WO2020154895A1 - 显示装置及其操作方法 - Google Patents
显示装置及其操作方法 Download PDFInfo
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- WO2020154895A1 WO2020154895A1 PCT/CN2019/073709 CN2019073709W WO2020154895A1 WO 2020154895 A1 WO2020154895 A1 WO 2020154895A1 CN 2019073709 W CN2019073709 W CN 2019073709W WO 2020154895 A1 WO2020154895 A1 WO 2020154895A1
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- sensor
- skin texture
- display panel
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- display
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- G06V40/1382—Detecting the live character of the finger, i.e. distinguishing from a fake or cadaver finger
- G06V40/1394—Detecting the live character of the finger, i.e. distinguishing from a fake or cadaver finger using acquisition arrangements
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- H10K—ORGANIC ELECTRIC SOLID-STATE DEVICES
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Definitions
- the embodiment of the present disclosure relates to a display device and an operation method thereof.
- Fingerprint identification technology is widely used in security and smart attendance fields such as fingerprint punching and card clocking. With the maturity and convenience of its technology, it is gradually applied to smart phone terminals and becomes the basic configuration of smart phones. How to design and prepare a more optimized display device structure is the focus of attention in this field.
- At least one embodiment of the present disclosure provides a display device, including: a display panel, a pressure sensor, a skin texture sensor, and a controller, wherein the skin texture sensor and the pressure sensor are respectively coupled to the controller, and the pressure sensor is configured In order to detect a pressing action on the display side of the display panel, the skin texture sensor is configured to detect a user's skin texture image touching the display side of the display panel, and the controller is configured to, when the pressure sensor detects the pressing action To wake up the skin texture sensor.
- the display device provided by some embodiments of the present disclosure further includes: a living body detection sensor, wherein the living body detection sensor is coupled to the controller and is configured to detect whether the pressing action is performed by the human body; and the controller is also It is configured to wake up the skin texture sensor when the living body detection sensor feedbacks that the pressing action is performed by the human body, otherwise turn off the skin texture sensor.
- a living body detection sensor wherein the living body detection sensor is coupled to the controller and is configured to detect whether the pressing action is performed by the human body
- the controller is also It is configured to wake up the skin texture sensor when the living body detection sensor feedbacks that the pressing action is performed by the human body, otherwise turn off the skin texture sensor.
- the living body detection sensor is a capacitive touch sensor or an infrared sensor.
- the pressure sensor is disposed on at least one of the following: the display side surface of the display panel, the inside of the display panel, or the backside of the display panel opposite to the display side surface.
- the pressure sensor is disposed inside the display panel, the pressure sensor includes a transistor and a pressure transmitting portion, the transistor includes a channel region, and the pressure transmitting portion is connected to the channel region. It overlaps and is arranged to transmit the pressure of the pressing action to the channel region, and the resistance of the channel region can be changed under the action of the pressure.
- the pressure sensor further includes a resistance measurement circuit
- the transistor is coupled to the resistance measurement circuit
- the resistance measurement circuit is configured to measure the resistance change of the channel region of the transistor , And send feedback signal to the controller.
- the transistor includes a gate, a source, and a drain, and the gate is closer to the pressure transmission part than the source and the drain, or the source and the drain are shorter than the The grid is close to the pressure transmission part.
- the pressure transmission portion is columnar.
- the pressure sensor is disposed on the display side surface of the display panel, and the pressure sensor includes a first electrode and a piezoelectric device which are sequentially stacked and disposed on the display side surface of the display panel. Material layer and second electrode.
- the pressure sensor further includes a voltage measurement circuit configured to be electrically connected to the first electrode and the second electrode, and to measure when the pressure sensor is pressed During the action, the voltage difference generated on both sides of the piezoelectric material layer will send a feedback signal to the controller.
- the piezoelectric material layer is a transparent piezoelectric film.
- the controller is further configured to control to turn off the circuit of the living body detection sensor and the circuit of the skin texture sensor after the user's skin texture image is successfully recognized.
- the display panel includes a pixel unit, the pixel unit includes a light-emitting device, and the light emitted by the light-emitting device is reflected by the user's skin on the display side of the display panel for the user. Skin texture image recognition.
- the display panel is an organic light emitting diode display panel or a quantum dot light emitting diode display panel.
- the display panel includes an array substrate and a counter substrate, the transistor is formed on the array substrate, and the pressure transmission part is sandwiched between the counter substrate and the transistor.
- At least one embodiment of the present disclosure also provides an operating method of a display device, including: making a pressure sensor detect a pressing action on the display side of the display panel, and when the pressure sensor detects a pressing action on the display side of the display panel, making The controller wakes up the skin texture sensor; makes the skin texture sensor detect the skin texture image of the user touching the display side of the display panel.
- the display device further includes a living body detection sensor, and the method further includes: causing the living body detection sensor to detect whether the pressing action is performed by the human body;
- the skin texture sensor detecting the skin texture image of the user touching the display side of the display panel includes: when the living body detection sensor feedbacks that the pressing action is performed by the human body, the controller wakes up the skin texture sensor, otherwise the controller turns off the skin texture sensor .
- an operating method of a display device further includes: after the user's skin texture image is successfully recognized, making the controller control to close the circuit of the living body detection sensor and the circuit of the skin texture sensor.
- FIG. 1A is a schematic cross-sectional view of a display device provided by some embodiments of the present disclosure.
- FIG. 1B is a schematic plan view of the display panel provided by the embodiment shown in FIG. 1A;
- FIG. 1C is a schematic cross-sectional view of another display device provided by some embodiments of the present disclosure.
- 1D is a schematic cross-sectional view of another display device provided by some embodiments of the present disclosure.
- FIG. 1E is a block diagram of a display device provided by some embodiments of the present disclosure.
- FIG. 2A is a schematic cross-sectional view of a pressure sensor of a display device according to some embodiments of the present disclosure
- 2B is a top view of a pressure sensor of a display device provided by some embodiments of the present disclosure.
- 2C is a schematic cross-sectional view of a pressure sensor of a display device according to some embodiments of the present disclosure
- 2D is a top view of a pressure sensor of a display device according to some embodiments of the present disclosure.
- 3A is a schematic cross-sectional view of another pressure sensor of a display device provided by some embodiments of the present disclosure.
- FIG. 3B is a top view of the pressure sensor provided by the embodiment shown in FIG. 3A;
- 3C is a top view of another pressure sensor of a display device provided by some embodiments of the present disclosure.
- FIG. 4 is a schematic cross-sectional view of a display device provided by some embodiments of the present disclosure.
- FIG. 5 is a flowchart of a method for operating a display device according to some embodiments of the present disclosure
- FIG. 6 is a flowchart of another operation method of a display device provided by some embodiments of the present disclosure.
- the under-screen fingerprint detection module of some display devices is always in working state when the display device is off. Such a working mode consumes a lot of power and is easy to cause misoperation, which may cause the electronic device including the display device to be woken up by mistake.
- An under-screen fingerprint unlocking solution is to install an additional pressure detection sensor under the display device, but the under-screen fingerprint unlocking solution is expensive and takes up the internal space of the display device, and when the pressure applied to the display device is not from the pressure applied by the finger At this time, the pressure detection sensor may still trigger the fingerprint unlocking function under the screen, resulting in unnecessary power consumption and easy misoperation.
- At least one embodiment of the present disclosure provides a display device, which includes a display panel, a pressure sensor, a skin texture sensor, and a controller.
- the skin texture sensor and the pressure sensor are respectively coupled to the controller, the pressure sensor is configured to detect a pressing action on the display side of the display panel, and the skin texture sensor is configured to detect a user touching the display side of the display panel Skin texture image; the controller is configured to wake up the skin texture sensor when the pressure sensor detects the pressing action.
- the pressure sensor detects the pressing action on the display side of the display panel.
- the controller wakes up the skin texture sensor to make the skin texture sensor detect the touch The user's skin texture image on the display side of the display panel, thereby reducing the power consumption of fingerprint detection under the screen.
- FIG. 1A is a schematic cross-sectional view of a display device 100 provided by some embodiments of the present disclosure
- FIG. 1B is a schematic plan view of a display panel 110 provided by the embodiment shown in FIG. 1A
- FIG. 1C is another schematic view provided by some embodiments of the present disclosure
- FIG. 1D is a schematic cross-sectional view of another display device 100 provided by some embodiments of the present disclosure
- FIG. 1E is a block diagram of a display device provided by some embodiments of the present disclosure.
- the display device 100 includes a display panel 110, a pressure sensor 120, a skin texture sensor 130, and a controller 150.
- the user can view the content displayed on the display panel 110 on the display side 111 of the display panel 110.
- the skin texture sensor 130 and the pressure sensor 120 are respectively coupled to the controller 150 and stacked with the display panel 110.
- the coupling may include electrical connection, mechanical connection, etc., and may also include connection modes such as optical or magnetic connection for transmitting signals.
- the pressure sensor 120 is used to detect the pressing action of pressing the display side 111 of the display panel 110
- the skin texture sensor 130 is used to detect the skin texture image of the user touching the display side 111 of the display panel 110
- the skin texture image may be a fingerprint image. Or palmprint images, etc.
- the controller 150 wakes up the skin texture sensor 130, so that the skin texture sensor 130 detects the user's skin texture image touching the display side 111 of the display panel 110, and realizes the under-screen skin texture recognition function. Therefore, the display device 100 integrates a display function and a skin texture recognition function under the screen.
- the display device 100 wakes up the skin texture sensor 130 when a pressing action is detected, so that the skin texture detection device can be in a standby state or off when the display device is off, thereby reducing the power consumption of the display device.
- the display panel 110 may be an organic light emitting diode (OLED) display panel, a quantum dot light emitting diode (PLED) display panel, or a liquid crystal display (LCD) display panel, an electronic paper display panel, etc.
- OLED organic light emitting diode
- PLED quantum dot light emitting diode
- LCD liquid crystal display
- the embodiments of the present disclosure are not limited to this .
- the OLED display panel may be a flexible OLED display panel, for example.
- the OLED display panel has self-luminous characteristics, and the light emission of its display pixel unit can be controlled or modulated as required, which can provide convenience for skin texture image collection (for example, as a light source for skin texture image collection), and help increase adoption The integration level of the electronic device of the display device. Part of the following examples will take the OLED display panel as an example for non-limiting description.
- the skin texture sensor 130 may be used to collect user skin texture images such as fingerprint images and palmprint images, and the collected skin texture images may be used for fingerprint recognition, palmprint recognition and other functions.
- the skin texture sensor 130 has a certain working area (active area) and includes a plurality of pixel units arranged in a predetermined array.
- the skin texture sensor 130 is coupled to the fingerprint processor 160 (for example, an integrated circuit chip) through a lead, a flexible circuit board, etc., so that the collected fingerprint image can be transmitted to the fingerprint processor 160 in the form of a data signal.
- the skin texture sensor 130 may be various appropriate types of fingerprint sensors such as a charge coupled device (CCD) type, a complementary metal oxide semiconductor (CMOS) type image sensor, and the like.
- CCD charge coupled device
- CMOS complementary metal oxide semiconductor
- the skin texture sensor 130 may only sense light of a certain wavelength (for example, infrared light, red light, or green light), or may sense all visible light.
- a fingerprint sensor in which the skin texture sensor 130 is used for fingerprint recognition is taken as an example for description.
- the display side 111 of the display panel 110 is the side with the display area 1111, that is, the display side 111 is the side where the screen is displayed, and the surface of the display side 111 is the side where the screen is displayed;
- the back side 113 of the panel 110 is the side opposite to the display side 111, and the surface of the back side 113 is the surface on the side opposite to the display side 111.
- the display area 1111 of the display panel 110 includes a fingerprint recognition area 1112, and the fingerprint recognition area 1112 may be part or all of the display area 1111, thereby realizing partial or full-screen fingerprint recognition functions. For example, the user can put a finger in the fingerprint recognition area 1112 or press the fingerprint recognition area 1112.
- the light emitting unit of the display device emits light
- the light emitted by the light emitting unit is reflected by the finger and collected and imaged by the skin texture sensor 130
- the fingerprint image obtained by the skin texture sensor 130 can be used for subsequent fingerprint identification operations.
- the relative positional arrangement relationship between the pressure sensor 120 and the display panel 110 can also be varied.
- the pressure sensor 120 may be provided inside the display panel 110, that is, a built-in type (in-cell type); as shown in FIG. 1C, the pressure sensor 120 may also be provided in the display panel 110.
- the surface of the display side 111 is an external type (on-cell type); or, as shown in FIG. 1D, the pressure sensor 120 can also be disposed on the surface of the back side 113 of the display panel 110.
- the embodiments of the present disclosure do not limit this.
- the skin texture sensor 130 and the display panel 110 may have various positions and arrangements.
- the skin texture sensor 130 may It is arranged on the back side 113 of the display panel 110; as shown in FIG. 1D, the skin texture sensor 130 may be arranged on the side of the pressure sensor 120 away from the display panel 110.
- the skin texture sensor 130 may also be formed inside the display panel, thereby achieving integration with the display panel. The embodiments of the present disclosure do not limit this.
- the pressure sensor 120 may also have multiple implementation manners, which are not limited in the embodiments of the present disclosure. The following specific examples will describe in detail the different structures of the pressure sensors 120 located at different positions of the display panel 110.
- FIG. 2A is a schematic cross-sectional view of a pressure sensor of a display device provided by some embodiments of the present disclosure
- FIG. 2B is a pressure sensor of a display device provided by some embodiments of the present disclosure
- 2C is a schematic cross-sectional view of a pressure sensor of a display device provided by some embodiments of the present disclosure
- FIG. 2D is a top view of a pressure sensor of a display device provided by some embodiments of the present disclosure.
- the pressure sensor in this embodiment is disposed inside the display panel 110 and sandwiched between the counter substrate 211 and the array substrate 220 of the display panel 110.
- the display panel is an OLED display panel
- the array substrate 220 is formed with pixel units for display operations, and each pixel unit includes a light-emitting element (OLED) and a driving circuit for driving the light-emitting element, and the driving circuit includes a transistor.
- OLED light-emitting element
- driving circuit includes a transistor.
- gate lines, data lines, power lines, etc. are also formed on the array substrate 220 for providing scan signals, data signals, power supply voltages, etc. for the pixel units.
- the opposing substrate 221 is, for example, a packaging substrate, a color filter substrate, etc., and is combined with the array substrate 220 through a packaging material such as a frame sealant to provide a sealing effect for protecting and isolating water vapor, oxygen, etc., for the light emitting element.
- a spacer or the like may be formed between the counter substrate 211 and the array substrate 220 to define a space for disposing a sealing material or the like.
- the pressure sensor may include a transistor and a pressure transmission part 212.
- the pressure transmission part 212 may be columnar, for example, a cylinder, a triangular prism, a quadrangular prism, a pentagonal prism, etc.
- the shape of the pressure transmitting portion 212 is not limited to this.
- the pressure transmitting portion 212 may be a sphere, a polyhedron, etc., for example, may be made of organic materials, for example, when forming the aforementioned spacers.
- the transistor may include at least a part of a source electrode 213, a drain electrode 214, a protective layer 215, a semiconductor layer 217, an insulating layer 218, and a gate electrode 219. The transistor is formed synchronously with a certain transistor in the pixel unit of the array substrate, for example.
- the material of the semiconductor layer 217 may be microcrystalline silicon, amorphous silicon, polysilicon, oxide semiconductor, etc., and the oxide semiconductor may be indium gallium tin oxide (IGZO) or the like.
- the source and drain regions can be doped as needed.
- the semiconductor layer is formed of polysilicon, the source region and the drain region that are in contact with the source and drain respectively may be doped.
- the area of the semiconductor layer 217 of the transistor electrically connected to the source electrode 213 and the drain electrode 214 is the source drain area 216 (including the source area and the drain area), and the portion between the source electrode 213 and the drain electrode 214 is the In the channel region of the transistor, one end of the pressure transmission portion 212 abuts on the opposite substrate, and the other end overlaps and abuts on the channel region.
- the pressure acting on the opposing substrate is transmitted to the channel region of the transistor through the pressure transmission portion 212, and acts on the channel region of the transistor.
- the display device 100 does not need to be additionally provided with a separate pressure sensor, which can save costs and save the internal space of the display device.
- the pressure sensor may further include a resistance measurement circuit 230, and the transistor is coupled to the resistance measurement circuit 230.
- the source 213 of the transistor may be connected to the resistance measurement circuit 230 through a source signal line 221
- the drain 214 of the transistor may be connected to the resistance measurement circuit 230 through a drain signal line 222.
- the gate 219 of the SR may also be connected to the resistance measurement circuit 230 through the gate signal line 223.
- the resistance measurement circuit 230 may include an amplifier circuit, an analog-to-digital conversion circuit, etc., and may be implemented as a separate device or integrated with other devices, for example.
- an on-state voltage can be applied to the gate 219 through the gate signal line 223, so that the source 213 and the drain 214 are turned on.
- a constant voltage is applied to the source 213 through the source signal line 221.
- a voltage, for example, a constant second voltage is applied to the drain 214 through the drain signal line 222, so that a current flows between the source 213 and the drain 214, and the resistance measuring circuit 230 can obtain the conductance of the transistor by detecting the current. Through resistance.
- the pressure transmitting portion 212 transmits the pressure of the pressing action to the channel region, and the pressure causes the resistivity of the semiconductor in the channel region to change, thereby causing the channel
- the resistance of the zone changes under the action of this pressure.
- the resistance measurement circuit 230 measures the resistance change of the channel region of the transistor, and the resistance measurement circuit 230 is coupled to the controller 150 so that a feedback signal can be sent to the controller 150.
- the controller 150 determines whether there is a pressing action according to the received feedback signal, and if so, wakes up the skin texture sensor 130, so that the skin texture sensor 130 starts working, and detects the fingerprint of the user touching the display side 111 of the display panel 110 The image is used for subsequent fingerprint identification operations.
- the controller 150 controls the mobile phone or tablet computer using the display device to enter the working state, such as displaying the application program before the screen is in the rest state , Or perform a predetermined operation (such as payment, enter a specific application, etc.), etc. After the system of the display device is unlocked, for example, the controller 150 can control to turn off the skin texture sensor 130 to restore the standby state, thereby further saving the power consumption of the display device 100. If the fingerprint recognition fails, the controller 150 can, for example, control the mobile phone or tablet computer to remain in the off-screen state.
- the gate electrode 219 is farther away from the pressure transmission portion 212 than the source electrode 213 and the drain electrode 214.
- FIG. 2C and FIG. 2D please refer to FIG. 2C and FIG. 2D.
- the gate 219 is far away from the pressure transmitting portion 212, and the embodiment of the present disclosure does not impose any limitation on this.
- the working principle is the same as that of the structure shown in FIGS. 2A and 2B, and as shown in FIG.
- the source 213 of the transistor may be connected to the source signal line 221
- the resistance measurement circuit 230, the drain 214 of the transistor can be connected to the resistance measurement circuit 230 through the drain signal line 222, and the gate 219 of the transistor can also be connected to the resistance measurement circuit 230 through the gate signal line 223. Repeat.
- the following continues to describe an embodiment of the pressure sensor 120 disposed on the surface of the display side 111 of the display panel 110.
- FIG. 3A shows another pressure sensor of a display device provided by the embodiment shown in FIG. 3B along a section line at the intersection 350 of the first electrode 310 and the second electrode 330
- FIG. 3B is a top view of the pressure sensor provided by the embodiment shown in FIG. 3A
- FIG. 3C is a top view of another pressure sensor of a display device provided by some embodiments of the disclosure.
- the pressure sensor 300 is disposed on the display side surface of the display panel, for example, includes a first electrode 310, a piezoelectric material layer 320, and a second electrode that are sequentially stacked on the display side surface of the display panel. 330.
- the piezoelectric material layer 320 may be a transparent piezoelectric film.
- the material of the transparent piezoelectric film may be quartz crystal, lead zirconate titanate, polytetrafluoroethylene, or the like.
- the display device does not need to be additionally provided with a separate pressure sensor, which can save cost and the internal space of the display device. As shown in FIG.
- the pressure sensor 300 includes a first electrode 310 and a second electrode 330. Both the first electrode 310 and the second electrode 330 are strip electrodes extending in different directions. These cross each other and are insulated.
- the pressure sensor 300 may further include a voltage measuring circuit 340 which is electrically connected to the first electrode 310 and the second electrode 330. When the display side 111 of the display panel 110 is subjected to a pressing action, the voltage measuring circuit 340 uses the first electrode 310 and the second electrode 330 to measure the pressure on the piezoelectric material layer 320 when the pressure sensor 300 is pressed. The voltage difference generated by the side.
- the voltage measurement circuit 340 may include an amplifier circuit, an analog-to-digital conversion circuit, etc., and may be implemented as a separate device or integrated with other devices, for example.
- the voltage measurement circuit 340 is coupled to the controller 150, so it can send a feedback signal to the controller 150.
- the controller 150 determines whether a pressing action has occurred according to the feedback signal received from the voltage measurement circuit 340, and if so, wakes up the skin texture sensor 130, so that the skin texture sensor 130 starts to work, and detects the touch on the display side of the display panel.
- the user's fingerprint image is used for subsequent fingerprint recognition operations. If the fingerprint recognition is successful, the controller 150 controls the mobile phone or tablet computer using the display device to enter the working state, for example, display the application program before the screen is in the rest state , Or perform a predetermined operation (such as payment, enter a specific application, etc.), etc.
- the controller 150 can control to turn off the skin texture sensor 130 to restore the standby state, thereby further saving the power consumption of the display device 100. If the fingerprint recognition fails, the controller 150 can control the mobile phone or the tablet computer to keep the screen off, for example.
- a plurality of pressure sensors 300 may be separately provided in a predetermined area (for example, part or all of the display area) on the surface of the display side 111 of the display panel 110, and each pressure sensor 300 may be connected to a voltage measuring circuit. 340 is electrically connected, so as to realize the detection of the pressing action of the display side 111 of the display panel 110 in the predetermined area. In another example, it is also possible to locate the pressure sensor 300 on which the voltage difference is detected, so as to locate the position where the pressing action occurs on the display side surface of the display panel, that is, to further realize the position detection function.
- the display device 100 may further include a living body detection sensor 140, which is coupled to the controller 150 and used to detect a touch or pressing of the display device Whether the object on the surface on the display side is a human body. If it is determined from the detection result of the living body detection sensor that the pressing operation is a human body, the controller 150 may control the fingerprint image to be detected; if it is determined that the pressing operation is not a human body, such as a stylus or other objects, the controller 150 It can be controlled not to detect the fingerprint image, thereby further reducing the power consumption of the display device.
- a living body detection sensor 140 is coupled to the controller 150 and used to detect a touch or pressing of the display device Whether the object on the surface on the display side is a human body. If it is determined from the detection result of the living body detection sensor that the pressing operation is a human body, the controller 150 may control the fingerprint image to be detected; if it is determined that the pressing operation is not a human body, such as a stylus or other objects, the controller 150 It can be
- the living body detection sensor 140 can be implemented in many ways.
- the living body detection sensor 140 may be a capacitive touch sensor or an infrared sensor.
- the living body detection sensor 140 may be implemented by multiplexing position touch sensors. If the living body detection sensor is a capacitive touch sensor, when the pressing action is performed by the human body, the capacitance of the capacitive touch sensor itself will change, and the change in the capacitance will be detected by the measuring circuit to determine the pressing action It is executed by the human body.
- the living body detection sensor is an infrared sensor
- the infrared sensor when the pressing action is performed by the human body, the infrared sensor will detect the infrared light emitted (or reflected) by the finger, so as to determine that the pressing action is performed by the human body.
- the living body detection sensor is not limited to this, and its detection method is not limited to this.
- the living body detection sensor 140 can also be arranged in various positions relative to the display panel.
- the living body detection sensor 140 can be arranged on the surface of the display side 111 of the display panel 110, which is an on-cell type;
- the living body detection sensor 140 can also be arranged inside the display panel 110, that is, an in-cell type; for another example, the living body detection sensor 140 can also be arranged on the backside 113 of the display panel 110.
- the embodiments of the present disclosure do not limit this.
- the living body detection sensor 140 when the living body detection sensor 140 is implemented as a capacitive touch sensor, it may be multiplexed by a capacitive touch sensor for positioning.
- the capacitive touch sensor may be a self-capacitance type or a mutual-capacitance type. No longer.
- the living body detection sensor 140 when the living body detection sensor 140 is implemented as an infrared sensor, it can be multiplexed by an infrared touch sensor for positioning. It can be detected by an infrared light detection device (such as a photodiode or a phototransistor) on the back side of the display panel. Infrared light emitted (or reflected) by the user's finger or the like.
- the pressure sensor 120 detects the pressing action on the display side 111 of the display panel 110
- the living body detection sensor 140 detects whether the pressing action on the display side 111 of the display panel 110 is performed by the human body. 120 and the living body detection sensor 140 provide the detected feedback signal to the controller 150.
- the controller 150 determines that the pressure sensor 120 detects the pressing action on the display side 111 of the display panel 110, and determines that the pressing action on the display side 111 of the display panel 110 is performed by the human body
- the controller 150 wakes up the skin texture sensor 130 , So that the skin texture sensor 130 detects the fingerprint image of the user touching the display side of the display panel for subsequent fingerprint identification operations.
- the controller 150 controls the mobile phone using the display device Or the system of the tablet computer enters the working state, such as displaying the operation interface of the application program before the rest screen, or performing a predetermined operation. After the system of the display device is unlocked, for example, the controller 150 can control to turn off the skin texture sensor 130 to restore the standby state, thereby further saving the power consumption of the display device 100; if the fingerprint recognition fails, the controller 150 can, for example, Control the mobile phone or tablet computer to remain in the off-screen state.
- the controller 150 keeps the skin texture sensor 130 in the standby state or in the off state. In this way, it can be more effectively avoided when the display device feels When the pressure is not the pressure exerted by the finger, the under-screen fingerprint unlocking function of the display device is still turned on, resulting in misoperation and increased power consumption.
- the skin texture sensor 130 may send the fingerprint image imaged thereon to the controller 150, and the controller 150 sends the user fingerprint image to the fingerprint processor 160, so that the fingerprint processor 160 completes the user texture image Recognition. For example, if the user texture recognition succeeds, the controller 150 releases the system lock state of the electronic device including the display device. If the user texture recognition fails or verification fails, the controller 150 controls the display device 100 to remain in the off-screen state.
- the fingerprint processor 160 may be realized by a general-purpose processor or a dedicated processor; the controller 150 may be various types of integrated circuit chips with processing functions, which may have various computing architectures, For example, a complex instruction set computer (CISC) structure, a reduced instruction set computer (RISC) structure, or a structure that implements a combination of multiple instruction sets.
- the controller 150 may be a microprocessor, such as an X86 processor or an ARM processor, or may be a digital processor (DSP) or the like.
- the structure of the display device 100 of some embodiments of the present disclosure is not limited to the exemplary structure shown in FIGS. 1A-1E.
- the display device 100 may also include other devices, such as a driver chip, a memory, a microphone, Loudspeakers, etc., I won’t repeat them here.
- the pressure sensor detects the pressing action on the display side of the display panel.
- the controller wakes up the skin texture sensor so that the skin texture sensor detects the touch of the display panel The user's skin texture image on the display side of the display side, thereby reducing the power consumption of fingerprint detection under the screen.
- the display device does not need to be additionally provided with a separate pressure sensor, which can save costs and save the internal space of the display device. Further, after the system of the display device is unlocked, the circuit of the skin texture sensor is controlled to be turned off, thereby further saving the power consumption of the display device.
- the living body detection sensor 140 detects whether the pressing action of the display side 111 of the display panel 110 is performed by the human body.
- the controller maintains the The skin texture sensor is in the standby state, which can further avoid the problem of misoperation caused by the off-screen fingerprint unlocking function of the display device when the pressure felt by the display device is not the pressure of the finger.
- the display device 400 includes a display panel 410, a pressure sensor 420, a skin texture sensor 430, and a controller (not shown).
- the display panel 410 is an OLED display panel.
- the OLED display panel 410 includes structures such as a top layer film 401, a thin film package 402, a pixel unit 403, a flexible substrate 404, and a bottom layer film 405.
- the bottom film 405 provides protection and support functions for other structures and functional layers located thereon, such as a strong plastic substrate or a glass substrate.
- the flexible substrate 404 is used to provide cushioning, and is, for example, a flexible substrate made of polyimide (PI), polypropylene (PP), polycarbonate (PC), etc.
- the pixel unit 403 is formed on the flexible substrate 404, which includes a plurality of pixel units arranged in a predetermined array and signal lines (including gate lines, data lines, etc.) for providing electrical signals (including scan signals, data signals, detection signals, etc.) , Detection line, etc.).
- Each pixel unit includes a light-emitting device (for example, an OLED device) and a pixel drive circuit for driving the light-emitting device (OLED device) to emit light.
- the pixel drive circuit is coupled to a signal line so as to receive corresponding control signals and drive voltages. , According to need to drive the light-emitting device to emit light to perform functions such as display, touch or skin texture (such as fingerprint) recognition.
- the light 101 emitted by the pixel unit can be used for display and as incident light for fingerprint detection under the screen. Specifically, the light 101 emitted by the light emitting device in the pixel unit is reflected by the user's skin (finger or palm) 450 on the display side of the display panel. Used for user skin texture image recognition.
- the thin film package 402 covers the pixel unit 403 to prevent external moisture from entering the pixel unit 403 to cause aging or deterioration. It may be a multilayer thin film package, for example, including a laminated inorganic insulating layer and an organic insulating layer.
- the top film 401 may be a cover plate, such as a substrate or a thick film made of glass or plastic, for providing support and protection, for example, for a user to perform touch, pressing, and other operations.
- the OLED display panel 410 may further include other structures or functional layers.
- the OLED display panel 410 may include a touch structure for realizing a touch function.
- the touch structure may be built into the pixel unit 403, or formed on the top film, for example, capacitive, resistive, etc.
- the touch structure may be multiplexed as a living body detection sensor.
- the above-mentioned top film 401, thin film package 402, flexible substrate 404, and bottom film 405 are at least partially transparent, and a small hole 4032 is formed between the pixel unit 403 and the adjacent pixel unit. So that the light reflected from the fingerprint on the surface of the top film 401 can be incident on the skin texture sensor 430 and imaged through the small hole to obtain a fingerprint image.
- the OLED display panel 410 may also include a microlens array (not shown in the figure). The microlens array is formed corresponding to the aforementioned small hole 4032, and the light 102 passing through the small hole 4032 can be processed according to its formation position. The light 102 passing through the small hole 4032 is collimated or collimated, and the collimated light 102 is incident on the skin texture sensor 430.
- the pressure sensor 420 detects the pressing action on the display side of the display panel 410.
- the controller wakes up the skin texture sensor to enable the skin texture sensor 430 detects the fingerprint image of the user touching the display side of the display panel 410, and the fingerprint image is provided to the fingerprint processor, thereby reducing the power consumption of fingerprint detection under the screen.
- the display device can be implemented as any product or component with a display function, such as a mobile phone, a tablet computer, a television, a monitor, a notebook computer, a digital photo frame, a navigator, etc.
- a display function such as a mobile phone, a tablet computer, a television, a monitor, a notebook computer, a digital photo frame, a navigator, etc.
- the operation method of the display device of some embodiments of the present disclosure includes, for example, the following steps S501 to S503.
- step S501 the pressure sensor is made to detect the pressing action on the display side of the display panel.
- step S502 when it is determined that the pressure sensor detects a pressing action on the display side of the display panel, the controller is caused to wake up the skin texture sensor.
- step S503 the skin texture sensor is enabled to detect the user's skin texture image on the display side of the touch display panel.
- the operating method of the display device provided by at least one embodiment of the present disclosure enables the pressure sensor to detect the pressing action on the display side of the display panel, and when it is determined that the pressure sensor detects the pressing action on the display side of the display panel, the controller The skin texture sensor is awakened so that the skin texture sensor detects the skin texture image of the user touching the display side of the display panel, thereby reducing the power consumption of fingerprint detection under the screen.
- FIG. 6 is a flowchart of another operation method of a display device according to some embodiments of the present disclosure.
- the display device may also include a living body detection sensor, and the method includes the following steps S601 to S607.
- step S601 the pressure sensor is made to detect the pressing action on the display side of the display panel.
- step S601 if the living body detection sensor is in the working state, the following step S603 can be directly performed; if the living body detection sensor is in the standby state or the off state, the following step S602 can be performed.
- step S602 when it is determined that the pressure sensor detects the pressing action on the display side of the display panel, the controller is caused to wake up the living body detection sensor.
- step S603 the living body detection sensor is enabled to detect whether the pressing action is performed by the human body.
- the living body detection sensor is a capacitive touch sensor
- the capacitance of the capacitive touch sensor itself will change and be affected.
- the measurement circuit detects the change in the capacitance, and thus determines that the pressing action is performed by the human body.
- the living body detection sensor is an infrared sensor
- the infrared sensor will detect the infrared light emitted by the finger, thereby determining that the pressing action is performed by the human body.
- the living body detection sensor is not limited to this, and its detection method is not limited to this.
- step S604 to step S606 are executed, and when it is determined that the pressing action fed back by the living body detecting sensor is not performed by the human body, step S607 is executed.
- step S604 the controller wakes up the skin texture sensor.
- the controller wakes up the skin texture sensor and makes the skin texture sensor detect touching the The user’s skin texture image on the display side of the display panel reduces the power consumption of fingerprint detection under the screen, and avoids that the under-screen fingerprint unlocking function of the display device may still be affected when the pressure felt by the display device is not the pressure of the finger.
- step S605 the skin texture sensor is enabled to detect the user's skin texture image on the display side of the touch display panel.
- the skin texture sensor detects that the user's skin texture image on the display side of the touch display panel is used for subsequent fingerprint recognition operations. If the fingerprint recognition is successful, the controller controls the mobile phone or tablet computer including the display device to work Status, for example, display the operation interface of the application program before the screen rest state, or perform a predetermined operation; if fingerprint recognition fails, the controller can control the mobile phone or tablet computer to remain in the screen rest state.
- step S606 when it is determined that the user's skin texture image is successfully recognized, the controller is made to control to close the circuit of the living body detection sensor and the circuit of the skin texture sensor.
- the controller By allowing the controller to control the closing of the circuit of the living body detection sensor and the circuit of the skin texture sensor, the power consumption of the display device can be further saved.
- step S607 the controller turns off the skin texture sensor.
- the controller turns off the skin texture sensor so that the skin texture sensor is in the standby state or off state, which can avoid the display device when the pressure felt by the display device is not the pressure of the finger
- the fingerprint unlocking function under the screen may still be turned on, resulting in misoperation problems.
- the operating method of the display device enables the pressure sensor to detect the pressing action on the display side of the display panel, and when it is determined that the pressure sensor detects the pressing action on the display side of the display panel, the controller The skin texture sensor is awakened so that the skin texture sensor detects the skin texture image of the user touching the display side of the display panel, thereby reducing the power consumption of fingerprint detection under the screen.
- the controller wakes up the skin texture sensor, otherwise the controller turns off the skin texture sensor. In this way, it can be avoided when the pressure felt by the display device is not Under the pressure of the finger, the under-screen fingerprint unlocking function of the display device may still be turned on, which may cause misoperation.
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Abstract
Description
Claims (18)
- 一种显示装置,包括:显示面板、压力传感器、皮肤纹理传感器及控制器,其中,所述皮肤纹理传感器和所述压力传感器分别与所述控制器耦接,所述压力传感器被配置为检测所述显示面板的显示侧的按压动作,所述皮肤纹理传感器被配置为检测触摸所述显示面板的显示侧的用户皮肤纹理图像,所述控制器被配置为,当所述压力传感器检测到所述按压动作时,唤醒所述皮肤纹理传感器。
- 根据权利要求1所述的显示装置,还包括活体检测传感器,其中,所述活体检测传感器与所述控制器耦接,且被配置为检测所述按压动作是否由人体执行;以及所述控制器还被配置为当所述活体检测传感器反馈所述按压动作是由人体执行时,唤醒所述皮肤纹理传感器,否则关闭所述皮肤纹理传感器。
- 根据权利要求2所述的显示装置,其中,所述活体检测传感器为电容触摸传感器或红外传感器。
- 根据权利要求3所述的显示装置,其中,所述压力传感器设置于以下中的至少一个:所述显示面板的显示侧表面、所述显示面板内部或所述显示面板的与所述显示侧相对的背侧表面。
- 根据权利要求4所述的显示装置,其中,所述压力传感器设置于所述显示面板内部,所述压力传感器包括晶体管和压力传递部,所述晶体管包括沟道区,所述压力传递部与所述沟道区重叠,且被配置为将所述按压动作的压力传递至所述沟道区,所述沟道区的电阻在所述压力的作用下可变化。
- 根据权利要求5所述的显示装置,其中,所述压力传感器还包括电阻测量电路,所述晶体管与所述电阻测量电路耦接,所述电阻测量电路被配置为测量所述晶体管的沟道区的电阻变化,并发送反馈信号到所述控制器。
- 根据权利要求5所述的显示装置,其中,所述晶体管包括栅极、源极和漏极,所述栅极比所述源极和所述漏极靠近所述压力传递部,或者所述源 极和所述漏极比所述栅极靠近所述压力传递部。
- 根据权利要求5所述的显示装置,其中,所述压力传递部为柱状。
- 根据权利要求4所述的显示装置,其中,所述压力传感器设置于所述显示面板的显示侧表面上,所述压力传感器包括依次堆叠设置在所述显示面板的显示侧表面上的第一电极、压电材料层和第二电极。
- 根据权利要求9所述的显示装置,其中,所述压力传感器还包括电压测量电路,所述电压测量电路被配置为与所述第一电极和所述第二电极电连接,且测量当所述压力传感器被所述按压动作作用时在所述压电材料层两侧产生的电压差,并发送反馈信号到所述控制器。
- 根据权利要求10所述的显示装置,其中,所述压电材料层为透明压电薄膜。
- 根据权利要求2至11中任一项所述的显示装置,其中,所述控制器还被配置为当所述用户皮肤纹理图像识别成功后,控制关闭所述活体检测传感器的电路和关闭所述皮肤纹理传感器的电路。
- 根据权利要求1至11中任一项所述的显示装置,其中,所述显示面板包括像素单元,所述像素单元包括发光器件,所述发光器件工作时发出的光被所述显示面板的显示侧的用户皮肤反射用于所述用户皮肤纹理图像识别。
- 根据权利要求1至11中任一项所述的显示装置,其中,所述显示面板为有机发光二极管显示面板或量子点发光二极管显示面板。
- 根据权利要求5至8中任一项所述的显示装置,其中,所述显示面板包括阵列基板以及对置基板,所述晶体管形成在所述阵列基板上,所述压力传递部夹置在所述对置基板和所述晶体管之间。
- 一种如权利要求1-15中任一项所述显示装置的操作方法,包括:使所述压力传感器检测所述显示面板的显示侧的按压动作,当所述压力传感器检测到所述显示面板的显示侧的按压动作时,使所述控制器唤醒所述皮肤纹理传感器;使所述皮肤纹理传感器检测触摸所述显示面板的显示侧的用户皮肤纹理图像。
- 根据权利要求16所述的方法,其中,所述显示装置还包括活体检测 传感器,所述方法还包括:使所述活体检测传感器检测所述按压动作是否由人体执行;其中,使所述皮肤纹理传感器检测触摸所述显示面板的显示侧的用户皮肤纹理图像包括:当所述活体检测传感器反馈所述按压动作是由所述人体执行时,所述控制器唤醒所述皮肤纹理传感器,否则使所述控制器关闭所述皮肤纹理传感器。
- 根据权利要求17所述的方法,还包括:当所述用户皮肤纹理图像识别成功后,使所述控制器控制关闭所述活体检测传感器的电路和关闭所述皮肤纹理传感器的电路。
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US11126816B2 (en) | 2021-09-21 |
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