KR100956870B1 - Method and module for realizing virtual touchscreen panel using a digital potentiometer - Google Patents

Abstract

PURPOSE: An implementation method of a virtual touch screen panel using a digital potentiometer and an implementation module thereof are provided to drive a system using a touch screen panel of a 4-line resistance film method without a 4-line resistance touch screen panel by receiving resistance corresponding to a coordinate value from a digital potentiometer. CONSTITUTION: A resistance network is composed(S10). A coordinate value is received through a predetermined communication unit from other systems(S20). According to the coordinate value, a micro controller adjusts wiper location of a digital potentiometer(S30). The micro controller makes an analog switch turned on for a predetermined time and then the resistance network is disconnected. The digital potentiometer outputs 4 analog signals according to resistance ratio to a touch screen controller(S40).

Description

Implementation method and implementation module of virtual touch screen panel using digital potentiometer {METHOD AND MODULE FOR REALIZING VIRTUAL TOUCHSCREEN PANEL USING A DIGITAL POTENTIOMETER}

The present invention relates to a method and module for implementing a virtual touch screen panel that implements the same operation as an actual touch screen panel without a touch screen panel in a system using a 4-wire resistive touch screen panel. The present invention relates to a method and module for implementing a virtual touch screen panel by configuring a digital potentiometer and an analog switch using coordinate values provided by another system.

In the case of a system using a resistive touch screen panel with a touch screen controller, a touch screen panel adopting a 4-wire resistive film is generally used.

1, the four-wire resistive film method, which is the most common of the resistive film types, is conceptually illustrated in the drawings for explaining a driving principle of a 4-wire resistive touch screen panel and a system using the same. Conductive patterns are formed in the horizontal and vertical lines on the lower and lower plates, respectively, and an electric signal for position detection is applied thereto, and when a touch is made, the resistance of the lower plate in contact with the ITO of the upper plate is detected to detect the resistance in the horizontal direction. Then, the resistance of the upper plate in contact with the ITO of the lower plate is detected to detect the resistance in the vertical direction. The resistance in the horizontal direction and the resistance in the vertical direction thus detected are converted into coordinate values, which are position information touched by the touch screen controller 210.

That is, the touch screen controller 210 detects the horizontal and vertical resistances of the touched position in the 4-wire resistive touch screen panel 10, converts them into coordinate values, and outputs the coordinates to the system (host).

Therefore, the touch screen panel 10 and the touch screen controller 210 have an analog interface, the touch screen controller 210 and the system 20 have a digital interface, and such an interface is different for each system.

As a feature of the four-wire resistive film system as described above, there is a problem in that the system and the touch screen panel can only be configured in a 1: 1 correspondence due to the overall configuration of the system, and thus different systems using the touch screen panel as an input means. Since the touch screen panels cannot be shared with each other, multiple systems cannot be driven using a single touch screen panel.

Therefore, if you want to operate different systems as one system, in order to use one touch screen panel, there is an unavoidable problem of modifying the system.

For example, in a vehicle equipped with an AV system driven by a touch screen panel, when the navigation system using the touch screen panel is additionally mounted, the AV system equipped with the touch screen panel is installed. Since it was not available, it was forced to equip the entire navigation system with a touch screen panel.

In addition, the touch screen panel 10 and the touch screen controller 210 has a problem in that the installation distance is limited by the analog interface by wire.

An object of the present invention is to provide a method and a module which can be driven without a touch screen panel in driving a system using a 4-wire resistive touch screen panel.

In addition, an object of the present invention is to provide a method and module that can operate multiple touch screen systems with one touch screen panel, and can easily configure different systems using the touch screen panel as an input means as one system. In the case where the touch screen panel and the system are spaced apart from each other, an object of the present invention is to provide a method and a module that can significantly increase the separation distance.

In order to achieve the above object, a method of implementing a virtual touch screen panel using the digital potentiometer of the present invention includes a touch screen controller and operates a system driven by a 4-wire resistive touch screen panel without a touch screen panel. In the method for implementing a virtual touch screen panel that provides the same operation as the operation of the touch screen panel,

(a) constructing a resistance network using a digital potentiometer and an analog switch; (b) receiving coordinate values from another system provided with a touch screen panel through a predetermined communication means in a state where the resistance network is configured; (c) using the received coordinates to adjust the wiper position of the digital potentiometer to match the resistance ratio; And (d) if the microcontroller turns on the analog switch for a predetermined time after the resistance ratio is matched, the digital potentiometer outputs an analog signal according to the adjusted resistance ratio to the touch screen controller. It is characterized by implementing a virtual touch screen panel.

In this case, the resistance network configuration of step (a) is characterized by using two one-channel digital potentiometer and one analog switch, by connecting the wiper and the analog switch of each one-channel digital potentiometer.

In addition, the resistance network configuration of step (a) is characterized by using a two-channel digital potentiometer having two wipers and one analog switch, by connecting the two wipers and the analog switch.

The method may further include receiving a press time value from another system provided with a touch screen panel through a predetermined communication means, and turning on the analog switch for a predetermined time by the microcontroller according to the received press time value. .

In addition, the implementation module of the virtual touch screen panel using the digital potentiometer of the present invention for achieving the above object includes a touch screen controller to drive a system driven by a 4-wire resistive type touch screen panel without a touch screen panel In the module for implementing a virtual touch screen panel to provide the same operation as the operation of the touch screen panel,

A coordinate value receiver linked with communication means for receiving coordinate values from another system provided with a touch screen panel; A microcontroller connected to the coordinate value receiving unit to receive a coordinate value and output a control signal for adjusting the wiper position of the digital potentiometer and a control signal for turning on / off the following analog switch so that the coordinate value and the resistance ratio coincide. ; A digital potentiometer for controlling the position of the wiper with a resistance ratio corresponding to a coordinate value under the control of the microcontroller, and outputting an analog signal according to the adjusted resistance ratio when the following analog switch is turned on; And an analog switch connected to the wiper of the digital potentiometer to form a resistance network and controlled on / off by the microcontroller.

At this time, the digital potentiometer is implemented by two one-channel digital potentiometer;

In addition, the digital potentiometer is implemented by one two-channel digital potentiometer;

The analog switch may be any one of a FET switch, a transistor switch, and an IC switch.

Through the characteristic problem solving means of the present invention as described above, it is possible to drive the system using the 4-wire resistive touch screen panel by implementing the same operation as the actual touch screen panel without the 4-wire resistive touch screen panel. It has an effect.

In addition, this effect has the effect of operating multiple systems with one touch screen panel.

In addition, there is an effect that can be configured as a system without a separate modification to different systems using the touch screen.

In addition, when the touch screen panel and the system are spaced apart from each other, the present invention has the effect of significantly increasing the separation distance by using the data communication means as a digital interface.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It is to be understood that the various embodiments of the invention are different, but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention with respect to one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

2 is a flowchart illustrating a method of implementing a virtual touch screen panel using the digital potentiometer of the present invention, FIG. 3 is a conceptual diagram illustrating an implementation module of a virtual touch screen panel using the digital potentiometer of the present invention, and FIG. 5 is a block diagram illustrating an implementation module of a virtual touch screen panel using a potentiometer. FIG. 5 is a view illustrating a method of configuring a resistance network of an implementation module of a virtual touch screen panel using a digital potentiometer.

As shown in FIG. 2, a method of implementing a virtual touch screen panel using the digital potentiometer of the present invention includes a touch screen controller and operates a system driven by a 4-wire resistive touch screen panel without a touch screen panel. A method of implementing a virtual touch screen panel that provides the same operation as that of a touch screen panel, comprising: constructing a resistance network (S10), receiving a coordinate value (S20), and matching a resistance ratio And a step S40 of outputting an analog signal.

The step (S10) of constructing the resistance network is to implement a resistive film method such as a 4-wire resistive touch screen panel, and comprises a digital potentiometer and an analog switch. The digital potentiometer outputs four analog signals H0, H1, L0, and L1, such as a four-wire resistive touch screen panel (X +, Y +, X-, Y-), and the analog switch is a touch screen panel. Implement the same operation as touched by this user.

Such a resistance network may be composed of two one-channel digital potentiometers and one analog switch as shown in FIG. 4 or one two-channel digital potentiometer and analog switches.

In the case of using the two one-channel digital potentiometer, the wiper of each one-channel digital potentiometer and the analog switch are connected to form a resistance network, and in the case of using the one two-channel digital potentiometer, the two-channel digital potentiometer Has two wipers, so connect two wipers to the analog switch to form a resistor network.

The digital potentiometer constituting the resistive network is a general digital potentiometer that performs a function like a variable resistor, and is not limited to any specific digital potentiometer. An analog switch is a switching function that shorts or disconnects the wipers by an external signal. Various switches, such as FET switches, can be used, and are not limited to any specific switch.

Receiving the coordinate value (S20) is for receiving information of the position touched by the user in the touch screen panel of the other system provided with the touch screen panel, through a predetermined communication means in the resistance network is configured Coordinate values are received from another system equipped with a touch screen panel.

At this time, the predetermined communication means for receiving coordinate values from other systems may use various wired / wireless communication means such as serial communication, Ethernet communication, infrared communication, etc., which are digital interfaces, and are not limited to any specific communication means. Do not.

In step S30 of matching the resistance ratio, the 4-wire resistive film method calculates a coordinate value using the detected resistance value by detecting a resistance value in the touch screen controller.

Therefore, in the step of matching the resistance ratio, the microcontroller adjusts the wiper position of the digital potentiometer to the coordinate value by using the received coordinate value so that the resistance value corresponding to the coordinate value received by the touch screen controller is input. Match the resistance ratio to equal the corresponding resistance value.

The step of outputting the analog signal (S40) is to provide a resistance value to the system for the purpose of control, and to provide the resistance value in order to perform a corresponding operation by calculating a coordinate value with the provided resistance value, the resistance When the ratio is matched and the microcontroller turns on the analog switch for a predetermined time, the resistance network is short-circuited and the digital potentiometer is adjusted as if the resistance value is detected due to the touch in the 4-wire resistive method. Four analog signals H0, H1, L0, and L1 according to the resistance ratio are output to the touch screen controllers X +, Y +, X-, and Y-.

The time for shorting the resistance network by using the analog switch is preferably 0.5㎳ or more, but if necessary, receives a press time value corresponding to the touched time from another system equipped with a touch screen panel through the communication means, and receives The microcontroller can drive the analog switch according to the set press time value.

In addition, when a plurality of coordinate values need to be processed, the plurality of coordinate values may be distinguished by a press time value.

As described above, the virtual touch screen panel may be implemented using a touch screen panel of another system provided with the touch screen panel to drive the corresponding system for driving.

That is, the system is driven without a real touch screen panel by receiving a resistance value from a digital potentiometer as if a resistance value corresponding to a coordinate value is input from a 4-wire resistive touch screen panel in the same manner as described above. This results in driving the corresponding system in the other system, whereby the other system and the corresponding system are configured as one system.

Hereinafter, an implementation module of a virtual touch screen panel using the digital potentiometer of the present invention for implementing the method according to the present invention will be described.

As shown in FIG. 3, the implementation module 30 of the virtual touch screen panel according to the present invention includes a system 20 driven by a 4-wire resistive touch screen panel 10 including a touch screen controller. In order to operate the touch screen panel 10 without providing the same operation as that of the touch screen panel 10.

The implementation module 30 of the virtual touch screen panel as illustrated in FIG. 4 includes a coordinate value receiver 310, a microcontroller 320, a digital potentiometer 330, and an analog switch 340.

The coordinate value receiver 310 is a means linked with the communication means 40 for receiving coordinate values from another system 50 provided with the touch screen panel 510.

The coordinate value is provided to the implementation module 30 of the virtual touch screen panel as the coordinate value determined as the detected resistance value when the touch screen panel 510 of the other system 50 is touched.

The communication means 40 is used to transmit such coordinate values to the implementation module 30 of the virtual touch screen panel. The communication means 40 may be a serial communication means such as RS232 / RS422 / RS485, Inter Equipment. It may be various communication means for transmitting data such as a bus, a controller area network, an infrared remote control, and an Ethernet, and the coordinate value receiving unit 310 is linked with such communication means 40.

Accordingly, the present invention overcomes the distance limitations of the conventional system through the communication means 40 as described above.

The microcontroller 320 is connected to the coordinate value receiver 310 to receive the coordinate value received through the coordinate value receiver 310, the wiper of the digital potentiometer 330 so that the coordinate value and the resistance ratio is matched A control signal for adjusting the position and a control signal for turning on / off the analog switch 340 are output.

The microcontroller 320 applied to the present invention is not limited to any specific microcontroller, and may use various means for outputting a control signal for controlling the digital potentiometer 330 and the analog switch 340. Can be.

The digital potentiometer is an analog signal connected to the input terminals (X +, Y +, X-, Y-) of the touch screen controller 210 of the system 20 for control as shown in FIG. The output terminal (H0, H1, L0, L1), under the control of the microcontroller 320 to adjust the position of the wiper so that the resistance value and the resistance ratio corresponding to the coordinate value, and the analog switch 340 and the wiper The output terminals W0 and W1 are connected to form a resistance network.

The resistance network is composed of two one-channel digital potentiometers and analog switches 340 as shown in FIG. 5 (a), or one two-channel digital potentiometer and analog switches 340 as shown in FIG. 5 (b). It can be configured as.

When configuring a resistance network with two 1-channel digital potentiometers and analog switches, connect the wiper output terminal (W) of each digital potentiometer with an analog switch, one in the horizontal direction, and the other in the vertical direction. do.

Therefore, the outputs H and L of the 1-channel digital potentiometer-1 in the horizontal direction are connected to the inputs X + and X- of the touch screen controller 210, respectively, and the output H of the 1-channel digital potentiometer-2 in the vertical direction. And L are connected to the inputs Y + and Y- of the touch screen controller 210, respectively.

When configuring a resistance network with one 1-channel digital potentiometer and an analog switch, the wiper output terminals W0 and W1 of the digital potentiometer of each channel are connected to the analog switch 340, and one channel CH0 has a horizontal direction. The other channel CH1 is responsible for the vertical direction.

Accordingly, the outputs H0 and L0 of the channel 0 in the horizontal direction are connected to the inputs X + and X- of the touch screen controller 210, respectively, and the outputs H1 and L1 of the channel 1 in the vertical direction are connected to the touch screen controller ( Connected to inputs Y + and Y- of 210, respectively.

The analog switch 340 is configured to form a resistance network together with the digital potentiometer 330 to be turned on / off under the control of the microcontroller 320, and the actual 4-wire resistive touch screen panel is pressed. Implement the same behavior as paragraphs.

That is, short the two one-channel digital potentiometers or, in the case of two-channel digital potentiometers, short the channels.

Therefore, when the digital potentiometer 330 is short-circuited by the analog switch 340, four analog signals are output according to the adjusted resistance ratio, and the touch screen controller 210 receives the analog signals.

The analog switch 340 may be implemented by various analog switches such as FET switch, transistor switch or IC switch, and is not limited to any specific analog switch.

As described above, the implementation module 30 of the virtual touch screen panel according to the present invention may easily configure different systems using the touch screen panel as one system.

For example, in a vehicle equipped with an AV system driven by a touch screen, when a navigation system driven by a touch screen is added, a virtual touch screen panel according to the present invention is conventionally configured independently of each other in a vehicle. The navigation system can be driven by the touch screen of the AV system by using the implementation module 30 of, so that the two systems can be configured as one system.

In the above, the present invention has been described based on the preferred embodiments, but the technical idea of the present invention is not limited thereto, and modifications or changes can be made within the scope of the claims. It will be apparent to those skilled in the art, and such modifications and variations will belong to the appended claims.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be interpreted.

1 is a view for conceptually explaining a 4-wire resistive touch screen panel and a system using the same;

2 is a flowchart illustrating a method of implementing a virtual touch screen panel using the digital potentiometer of the present invention;

3 is a conceptual diagram illustrating an implementation module of a virtual touch screen panel using the digital potentiometer of the present invention;

4 is a block diagram illustrating an implementation module of a virtual touch screen panel using the digital potentiometer of the present invention;

FIG. 5 is a diagram illustrating a method of configuring a resistance network of an implementation module of a virtual touch screen panel using the digital potentiometer of the present invention.

Description of the Related Art

10: 4-wire resistive touch screen panel

20: system using a touch screen panel

30: virtual touch screen implementation module

40: communication means

50: other system using touch screen panel

210: touch screen controller

310: coordinate value receiving unit

320; Microcontroller

330: Digital Potentiometer

340: analog switch

Claims (8)

A method of implementing a virtual touch screen panel including a touch screen controller and providing the same operation as that of the touch screen panel to drive a system driven by a 4-wire resistive touch screen panel without the touch screen panel. , (a) connect the wiper and the analog switch of each one-channel digital potentiometer and one analog switch using two one-channel digital potentiometer and one analog switch, or a two-channel digital potentiometer and two analog switches having two wipers Connecting the two wipers and the analog switch to form a resistance network comprising a digital potentiometer and an analog switch; (b) receiving, by the microcontroller, coordinate values from another system provided with a touch screen panel through a coordinate value receiving unit linked with a predetermined communication unit in a state where the resistance network is configured; (c) using the received coordinate values, the microcontroller outputs a control signal for adjusting the wiper position of the digital potentiometer to match the resistance ratio; And (d) After the resistance ratio is matched, when the microcontroller outputs an analog switch control signal to turn on the analog switch for a predetermined time, the digital potentiometer outputs an analog signal according to the adjusted resistance ratio of the touch screen controller. And outputting to the virtual touch screen panel using a digital potentiometer, characterized in that it comprises a. delete delete The method of claim 1, Receiving a press time value from another system equipped with a touch screen panel through a predetermined communication means, and turning on the analog switch for a predetermined time by the microcontroller according to the received press time value; A method of implementing a virtual touch screen panel using a potentiometer. In the module for implementing a virtual touch screen panel that provides the same operation as the operation of the touch screen panel to drive a system driven by a 4-wire resistive touch screen panel including a touch screen panel without a touch screen panel , A coordinate value receiver linked with communication means for receiving coordinate values from another system provided with a touch screen panel; A microcontroller connected to the coordinate value receiving unit to receive a coordinate value and output a control signal for adjusting the wiper position of the digital potentiometer and a control signal for turning on / off the following analog switch so that the coordinate value and the resistance ratio coincide. ; A digital potentiometer for controlling the position of the wiper with a resistance ratio corresponding to a coordinate value under the control of the microcontroller, and outputting four analog signals according to the adjusted resistance ratio when the following analog switch is turned on; And And an analog switch connected to the wiper of the digital potentiometer to form a resistance network and controlled on / off by the microcontroller. The method of claim 5, wherein the digital potentiometer Implementation module of a virtual touch screen panel using a digital potentiometer, characterized in that implemented by two one-channel digital potentiometer. The method of claim 5, wherein the digital potentiometer Implementation module of a virtual touch screen panel using a digital potentiometer, characterized in that implemented by one two-channel digital potentiometer. The method of claim 5, wherein the analog switch Any one of a FET switch, a transistor switch or an IC switch; implementation module of the virtual touch screen panel using a digital potentiometer, characterized in that.

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