TWI361993B - Touch-control display device and driving method thereof - Google Patents

Description

1361993 VI. Description of the Invention: '~~- Technical Field of the Invention [0001] The present invention relates to a touch display device and a touch method thereof. [Prior Art] _] The touch screen is widely used as a message input tool for electronic products in various display products such as mobile phones and computers. The touch screen is disposed on the display screen. The user can touch the touch screen with an auxiliary device such as a hand or a stylus to input a message to the display screen, thereby reducing or even eliminating the user's input to other input devices (such as a keyboard, a mouse, a remote controller, etc.). Dependence, easy to operate. The touch screen itf has various types such as resistive, capacitive, ultrasonic and infrared.闺Please refer to m and FIG. 2, which is a side view of a prior art touch display device 10, and FIG. 2 is a schematic diagram of the operation of the touch display device 10 shown in FIG. The touch display device 1A includes a touch screen u, a display screen 12, a sealant 14 and a microprocessor 13. The touch screen 11 is disposed opposite to the display screen 12 and is fixed by the sealant 14 . The display screen 12 includes a display surface (not shown) adjacent to the display surface. The microprocessor 13 is configured to receive a signal from the touch screen, and generate an operation signal corresponding to the display screen 12. The display screen 12 - display operation according to the operation signal. The touch screen includes a second substrate 112 disposed opposite to the first substrate iu, a first transparent conductive layer 113, a second transparent conductive layer 114, an adhesive layer 115, and A plurality of spacers 116. The first transparent conductive layer 113 is disposed on a surface of the first substrate (1) adjacent to the second substrate 112. The second transparent conductive layer U4 is disposed on the second substrate 096147877, Form No. A0101, Page 3 of 21, 1003445459-0 1361993 _ 100 years 11; month, 112 is close to the surface of the first substrate iii, and The first transparent conductive layers 113 are oppositely disposed. The adhesive layer 115 is sandwiched between the first substrate U1 and the second substrate 112 and is located at an edge region for bonding the first substrate 111 and the second substrate 112. The first substrate ill is an elastic transparent material. The second substrate 112 is a rigid transparent material. The plurality of spacers 116 are spaced apart between the first transparent conductive layer π 3 and the second transparent conductive layer 114 for spacing the first transparent conductive layer 3 and the second transparent conductive layer 114. . The plurality of spacers 116 cause the first transparent conductive layer 113 and the second transparent conductive layer π4 to be electrically insulated in an initial state. [0006] A voltage repeatedly generated by two cycles is alternately applied to the first transparent conductive layer. Layer 113 and the second transparent conductive layer 114. [00〇7] When the stylus (not shown) contacts and presses any point of the touch screen π surface, the first substrate 111 is forced to bend, so that the first transparent conductive layer 113 is at a touch point A and The second transparent conductive layer 114 is in contact with each other and forms an electrical connection. The second transparent conductive layer U4 detects the voltage of the first transparent conductive layer 113 at the contact point A in the horizontal axis direction. The horizontal axis direction voltage is transmitted to the microprocessor 13. The microprocessor 丨3 calculates the horizontal axis coordinate of the touch point eight. Similarly, the first transparent conductive layer 113 detects the voltage in the longitudinal direction of the second transparent conductive layer 114 at the contact point A. The longitudinal axis direction voltage is transmitted to the microprocessor 13. The microprocessor 13 calculates the vertical axis coordinates of the touch point A. In the above manner, the microprocessor 13 can determine the position of the touch point A and correspondingly generate an operation signal for transmission to the display screen. The display screen 12 performs a display operation at the touch point A according to the operation signal. 096147877 Form No. A0101 Page 4 of 21 1003445459-0 1361993, [0008] [0009] [0011] [0013] [0013] 096147877

In the case of the first transparent conductive layer 113 or the surface of the second transparent conductive layer 114, the coating unevenness may occur on the surface of the first transparent conductive layer 113 or the second transparent conductive layer 114. A convex point B is distributed in the vicinity of the touch point A. When the stylus touches the contact point A of the surface of the touch screen 11, the first substrate 111 is bent, and the first transparent conductive layer 113 is also in contact with the second transparent conductive layer 114 at the convex point B. Similarly, the voltage signal of the horizontal axis direction of the bump B and the voltage signal of the vertical axis direction are transmitted to the microprocessor 13. The microprocessor 13 receives the voltage signal and determines the precise position of the bump B, and correspondingly generates an operation signal for transmission to the display screen 12. The display screen 12 performs a display operation at the convex starting point B according to the operation signal. With the above analysis, the finger or the stylus touches the touch point A of the surface of the touch screen 11, and the touch display device 10 performs the display operation at the touch point A, and at the same time, another error display is generated corresponding to the raised point B. The operation makes the control of the input signal inaccurate, so that the reliability of the touch display device 10 is low. SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a touch display device with high reliability. In view of the above, it is also necessary to provide a touch method of the above touch display device. A touch display device includes a touch screen, a display screen disposed opposite the touch screen, a pressure sensing device disposed adjacent to the touch screen, and a microprocessor. The display screen includes a display surface, and the touch screen receives external pressure, and outputs a corresponding position identification form according to the external pressure. Form number A0101 Page 5 / Total 21 pages 1003445459-0 1361993 -100 years ll · another · 30 days Correcting the replacement page number, the pressure sensing device senses the external pressure applied to the touch screen, and outputs a pressure signal, and the microprocessor receives and filters the required pressure signal, and outputs the control signal according to the required pressure signal. To the display. [0014] A touch display device includes a touch screen, a display screen disposed opposite the touch screen, a pressure sensing device disposed adjacent to the touch screen, and a microprocessor. The display screen includes a display surface, the touch screen receives an external pressure, and outputs a corresponding position identification signal according to an external pressure, the microprocessor receives the voltage signal and determines a pressed position of the touch screen, the pressure sensing device The microprocessor is operative to determine the erroneous pressure position for the microprocessor to output a corresponding control signal to the display screen according to the correct pressure position. [0015] A touch display device touch method includes the following steps: providing a display screen and a touch screen adjacent to the display surface, the touch screen receiving external pressure, and outputting a corresponding position according to the external pressure Identifying a signal; providing a pressure sensing device that senses an external pressure applied to the touch screen and outputs a pressure signal; and provides a microprocessor that receives and filters the desired pressure signal and determines the desired pressure signal Output control signals to the display. [0016] A touch display device touch method includes the following steps: providing a display screen including a display surface; providing a touch screen adjacent to the display surface, the touch screen receiving external pressure, and according to The external pressure output corresponds to the position recognition signal; a microprocessor is provided to receive the voltage signal and determine the pressure position of the touch screen; and a pressure sensing device is provided, which cooperates with the microprocessor to determine the wrong pressure position For the microprocessor to output the corresponding control signal according to the correct pressure position to the display 096147877 Form No. A0101 Page 6 / Total 21 Page 1003445459-0 1361993, · 100 years.11J .30 day nuclear replacement Page screen. [0017] Compared to the prior art, the touch display device includes a pressure sensing device. When the stylus contacts and presses the touch screen, if the surface of the first transparent conductive layer or the second transparent conductive layer is not flat, the microprocessor does not process the pressure sensing device signal, and generates an operation signal correspondingly. Transfer to the display screen, causing the display to perform a display operation at the touch point. Instead, the microprocessor processes the pressure signal transmitted by the pressure sensing device. The microprocessor determines the magnitude of the pressure signal, determines the corresponding contact point of the maximum pressure as the touch point, and causes the display to perform the display operation at the touch point to prevent misoperation. FIG. 3 is a side view showing the first embodiment of the touch display device 30 of the present invention, and FIG. 4 is the touch display device 30 shown in FIG. Working principle diagram. The touch display device 30 includes a touch screen 31, a display screen 32, a sealant 34, a pressure sensing device 35, and a microprocessor 33. The touch screen 31 is disposed opposite to the display screen 32 and is fixed by the frame glue 34. The display screen 32 includes a display surface (not shown) adjacent to the display surface. The microprocessor 33 includes a first input terminal 331, a second input terminal 333, a first output terminal 332, and a second output terminal 334. The first input end 331 receives the signal from the touch screen 31, the second input end 333 receives the signal from the pressure sensing device 35, and the first output end 332 outputs a feedback signal to the pressure sensing device 35. The second output 334 outputs the display screen 32 of an operation signal. The display screen 32 controls the display output according to the operation signal. [0019] The touch screen 31 includes a first substrate 311, a 096147877 with the first substrate 311, a form number A0101, a page 7 / a total of 21 pages 1003445459-0 1361993 w-ii-month '3〇 a health replacement The second pair 312 is further provided with a second substrate 312, a first transparent conductive layer 313', a second transparent conductive layer 314, an adhesive layer 315 and a plurality of spacers 316. The first transparent conductive layer 313 is disposed on a surface of the first substrate 311 adjacent to the second substrate 31 2 . The second transparent conductive layer 314 is disposed on a surface of the second substrate 312 adjacent to the first substrate 311. The adhesive layer 315 is sandwiched between the first substrate 31 and the second substrate 312, and is located at an edge region of the first substrate 311 and the second substrate 312 for bonding the first substrate 311 and the The second substrate 312. The first substrate 311 is an elastic transparent material. The second substrate 312 is a rigid transparent material. [0020] s singularly complex spacers 316 are spaced between the first transparent conductive layer 3丨3 and the second transparent conductive layer 314 for spacing the first transparent conductive layer 313 and the second transparent conductive layer 314. The plurality of spacers 316 electrically insulate the first transparent conductive layer 313 from the second transparent conductive layer 314 in an initial state. [0021] The pressure sensing device 35 is a thin layer disposed on a surface of the first substrate 311 away from the side of the second transparent conductive layer 314. When the stylus contacts and presses the touch screen 31, the pressure sensing device 35 and the first substrate 311 are bent, such that the first transparent conductive layer 313 is at a touch point A, and the second transparent conductive layer 314 is in contact. The pressure sensing device 35 is configured to detect a pressure signal corresponding to a point of contact between the first transparent conductive layer 313 and the second transparent conductive layer 314. [0022] The touch control method of the touch display device 3 is as follows: When the stylus contacts and presses any point on the touch screen 31, the pressure sensing device 35 and the first substrate 3 n are flexed, so that First Transparent Conductive Layer 096147877 Form No. A0101 Page 8 / Total 21 Page 1003445459-0 [0023] 1361993 I ·» [0024] [0025] [0026] After 1100. November. 30 days, the page 313 is replaced. Point eight, in contact with the second transparent conductive layer 3i4, and forming an electrical connection. The second transparent conductive layer 314 detects the voltage of the first transparent conductive layer 313 in the horizontal axis direction of the touch point A', and transmits the horizontal axis direction voltage to the first input terminal 331 of the microprocessor 33, the micro processing The device 33 calculates the touch point eight according to the horizontal axis direction, and the horizontal axis direction coordinates » the same reason. The first transparent conductive layer 313 detects the second transparent conductive layer 314 in the vertical axis direction of the point A. The vertical axis direction is transmitted to the first wheel-in terminal 33 of the micro-processing pirate 33. The microprocessor calculates the axis coordinate of the target A by using the vertical axis direction, by the above In this manner, the microprocessor 33 detects and reads the coordinate signal of the touch point A. At the same time, the '4 force sensing device 35 senses a shape variable corresponding to the point of contact between the first transparent conductive layer 33 and the second transparent conductive layer 314. If the surface of the first transparent conductive layer 113 or the second transparent conductive layer U4 is flat, the s(4) force sensing device 35 generates a pressure signal and transmits the microprocessor 33. The micro-processing||33 does not process the pressure signal and accordingly generates an operation signal according to the touch point A' coordinate signal, and transmits to the display screen 32 through the second output terminal 334. The display anode performs a display operation at the touch point A' according to the operation signal. If the surface of the first transparent conductive layer 113 or the second transparent conductive layer 114 is not flat on the process, that is, the area near the touch point A' is distributed - the convex point b, when the stylus contacts and presses the touch screen 31 When the upper touch is pressed, the first substrate 311 is bent by force, so that the convex point B' of the surface of the first transparent conductive layer 313 is in contact with the second transparent conductive layer 314 to form an electrical connection. With the 096147877 Form No. A0101 Page 9 / 21 pages 1003445459-0 [0027] 1361993 100 years. 11-month '30 days nuclear positive residual yellow microprocessor 33 detects and reads the coordinates of the touch point A' At the same time as the signal, the microprocessor 33 also detects and reads the coordinate signal of the raised point B'. [0028] At the same time, the stylus contacts and presses the touch point A' on the touch screen 31, the pressure sensing device 35 is deformed, and the shape variable corresponding to the touch point A' is the largest, and the touch point A' The shape variable in the vicinity is getting smaller. The pressure sensing device 35 simultaneously senses a shape variable corresponding to a point of contact between the first transparent conductive layer 313 and the second transparent conductive layer 314, and generates a pressure signal to be transmitted to the microprocessor 33. The microprocessor 33 reads the coordinate signals of the touch point A' and the bump point B', and generates a feedback signal correspondingly, and the first output end 332 is transmitted to the pressure sensing device 35. The pressure sensing device 35 reads the feedback signal, generates a pressure signal correspondingly, and transmits the pressure signal to the second input terminal 333 of the microprocessor 33. [0030] The microprocessor 33 receives the pressure signal of the touch point A' and the raised point B', determines the size of the two pressure signals, and selects the contact point with the highest pressure, that is, the touch point A'. Accordingly, the microprocessor 33 generates an operational signal, and transmits it to the display 32 via the second output 334. The display screen 32 performs a display operation at the touch point A' according to the operation signal. [0031] In summary, the stylus contacts and presses the touch point A' on the touch screen 31, and the touch screen 31 receives external pressure, and outputs a corresponding voltage signal according to the external pressure; the pressure sensing device 35 The external pressure applied to the touch screen 31 is sensed and a pressure signal is output. [0032] The microprocessor 33 determines the number of coordinate signals based on the input voltage signal. If only one signal mark is generated, it is only the coordinate point of the touch point A' 096147877 Form No. A0101 Page 10 / Total 21 page 1003445459-0 1361993 1100. November 30th, press the positive i, the micro processing The device 33 does not process the pressure signal and generates a corresponding operation signal to the display screen 32 to control the display operation. If the two coordinate signals are generated, the microprocessor 33 generates a corresponding - anti-track number to the reliance sensing device 35, so that the secret The force sensing device 35 transmits a pressure signal to the microprocessor 33. The microprocessor 33 determines the magnitude of the pressure signal and determines that the contact with the highest pressure is the contact point A'. The microprocessor 33 accordingly generates an operational signal and transmits it to the display 32 to control the display operation. [0033] Compared to the prior art, the touch display device 3A includes a pressure sensing device 35. The pressure sensing device 35 cooperates with the microprocessor 33 to determine the erroneous pressure position for the microprocessor 33 to output a corresponding control signal to the display screen 32 based on the correct pressure position. Please refer to FIG. 5, which is a schematic view of a second embodiment of the touch display device of the present invention. The touch display device 50 is substantially the same as the touch display device 30 of the first embodiment, and the main difference is that the pressure sensing device 55 is disposed between the first substrate 511 and the first transparent conductive layer 513. When the stylus (not shown) touches the touch screen 51, the touch screen 51 receives external pressure and outputs a corresponding voltage signal according to the external pressure; the pressure sensing device 55 senses the touch screen 51. External pressure and output pressure signal. If the surface of the first transparent conductive layer 513 or the second transparent conductive layer 514 is not flat, the microprocessor (not shown) does not process the pressure signal of the pressure sensing device 55, and the microprocessor generates an operation signal correspondingly. The display is transmitted to the display screen (not shown), so that the display screen performs a display operation at the touch point. Instead, the microprocessor processes the pressure signal transmitted by the pressure sensing device 55. The microprocessor determines the magnitude of the pressure signal, determines that the contact point with the highest pressure is the contact pressure point, and causes the display screen to be at the touch point 096147877. Form number A0101 Page 11 of 21 page 1003445459-0 1361993 100 years.11- The month '30 day shuttle is replacing the page for display operation to prevent misoperation. [0035] However, the touch display device is not limited to the above embodiment, and for example, the pressure sensing device may be a pressure sensor, a mechanical sensor, a strain gauge or a tension sensor, or the like. [0036] In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above description is only the preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and equivalent modifications or variations made by those skilled in the art in light of the spirit of the present invention are It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS [0037] FIG. 1 is a side view showing a structure of a prior art touch display device. 2 is a schematic diagram showing the operation of the touch screen display device shown in FIG. 1. 3 is a schematic side view showing the first embodiment of the touch display device of the present invention. 4 is a schematic diagram showing the operation of the touch display device shown in FIG. 3. 5 is a schematic side view showing a second embodiment of the touch display device of the present invention. [Main component symbol description] [0042] Touch display device: 30, 50 [0043] First transparent conductive layer: 313, 513 [0044] Touch screen: 31, 51 [0045] Second transparent conductive layer: 314, 514 096147877 Form No. A0101 Page 12 of 21 1003445459-0 1361993 . * 100 years. November. 30 days correction page [0046] Display: 32 [0047] Bonding layer: 315 [0048] Microprocessor :33 ' [0049] Spacer: 31 6 [0050] Frame glue: 34 [0051] First input: 331 [0052] Pressure sensing device: 35, 55 [0053] Second input: 333 [0054] A substrate: 311, 511 [0055] First output: 332 [0056] Second substrate: 312, 512 [0057] Second output: 334 096147877 Form number A0101 Page 13 / Total 21 page 1003445459-0

Claims (1)

1361993 100 years. November 30th, the shuttle is being replaced? Huang Qi, the scope of application for patents: 1. A touch display device comprising: - a display screen comprising a display surface; a touch adjacent to the display surface a screen, the touch screen receives external pressure, and outputs a corresponding position recognition signal according to the external pressure; a pressure sensing device that senses an external pressure applied to the touch screen and outputs a pressure signal; and a microprocessor, which is connected to the The position identifies the signal and generates a corresponding coordinate signal and receives and filters the required pressure signal. When there is only one set of coordinate signals, the processor outputs an operation signal to the display according to the set of coordinate signals; when there are at least two sets of coordinate signals The processor selects a set of coordinate signals and outputs corresponding operation signals to the display. 2. The touch display device of claim 1, wherein the position identification signal is a voltage signal. The touch display device of claim 1, wherein the microprocessor receives the position identification signal and generates a set of coordinate signals correspondingly, the micro processing is not processed from the pressure sensing device. The pressure signal is generated and an operation signal is transmitted to the display to control the display output. 4. The touch display device of claim 2, wherein the microprocessor receives the position identification signal and generates at least two sets of coordinate signals correspondingly, the microprocessor generates an anti-dock signal to The pressure sensing device. 5. The touch display device of claim 4, wherein the pressure sensing device receives the feedback signal and outputs a pressure signal accordingly. 6. The touch display device of claim 1, wherein the touch screen comprises an adhesive layer, a first substrate and a second substrate 096147877. Form No. A0101 Page 14 / Total Page 21 1003445459-0 1361993 > .» ___月.30日正正_Page I, the adhesive layer is sandwiched between the first substrate and the second substrate. The touch display device of claim 6, wherein the touch screen comprises a first transparent conductive layer and a second transparent conductive layer, wherein the first transparent conductive layer is disposed on the first substrate The second transparent conductive layer is disposed on a surface of the second substrate adjacent to the first substrate. The touch display device of claim 7, wherein the pressure sensing device is disposed on a surface of the first substrate that is away from the second transparent conductive layer. 9. The touch display device of claim 7, wherein the pressure sensing device is disposed between the first substrate and the first transparent conductive layer. The touch display device of claim 1, wherein the pressure sensing device is a mechanical sensor, a pressure sensor, a strain gauge or a tension sensor. The touch display device of claim 1, further comprising a sealant for fixing the touch device and the display screen. 12. A touch display device, comprising: a display screen comprising a display surface; a touch screen adjacent to the display surface, the touch screen receiving external pressure, and corresponding position recognition according to external pressure output And a pressure sensing device that senses an external pressure applied to the touch screen and outputs a pressure signal, and cooperates with the microprocessor to determine an erroneous pressure position for the microprocessor to press the correct pressure position And outputting the corresponding control signal to the display screen; a microprocessor 'receiving the position identification signal and generating the corresponding coordinate signal 096147877 Form No. A0101 Page 15 of 21 丨003445459-0 丄361993 11:0 0: 11-Month-3Q Day Shuttle is replacing #^ I and receiving and screening the required pressure signal. When #only-group coordinate signal, the processor rotates the operation signal to the display according to the set of coordinate signals; When there are at least two sets of coordinate signals, the processor selects a set of coordinate signals and rotates corresponding operation signals to the display. The touch display device of claim 12, wherein the bit-setting signal is a voltage signal. The touch display device of claim 12, wherein the microprocessor receives the position identification signal and generates a set of coordinate signals correspondingly, the micro processing does not process the pressure from the pressure sensing device. Signal, and will generate an operation signal to the display to control the display output. The touch display device of claim 12, wherein the microprocessor receives the position identification signal and generates at least two sets of coordinate signals, the microprocessor generates a feedback signal to the Pressure sensing device. The touch display device of claim 15, wherein the pressure sensing device receives the feedback signal and outputs a pressure signal correspondingly. The touch display device of claim 16, wherein the microprocessor receives the pressure signal and reads the contact point with the highest pressure, and defines the contact point as a contact point. The touch display device of claim 12, wherein the touch screen comprises an adhesive layer, a first substrate and a second substrate disposed opposite to each other, and the adhesive layer is sandwiched between the first substrate Between the second substrate. The touch display device of claim 18, wherein the touch screen comprises a first transparent conductive layer and a second transparent conductive layer, wherein the first transparent conductive layer is disposed on the first substrate The second transparent conductive layer is disposed on a surface of the second substrate adjacent to the first substrate. 096147877 Form No. A0101, page 16 of 21, 1003445459-0, 136, 1993, -30, s, s, s, s, s, s, s, s, s, s, s a surface of a substrate remote from the side of the second transparent conductive layer. The touch display device of claim 19, wherein the pressure sensing device is disposed between the first substrate and the first transparent conductive layer. 22. The touch display device of claim 12, wherein the pressure sensing device is a mechanical sensor, a pressure sensor, a strain gauge or a tension sensor. The touch display device of claim 12, further comprising a sealant for fixing the touch device and the display screen. 24. A touch display device touch method, comprising the steps of: providing a display screen comprising a display surface; providing a touch screen adjacent to the display surface, the touch screen receiving external pressure, and according to The external pressure output corresponds to the position identification signal; k is used by a pressure sensing device to sense the external pressure applied to the touch screen and output a pressure signal; and a microprocessor is provided to receive the position identification signal and generate corresponding coordinates Signal and receiving and filtering the required pressure signal. When there is only one set of coordinate signals, the processor outputs an operation signal to the display according to the set of coordinate signals; when there are at least two sets of coordinate signals, the processor selects a group The coordinate signal and output the corresponding operation signal to the display. The touch display device touch method according to claim 24, wherein the position recognition signal is a voltage signal. The touch control device touch method according to claim 24, wherein the microprocessor receives the position identification signal and generates a set of coordinate signals, and the micro processing does not process the pressure sensing. Signal of the device, 096147877 * s Form No. A0101 Page 17 of 21 1003445459-0 1361993 On November 30-30, 100, the shuttle is replacing and will send an operation signal to the display to control the display output. The touch display device touch method according to claim 24, wherein the microprocessor receives the position identification signal and generates at least two sets of coordinate signals correspondingly, and the microprocessor generates a feedback. Signal to the pressure sensing device. The touch display device touch method according to claim 27, wherein the pressure sensing device generates a pressure signal correspondingly and transmits the pressure signal to the microprocessor, and the microprocessor receives the pressure signal and reads The contact point with the highest pressure, which is defined as the point of contact. The touch display device touch method according to claim 28, wherein the microprocessor generates an operation signal according to the pressure signal of the touch point and transmits the operation signal to the display screen to control the display. Display operation of the screen. 30. A touch display device touch method, comprising the steps of: providing a display screen comprising a display surface; providing a touch screen adjacent to the display surface, the touch screen receiving external pressure, and according to The external pressure output corresponds to the position recognition signal; and a pressure sensing device is provided, which senses the external pressure applied to the touch screen, and outputs a pressure signal, and cooperates with the microprocessor to determine the wrong pressure position for the micro The processor outputs a corresponding control signal to the display screen according to the correct pressure position; providing a microprocessor that receives the position identification signal and generates a corresponding coordinate signal and receives and filters the required pressure signal, when there is only one When the coordinate signal is set, the processor outputs the signal to the display according to the set of coordinate signals; when there are at least two sets of coordinate signals, the processor selects a set of coordinate signals and outputs corresponding operation signals to the display. 096147877 Form No. A0101 Page 18 of 21 1003445459-0 1361993 « The replacement of the touch display device according to claim 30, wherein The position identification signal is a voltage signal. The touch display device touch method according to claim 30, wherein the microprocessor receives the position identification signal and generates a set of coordinate signals correspondingly, the micro processing does not process the pressure sensing The signal of the device, and an operation signal is transmitted to the display to control the display output. The touch display device touch method according to claim 30, wherein the microprocessor receives the position identification signal and generates at least two sets of coordinate signals correspondingly, the microprocessor generates a feedback Signal to the pressure sensing device. The touch display device touch method according to claim 33, wherein the pressure sensing device generates a pressure signal correspondingly and transmits the pressure signal to the microprocessor, the microprocessor receives the pressure signal, and reads the pressure The largest contact point, which is defined as the point of contact. The touch display device touch method according to claim 34, wherein the microprocessor generates an operation signal according to the pressure signal of the touch point and transmits the operation signal to the display screen to control the display. Display operation of the screen. 096147877 Form No. A0101 Page 19 of 21 1003445459-0