600和加載有所述指紋感測訊號D的第一電極3011之間電勢差保持不變，相應地，在指紋感測階段，第一電極3011與所述公共電極600構成的電容器基本不發生的充放電現象。然而，本創作對第一訊號N1與所述指紋感測訊號D是否相同並不作限制，在其他實施例中，所述第一訊號N1還可以與所述指紋感測訊號D為訊號為同頻同相的脈衝訊號，或者，所述第一訊號N1為與指紋感測訊號為同頻同相同幅的脈衝訊號，均能在指紋感測階段減少第一電極3011與所述公共電極600構成的電容器的充放電電量。 As shown in Figure 6. In this embodiment, the first signal N1 is the same as the fingerprint sensing signal D, and is a square wave pulse signal with a low level of 0V and a high level of 2V, and the common electrode 600 loaded with the first signal N1. The potential difference between the first electrode 3011 and the first electrode 3011 loaded with the fingerprint sensing signal D remains unchanged. Correspondingly, during the fingerprint sensing phase, the capacitor formed by the first electrode 3011 and the common electrode 600 does not substantially charge or discharge. phenomenon. However, the present invention does not limit whether the first signal N1 and the fingerprint sensing signal D are the same. In other embodiments, the first signal N1 can also be the same frequency as the fingerprint sensing signal D. The pulse signal of the same phase, or the first signal N1 is a pulse signal of the same frequency as the fingerprint sensing signal, and can reduce the capacitor formed by the first electrode 3011 and the common electrode 600 in the fingerprint sensing stage. Charge and discharge.

由於本實施例中，第一訊號N1與所述指紋感測訊號D相同，可選的，所述第一訊號產生電路208可以集成於所述指紋感測檢測電路206中。即所述指紋感測檢測電路206在指紋感測階段除了向第一資料線501發送指紋感測訊號D，還在指紋感測階段向公共電極600發送第一訊號N1。 In the embodiment, the first signal N1 is the same as the fingerprint sensing signal D. Optionally, the first signal generating circuit 208 can be integrated into the fingerprint sensing and detecting circuit 206. That is, the fingerprint sensing detection circuit 206 sends the first signal N1 to the common electrode 600 in the fingerprint sensing stage in addition to sending the fingerprint sensing signal D to the first data line 501 during the fingerprint sensing phase.

如第4圖所示，所述公共電壓產生電路207與公共電極600之間設置有第六開關K3，所述指紋感測檢測電路206與公共電極600之間設置有第七開關K4。 As shown in FIG. 4, a sixth switch K3 is disposed between the common voltage generating circuit 207 and the common electrode 600, and a seventh switch K4 is disposed between the fingerprint sensing detecting circuit 206 and the common electrode 600.

所述控制單元23在圖像顯示階段控制述第六開關K3導 通、第七開關K4關斷，使所述公共電壓產生電路207與所述公共電極600之間導通，以藉由公共電壓產生電路207向所述公共電極600提供公共電壓VCOM。 The control unit 23 controls the sixth switch K3 in the image display stage. The seventh switch K4 is turned off to turn on the common voltage generating circuit 207 and the common electrode 600 to supply the common voltage VCOM to the common electrode 600 by the common voltage generating circuit 207.

所述控制單元23在指紋感測階段(如接收到指紋感測指令時)控制所述第七開關K4導通、第六開關K3關斷，以藉由所述指紋感測檢測電路206向所述公共電極600發送第一訊號N1。 The control unit 23 controls the seventh switch K4 to be turned on and the sixth switch K3 to be turned off during the fingerprint sensing phase (such as receiving a fingerprint sensing instruction) to be described by the fingerprint sensing detection circuit 206. The common electrode 600 transmits the first signal N1.

更具體地，在圖像顯示階段，所述控制單元23發送顯示控制訊號，用於同時控制所述第四開關K1、K2......KQ以及第六開關K3導通，第五開關K1B、K2B......KQB以及第七開關K4關斷，從而使資料線驅動電路204向所述第一電極3011提供顯示資料S₁......S_N，同時使所述公共電壓產生電路207向所述公共電極600提供公共電壓VCOM。 More specifically, in the image display stage, the control unit 23 sends a display control signal for simultaneously controlling the fourth switches K1, K2, ..., KQ and the sixth switch K3 to be turned on, and the fifth switch K1B , K2B ... KQB and the seventh switch K4 are turned off, thereby causing the data line driving circuit 204 to supply the display material S ₁ ... S _N to the first electrode 3011 while making the public The voltage generating circuit 207 supplies the common voltage VCOM to the common electrode 600.

在指紋感測階段(例如所述控制單元23收到指紋感測指令)，所述控制單元23發送指紋感測控制訊號，用於同時控制所述第五開關K1B、K2B......KQB以及第七開關K4導通，第四開關K1、K2......KQ以及第六開關K3關斷，從而使指紋感測檢測電路206同時向所述第一電極3011以及公共電極600提供方波脈衝訊號，所述方波脈衝訊號加載在所述第一電極3011用作指紋感測訊號D，所述方波脈衝訊號加載在公共電極600上用作第一訊號N1。 In the fingerprint sensing phase (for example, the control unit 23 receives the fingerprint sensing command), the control unit 23 sends a fingerprint sensing control signal for simultaneously controlling the fifth switch K1B, K2B... The KQB and the seventh switch K4 are turned on, and the fourth switches K1, K2, ..., KQ and the sixth switch K3 are turned off, so that the fingerprint sensing detection circuit 206 simultaneously supplies the first electrode 3011 and the common electrode 600. The square wave pulse signal is applied to the first electrode 3011 as a fingerprint sensing signal D, and the square wave pulse signal is loaded on the common electrode 600 for use as the first signal N1.

請繼續參考第4圖和第5圖，為了在指紋感測階段使位於預定區域101上方的第二子畫素單元302顯示的顏色不變，可選的，所述控制單元23還用於在指紋感測階段控制與第二掃描線402相連接的第二控制開關3022關閉，這樣與第二掃描線402相連的第二電極3021上的畫素 電壓保持不變。公共電極600上公共電壓保持不變，可以使與第二掃描線402相連的第二子畫素單元302中液晶分子偏轉角度保持不變。之後，所述控制單元23控制所述指紋感測控制電路205向所述第一掃描線401發送指紋感測控制訊號C，以導通所述第一控制開關3012，並控制所述指紋感測檢測電路206向所述第一資料線501發送指紋感測訊號D。 Please continue to refer to FIG. 4 and FIG. 5, in order to change the color displayed by the second sub-pixel unit 302 located above the predetermined area 101 during the fingerprint sensing stage, optionally, the control unit 23 is also used to The fingerprint sensing phase controls the second control switch 3022 connected to the second scan line 402 to be turned off, such that the pixel on the second electrode 3021 connected to the second scan line 402 The voltage remains the same. The common voltage on the common electrode 600 remains unchanged, and the deflection angle of the liquid crystal molecules in the second sub-pixel unit 302 connected to the second scanning line 402 can be kept constant. Thereafter, the control unit 23 controls the fingerprint sensing control circuit 205 to send a fingerprint sensing control signal C to the first scan line 401 to turn on the first control switch 3012 and control the fingerprint sensing detection. The circuit 206 sends a fingerprint sensing signal D to the first data line 501.

如第4圖和第5圖所示的預定區域101為位於顯示面板10下方的長方形區域，除了位於預定區域101上方的顯示面板10具有第二子畫素單元302，在所述預定區域101兩側的顯示面板10也具有多個第二子畫素單元302。 The predetermined area 101 as shown in FIGS. 4 and 5 is a rectangular area located below the display panel 10, except that the display panel 10 located above the predetermined area 101 has a second sub-pixel unit 302 in which two predetermined areas 101 The side display panel 10 also has a plurality of second sub-pixel units 302.

在所述預定區域101兩側的顯示面板10的多個第二子畫素單元302與第一掃描線401以及第二資料線502相連。當所述指紋感測控制電路205發送指紋感測控制訊號C給第一掃描線401時，不僅使位於預定區域101內的第一控制開關3012導通，還使與第一掃描線401相連接的第二子畫素單元302的第二控制開關3022導通。 A plurality of second sub-pixel units 302 of the display panel 10 on both sides of the predetermined area 101 are connected to the first scan line 401 and the second data line 502. When the fingerprint sensing control circuit 205 sends the fingerprint sensing control signal C to the first scan line 401, not only the first control switch 3012 located in the predetermined area 101 is turned on, but also connected to the first scan line 401. The second control switch 3022 of the second sub-pixel unit 302 is turned on.

可選的，所述控制單元23還用於控制資料線驅動電路204向第二資料線502發送顯示資料S₁......S_N，以提供顯示資料S₁......S_N給與第一掃描線401相連接的第二子畫素單元302的第二電極3021，以使位於所述預定區域101兩側的顯示面板區域在指紋感測階段也能實現圖像顯示。 Optionally, the control unit 23 is further configured to control the data line driving circuit 204 to send the display materials S ₁ . . . S _N to the second data line 502 to provide the display data S ₁ . S _{N is applied} to the second electrode 3021 of the second sub-pixel unit 302 connected to the first scan line 401, so that the display panel area located on both sides of the predetermined area 101 can also realize image display in the fingerprint sensing stage. .

如第4圖和第5圖所示，顯示面板包括位於預定區域101內的多個第一畫素單元301和位於預定區域101之外的多個第二子畫素單元302，其中，所述多個第一畫素單元301包括紅色第一子畫素單元、綠 色第一子畫素單元、和藍色第一子畫素單元。所述多個第二子畫素單元302包括紅色第二子畫素單元、綠色第二子畫素單元、和藍色第二子畫素單元。 As shown in FIGS. 4 and 5, the display panel includes a plurality of first pixel units 301 located in the predetermined area 101 and a plurality of second sub-pixel units 302 located outside the predetermined area 101, wherein The plurality of first pixel units 301 include a red first sub-pixel unit, green The first sub-pixel unit and the blue first sub-pixel unit. The plurality of second sub-pixel units 302 include a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit.

結合參考第7圖，示出了第4圖中指紋感測檢測電路206的示意圖。如所述指紋感測檢測電路206包括：多個指紋感測檢測模組210，所述指紋感測檢測模組210用於對顯示面板10的多個第一畫素單元301同時進行指紋感測。具體地，一指紋感測檢測模組210用於對顯示面板10的紅色第一子畫素單元(R)、綠色第一子畫素單元(G)、和藍色第一子畫素單元(B)同時進行指紋感測，以提高指紋感測的效率並簡化指紋感測檢測電路206。 Referring to Figure 7, a schematic diagram of fingerprint sensing detection circuit 206 in Figure 4 is shown. The fingerprint sensing and detecting circuit 206 includes a plurality of fingerprint sensing and detecting modules 210 for performing fingerprint sensing on the plurality of first pixel units 301 of the display panel 10 at the same time. . Specifically, a fingerprint sensing detection module 210 is configured to pair the red first sub-pixel unit (R), the green first sub-pixel unit (G), and the blue first sub-pixel unit of the display panel 10 ( B) Fingerprint sensing is performed simultaneously to improve the efficiency of fingerprint sensing and to simplify the fingerprint sensing detection circuit 206.

但是本創作對此不作限制，在其他實施例中，一指紋感測檢測模組210還可以只對一個第一畫素單元301進行指紋感測，以提高指紋感測的精度。 However, the present invention does not limit this. In other embodiments, a fingerprint sensing detection module 210 can perform fingerprint sensing on only one first pixel unit 301 to improve the accuracy of fingerprint sensing.

顯示面板10中一畫素單元至少包括一紅色子畫素單元(R)、一綠色子畫素單元(G)、藍色子畫素單元(B)(例如：有的畫素單元還可能包括諸如白色子畫素單元等其他子畫素單元)。具體地，定義位於所述預定區域101內用於實現指紋感測與圖像顯示為第一畫素單元，每一第一畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元和藍色第一子畫素單元；定義位於所述預定區域101之外的畫素單元為第二畫素單元，所述第二畫素的單元包括紅色第二子畫素單元、綠色第二子畫素單元、和藍色第二子畫素單元。 A pixel unit in the display panel 10 includes at least a red sub-pixel unit (R), a green sub-pixel unit (G), and a blue sub-pixel unit (B) (for example, some pixel units may also include Other sub-pixel elements such as white sub-pixel elements). Specifically, the definition is located in the predetermined area 101 for implementing fingerprint sensing and image display as a first pixel unit, and each first pixel unit includes a red first sub-pixel unit and a green first sub-pixel. a unit and a blue first sub-pixel unit; defining a pixel unit outside the predetermined area 101 as a second pixel unit, the second pixel unit including a red second sub-pixel unit, green The second sub-pixel unit and the blue second sub-pixel unit.

可選的，所述指紋感測檢測模組210用於對一第一畫素單 元301中的所有子畫素單元同時進行指紋感測。一方面能提高指紋感測效率，另一方面也更容易控制。 Optionally, the fingerprint sensing detection module 210 is configured to use a first pixel All sub-pixel units in element 301 perform fingerprint sensing simultaneously. On the one hand, it can improve the fingerprint sensing efficiency, on the other hand, it is easier to control.

參考第8圖，示出了第7圖所示指紋感測檢測模組210的示意圖。具體地，所述指紋感測檢測模組210包括：運算放大器211，為虛短狀態；參考電壓源212，與所述運算放大器211的反相輸入端相連，用於提供參考電壓，本實施例參考電壓為2V；反饋電容213，一端與所述運算放大器211的正相輸入端相連，另一端與運算放大器211的輸出端相連；第一開關2111，一端連接於第一資料線501，另一端連接於用於輸出第一電壓的第一電壓源，此處所述第一電壓源為地端(0V)，所述第一開關2111與所述第一資料線501之間定義第一節點N；第二開關2112，一端連接於所述第一節點N，另一端連接於運算放大器211的正相輸入端；第三開關2113，與所述反饋電容213並聯；控制器214，用於分時輸出第一控制訊號和第二控制訊號；所述第一控制訊號用於使所述第一開關2111以及第三開關2113導通，且使所述第二開關2112關斷，從而使得反饋電容213存儲的電容被釋放；所述第二控制訊號用於使第二開關2112導通，且使所述第一開關2111以及第三開關2113關斷。，從而藉由所述參考電壓源212對所述第一電極3011的自電容以及所述反饋電容213進行充電。 Referring to FIG. 8, a schematic diagram of the fingerprint sensing detection module 210 shown in FIG. 7 is shown. Specifically, the fingerprint sensing detection module 210 includes an operational amplifier 211 that is in a virtual short state, and a reference voltage source 212 that is connected to the inverting input terminal of the operational amplifier 211 for providing a reference voltage. The reference voltage is 2V; the feedback capacitor 213 has one end connected to the non-inverting input end of the operational amplifier 211 and the other end connected to the output end of the operational amplifier 211; the first switch 2111 has one end connected to the first data line 501 and the other end connected to the first data line 501. Connected to a first voltage source for outputting a first voltage, where the first voltage source is a ground terminal (0V), and a first node N is defined between the first switch 2111 and the first data line 501 a second switch 2112 having one end connected to the first node N and the other end connected to the non-inverting input terminal of the operational amplifier 211; a third switch 2113 connected in parallel with the feedback capacitor 213; and a controller 214 for time sharing And outputting the first control signal and the second control signal; the first control signal is used to turn on the first switch 2111 and the third switch 2113, and turn off the second switch 2112, so that the feedback capacitor 213 is stored Capacitance Release; the second control signal for the second switch 2112 is turned on and the first switch 2111 and the third switch 2113 is turned off. The self-capacitance of the first electrode 3011 and the feedback capacitor 213 are charged by the reference voltage source 212.

控制器214分時輸出第一控制訊號和第二控制訊號，形成 如第6圖所示的低電平為0V、高電平為2V的方波脈衝訊號作為指紋感測訊號D，以對第一電極3011的自電容實現檢測。具體地，所述指紋感測檢測模組210還包括： 計算單元，與所述運算放大器211的輸出端相連，用於獲取運算放大器211的輸出端電壓，還用於根據所述運算放大器211的輸出端電壓Vout、參考電壓源的參考電壓Vref和反饋電容的電容值C15獲得第一電極的自電容C11大小。具體的地，第一電極3011的自電容C11可以由以下公式獲得。 The controller 214 outputs the first control signal and the second control signal in time division to form As shown in FIG. 6, a square wave pulse signal having a low level of 0 V and a high level of 2 V is used as the fingerprint sensing signal D to detect the self capacitance of the first electrode 3011. Specifically, the fingerprint sensing detection module 210 further includes: The calculation unit is connected to the output end of the operational amplifier 211 for obtaining the output voltage of the operational amplifier 211, and is further used for the voltage Vout of the output terminal of the operational amplifier 211, the reference voltage Vref of the reference voltage source, and the feedback capacitance. The capacitance value C15 is obtained by the self-capacitance C11 of the first electrode. Specifically, the self-capacitance C11 of the first electrode 3011 can be obtained by the following formula.

C11=[(Vout-Vref)*C15]/Vref，進行指紋感測時，手指碰觸預定區域101而導致第一電極3011對地的電容C11(即自電容)發生電容值變化，手指指紋的凹凸不平的紋路使電容值C11的有不同的電容值變化量，藉由所述電容值變化量可以獲知手指指紋距離第一電極3011的距離，同時結合第一電極3011在顯示面板中的位置，可以獲知手指指紋的資訊，進而完成指紋感測。 C11=[(Vout-Vref)*C15]/Vref, when the fingerprint is sensed, the finger touches the predetermined area 101, causing the capacitance value C11 (ie, self-capacitance) of the first electrode 3011 to the ground to change, and the fingerprint of the finger The uneven texture has a different capacitance value change of the capacitance value C11, and the distance between the finger fingerprint and the first electrode 3011 can be known by the capacitance value change amount, and the position of the first electrode 3011 in the display panel is combined. The fingerprint information can be obtained, and fingerprint sensing can be completed.

需要說明的是，對於第一訊號N1與所述指紋感測訊號D相同，所述第一訊號產生電路208集成於所述指紋感測檢測電路206中的情況，所述指紋感測檢測模組210還可以採用其他實現方式。 It should be noted that, when the first signal N1 is the same as the fingerprint sensing signal D, the first signal generating circuit 208 is integrated in the fingerprint sensing detecting circuit 206, and the fingerprint sensing detecting module is used. 210 can also adopt other implementations.

如第9圖所示，與第8圖所示指紋感測檢測模組210相同之處不再贅述，與第8圖所示指紋感測檢測模組210的不同之處在於，所述指紋感測檢測模組210還包括：第八開關2114，一端連接於公共電極600，另一端連接於 用於輸出第二電壓的第二電壓源，本實施例中所述第二電壓為0V，所述第二電壓源為地端；所述第八開關2114與所述公共電極600之間定義一第二節點P。 As shown in FIG. 9 , the same as the fingerprint sensing detection module 210 shown in FIG. 8 is not described again, and the difference from the fingerprint sensing detection module 210 shown in FIG. 8 is that the fingerprint sense is The detection module 210 further includes an eighth switch 2114, one end is connected to the common electrode 600, and the other end is connected to a second voltage source for outputting a second voltage, in the embodiment, the second voltage is 0V, the second voltage source is a ground end; and the eighth switch 2114 and the common electrode 600 define a The second node P.

第九開關2115，一端連接於所述第二節點P，另一端連接於參考電壓源212。 The ninth switch 2115 has one end connected to the second node P and the other end connected to the reference voltage source 212.

控制器224，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關2111、第八開關2114以及第三開關2113導通，且使所述第二開關2112和第九開關2115關斷，從而使反饋電容213存儲的電容被釋放。所述第四控制訊號用於使所述第二開關2112和第九開關2115導通，且使所述第一開關2111、第八開關2114以及第三開關2113關斷，從而藉由所述參考電壓源212對所述第一電極3011的自電容、所述公共電極600的自電容以及所述反饋電容213進行充電。 The controller 224 is configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used to turn on the first switch 2111, the eighth switch 2114, and the third switch 2113, and enable the The second switch 2112 and the ninth switch 2115 are turned off, so that the capacitance stored by the feedback capacitor 213 is released. The fourth control signal is used to turn on the second switch 2112 and the ninth switch 2115, and turn off the first switch 2111, the eighth switch 2114, and the third switch 2113, thereby using the reference voltage The source 212 charges the self capacitance of the first electrode 3011, the self capacitance of the common electrode 600, and the feedback capacitance 213.

控制器224分時輸出第三控制訊號和第四控制訊號，形成如第6圖所示的低電平為0V、高電平為2V的方波脈衝訊號，指紋感測檢測模組210輸出的所述方波脈衝訊號提供給所述第一電極3011用作指紋感測訊號D，還提供給公共電極600用作第一訊號N1。 The controller 224 outputs the third control signal and the fourth control signal in time to form a square wave pulse signal with a low level of 0V and a high level of 2V as shown in FIG. 6 , and the output of the fingerprint sensing detection module 210 The square wave pulse signal is supplied to the first electrode 3011 for use as a fingerprint sensing signal D, and is also supplied to the common electrode 600 for use as the first signal N1.

需要說明的是，如第6圖所示，指紋感測訊號D為高電平與低電平交替輸出的週期性變化的方波脈衝訊號，具體地，本實施例中所述指紋感測訊號D的低電平為0、高電平為2V。但是本創作對指紋感測訊號D的訊號形式、訊號幅度、頻率等不作限制。所述指紋感測訊號D還可以是階梯型訊號等其它合適類型的訊號。 It should be noted that, as shown in FIG. 6 , the fingerprint sensing signal D is a periodically varying square wave pulse signal that is alternately outputted from a high level and a low level. Specifically, the fingerprint sensing signal in this embodiment is used. D has a low level of 0 and a high level of 2V. However, this creation does not limit the signal form, signal amplitude, frequency, etc. of the fingerprint sensing signal D. The fingerprint sensing signal D can also be other suitable types of signals such as a ladder signal.

還需要說明的是，第8圖和第9圖中第一電壓源和第二電壓源均為地端，輸出電壓均為0V，均小於所述參考電壓2V。但是本創作對此不作限制，所述第一電壓源提供的第一電壓與所述第二電壓源提供的第二電壓可以相同也可以不相同。此外所述第一電壓和第二電壓還可以大於所述參考電壓。 It should be noted that, in the 8th and 9th diagrams, the first voltage source and the second voltage source are ground terminals, and the output voltages are both 0V, which are both smaller than the reference voltage 2V. However, the present invention does not limit this, and the first voltage provided by the first voltage source may be the same as or different from the second voltage provided by the second voltage source. Furthermore, the first voltage and the second voltage may also be greater than the reference voltage.

第10圖所示指紋感測檢測模組與第9圖所示指紋感測檢測模組的相同之處不再贅述，第10圖所示指紋感測檢測模組與第9圖所示指紋感測檢測模組的不同之處在於：第一開關2111，一端連接於第一資料線501，另一端連接於用於輸出第一電壓的第一電壓源215；第八開關2114，一端連接於公共電極600，另一端連接於用於輸出第二電壓的第二電壓源216。 The fingerprint sensing detection module shown in FIG. 10 is the same as the fingerprint sensing detection module shown in FIG. 9, and the fingerprint sensing detection module shown in FIG. 10 and the fingerprint feeling shown in FIG. 9 are not described. The difference between the detection module is that the first switch 2111 has one end connected to the first data line 501, the other end connected to the first voltage source 215 for outputting the first voltage, and the eighth switch 2114, one end connected to the common The other end of the electrode 600 is connected to a second voltage source 216 for outputting a second voltage.

本實施例中所述第一電壓源215提供的第一電壓、所述第二電壓源216提供的第二電壓為12V均高於所述參考電壓，為高電壓Vh。 In the embodiment, the first voltage provided by the first voltage source 215 and the second voltage provided by the second voltage source 216 are both 12V higher than the reference voltage, and are a high voltage Vh.

控制器224，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關2111、第八開關2114以及第三開關2113導通，且使所述第二開關2112和第九開關2115關斷，先藉由高電壓Vh對所述第一電極3011的自電容進行充電；所述第四控制訊號用於使所述第二開關2112和第九開關2115導通，且使所述第一開關2111、第八開關2114以及第三開關2113關斷，藉由參考電壓使所述第一電極3011的自電容進行放電。 The controller 224 is configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used to turn on the first switch 2111, the eighth switch 2114, and the third switch 2113, and enable the The second switch 2112 and the ninth switch 2115 are turned off, and the self-capacitance of the first electrode 3011 is first charged by the high voltage Vh; the fourth control signal is used to make the second switch 2112 and the ninth switch 2115 is turned on, and the first switch 2111, the eighth switch 2114, and the third switch 2113 are turned off, and the self-capacitance of the first electrode 3011 is discharged by a reference voltage.

具體的地，第一電極3011的自電容C11可以由以下公式獲得： C11=[(Vout-Vref)*C15]/(Vh-Vref) Specifically, the self-capacitance C11 of the first electrode 3011 can be obtained by the following formula: C11=[(Vout-Vref)*C15]/(Vh-Vref)

第10圖所示指紋感測檢測模組輸出的指紋感測訊號低電平為2V高電平為12V，指紋感測訊號的幅度為10V，與第6圖所示的幅度為2V的指紋感測訊號相比，能提高指紋感測的信噪比5倍以上，從而可以提高指紋感測的精度。 The fingerprint sensing signal outputted by the fingerprint sensing detection module shown in Fig. 10 is low level of 2V for 12V, the amplitude of the fingerprint sensing signal is 10V, and the fingerprint sense of amplitude 2V shown in Fig. 6 Compared with the test signal, it can improve the signal-to-noise ratio of fingerprint sensing by more than 5 times, thereby improving the accuracy of fingerprint sensing.

第11圖和第12圖，分別示出了本創作驅動電路第二實施例中指紋感測單元的示意圖以及指紋感測訊號的示意圖。此處以低溫多晶矽的顯示裝置為例進行說明，所述顯示裝置的顯示面板中第一控制開關3112與第二控制開關3122均為多晶矽薄膜電晶體。 11 and 12 are schematic diagrams showing the fingerprint sensing unit and the fingerprint sensing signal in the second embodiment of the authoring driving circuit, respectively. Here, the display device of the low temperature polysilicon is taken as an example. In the display panel of the display device, the first control switch 3112 and the second control switch 3122 are both polycrystalline thin film transistors.

位於預定區域101的第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112分別與不同的第一掃描線411相連且均與同一第一資料線511相連；指紋感測控制電路205，同時提供指紋感測控制訊號給與一第一畫素單元311中的第一紅色子畫素單元R、第一綠色子畫素單元G、第一藍色子畫素單元B相連的三第一掃描線411，以同時導通一第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112。例如，向第一掃描線411中的G_p、G_p+1、G_p+2同時提供第一指紋感測控制訊號c1，所述第一指紋感測控制訊號c1同時導通與Gp相連的第一紅色子畫素單元R、與G_p+1相連的第一綠色子畫素單元G、與G_p+2相連的第一藍色子畫素單元B。或者，向第一掃描線411中的G_p+3、G_p+4、G_p+5同時提供第二掃描驅動訊號G₂，所 述第二指紋感測控制訊號c2同時導通與G_p+3相連的第一紅色子畫素單元R、與G_p+4相連的第一綠色子畫素單元G、與G_p+5相連的第一藍色子畫素單元B。 The first control switch 3112 of the red first sub-pixel unit R, the green first sub-pixel unit G, and the blue first sub-pixel unit B in the first pixel unit 311 located in the predetermined area 101 is different from the first A scan line 411 is connected and connected to the same first data line 511. The fingerprint sensing control circuit 205 provides a fingerprint sensing control signal to the first red sub-pixel unit R in a first pixel unit 311. The first green sub-pixel unit G and the first blue sub-pixel unit B are connected to the three first scan lines 411 to simultaneously turn on the red first sub-pixel unit R and the green first in the first pixel unit 311. The first control switch 3112 of the sub-pixel unit G and the blue first sub-pixel unit B. For example, the first fingerprint sensing control signal c1 is simultaneously provided to G _p , G _p+1 , G _p+2 in the first scan line 411, and the first fingerprint sensing control signal c1 is simultaneously connected to the first connected to Gp. A red sub-pixel unit R, a first green sub-pixel unit G connected to G _p+1 , and a first blue sub-pixel unit B connected to G _p+2 . Alternatively, the second scan driving signal G _{2 is} simultaneously supplied to G _p+3 , G _p+4 , G _p+5 in the first scan line 411 , and the second fingerprint sensing control signal c2 is simultaneously turned on and G _{p+ 3} connected first red sub-pixel unit R, first green sub-pixel unit G connected to G _p+4 , and first blue sub-pixel unit B connected to G _p+5 .

所述指紋感測檢測電路，藉由所述第一資料線511向所述第一畫素單元311中的紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B提供進行自電容檢測的指紋感測訊號D。 The fingerprint sensing detection circuit passes the first data line 511 to the first red pixel unit R, the green first sub pixel unit G, and the blue first in the first pixel unit 311. The sub-pixel unit B provides a fingerprint sensing signal D for self-capacitance detection.

需要說明的是，第12圖中所示的第一、第二指紋感測控制訊號c1、c2為與所述指紋感測訊號D同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關3112導通，同時能減少所述第一掃描線411與所述第一電極3111構成的電容器的充放電電量。 It should be noted that the first and second fingerprint sensing control signals c1 and c2 shown in FIG. 12 are pulse signals of the same frequency as the fingerprint sensing signal D, and are used for fingerprint sensing. The first control switch 3112 is turned on, and the charge and discharge amount of the capacitor formed by the first scan line 411 and the first electrode 3111 can be reduced.

但是新型對不作限制，在其他實施例中，所述第一、第二指紋感測控制訊號c1、c2為與所述指紋感測訊號D同頻同相的脈衝訊號，也能在指紋感測時使所述第一控制開關3112導通，同時能減少所述第一掃描線411與所述第一電極3111構成的電容器的充放電電量。或者，所述第一、第二指紋感測控制訊號c1、c2為與掃描驅動訊號相同的訊號，也能同時導通一第一畫素單元311中紅色第一子畫素單元R、綠色第一子畫素單元G和藍色第一子畫素單元B的第一控制開關3112。 However, in the other embodiments, the first and second fingerprint sensing control signals c1 and c2 are pulse signals that are in phase with the fingerprint sensing signal D, and can also be used during fingerprint sensing. The first control switch 3112 is turned on, and the charge and discharge amount of the capacitor formed by the first scan line 411 and the first electrode 3111 can be reduced. Alternatively, the first and second fingerprint sensing control signals c1 and c2 are the same signal as the scan driving signal, and can simultaneously turn on the red first sub-pixel unit R and the green first in the first pixel unit 311. The first control switch 3112 of the sub-pixel unit G and the blue first sub-pixel unit B.

如第14圖，示出了本創作顯示裝置的驅動電路第三實施例的示意圖。所述顯示裝置7還包括觸控感應單元50，所述觸控感應單元50堆疊於所述顯示面板40上，例如：所述觸控感應單元50為外掛式觸控感應單元。或者，所述觸控感應單元50為所述顯示面板40的一部分，例如：所述觸控感應單元50為螢幕上觸控感應單元(on cell)或所述觸控 感應單元50為內嵌式觸控感應單元。 As shown in Fig. 14, a schematic view of a third embodiment of the driving circuit of the present creative display device is shown. The display device 7 further includes a touch sensing unit 50. The touch sensing unit 50 is stacked on the display panel 40. For example, the touch sensing unit 50 is an external touch sensing unit. Alternatively, the touch sensing unit 50 is a part of the display panel 40. For example, the touch sensing unit 50 is an on-screen touch sensing unit (on cell) or the touch. The sensing unit 50 is an in-cell touch sensing unit.

所述驅動電路30還包括：觸控驅動電路33，用於對所述觸控感應單元50進行觸控檢測。 The driving circuit 30 further includes a touch driving circuit 33 for performing touch detection on the touch sensing unit 50.

所述控制單元34，與所述觸控驅動電路33相連，用於分時地控制所述顯示驅動單元31、所述觸控驅動電路33和所述指紋感測單元32，以分別實現圖像顯示階段、觸控檢測階段和指紋感測階段。 The control unit 34 is connected to the touch driving circuit 33 for time-divisionally controlling the display driving unit 31, the touch driving circuit 33 and the fingerprint sensing unit 32 to implement images respectively. Display phase, touch detection phase, and fingerprint sensing phase.

第15圖，示出了第14圖中觸控感應單元的示意圖。此處，顯示面板中公共電極601的數量為多個，多個公共電極一方面可以在顯示階段用於向子畫素單元提供公共電壓VCOM，另一方面所述多個公共電極還可以用作觸控檢測的自電容電極。 Fig. 15 is a view showing the touch sensing unit of Fig. 14. Here, the number of the common electrodes 601 in the display panel is plural, and the plurality of common electrodes may be used on the one hand to provide the common voltage VCOM to the sub-pixel units in the display phase, and on the other hand, the plurality of common electrodes may also be used as Self-capacitance electrode for touch detection.

具體地，如第15圖所示，多個公共電極可以分為多組，同一組的公共電極連接至所述觸控驅動電路209的同一個節點Q1、Q2、Q3或Q4，觸控檢測極端，所述觸控驅動電路向連接於同一節點Q1、Q2、Q3或Q4的公共電極自電容觸控檢測訊號。 Specifically, as shown in FIG. 15, the plurality of common electrodes may be divided into multiple groups, and the common electrode of the same group is connected to the same node Q1, Q2, Q3 or Q4 of the touch driving circuit 209, and the touch detection terminal is extreme. The touch driving circuit self-capacitance touch detection signal to a common electrode connected to the same node Q1, Q2, Q3 or Q4.

請繼續參考第4圖和第5圖，可選的，所述公共電極600與所述公共電壓產生電路207設置有第六開關K3，所述公共電極600還與所述觸控驅動電路209之間設置有第十開關K5。所述控制單元23可以在圖像顯示階段控制所述第六開關K3導通、第十開關K5關斷，以向所述公共電極600提供公共電壓VCOM，還在觸摸檢測階段控制所述第十開關K5導通、第六開關K3關斷，以向公共電極600提供觸控檢測訊號，以對手指是否觸控顯示面板以及手指觸控顯示面板的位置進行檢測。 Please refer to FIG. 4 and FIG. 5 . Optionally, the common electrode 600 and the common voltage generating circuit 207 are provided with a sixth switch K3, and the common electrode 600 is further connected to the touch driving circuit 209. There is a tenth switch K5. The control unit 23 may control the sixth switch K3 to be turned on, the tenth switch K5 to be turned off to provide the common voltage VCOM to the common electrode 600, and to control the tenth switch during the touch detection phase. The K5 is turned on and the sixth switch K3 is turned off to provide a touch detection signal to the common electrode 600 to detect whether the finger touches the display panel and the position of the finger touch display panel.

可選地，對於公共電極600還可以在指紋感測階段用於加 載第一訊號，以提高指紋感測的精度的情況。公共電極600還與指紋感測檢測電路206之間設置有第七開關K4，控制單元23用於在圖像顯示階段控制所述第六開關K3導通、第七開關K4和第十開關K5關斷；在觸摸檢測階段控制所述第十開關K5導通、第六開關K3和第七開關K4關斷，在指紋感測階段控制所述第七開關K4導通、第六開關K3和第十開關K5關斷。 Optionally, the common electrode 600 can also be used for adding in the fingerprint sensing stage. The first signal is carried to improve the accuracy of fingerprint sensing. The seventh electrode K4 is further disposed between the common electrode 600 and the fingerprint sensing detection circuit 206. The control unit 23 is configured to control the sixth switch K3 to be turned on, the seventh switch K4 and the tenth switch K5 to be turned off during the image display phase. Controlling, in the touch detection phase, the tenth switch K5 is turned on, the sixth switch K3, and the seventh switch K4 are turned off, and the seventh switch K4 is turned on, the sixth switch K3, and the tenth switch K5 are turned off during the fingerprint sensing phase. Broken.

結合參考第4圖、第5圖和第16圖，第16圖示出了第14圖所示顯示裝置中驅動電路的訊號示意圖，為了提高觸控檢測階段的精度，驅動電路20還包括： 第二訊號產生電路(圖未示)，與所述第一掃描線401、第二掃描線402相連、用於提供第二訊號N2；所述控制單元23，用於在觸控檢測時控制所述第二訊號產生電路向所述第一掃描線401、第二掃描線402提供第二訊號N2，所述第二訊號N2能控制所述控制開關處於關閉狀態，同時還能減少公共電極與第一掃描線401、第二掃描線402構成的電容器的充放電電量。 Referring to FIG. 4, FIG. 5 and FIG. 16, FIG. 16 is a schematic diagram showing the signal of the driving circuit in the display device shown in FIG. 14. In order to improve the accuracy of the touch detection phase, the driving circuit 20 further includes: The second signal generating circuit (not shown) is connected to the first scan line 401 and the second scan line 402 for providing the second signal N2. The control unit 23 is configured to control the touch control. The second signal generating circuit provides a second signal N2 to the first scan line 401 and the second scan line 402. The second signal N2 can control the control switch to be in a closed state, and can also reduce the common electrode and the first The charge and discharge electric quantity of the capacitor constituted by one scanning line 401 and the second scanning line 402.

本實施例中，控制開關為N型TFT，觸控檢測訊號T為低電平為0V高電平為2V的方波脈衝訊號，所述第二訊號N2為高電平為-10V低電平-12V且與所述觸控檢測訊號T同頻同相同幅(幅度均為2V)的脈衝訊號。-10V或-12V的電平能能使所述N型TFT截止，同時由於公共電極600與第一掃描線401(或第二掃描線402)構成的電容器極板的電壓差為零，從而可以在觸控檢測階段減少公共電極600與所述第一掃描線401、第二掃描線402構成的電容器的充放電電量。從而減少公共電極與 第一掃描線401、第二掃描線402之間的寄生電容，提高自電容觸控檢測的精度。 In this embodiment, the control switch is an N-type TFT, and the touch detection signal T is a square wave pulse signal whose low level is 0V high level is 2V, and the second signal N2 is high level is -10V low level. -12V and the same amplitude (2V amplitude) pulse signal as the touch detection signal T. A level of -10 V or -12 V can turn off the N-type TFT while the voltage difference between the common electrode 600 and the first scan line 401 (or the second scan line 402) is zero, thereby The charge and discharge amount of the capacitor formed by the common electrode 600 and the first scan line 401 and the second scan line 402 is reduced in the touch detection phase. Thereby reducing the common electrode and The parasitic capacitance between the first scan line 401 and the second scan line 402 improves the accuracy of self-capacitance touch detection.

需要說明的是，此處以所述第二訊號N2為與所述觸控檢測訊號T同頻同相同幅的脈衝訊號為例進行說明，但是本創作對此不作顯示，所述第二訊號N2還可以是與所述觸控檢測訊號T同頻同相的脈衝訊號，只要電容器兩端的電壓減少也能達到減少電容器充放電電量的效果。 It should be noted that the second signal N2 is taken as an example of the pulse signal of the same frequency as the touch detection signal T, but the present invention does not display the second signal N2. It may be a pulse signal that is in phase with the touch detection signal T, and the effect of reducing the charge and discharge of the capacitor can be achieved as long as the voltage across the capacitor is reduced.

類似地，驅動電路20還可以包括第三訊號產生電路(圖未示)，與所述第一資料線501、第二資料線502相連、用於提供第三訊號N3，所述控制單元23，用於在觸控檢測時控制所述第三訊號產生電路向所述第一資料線501、第二資料線502提供第三訊號N3，所述第三訊號能減少公共電極600與所述第一資料線501、第二資料線502構成的電容器的充放電電量。 Similarly, the driving circuit 20 may further include a third signal generating circuit (not shown) connected to the first data line 501 and the second data line 502 for providing a third signal N3, the control unit 23, The third signal generating circuit is configured to provide a third signal N3 to the first data line 501 and the second data line 502 during touch detection, wherein the third signal can reduce the common electrode 600 and the first The charge and discharge electric quantities of the capacitor constituted by the data line 501 and the second data line 502.

本實施例中，觸控檢測訊號T為低電平為0V高電平為2V的方波脈衝訊號，所述第三訊號N3也為低電平為0V高電平為2V的方波脈衝訊號，所述第三訊號N3與觸控檢測訊號T相同，可以使由於公共電極600與第一資料線501(或第二資料線502)構成的電容器極板上電壓保持不變，從而可以在觸控檢測階段減少公共電極600與所述第一資料線501、第二資料線502構成的電容器的充放電電量。從而減少公共電極600與第一資料線501、第二資料線501之間的寄生電容，提高自電容觸控檢測的精度。 In this embodiment, the touch detection signal T is a square wave pulse signal with a low level of 0V and a high level of 2V, and the third signal N3 is also a square wave pulse signal with a low level of 0V and a high level of 2V. The third signal N3 is the same as the touch detection signal T, so that the voltage on the capacitor plate formed by the common electrode 600 and the first data line 501 (or the second data line 502) can be kept constant, so that the third signal N3 can be touched. The control detection phase reduces the charge and discharge power of the capacitor formed by the common electrode 600 and the first data line 501 and the second data line 502. Thereby, the parasitic capacitance between the common electrode 600 and the first data line 501 and the second data line 501 is reduced, and the precision of the self-capacitive touch detection is improved.

需要說明的是，此處以所述第三訊號N3為與所述觸控檢測 訊號T相同為例進行說明，但是本創作對此不作限制，所述第三訊號N3可以為與所述觸控檢測訊號T同頻同相同幅的脈衝訊號，使公共電極600與第一資料線501、第二資料線501之間構成的電容器中兩極板的電壓差為零，或者，所述第三訊號N3可以為與所述觸控檢測訊號T同頻同相的脈衝訊號，使公共電極600與第一資料線501、第二資料線501之間構成的電容器中兩極板的電壓差減少，也能達到減少電容器充放電電量的效果。 It should be noted that the third signal N3 is used for the touch detection. The signal T is the same as an example, but the present invention is not limited thereto. The third signal N3 may be the same frequency pulse signal as the touch detection signal T, so that the common electrode 600 and the first data line 501, the voltage difference between the two plates in the capacitor formed between the second data lines 501 is zero, or the third signal N3 may be a pulse signal in phase with the touch detection signal T in the same frequency, so that the common electrode 600 The voltage difference between the two plates in the capacitor formed between the first data line 501 and the second data line 501 is reduced, and the effect of reducing the amount of charge and discharge of the capacitor can be achieved.

第17圖，示出了本創作顯示裝置的驅動電路第四實施例的示意圖。本實施例中，顯示裝置還可以將藉由預定區域101進行指紋感測獲得的指紋圖像呈現在顯示面板10上。 Fig. 17 is a view showing a fourth embodiment of the driving circuit of the present creation display device. In this embodiment, the display device may also present a fingerprint image obtained by fingerprint sensing by the predetermined area 101 on the display panel 10.

具體的，結合參考第3圖，所述控制單元23還用於在指紋感測單元22完成指紋感測後或執行指紋感測時，將指紋感測單元22獲得的指紋資訊發送至顯示驅動單元21； 所述顯示驅動單元21，還用於向所述顯示電極300提供與所述指紋資訊相對應的顯示訊號，以實現指紋圖像的顯示。 Specifically, in conjunction with reference to FIG. 3, the control unit 23 is further configured to send the fingerprint information obtained by the fingerprint sensing unit 22 to the display driving unit after the fingerprint sensing unit 22 completes the fingerprint sensing or performs fingerprint sensing. twenty one; The display driving unit 21 is further configured to provide the display electrode 300 with a display signal corresponding to the fingerprint information to implement display of the fingerprint image.

相應地，為了解決所述技術問題，本創作還提供一種液晶顯示裝置，所述液晶顯示裝置的相關內容可參考顯示裝置的實施例，在此不再贅述。本創作提供的液晶顯示裝置具有較高的集成性，提高了液晶顯示裝置的安全性和私密性。 Correspondingly, in order to solve the technical problem, the present invention also provides a liquid crystal display device, and the related content of the liquid crystal display device can refer to an embodiment of the display device, and details are not described herein again. The liquid crystal display device provided by the present invention has high integration and improves the security and privacy of the liquid crystal display device.

雖然本創作披露如上，但本創作並非限定於此。任何本領域技術人員，在不脫離本創作的精神和範圍內，均可作各種更動與修改，因此本創作的保護範圍應當以請求項所限定的範圍為准。 Although the present disclosure is as described above, the present creation is not limited thereto. Any changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention should be limited to the scope defined by the claims.

10‧‧‧顯示面板 10‧‧‧ display panel

101‧‧‧預定區域 101‧‧‧Predetermined area

20‧‧‧驅動電路 20‧‧‧Drive circuit

202‧‧‧指紋感測單元 202‧‧‧Finger sensing unit

203‧‧‧掃描線驅動電路 203‧‧‧Scan line driver circuit

204‧‧‧資料線驅動電路 204‧‧‧Data line driver circuit

205‧‧‧指紋感測控制電路 205‧‧‧Fingerprint sensing control circuit

206‧‧‧指紋感測檢測電路 206‧‧‧Fingerprint detection and detection circuit

207‧‧‧公共電壓產生電路 207‧‧‧Common voltage generating circuit

208‧‧‧第一訊號產生電路 208‧‧‧First signal generation circuit

209‧‧‧觸控驅動電路 209‧‧‧Touch drive circuit

23‧‧‧控制單元 23‧‧‧Control unit

K1‧‧‧第四開關 K1‧‧‧fourth switch

K2‧‧‧第四開關 K2‧‧‧fourth switch

K1B‧‧‧第五開關 K1B‧‧‧ fifth switch

K2B‧‧‧第五開關 K2B‧‧‧ fifth switch

KQB‧‧‧第五開關 KQB‧‧‧ fifth switch

K3‧‧‧第六開關 K3‧‧‧ sixth switch

K4‧‧‧第七開關 K4‧‧‧ seventh switch

K5‧‧‧第十開關 K5‧‧‧ tenth switch

KQ‧‧‧第四開關 KQ‧‧‧fourth switch

Claims (69)

一種顯示裝置包括：顯示面板，設置有多個顯示電極，所述多個顯示電極用於圖像顯示，定義位於所述顯示面板預定區域的顯示電極為第一電極，其中，第一電極進一步用於指紋感測，定義第一電極執行指紋感測的階段為指紋感測階段；以及驅動電路，用於向所述多個顯示電極提供顯示訊號，以實現圖像顯示；還用於在指紋感測階段向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測。 A display device includes: a display panel provided with a plurality of display electrodes, wherein the plurality of display electrodes are used for image display, and a display electrode located in a predetermined area of the display panel is defined as a first electrode, wherein the first electrode is further used In the fingerprint sensing, the stage of defining the first electrode to perform fingerprint sensing is a fingerprint sensing stage; and the driving circuit is configured to provide a display signal to the plurality of display electrodes to implement image display; and is also used for fingerprint sense The measuring phase provides a fingerprint sensing signal to the first electrode, and performs self-capacitance detection on the first electrode to implement fingerprint sensing. 如請求項1所述之顯示裝置，其中，所述驅動電路包括：顯示驅動單元，用於向所述多個顯示電極提供顯示訊號，以實現圖像顯示；指紋感測單元，用於對所述第一電極提供所述指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；以及控制單元，用於在指紋感測階段控制所述指紋感測單元向所述第一電極提供所述指紋感測訊號，以控制所述指紋感測單元對所述第一電極進行指紋感測。 The display device of claim 1, wherein the driving circuit comprises: a display driving unit, configured to provide a display signal to the plurality of display electrodes to implement image display; and a fingerprint sensing unit for The first electrode provides the fingerprint sensing signal, performs self-capacitance detection on the first electrode to implement fingerprint sensing, and a control unit is configured to control the fingerprint sensing unit to the fingerprint sensing stage The first electrode provides the fingerprint sensing signal to control the fingerprint sensing unit to perform fingerprint sensing on the first electrode. 如請求項2所述之顯示裝置，其中，所述顯示面板還設置有按列排序的掃描線、按行排序的資料線以及與所述掃描線和資料線相連的控制開關；所述控制開關包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二導通端之間是否導通；所述控制開關的控制端與所述掃描線相連，所 述第一導通端與所述資料線相連，所述第二導通端與所述多個顯示電極對應連接；所述顯示裝置還包括：掃描線驅動電路，與所述掃描線相連，用於向掃描線發送掃描驅動訊號，以導通所述控制開關；所述顯示驅動單元包括：資料線驅動電路，與所述資料線相連，用於向資料線發送顯示資料，使導通的控制開關將所述顯示資料傳輸至所述多個顯示電極。 The display device of claim 2, wherein the display panel is further provided with a scan line sorted by columns, a data line sorted by rows, and a control switch connected to the scan line and the data line; the control switch The control terminal includes a first conductive terminal and a second conductive terminal, wherein the control terminal is configured to control whether the first conductive terminal and the second conductive terminal are conductive; and the control terminal of the control switch is connected to the scan line. , The first conductive end is connected to the data line, and the second conductive end is connected to the plurality of display electrodes; the display device further includes: a scan line driving circuit connected to the scan line for The scan line sends a scan driving signal to turn on the control switch; the display driving unit includes: a data line driving circuit connected to the data line, configured to send display data to the data line, so that the conductive control switch is Display data is transmitted to the plurality of display electrodes. 如請求項3所述之顯示裝置，其中，所述顯示面板包括多個子畫素單元，每一子畫素單元包括一顯示電極以及與所述顯示電極相連接的控制開關，其中，定義包括第一電極的子畫素單元為第一子畫素單元，其它子畫素單元為第二子畫素單元，第一子畫素單元中的控制開關為第一控制開關，第二子畫素單元中的控制開關為第二控制開關，與第一子畫素單元相連接的掃描線為第一掃描線，與第二子畫素單元相連接且非與第一子畫素單元相連接的掃描線為第二掃描線，與第一子畫素單元相連接的資料線為第一資料線，與第二子畫素單元相連接且非與第一子畫素單元相連接的資料線為第二資料線；所述指紋感測單元包括：指紋感測控制電路，與所述第一掃描線相連，用於提供指紋感測控制訊號，以導通所述第一控制開關；以及指紋感測檢測電路，與所述第一資料線相連，用於提供進行自電容檢測的指紋感測訊號，使導通的第一控制開關將所述指紋感測訊號傳輸 至所述第一電極，以對所述第一電極進行指紋感測；所述控制單元用於在指紋感測階段控制所述指紋感測控制電路向所述第一掃描線發送指紋感測控制訊號，以導通所述第一控制開關，並控制所述指紋感測檢測電路向所述第一資料線發送指紋感測訊號。 The display device of claim 3, wherein the display panel comprises a plurality of sub-pixel units, each sub-pixel unit comprising a display electrode and a control switch connected to the display electrode, wherein the definition comprises The sub-pixel unit of one electrode is the first sub-pixel unit, the other sub-pixel unit is the second sub-pixel unit, and the control switch in the first sub-pixel unit is the first control switch, and the second sub-pixel unit The control switch is a second control switch, and the scan line connected to the first sub-pixel unit is a first scan line, and is connected to the second sub-pixel unit and is not connected to the first sub-pixel unit. The line is a second scan line, and the data line connected to the first sub-pixel unit is the first data line, and the data line connected to the second sub-pixel unit and not connected to the first sub-pixel unit is a fingerprint sensing unit, comprising: a fingerprint sensing control circuit, connected to the first scan line, for providing a fingerprint sensing control signal to turn on the first control switch; and fingerprint sensing detection Circuit, with the first The data lines are connected to provide a fingerprint sensing signal for self-capacitance detection, so that the first control switch that is turned on transmits the fingerprint sensing signal To the first electrode, to perform fingerprint sensing on the first electrode; the control unit is configured to control the fingerprint sensing control circuit to send fingerprint sensing control to the first scan line during a fingerprint sensing phase a signal to turn on the first control switch and control the fingerprint sensing detection circuit to send a fingerprint sensing signal to the first data line. 如請求項4所述之顯示裝置，其中，定義第二子畫素單元的顯示電極為第二電極；所述控制單元用於在指紋感測階段控制與第二掃描線相連接的第二控制開關關閉；還用於控制所述指紋感測控制電路向所述第一掃描線發送指紋感測控制訊號，以導通所述第一控制開關，並控制所述指紋感測檢測電路向所述第一資料線發送指紋感測訊號。 The display device of claim 4, wherein the display electrode defining the second sub-pixel unit is the second electrode; the control unit is configured to control the second control connected to the second scan line in the fingerprint sensing phase The switch is turned off; and is further configured to control the fingerprint sensing control circuit to send a fingerprint sensing control signal to the first scan line to turn on the first control switch, and control the fingerprint sensing detection circuit to the first A data line sends a fingerprint sensing signal. 如請求項5所述之顯示裝置，其中，所述顯示面板包括多個與第一掃描線以及第二資料線相連的第二子畫素單元；當所述指紋感測控制電路發送指紋感測控制訊號給第一掃描線時，與第一掃描線相連接的第二子畫素單元的第二控制開關導通；所述控制單元還用於控制資料線驅動電路向第二資料線發送顯示資料，以提供顯示資料給與第一掃描線相連接的第二子畫素單元的第二電極。 The display device of claim 5, wherein the display panel comprises a plurality of second sub-pixel units connected to the first scan line and the second data line; and the fingerprint sensing control circuit sends fingerprint sensing When the control signal is sent to the first scan line, the second control switch of the second sub-pixel unit connected to the first scan line is turned on; the control unit is further configured to control the data line drive circuit to send the display data to the second data line. And providing a display material to the second electrode of the second sub-pixel unit connected to the first scan line. 如請求項4所述之顯示裝置，其中，所述指紋感測檢測電路包括多個指紋感測檢測模組，一指紋感測檢測模組用於對顯示面板的一個第一子畫素單元進行指紋感測，或者，一指紋感測檢測模組用於對顯示面板的多個第一子畫素單元同時進行指紋感測。 The display device of claim 4, wherein the fingerprint sensing detection circuit comprises a plurality of fingerprint sensing detection modules, and a fingerprint sensing detection module is configured to perform a first sub-pixel unit of the display panel. Fingerprint sensing, or a fingerprint sensing detection module is configured to simultaneously perform fingerprint sensing on a plurality of first sub-pixel units of the display panel. 如請求項7所述之顯示裝置，其中，所述顯示面板包括多 個第一子畫素單元及多個第二子畫素單元，其中，所述多個第一子畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元、及藍色第一子畫素單元，所述多個第二子畫素單元包括紅色第二子畫素單元、綠色第二子畫素單元、及藍色第二子畫素單元；所述顯示面板包括第一畫素單元與第二畫素單元，其中，第一畫素單元位於所述預定區域，用於實現指紋感測與圖像顯示，每一第一畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元，第二畫素單元包括紅色第二子畫素單元、綠色第二子畫素單元、及藍色第二子畫素單元；一指紋感測檢測模組用於對一第一畫素單元中的所有子畫素單元同時進行指紋感測。 The display device of claim 7, wherein the display panel comprises a plurality of a first sub-pixel unit and a plurality of second sub-pixel units, wherein the plurality of first sub-pixel units comprise a red first sub-pixel unit, a green first sub-pixel unit, and a blue a sub-pixel unit, the plurality of second sub-pixel units including a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit; the display panel includes the first a pixel unit and a second pixel unit, wherein the first pixel unit is located in the predetermined area for implementing fingerprint sensing and image display, each first pixel unit includes a red first sub-pixel unit, a green first sub-pixel unit and a blue first sub-pixel unit, the second pixel unit including a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit; The fingerprint sensing detection module is configured to simultaneously perform fingerprint sensing on all sub-pixel units in a first pixel unit. 如請求項8所述之顯示裝置，其中，第一控制開關與第二控制開關均為多晶矽薄膜電晶體，一第一畫素單元中紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元的第一控制開關分別與不同的第一掃描線相連且均與同一第一資料線相連；所述指紋感測控制電路，同時提供指紋感測控制訊號給與一第一畫素單元中的第一紅色子畫素單元、第一綠色子畫素單元、第一藍色子畫素單元相連的三第一掃描線，以同時導通一第一畫素單元中紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元的第一控制開關；所述指紋感測檢測電路，藉由所述第一資料線向所述第一畫素單元中的紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元 提供進行自電容檢測的指紋感測訊號。 The display device of claim 8, wherein the first control switch and the second control switch are both polycrystalline thin film transistors, a first pixel unit in the first pixel unit, and a green first sub-pixel unit And the first control switch of the blue first sub-pixel unit is respectively connected to different first scan lines and is connected to the same first data line; the fingerprint sensing control circuit provides the fingerprint sensing control signal at the same time. a first red sub-pixel unit in the first pixel unit, a first green sub-pixel unit, and a first blue sub-pixel unit connected to the first three scan lines to simultaneously turn on a first pixel unit a first control switch of a red first sub-pixel unit, a green first sub-pixel unit, and a blue first sub-pixel unit; the fingerprint sensing detection circuit, by the first data line a red first sub-pixel unit, a green first sub-pixel unit, and a blue first sub-pixel unit in a pixel unit Provides fingerprint sensing signals for self-capacitance detection. 如請求項7所述之顯示裝置，其中，所述指紋感測檢測模組包括：運算放大器；參考電壓源，與所述運算放大器的反相輸入端相連，用於提供參考電壓；反饋電容，一端與所述運算放大器的正相輸入端相連，另一端與運算放大器的輸出端相連；第一開關，一端連接於第一資料線，另一端連接於用於輸出第一電壓的第一電壓源，所述第一開關與所述第一資料線之間定義第一節點，所述第一電壓大於或小於所述參考電壓；第二開關，一端連接於所述第一節點，另一端連接於運算放大器的正相輸入端；第三開關，與所述反饋電容並聯；以及控制器，用於分時輸出第一控制訊號和第二控制訊號；所述第一控制訊號用於使所述第一開關以及第三開關導通，且使所述第二開關關斷；所述第二控制訊號用於使第二開關導通，且使所述第一開關以及第三開關關斷。 The display device of claim 7, wherein the fingerprint sensing detection module comprises: an operational amplifier; a reference voltage source connected to the inverting input terminal of the operational amplifier for providing a reference voltage; and a feedback capacitor, One end is connected to the positive phase input terminal of the operational amplifier, and the other end is connected to the output end of the operational amplifier; the first switch has one end connected to the first data line and the other end connected to the first voltage source for outputting the first voltage Defining a first node between the first switch and the first data line, the first voltage is greater than or less than the reference voltage; and the second switch is connected to the first node at one end and to the other end a positive input terminal of the operational amplifier; a third switch connected in parallel with the feedback capacitor; and a controller for outputting the first control signal and the second control signal in a time division manner; the first control signal is used to make the first a switch and a third switch are turned on, and the second switch is turned off; the second control signal is used to turn on the second switch, and the first switch and the third switch are turned off. 如請求項10所述之顯示裝置，其中，所述參考電壓為2V，所述第一電壓為0V或12V。 The display device of claim 10, wherein the reference voltage is 2V and the first voltage is 0V or 12V. 如請求項4、5、6或9所述之顯示裝置，其中，所述指紋感測控制訊號為與所述指紋感測訊號為同頻同相的脈衝訊號，用於在 指紋感測時使所述第一控制開關導通，同時能減少所述第一掃描線與所述第一電極構成的電容器的充放電電量，或者所述指紋感測控制訊號為與所述指紋感測訊號為同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關導通，同時能減少所述第一掃描線與所述第一電極構成的電容器的充放電電量。 The display device of claim 4, 5, 6 or 9, wherein the fingerprint sensing control signal is a pulse signal that is in phase with the fingerprint sensing signal, and is used for When the fingerprint is sensed, the first control switch is turned on, and at the same time, the charge and discharge power of the capacitor formed by the first scan line and the first electrode is reduced, or the fingerprint sensing control signal is the fingerprint sense The test signal is a pulse signal of the same frequency and the same frequency, and is used for turning on the first control switch during fingerprint sensing, and reducing the charge and discharge power of the capacitor formed by the first scan line and the first electrode . 如請求項4所述之顯示裝置，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述第一資料線與所述資料線驅動電路之間均設置有第四開關，所述第一資料線與所述指紋感測檢測電路之間均設置有第五開關；所述控制單元用於在圖像顯示階段控制所述第四開關導通、第五開關關斷；在指紋感測階段控制所述第五開關導通、第四開關關斷。 The display device of claim 4, wherein the stage of defining the first electrode to perform image display is an image display phase; and the fourth switch is disposed between the first data line and the data line driving circuit, a fifth switch is disposed between the first data line and the fingerprint sensing detection circuit; the control unit is configured to control the fourth switch to be turned on and the fifth switch to be turned off during an image display phase; The sensing phase controls the fifth switch to be turned on and the fourth switch to be turned off. 如請求項4所述之顯示裝置，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述顯示資料為畫素電壓，所述顯示面板還設置有公共電極，所述公共電極與所述顯示電極用作顯示面板中一子畫素單元的二極板；所述驅動電路還包括：公共電壓產生電路，與所述公共電極相連，用於向所述公共電極提供公共電壓，使子畫素單元二極板分別加載有公共電壓和畫素電壓，以實現圖像顯示；以及第一訊號產生電路，與所述公共電極相連，用於提供第一訊號；所述控制單元用於在圖像顯示階段控制所述公共電壓產生電路向所述公共電極提供公共電壓；還用於在指紋感測階段控制所述第一訊號 產生電路向所述公共電極提供第一訊號，以用於在指紋感測時減少所述第一電極與所述公共電極構成的電容器的充放電電量。 The display device of claim 4, wherein the stage of defining the first electrode to perform image display is an image display phase; the display material is a pixel voltage, and the display panel is further provided with a common electrode, the common The electrode and the display electrode are used as a two-pole plate of a sub-pixel unit in the display panel; the driving circuit further includes: a common voltage generating circuit connected to the common electrode for supplying a common voltage to the common electrode And the sub-pixel unit diodes are respectively loaded with a common voltage and a pixel voltage to realize image display; and a first signal generating circuit is connected to the common electrode for providing the first signal; the control unit Controlling the common voltage generating circuit to supply a common voltage to the common electrode during an image display phase; and for controlling the first signal during a fingerprint sensing phase The generating circuit provides a first signal to the common electrode for reducing the charge and discharge power of the capacitor formed by the first electrode and the common electrode during fingerprint sensing. 如請求項14所述之顯示裝置，其中，所述第一訊號為與指紋感測訊號為同頻同相的脈衝訊號，或所述第一訊號為與指紋感測訊號為同頻同相同幅的脈衝訊號。 The display device of claim 14, wherein the first signal is a pulse signal that is in phase with the fingerprint sensing signal, or the first signal is the same frequency as the fingerprint sensing signal. Pulse signal. 如請求項14所述之顯示裝置，其中，所述第一訊號產生電路集成於所述指紋感測檢測電路。 The display device of claim 14, wherein the first signal generating circuit is integrated in the fingerprint sensing detecting circuit. 如請求項16所述之顯示裝置，其中，所述公共電壓產生電路與公共電極之間設置有第六開關，所述指紋感測檢測電路與公共電極之間設置有第七開關；所述控制單元在圖像顯示階段控制所述第六開關導通、第七開關關斷；在指紋感測階段控制所述第七開關導通、第六開關關斷。 The display device of claim 16, wherein a sixth switch is disposed between the common voltage generating circuit and the common electrode, and a seventh switch is disposed between the fingerprint sensing detecting circuit and the common electrode; The unit controls the sixth switch to be turned on and the seventh switch to be turned off during the image display phase; and the seventh switch is turned on and the sixth switch is turned off during the fingerprint sensing phase. 如請求項16所述之顯示裝置，其中，指紋感測檢測電路包括多個指紋感測檢測模組，一指紋感測檢測模組用於對一個第一子畫素單元進行指紋感測或同時對多個第一子畫素單元進行指紋感測；所述指紋感測檢測模組用於輸出進行自電容檢測的指紋感測訊號，還用於輸出第一訊號；所述指紋感測檢測模組包括：運算放大器；參考電壓源，與所述運算放大器的反相輸入端相連，用於提供參考電壓；反饋電容，一端與所述運算放大器的正相輸入端相連，另一端與運算放大器的輸出端相連； 第一開關，一端連接於第一資料線，另一端連接於用於輸出第一電壓的第一電壓源，所述第一開關與所述第一資料線之間定義第一節點；第二開關，一端連接於所述第一節點，另一端連接於運算放大器的正相輸入端；第八開關，一端連接於公共電極，另一端連接於用於輸出第二電壓的第二電壓源，所述第八開關與所述公共電極之間定義一第二節點，所述第一電壓與所述第二電壓均小於所述參考電壓或均大於所述參考電壓；第九開關，一端連接於所述第二節點，另一端連接於參考電壓源；第三開關，與所述反饋電容並聯；以及控制器，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關、第八開關以及第三開關導通，且使所述第二開關和第九開關關斷；所述第四控制訊號用於使所述第二開關和第九開關導通，且使所述第一開關、第八開關以及第三開關關斷。 The display device of claim 16, wherein the fingerprint sensing detection circuit comprises a plurality of fingerprint sensing detection modules, and a fingerprint sensing detection module is configured to perform fingerprint sensing on a first sub-pixel unit or simultaneously Performing fingerprint sensing on the plurality of first sub-pixel units; the fingerprint sensing detection module is configured to output a fingerprint sensing signal for performing self-capacitance detection, and is further configured to output a first signal; the fingerprint sensing detection mode The group includes: an operational amplifier; a reference voltage source connected to the inverting input terminal of the operational amplifier for providing a reference voltage; and a feedback capacitor having one end connected to the positive phase input terminal of the operational amplifier and the other end connected to the operational amplifier The output is connected; a first switch, one end is connected to the first data line, the other end is connected to the first voltage source for outputting the first voltage, the first switch defines a first node and the first data line; the second switch One end is connected to the first node, and the other end is connected to the non-inverting input terminal of the operational amplifier; the eighth switch is connected at one end to the common electrode and at the other end to the second voltage source for outputting the second voltage, a second node is defined between the eighth switch and the common electrode, the first voltage and the second voltage are both smaller than the reference voltage or greater than the reference voltage; and the ninth switch is connected to the first end a second node, the other end is connected to the reference voltage source; a third switch is connected in parallel with the feedback capacitor; and a controller is configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used for The first switch, the eighth switch, and the third switch are turned on, and the second switch and the ninth switch are turned off; the fourth control signal is used to turn on the second switch and the ninth switch, And make the said A switch, the eighth switch and the third switch is turned off. 如請求項4所述之顯示裝置，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述顯示裝置還包括觸控感應單元，所述觸控感應單元堆疊於所述顯示面板上或為所述顯示面板的一部分；所述驅動電路還包括：觸控驅動電路，用於對所述觸控感應單元進行觸控檢測；所述控制單元，與所述觸控驅動電路相連，用於分時地控制所述顯示驅動單元、所述觸控驅動電路和所述指紋感測單元，以分別實現圖像 顯示階段、觸摸檢測階段和指紋感測階段。 The display device of claim 4, wherein the stage of defining the first electrode to perform image display is an image display stage; the display device further includes a touch sensing unit, the touch sensing unit being stacked on the display Or a part of the display panel; the driving circuit further includes: a touch driving circuit, configured to perform touch detection on the touch sensing unit; and the control unit is connected to the touch driving circuit For controlling the display driving unit, the touch driving circuit and the fingerprint sensing unit in a time-sharing manner to respectively implement an image Display phase, touch detection phase, and fingerprint sensing phase. 如請求項19所述之顯示裝置，其中，所述顯示面板還設置公共電極，所述公共電極與所述顯示電極用作顯示面板中一子畫素單元的二極板，所述公共電極用作觸控檢測的自電容電極；所述觸控驅動電路，與所述公共電極相連，用於向所述公共電極提供自電容觸控檢測訊號。 The display device of claim 19, wherein the display panel further includes a common electrode, the common electrode and the display electrode are used as a two-pole plate of a sub-pixel unit in the display panel, and the common electrode is used. A self-capacitance electrode for touch detection; the touch drive circuit is connected to the common electrode for providing a self-capacitance touch detection signal to the common electrode. 如請求項20所述之顯示裝置，其中，所述公共電極與公共電壓產生電路設置有第六開關，所述指紋感測檢測電路與公共電極之間設置有第七開關，所述公共電極與所述觸控驅動電路之間設置有第十開關，控制單元用於在圖像顯示階段控制所述第六開關導通、第七開關和第十開關關斷，在觸摸檢測階段控制所述第十開關導通、第六開關和第七開關關斷，在指紋感測階段控制所述第七開關導通、第六開關和第十開關關斷。 The display device of claim 20, wherein the common electrode and the common voltage generating circuit are provided with a sixth switch, and a seventh switch is disposed between the fingerprint sensing detecting circuit and the common electrode, and the common electrode is A tenth switch is disposed between the touch driving circuits, and the control unit is configured to control the sixth switch to be turned on, the seventh switch, and the tenth switch to be turned off during an image display phase, and to control the tenth in a touch detection phase The switch is turned on, the sixth switch and the seventh switch are turned off, and the seventh switch is turned on, the sixth switch, and the tenth switch are turned off during the fingerprint sensing phase. 如請求項20或21所述之顯示裝置，其中，所述驅動電路還包括：第二訊號產生電路，與所述第一、第二掃描線相連、用於提供第二訊號；所述控制單元，用於在觸控檢測時控制所述第二訊號產生電路向所述第一、第二掃描線提供第二訊號，所述第二訊號能控制所述控制開關處於關閉狀態，同時還能減少公共電極與第一、第二掃描線構成的電容器的充放電電量。 The display device of claim 20 or 21, wherein the driving circuit further comprises: a second signal generating circuit connected to the first and second scan lines for providing a second signal; the control unit The second signal generating circuit is configured to provide a second signal to the first and second scan lines during touch detection, and the second signal can control the control switch to be in a closed state, and can also reduce The charge and discharge electric quantity of the capacitor formed by the common electrode and the first and second scanning lines. 如請求項20或21所述之顯示裝置，其中，所述驅動電路 還包括：第三訊號產生電路，與所述第一、第二資料線相連、用於提供第三訊號；所述控制單元，用於在觸控檢測時控制所述第三訊號產生電路向所述第一、第二資料線提供第三訊號，所述第三訊號能減少公共電極與所述第一、第二資料線構成的電容器的充放電電量。 The display device of claim 20 or 21, wherein the driving circuit The third signal generating circuit is connected to the first and second data lines for providing a third signal, and the control unit is configured to control the third signal generating circuit during touch detection. The first and second data lines provide a third signal, and the third signal can reduce the charge and discharge power of the capacitor formed by the common electrode and the first and second data lines. 如請求項22所述之顯示裝置，其中，所述第二訊號為與所述觸控檢測訊號為同頻同相的脈衝訊號，或者所述第二訊號為與所述觸控檢測訊號為同頻同相同幅的脈衝訊號。 The display device of claim 22, wherein the second signal is a pulse signal that is in phase with the touch detection signal, or the second signal is the same frequency as the touch detection signal. The same amplitude pulse signal. 如請求項23所述之顯示裝置，其中，所述第三訊號為與所述觸控檢測訊號為同頻同相的脈衝訊號，或者所述第三訊號為與所述觸控檢測訊號為同頻同相同幅的脈衝訊號。 The display device of claim 23, wherein the third signal is a pulse signal that is in phase with the touch detection signal, or the third signal is the same frequency as the touch detection signal. The same amplitude pulse signal. 如請求項1或2所述之顯示裝置，其中，所述顯示面板為平面轉換液晶顯示面板。 The display device according to claim 1 or 2, wherein the display panel is a planar conversion liquid crystal display panel. 如請求項14或20所述之顯示裝置，其中，所述顯示面板為液晶顯示面板，包括第一基板、第二基板、以及位於第一基板和第二基板之間的液晶層；所述顯示電極為畫素電極，所述畫素電極和所述公共電極位於所述第一基板和第二基板之間；所述公共電極與所述畫素電極相重疊，所述公共電極與所述畫素電極重疊的面積小於所述畫素電極的面積。 The display device of claim 14 or 20, wherein the display panel is a liquid crystal display panel, including a first substrate, a second substrate, and a liquid crystal layer between the first substrate and the second substrate; The electrode is a pixel electrode, the pixel electrode and the common electrode are located between the first substrate and the second substrate; the common electrode overlaps with the pixel electrode, the common electrode and the picture The area where the element electrodes overlap is smaller than the area of the pixel electrode. 如請求項2所述之顯示裝置，其中，所述控制單元還用於在指紋感測單元完成指紋感測後或執行指紋感測時，將指紋感測單元 獲得的指紋資訊發送至顯示驅動單元；所述顯示驅動單元，還用於向所述顯示電極提供與所述指紋資訊相對應的顯示訊號，以實現指紋圖像的顯示。 The display device of claim 2, wherein the control unit is further configured to: after the fingerprint sensing unit completes fingerprint sensing or performs fingerprint sensing, the fingerprint sensing unit The obtained fingerprint information is sent to the display driving unit. The display driving unit is further configured to provide a display signal corresponding to the fingerprint information to the display electrode to implement display of the fingerprint image. 如請求項1或2所述之顯示裝置，其中，所述驅動電路向所述第一電極提供週期性變化的指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測。 The display device of claim 1 or 2, wherein the driving circuit provides a periodically changing fingerprint sensing signal to the first electrode, and performs self-capacitance detection on the first electrode to implement fingerprint sensing. . 如請求項1所述之顯示裝置，其中，所述驅動電路包括：顯示驅動單元，用於與所述多個顯示電極連接以及用於提供顯示訊號給所述多個顯示電極，以實現圖像顯示；指紋感測單元，用於對所述第一電極提供所述指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；以及控制單元，在指紋感測階段，控制單元控制所述指紋感測單元向所述第一電極提供所述指紋感測訊號，以控制所述指紋感測單元對所述第一電極進行指紋感測，並控制顯示驅動單元停止輸出顯示訊號給第一電極或控制顯示驅動單元與第一電極之間處於斷開狀態以停止輸出顯示訊號給第一電極。 The display device of claim 1, wherein the driving circuit comprises: a display driving unit configured to be connected to the plurality of display electrodes and to provide a display signal to the plurality of display electrodes to implement an image a fingerprint sensing unit, configured to provide the fingerprint sensing signal to the first electrode, perform self-capacitance detection on the first electrode to implement fingerprint sensing, and a control unit, in a fingerprint sensing stage, The control unit controls the fingerprint sensing unit to provide the fingerprint sensing signal to the first electrode to control the fingerprint sensing unit to perform fingerprint sensing on the first electrode, and control the display driving unit to stop outputting the display. The signal is turned to the first electrode or the display display driving unit is disconnected from the first electrode to stop outputting the display signal to the first electrode. 如請求項30所述之顯示裝置，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段，在圖像顯示階段，控制單元控制所述顯示驅動單元向所述第一電極提供所述顯示訊號，以控制所述第一電極進行圖像顯示，並控制指紋感測單元停止輸出指紋感測訊號給第一電極或控制指紋感測單元與第一電極之間處於斷開狀態以停止輸出指紋感測訊號給第一電極。 The display device of claim 30, wherein the stage of defining the first electrode to perform image display is an image display phase, and in the image display phase, the control unit controls the display driving unit to supply the first electrode Displaying a signal to control the first electrode to perform image display, and controlling the fingerprint sensing unit to stop outputting the fingerprint sensing signal to the first electrode or to control the fingerprint sensing unit and the first electrode to be in an off state to stop The fingerprint sensing signal is output to the first electrode. 一種顯示裝置包括：顯示面板，設置有位於顯示面板預定區域的第一電極、以及位於所述預定區域外的第二電極；以及驅動電路，用於向所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；還用於向所述第二電極提供顯示訊號，以實現圖像顯示。 A display device includes: a display panel provided with a first electrode located in a predetermined area of the display panel, and a second electrode located outside the predetermined area; and a driving circuit for providing a fingerprint sensing signal to the first electrode, Performing self-capacitance detection on the first electrode to implement fingerprint sensing; and also providing display signal to the second electrode to implement image display. 如請求項32所述之顯示裝置，其中，所述驅動電路包括：顯示驅動單元，用於向所述第二電極提供顯示訊號，以實現圖像顯示；以及指紋感測單元，用於向所述第一電極提供所述指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測。 The display device of claim 32, wherein the driving circuit comprises: a display driving unit for providing a display signal to the second electrode for image display; and a fingerprint sensing unit for The first electrode provides the fingerprint sensing signal, and performs self-capacitance detection on the first electrode to implement fingerprint sensing. 如請求項33所述之顯示裝置，其中，所述顯示面板設置有按列排序的第一掃描線、按行排序第一資料線以及與第一掃描線和第一資料線相連的第一控制開關；所述第一控制開關包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二導通端之間是否導通；所述第一控制開關的控制端與所述第一掃描線相連，所述第一導通端與所述第一資料線相連，所述第二導通端與多個所述第一電極對應連接；所述指紋感測單元包括：指紋感測控制電路，與所述第一掃描線相連，用於提供指紋感測控制訊號，以導通所述第一控制開關；以及所述指紋感測檢測電路，與所述第一資料線相連，用於提供進行自電容檢測的指紋感測訊號，使導通的第一控制開關將所述指紋感測訊號 傳輸至所述第一電極，以對所述第一電極進行指紋感測。 The display device of claim 33, wherein the display panel is provided with a first scan line sorted by column, a first data line sorted by row, and a first control connected to the first scan line and the first data line. a first control switch includes a control end, a first conductive end and a second conductive end, wherein the control end is configured to control whether the first conductive end and the second conductive end are conductive; the first control a control end of the switch is connected to the first scan line, the first conductive end is connected to the first data line, and the second conductive end is connected to a plurality of the first electrodes; the fingerprint sensing The unit includes: a fingerprint sensing control circuit connected to the first scan line, configured to provide a fingerprint sensing control signal to turn on the first control switch; and the fingerprint sensing detection circuit, and the first The data lines are connected to provide a fingerprint sensing signal for self-capacitance detection, so that the first control switch that is turned on will be the fingerprint sensing signal Transmitting to the first electrode to perform fingerprint sensing on the first electrode. 如請求項33所述之顯示裝置，其中，所述顯示面板還設置有按列排序的第二掃描線、按行排序第二資料線以及與第二掃描線和第二資料線相連的第二控制開關；所述第二控制開關包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二導通端之間是否導通；所述第二控制開關的控制端與所述第二掃描線相連，所述第一導通端與所述第二資料線相連，所述第二導通端與多個所述第二電極對應連接；所述顯示驅動單元包括：掃描線驅動電路，與所述第二掃描線相連，用於向第二掃描線發送掃描驅動訊號，以導通所述第二控制開關；以及資料線驅動電路，與所述第二資料線相連，用於向第二資料線發送顯示資料，使導通的第二控制開關將所述顯示資料傳輸至第二電極。 The display device of claim 33, wherein the display panel is further provided with a second scan line sorted by column, a second data line sorted by row, and a second data line connected to the second scan line and the second data line Controlling a switch; the second control switch includes a control end, a first conductive end and a second conductive end, wherein the control end is configured to control whether the first conductive end and the second conductive end are conductive; the second a control end of the control switch is connected to the second scan line, the first conductive end is connected to the second data line, and the second conductive end is connected to a plurality of the second electrodes; the display drive The unit includes: a scan line driving circuit connected to the second scan line, configured to send a scan driving signal to the second scan line to turn on the second control switch; and a data line driving circuit, and the second data The lines are connected to send display data to the second data line, so that the second control switch that is turned on transmits the display data to the second electrode. 如請求項32所述之顯示裝置，其中，所述顯示面板為平面轉換液晶顯示面板。 The display device of claim 32, wherein the display panel is a planar conversion liquid crystal display panel. 一種顯示裝置的驅動電路，其中，所述顯示裝置包括：顯示面板設置有多個顯示電極，所述多個顯示電極用於圖像顯示，定義位於所述顯示面板預定區域的顯示電極為第一電極，其中，第一電極進一步用於指紋感測，定義第一電極執行指紋感測的階段為指紋感測階段；所述驅動電路包括：顯示驅動單元，用於向所述多個顯示電極提供顯示訊號，以實現圖像 顯示；指紋感測單元，用於對所述第一電極提供指紋感測訊號，對所述第一電極進行自電容檢測，以實現指紋感測；以及控制單元，用於在指紋感測階段控制所述指紋感測單元向所述第一電極提供所述指紋感測訊號，以控制所述指紋感測單元對所述第一電極進行指紋感測。 A driving circuit of a display device, wherein the display device comprises: the display panel is provided with a plurality of display electrodes, the plurality of display electrodes are used for image display, and the display electrode located in a predetermined area of the display panel is first An electrode, wherein the first electrode is further used for fingerprint sensing, and the stage of defining the first electrode to perform fingerprint sensing is a fingerprint sensing stage; the driving circuit comprises: a display driving unit, configured to provide the plurality of display electrodes Display signals to implement images a fingerprint sensing unit, configured to provide a fingerprint sensing signal to the first electrode, perform self-capacitance detection on the first electrode to implement fingerprint sensing, and a control unit for controlling in a fingerprint sensing phase The fingerprint sensing unit provides the fingerprint sensing signal to the first electrode to control the fingerprint sensing unit to perform fingerprint sensing on the first electrode. 如請求項37所述之驅動電路，其中，所述顯示面板還設置有按列排序的掃描線、按行排序的資料線以及與所述掃描線和資料線相連的控制開關；所述控制開關包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二導通端之間是否導通；所述控制開關的控制端與所述掃描線相連，所述第一導通端與所述資料線相連，所述第二導通端與所述多個顯示電極對應連接；所述顯示面板上還設置有掃描線驅動電路，與所述掃描線相連，用於向掃描線發送掃描驅動訊號，以導通所述控制開關；所述顯示驅動單元包括：資料線驅動電路，與所述資料線相連，用於向資料線發送顯示資料，使導通的控制開關將所述顯示資料傳輸至所述多個顯示電極。 The driving circuit of claim 37, wherein the display panel is further provided with a scan line sorted by columns, a data line sorted by rows, and a control switch connected to the scan line and the data line; the control switch The control terminal includes a first conductive terminal and a second conductive terminal, wherein the control terminal is configured to control whether the first conductive terminal and the second conductive terminal are conductive; and the control terminal of the control switch is connected to the scan line. The first conductive end is connected to the data line, and the second conductive end is connected to the plurality of display electrodes; the display panel is further provided with a scan line driving circuit, and is connected to the scan line. And a scan driving signal is sent to the scan line to turn on the control switch; the display driving unit includes: a data line driving circuit, and is connected to the data line, and is configured to send display data to the data line to make the conductive switch Transmitting the display material to the plurality of display electrodes. 如請求項37所述之驅動電路，其中，所述顯示面板還設置有按列排序的掃描線、按行排序的資料線以及與所述掃描線和資料線相連的控制開關；所述控制開關包括控制端、第一導通端與第二導通端，所述控制端用於控制所述第一導通端與第二 導通端之間是否導通；所述控制開關的控制端與所述掃描線相連，所述第一導通端與所述資料線相連，所述第二導通端與所述多個顯示電極對應連接；所述顯示驅動單元包括：掃描線驅動電路，與所述掃描線相連，用於向掃描線發送掃描驅動訊號，以導通所述控制開關；以及資料線驅動電路，與所述資料線相連，用於向資料線發送顯示資料，使導通的控制開關將所述顯示資料傳輸至所述多個顯示電極。 The driving circuit of claim 37, wherein the display panel is further provided with a scan line sorted by columns, a data line sorted by rows, and a control switch connected to the scan line and the data line; the control switch The control terminal includes a first conductive terminal and a second conductive terminal, and the control terminal is configured to control the first conductive terminal and the second conductive terminal Whether the conduction ends are connected to each other; the control end of the control switch is connected to the scan line, the first conductive end is connected to the data line, and the second conductive end is connected to the plurality of display electrodes; The display driving unit includes: a scan line driving circuit connected to the scan line, configured to send a scan driving signal to the scan line to turn on the control switch; and a data line driving circuit connected to the data line, The display data is sent to the data line, so that the conductive control switch transmits the display data to the plurality of display electrodes. 如請求項39所述之驅動電路，其中，所述顯示面板包括多個子畫素單元，每一子畫素單元包括一顯示電極以及與所述顯示電極相連接的控制開關，其中，定義包括第一電極的子畫素單元為第一子畫素單元，其它子畫素單元為第二子畫素單元，第一子畫素單元中的控制開關為第一控制開關，第二子畫素單元中的控制開關為第二控制開關，與第一子畫素單元相連接的掃描線為第一掃描線，與第二子畫素單元相連接且非與第一子畫素單元相連接的掃描線為第二掃描線，與第一子畫素單元相連接的資料線為第一資料線，與第二子畫素單元相連接且非與第一子畫素單元相連接的資料線為第二資料線；所述指紋感測單元包括：指紋感測控制電路，與所述第一掃描線相連，用於提供指紋感測控制訊號，以導通所述第一控制開關；指紋感測檢測電路，與所述第一資料線相連，用於提供進行自電容檢測的指紋感測訊號，使導通的第一控制開關將所述指紋感測訊號傳輸至所述第一電極，以對所述第一電極進行指紋感測；所述控制單元用於在指紋感測階段控制所述指紋感測控制電路向所 述第一掃描線發送指紋感測控制訊號，以導通所述第一控制開關，並控制指紋感測檢測電路向所述第一資料線發送指紋感測訊號。 The driving circuit of claim 39, wherein the display panel comprises a plurality of sub-pixel units, each sub-pixel unit comprising a display electrode and a control switch connected to the display electrode, wherein the definition comprises The sub-pixel unit of one electrode is the first sub-pixel unit, the other sub-pixel unit is the second sub-pixel unit, and the control switch in the first sub-pixel unit is the first control switch, and the second sub-pixel unit The control switch is a second control switch, and the scan line connected to the first sub-pixel unit is a first scan line, and is connected to the second sub-pixel unit and is not connected to the first sub-pixel unit. The line is a second scan line, and the data line connected to the first sub-pixel unit is the first data line, and the data line connected to the second sub-pixel unit and not connected to the first sub-pixel unit is a fingerprint sensing unit, comprising: a fingerprint sensing control circuit, connected to the first scan line, for providing a fingerprint sensing control signal to turn on the first control switch; and a fingerprint sensing detection circuit With the first capital Connected to the line for providing a fingerprint sensing signal for self-capacitance detection, so that the first control switch that is turned on transmits the fingerprint sensing signal to the first electrode to perform fingerprint sensing on the first electrode; The control unit is configured to control the fingerprint sensing control circuit to the location in a fingerprint sensing phase The first scan line sends a fingerprint sensing control signal to turn on the first control switch, and controls the fingerprint sensing detection circuit to send a fingerprint sensing signal to the first data line. 如請求項40所述之驅動電路，其中，定義第二子畫素單元的顯示電極為第二電極；所述控制單元用於在指紋感測階段控制與第二掃描線相連接的第二控制開關關閉；還用於控制所述指紋感測控制電路向所述第一掃描線發送指紋感測控制訊號，以導通所述第一控制開關，並控制所述指紋感測檢測電路向所述第一資料線發送指紋感測訊號。 The driving circuit of claim 40, wherein the display electrode defining the second sub-pixel unit is the second electrode; the control unit is configured to control the second control connected to the second scan line in the fingerprint sensing phase The switch is turned off; and is further configured to control the fingerprint sensing control circuit to send a fingerprint sensing control signal to the first scan line to turn on the first control switch, and control the fingerprint sensing detection circuit to the first A data line sends a fingerprint sensing signal. 如請求項41所述之驅動電路，其中，所述顯示面板包括多個與第一掃描線以及第二資料線相連的第二子畫素單元；當所述指紋感測控制電路發送指紋感測控制訊號給第一掃描線時，與第一掃描線相連接的第二子畫素單元的第二控制開關導通；所述控制單元還用於控制資料線驅動電路向第二資料線發送顯示資料，以提供顯示資料給與第一掃描線相連接的第二子畫素單元的第二電極。 The driving circuit of claim 41, wherein the display panel comprises a plurality of second sub-pixel units connected to the first scan line and the second data line; and the fingerprint sensing control circuit sends fingerprint sensing When the control signal is sent to the first scan line, the second control switch of the second sub-pixel unit connected to the first scan line is turned on; the control unit is further configured to control the data line drive circuit to send the display data to the second data line. And providing a display material to the second electrode of the second sub-pixel unit connected to the first scan line. 如請求項40所述之驅動電路，其中，所述指紋感測檢測電路包括多個指紋感測檢測模組，一指紋感測檢測模組用於對顯示面板的一個第一子畫素單元進行指紋感測，或者，一指紋感測檢測模組用於對顯示面板的多個第一子畫素單元同時進行指紋感測。 The driving circuit of claim 40, wherein the fingerprint sensing detection circuit comprises a plurality of fingerprint sensing detection modules, and a fingerprint sensing detection module is configured to perform a first sub-pixel unit of the display panel. Fingerprint sensing, or a fingerprint sensing detection module is configured to simultaneously perform fingerprint sensing on a plurality of first sub-pixel units of the display panel. 如請求項43所述之驅動電路，其中，所述顯示面板包括多個第一子畫素單元和多個第二子畫素單元，其中，所述多個第一子畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元、及藍色第 一子畫素單元，所述多個第二子畫素單元包括紅色第二子畫素單元、綠色第二子畫素單元、及藍色第二子畫素單元；所述顯示面板包括第一畫素單元與第二畫素單元，其中，第一畫素單元位於所述預定區域，用於實現指紋感測與圖像顯示，每一第一畫素單元包括紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元，第二畫素單元包括紅色第二子畫素單元、綠色第二子畫素單元、及藍色第二子畫素單元；一指紋感測檢測模組用於對一第一畫素單元中的所有子畫素單元同時進行指紋感測。 The driving circuit of claim 43, wherein the display panel comprises a plurality of first sub-pixel units and a plurality of second sub-pixel units, wherein the plurality of first sub-pixel units comprise red a sub-pixel unit, a green first sub-pixel unit, and a blue color a sub-pixel unit, the plurality of second sub-pixel units including a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit; the display panel includes the first a pixel unit and a second pixel unit, wherein the first pixel unit is located in the predetermined area for implementing fingerprint sensing and image display, each first pixel unit includes a red first sub-pixel unit, a green first sub-pixel unit and a blue first sub-pixel unit, the second pixel unit including a red second sub-pixel unit, a green second sub-pixel unit, and a blue second sub-pixel unit; The fingerprint sensing detection module is configured to simultaneously perform fingerprint sensing on all sub-pixel units in a first pixel unit. 如請求項44所述之驅動電路，其中，第一控制開關與第二控制開關均為多晶矽薄膜電晶體，一第一畫素單元中紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元的第一控制開關分別與不同的第一掃描線相連且均與同一第一資料線相連；所述指紋感測控制電路，同時提供指紋感測控制訊號給與一第一畫素單元中的第一紅色子畫素單元、第一綠色子畫素單元、第一藍色子畫素單元相連的三第一掃描線，以同時導通一第一畫素單元中紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元的第一控制開關；所述指紋感測檢測電路，藉由所述第一資料線向所述第一畫素單元中的紅色第一子畫素單元、綠色第一子畫素單元及藍色第一子畫素單元提供進行自電容檢測的指紋感測訊號。 The driving circuit of claim 44, wherein the first control switch and the second control switch are both polysilicon thin film transistors, a first pixel unit in a first pixel unit, and a first sub-pixel unit in green And the first control switch of the blue first sub-pixel unit is respectively connected to different first scan lines and is connected to the same first data line; the fingerprint sensing control circuit provides the fingerprint sensing control signal at the same time. a first red sub-pixel unit in the first pixel unit, a first green sub-pixel unit, and a first blue sub-pixel unit connected to the first three scan lines to simultaneously turn on a first pixel unit a first control switch of a red first sub-pixel unit, a green first sub-pixel unit, and a blue first sub-pixel unit; the fingerprint sensing detection circuit, by the first data line The red first sub-pixel unit, the green first sub-pixel unit, and the blue first sub-pixel unit in a pixel unit provide fingerprint sensing signals for self-capacitance detection. 如請求項43所述之驅動電路，其中，所述指紋感測檢測 模組包括：運算放大器；參考電壓源，與所述運算放大器的反相輸入端相連，用於提供參考電壓；反饋電容，一端與所述運算放大器的正相輸入端相連，另一端與運算放大器的輸出端相連；第一開關，一端連接於第一資料線，另一端連接於用於輸出第一電壓的第一電壓源，所述第一開關與所述第一資料線之間定義第一節點，所述第一電壓大於或小於所述參考電壓；第二開關，一端連接於所述第一節點，另一端連接於運算放大器的正相輸入端；第三開關，與所述反饋電容並聯；以及控制器，用於分時輸出第一控制訊號和第二控制訊號；所述第一控制訊號用於使所述第一開關以及第三開關導通，且使所述第二開關關斷；所述第二控制訊號用於使第二開關導通，且使所述第一開關以及第三開關關斷。 The driving circuit of claim 43, wherein the fingerprint sensing detection The module includes: an operational amplifier; a reference voltage source connected to the inverting input terminal of the operational amplifier for providing a reference voltage; and a feedback capacitor having one end connected to the non-inverting input terminal of the operational amplifier and the other end and the operational amplifier The first switch is connected to the first data line, the other end is connected to the first voltage source for outputting the first voltage, and the first switch defines the first between the first data line and the first data line. a node, the first voltage is greater than or less than the reference voltage; the second switch has one end connected to the first node and the other end connected to a positive phase input terminal of the operational amplifier; and a third switch connected in parallel with the feedback capacitor And a controller, configured to output the first control signal and the second control signal in a time-sharing manner; the first control signal is used to turn on the first switch and the third switch, and turn off the second switch; The second control signal is used to turn on the second switch, and turn off the first switch and the third switch. 如請求項46所述之驅動電路，其中，所述參考電壓為2V，所述第一電壓為0V或12V。 The drive circuit of claim 46, wherein the reference voltage is 2V and the first voltage is 0V or 12V. 如請求項42或45所述之驅動電路，其中，所述指紋感測控制訊號為與所述指紋感測訊號為同頻同相的脈衝訊號，用於在指紋感測時使所述第一控制開關導通，同時能減少所述第一掃描線與所述第一電極構成的電容器的充放電電量，或者所述指紋感測控制訊號為 與所述指紋感測訊號為同頻同相同幅的脈衝訊號，用於在指紋感測時使所述第一控制開關導通，同時能減少所述第一掃描線與所述第一電極構成的電容器的充放電電量。 The driving circuit of claim 42 or 45, wherein the fingerprint sensing control signal is a pulse signal that is in phase with the fingerprint sensing signal, and is used to enable the first control during fingerprint sensing. The switch is turned on, and at the same time, the charge and discharge power of the capacitor formed by the first scan line and the first electrode is reduced, or the fingerprint sensing control signal is And the fingerprint sensing signal is the same frequency pulse signal of the same frequency, for turning on the first control switch during fingerprint sensing, and reducing the first scan line and the first electrode The charge and discharge capacity of the capacitor. 如請求項40所述之驅動電路，其中，所述指紋感測控制電路集成於所述掃描線驅動電路。 The driving circuit of claim 40, wherein the fingerprint sensing control circuit is integrated in the scan line driving circuit. 如請求項40所述之驅動電路，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述第一資料線與所述資料線驅動電路之間均設置有第四開關，所第一資料線與所述指紋感測檢測電路之間均設置有第五開關；所述控制單元用於在圖像顯示階段控制所述第四開關導通、第五開關關斷；在指紋感測階段控制所述第五開關導通、第四開關關斷。 The driving circuit of claim 40, wherein the stage for defining the image display by the first electrode is an image display phase; and the fourth switch is disposed between the first data line and the data line driving circuit. A fifth switch is disposed between the first data line and the fingerprint sensing detection circuit; the control unit is configured to control the fourth switch to be turned on and the fifth switch to be turned off during an image display phase; The measuring phase controls the fifth switch to be turned on and the fourth switch to be turned off. 如請求項40所述之驅動電路，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述顯示資料為畫素電壓，所述顯示面板還設置有公共電極，所述公共電極與所述顯示電極用作顯示面板中一子畫素單元的二極板；所述驅動電路還包括：公共電壓產生電路，與所述公共電極相連，用於向所述公共電極提供公共電壓，使子畫素單元二極板分別加載有公共電壓和畫素電壓，以實現圖像顯示；第一訊號產生電路，與所述公共電極相連，用於提供第一訊號；所述控制單元用於在圖像顯示階段控制所述公共電壓產生電路向所述公共電極提供公共電壓；還用於在指紋感測階段控制所述第一訊號產生電路向所述公共電極提供第一訊號，以用於在指紋感測時減少所 述第一電極與所述公共電極構成的電容器的充放電電量。 The driving circuit of claim 40, wherein the stage of defining the first electrode to perform image display is an image display phase; the display material is a pixel voltage, and the display panel is further provided with a common electrode, the common The electrode and the display electrode are used as a two-pole plate of a sub-pixel unit in the display panel; the driving circuit further includes: a common voltage generating circuit connected to the common electrode for supplying a common voltage to the common electrode The sub-pixel unit diodes are respectively loaded with a common voltage and a pixel voltage to realize image display; a first signal generating circuit is connected to the common electrode for providing the first signal; and the control unit is used for Controlling the common voltage generating circuit to supply a common voltage to the common electrode during an image display phase; and further for controlling the first signal generating circuit to provide a first signal to the common electrode during a fingerprint sensing phase for use Reduced in fingerprint sensing The charge and discharge electric quantity of the capacitor formed by the first electrode and the common electrode. 如請求項51所述之驅動電路，其中，所述第一訊號為與指紋感測訊號為同頻同相的脈衝訊號，或者所述第一訊號為與指紋感測訊號為同頻同相同幅的脈衝訊號。 The driving circuit of claim 51, wherein the first signal is a pulse signal that is in phase with the fingerprint sensing signal, or the first signal is the same frequency as the fingerprint sensing signal. Pulse signal. 如請求項51所述之驅動電路，其中，所述第一訊號產生電路集成於所述指紋感測檢測電路。 The driving circuit of claim 51, wherein the first signal generating circuit is integrated in the fingerprint sensing detecting circuit. 如請求項53所述之驅動電路，其中，所述公共電壓產生電路與公共電極之間設置有第六開關，所述指紋感測檢測電路與公共電極之間設置有第七開關，所述控制單元在圖像顯示階段控制述第六開關導通、第七開關關斷；在指紋感測階段控制所述第七開關導通、第六開關關斷。 The driving circuit of claim 53, wherein a sixth switch is disposed between the common voltage generating circuit and the common electrode, and a seventh switch is disposed between the fingerprint sensing detecting circuit and the common electrode, and the control The unit controls the sixth switch to be turned on and the seventh switch to be turned off during the image display phase; the seventh switch is turned on and the sixth switch is turned off during the fingerprint sensing phase. 如請求項53所述之驅動電路，其中，指紋感測檢測電路包括多個指紋感測檢測模組，一指紋感測檢測模組用於對一個第一子畫素單元進行指紋感測或同時對多個第一子畫素單元進行指紋感測；所述指紋感測檢測模組用於輸出進行自電容檢測的指紋感測訊號，還用於輸出第一訊號；所述指紋感測檢測模組包括：運算放大器；參考電壓源，與所述運算放大器的反相輸入端相連，用於提供參考電壓；反饋電容，一端與所述運算放大器的正相輸入端相連，另一端與運算放大器的輸出端相連；第一開關，一端連接於第一資料線，另一端連接於用於輸出第一電壓 的第一電壓源，所述第一開關與所述第一資料線之間定義第一節點；第二開關，一端連接於所述第一節點，另一端連接於運算放大器的正相輸入端；第八開關，一端連接於公共電極，另一端連接於用於輸出第二電壓的第二電壓源，所述第八開關與所述公共電極之間定義一第二節點，所述第一電壓與所述第二電壓均小於所述參考電壓或均大於所述參考電壓；第九開關，一端連接於所述第二節點，另一端連接於參考電壓源；第三開關，與所述反饋電容並聯；以及控制器，用於分時輸出第三控制訊號和第四控制訊號；所述第三控制訊號用於使所述第一開關、第八開關以及第三開關導通，且使所述第二開關和第九開關關斷；所述第四控制訊號用於使所述第二開關和第九開關導通，且使所述第一開關、第八開關以及第三開關關斷。 The driving circuit of claim 53, wherein the fingerprint sensing detection circuit comprises a plurality of fingerprint sensing detection modules, and a fingerprint sensing detection module is configured to perform fingerprint sensing on a first sub-pixel unit or simultaneously Performing fingerprint sensing on the plurality of first sub-pixel units; the fingerprint sensing detection module is configured to output a fingerprint sensing signal for performing self-capacitance detection, and is further configured to output a first signal; the fingerprint sensing detection mode The group includes: an operational amplifier; a reference voltage source connected to the inverting input terminal of the operational amplifier for providing a reference voltage; and a feedback capacitor having one end connected to the positive phase input terminal of the operational amplifier and the other end connected to the operational amplifier The output end is connected; the first switch has one end connected to the first data line and the other end connected to the first voltage for outputting a first voltage source, a first node is defined between the first switch and the first data line; a second switch is connected at one end to the first node, and the other end is connected to a positive phase input end of the operational amplifier; An eighth switch, one end is connected to the common electrode, the other end is connected to a second voltage source for outputting a second voltage, and a second node is defined between the eighth switch and the common electrode, the first voltage is The second voltage is less than the reference voltage or greater than the reference voltage; the ninth switch has one end connected to the second node and the other end connected to a reference voltage source; and a third switch connected in parallel with the feedback capacitor And a controller, configured to output the third control signal and the fourth control signal in a time division manner; the third control signal is used to turn on the first switch, the eighth switch, and the third switch, and enable the second The switch and the ninth switch are turned off; the fourth control signal is used to turn on the second switch and the ninth switch, and turn off the first switch, the eighth switch, and the third switch. 如請求項40所述之驅動電路，其中，定義第一電極執行圖像顯示的階段為圖像顯示階段；所述顯示裝置還包括觸控感應單元，所述觸控感應單元堆疊於所述顯示面板上或為所述顯示面板的一部分；所述驅動電路還包括：觸控驅動電路，用於對所述觸控感應單元進行觸控檢測；所述控制單元，與所述觸控驅動電路相連，用於分時地控制所述顯示驅動電路、所述觸控驅動電路和所述指紋感測單元，以分別實現圖像顯示階段、觸摸檢測階段和指紋感測階段。 The driving circuit of claim 40, wherein the stage of defining the first electrode to perform image display is an image display stage; the display device further includes a touch sensing unit, wherein the touch sensing unit is stacked on the display Or a part of the display panel; the driving circuit further includes: a touch driving circuit, configured to perform touch detection on the touch sensing unit; and the control unit is connected to the touch driving circuit The display driving circuit, the touch driving circuit and the fingerprint sensing unit are used to control the image display phase, the touch detection phase and the fingerprint sensing phase, respectively. 如請求項56所述之驅動電路，其中，所述顯示面板還設置公共電極，所述公共電極與所述顯示電極用作顯示面板中一子畫素單元的二極板，所述公共電極用作觸控檢測的自電容電極；所述觸控驅動電路，與所述公共電極相連，用於向所述公共電極提供自電容觸控檢測訊號。 The driving circuit of claim 56, wherein the display panel further comprises a common electrode, wherein the common electrode and the display electrode are used as a two-pole plate of a sub-pixel unit in the display panel, and the common electrode is used. A self-capacitance electrode for touch detection; the touch drive circuit is connected to the common electrode for providing a self-capacitance touch detection signal to the common electrode. 如請求項57所述之驅動電路，其中，所述公共電極與公共電壓產生電路設置有第六開關，所述公共電極與所述觸控驅動電路之間設置有第十開關，所述控制單元用於在圖像顯示階段控制所述第六開關導通、第十開關關斷，在觸摸檢測階段控制所述第十開關導通、第六開關關斷。 The driving circuit of claim 57, wherein the common electrode and the common voltage generating circuit are provided with a sixth switch, and the tenth switch is disposed between the common electrode and the touch driving circuit, the control unit The sixth switch is turned on and the tenth switch is turned off in the image display phase, and the tenth switch is turned on and the sixth switch is turned off in the touch detection phase. 如請求項57所述之驅動電路，其中，所述公共電極與公共電壓產生電路設置有第六開關，所述指紋感測檢測電路與公共電極之間設置有第七開關，所述公共電極與所述觸控驅動電路之間設置有第十開關，控制單元用於在圖像顯示階段控制所述第六開關導通、第七開關和第十開關關斷，在觸摸檢測階段控制所述第十開關導通、第六開關和第七開關關斷，在指紋感測階段控制所述第七開關導通、第六開關第十開關關斷。 The driving circuit of claim 57, wherein the common electrode and the common voltage generating circuit are provided with a sixth switch, and a seventh switch is disposed between the fingerprint sensing detecting circuit and the common electrode, and the common electrode is A tenth switch is disposed between the touch driving circuits, and the control unit is configured to control the sixth switch to be turned on, the seventh switch, and the tenth switch to be turned off during an image display phase, and to control the tenth in a touch detection phase The switch is turned on, the sixth switch and the seventh switch are turned off, and the seventh switch is turned on during the fingerprint sensing phase, and the tenth switch is turned off in the sixth switch. 如請求項57或59所述之驅動電路，其中，所述驅動電路還包括：第二訊號產生電路，與所述第一、第二掃描線相連、用於提供第二訊號；以及所述控制單元，用於在觸控檢測時控制所述第二訊號產生電路向所述 第一、第二掃描線提供第二訊號，所述第二訊號能控制所述控制開關處於關閉狀態，同時還能減少公共電極與第一、第二掃描線構成的電容器的充放電電量。 The driving circuit of claim 57 or 59, wherein the driving circuit further comprises: a second signal generating circuit connected to the first and second scan lines for providing a second signal; and the controlling a unit, configured to control the second signal generating circuit to the The first and second scan lines provide a second signal, and the second signal can control the control switch to be in a closed state, and can also reduce the charge and discharge power of the capacitor formed by the common electrode and the first and second scan lines. 如請求項57或59所述之驅動電路，其中，所述驅動電路還包括：第三訊號產生電路，與所述第一、第二資料線相連、用於提供第三訊號；以及所述控制單元，用於在觸控檢測時控制所述第三訊號產生電路向所述第一、第二資料線提供第三訊號，所述第三訊號能減少公共電極與所述第一、第二資料線構成的電容器的充放電電量。 The driving circuit of claim 57 or 59, wherein the driving circuit further comprises: a third signal generating circuit connected to the first and second data lines for providing a third signal; and the controlling The unit is configured to control the third signal generating circuit to provide a third signal to the first and second data lines during touch detection, where the third signal can reduce the common electrode and the first and second data The charge and discharge capacity of the capacitor formed by the wire. 如請求項60所述之驅動電路，其中，所述第二訊號為與所述觸控檢測訊號為同頻同相的脈衝訊號，或者所述第二訊號為與所述觸控檢測訊號為同頻同相同幅的脈衝訊號。 The driving circuit of claim 60, wherein the second signal is a pulse signal that is in phase with the touch detection signal, or the second signal is the same frequency as the touch detection signal. The same amplitude pulse signal. 如請求項61所述之驅動電路，其中，所述第三訊號為與所述觸控檢測訊號為同頻同相的脈衝訊號，或者所述第三訊號為與所述觸控檢測訊號為同頻同相同幅的脈衝訊號。 The driving circuit of claim 61, wherein the third signal is a pulse signal that is in phase with the touch detection signal, or the third signal is the same frequency as the touch detection signal. The same amplitude pulse signal. 如請求項37所述之驅動電路，其中：在指紋感測階段，所述控制單元控制所述指紋感測單元向所述第一電極提供所述指紋感測訊號，以控制所述指紋感測單元對所述第一電極進行指紋感測，並控制顯示驅動單元停止輸出顯示訊號給第一電極或控制顯示驅動單元與第一電極之間處於斷開狀態以停止輸出顯示訊號給第一電極。 The driving circuit of claim 37, wherein: in the fingerprint sensing stage, the control unit controls the fingerprint sensing unit to provide the fingerprint sensing signal to the first electrode to control the fingerprint sensing The unit performs fingerprint sensing on the first electrode, and controls the display driving unit to stop outputting the display signal to the first electrode or to control the display driving unit and the first electrode to be in an off state to stop outputting the display signal to the first electrode. 如請求項64所述之驅動電路，其中：定義第一電極執行 圖像顯示的階段為圖像顯示階段，在圖像顯示階段，控制單元控制所述顯示驅動單元向所述第一電極提供所述顯示訊號，以控制所述第一電極進行圖像顯示，並控制指紋感測單元停止輸出指紋感測訊號給第一電極或控制指紋感測單元與第一電極之間處於斷開狀態以停止輸出指紋感測訊號給第一電極。 The driving circuit of claim 64, wherein: defining the first electrode to perform The image display stage is an image display stage, and in the image display stage, the control unit controls the display driving unit to provide the display signal to the first electrode to control the first electrode to perform image display, and The control fingerprint sensing unit stops outputting the fingerprint sensing signal to the first electrode or controls the fingerprint sensing unit and the first electrode to be in an off state to stop outputting the fingerprint sensing signal to the first electrode. 一種電子設備，其中，所述電子設備包括如請求項1至36中任一項所述之顯示裝置。 An electronic device, wherein the electronic device includes the display device according to any one of claims 1 to 36. 如請求項66所述之電子設備，其中，所述電子設備還包括：指紋感測指令單元，用於觸發所述顯示裝置的指紋感測階段；所述電子設備還包括：開機裝置、應用程序裝置或觸控檢測裝置，所述指紋感測指令單元設置於所述開機裝置、應用程序裝置或觸控檢測裝置中的任意一個或多個。 The electronic device of claim 66, wherein the electronic device further comprises: a fingerprint sensing instruction unit, configured to trigger a fingerprint sensing phase of the display device; the electronic device further includes: a boot device, an application The device or the touch detection device is disposed in any one or more of the boot device, the application device, or the touch detection device. 一種顯示裝置，包括：顯示面板，包括多個畫素單元以及與所述多個畫素單元相連接的多條資料線，每一畫素單元包括一顯示電極，所述顯示電極用於顯示圖像，定義位於顯示面板預定區域內的畫素單元為第一畫素單元，第一畫素單元的顯示電極為第一電極，第一電極還用於指紋感測；以及資料線驅動電路，藉由所述多條資料線與所述多個畫素單元連接，所述資料線驅動電路用於藉由所述多條資料線提供顯示訊號給所述多個畫素單元的顯示電極，以實現圖像顯示；其中，所述顯示面板進一步包括傳輸線，所述顯示裝置進一步包括： 指紋感測檢測單元，藉由所述傳輸線與第一畫素單元連接，用於藉由所述傳輸線提供指紋感測訊號給所述第一畫素單元的第一電極，以藉由感測所述第一電極的自電容大小來感測指紋；以及控制單元，用於控制第一電極是執行指紋感測還是執行圖像顯示。 A display device comprising: a display panel comprising a plurality of pixel units and a plurality of data lines connected to the plurality of pixel units, each pixel unit comprising a display electrode, the display electrode being used for displaying a picture For example, the pixel unit defined in the predetermined area of the display panel is a first pixel unit, the display electrode of the first pixel unit is a first electrode, the first electrode is also used for fingerprint sensing, and the data line driving circuit is borrowed The plurality of data lines are connected to the plurality of pixel units, and the data line driving circuit is configured to provide a display signal to the display electrodes of the plurality of pixel units by the plurality of data lines to implement An image display; wherein the display panel further includes a transmission line, the display device further comprising: The fingerprint sensing and detecting unit is connected to the first pixel unit by the transmission line, and is configured to provide a fingerprint sensing signal to the first electrode of the first pixel unit by using the transmission line, by using a sensing Sensing a fingerprint according to a self-capacitance of the first electrode; and a control unit for controlling whether the first electrode performs fingerprint sensing or performs image display. 如請求項68所述之顯示裝置，其中，所述顯示裝置進一步包括第一開關與第二開關，每一資料線藉由一第一開關與資料線驅動電路連接，每一傳輸線藉由一第二開關與指紋感測檢測單元連接，定義第一電極執行指紋感測的階段為指紋感測階段，定義第一電極執行圖像顯示的階段為圖像顯示階段，在指紋感測階段，所述控制單元藉由控制第一開關關斷、控制第二開關導通，在圖像顯示階段，所述控制單元藉由控制第一開關導通、控制第二開關關斷。 The display device of claim 68, wherein the display device further comprises a first switch and a second switch, each data line being connected to the data line driving circuit by a first switch, each of the transmission lines being The second switch is connected to the fingerprint sensing and detecting unit, and the stage for defining the first electrode to perform fingerprint sensing is a fingerprint sensing phase, and the stage for defining the first electrode to perform image display is an image display phase, and in the fingerprint sensing phase, The control unit controls the first switch to be turned off and controls the second switch to be turned on. In the image display stage, the control unit controls the first switch to be turned on and controls the second switch to be turned off.