KR20000039893A - Touch panel circuit - Google Patents

Abstract

PURPOSE: A touch panel circuit is provided to raise a decomposing capacity by operating separately per a panel after dividing a touching point of a touch panel into plural sections, and to input a touch from plural points. CONSTITUTION: A touch panel circuit comprises a touch panel(10), a panel driver(20), a touch sensor(30), an output selector(40), and a touching point detector(50). The touch penal(10) separately inputs a touching by dividing a panel surface into the plural. The panel driver(20) drives to output a voltage, according to a resistor, by supplying a power with each panel surface divided of the touch panel(10). The touch sensor(30) selectively senses an output from each panel surface of the touch panel(10). The output selector(40) selectively controls the output from each panel surface of the touch panel(10). The touching point detector(50) estimates a point of panel surface touched by a voltage value outputted, if the touch panel is pressed, and a touching point of the whole touch panel.

Description

Touch panel circuit

The present invention relates to a touch panel, and in particular, by dividing the touch point of the touch panel into a plurality of sections so as to operate independently for each section, the resolution of the touch point can be increased and the touch can receive a touch input from a plurality of points. It relates to a panel circuit.

1 is a schematic configuration diagram of a conventional resistive touch panel circuit, and a resistive touch panel 1 having a different resistance value according to a pressure applied position as shown therein; A panel driver 2 for supplying power to the touch panel 1 to drive a voltage according to a resistance value; A touch sensing unit 3 for sensing the touch panel 1 when it is pressed; The touch panel 1 is composed of a contact position detector 4 for calculating a position to which pressure is applied based on a voltage value output when the touch panel 1 is pressed.

In this case, the touch sensing unit 3 maintains a 'high' level when there is no contact with the touch panel 1 and then operates at a 'low' level when there is a contact with the touch panel 1. Pull-up resistor (R); The touch panel 1 is in contact with the FET switch (PM) for disabling (Disable) so that no interruption occurs during the period of AD conversion of the voltage value output.

In addition, the contact position detector 4 may include an interrupt controller 4a which processes an interrupt by a 'low' signal output from the touch detector 3 when there is a contact with the touch panel 1; A CPI 4b which receives an interrupt signal from the interrupt controller 4a and processes various operations related to the touch panel 1; The operation and operation of the conventional apparatus composed of the AD converter 4c which converts the analog voltage outputted upon contacting the touch panel 1 under the control of the CPI 4b to a digital value will be described as follows.

First, the panel driver 2 does not supply power so that current consumption does not occur in a time when the touch panel 1 is not in contact, and applies power only when a touch is detected by an interrupt.

In other words, when the signal of the 'high' level is applied to the interrupt controller 4a through the pull-up resistor R of the touch sensing unit 3, the FET switch PM is applied when the touch panel 1 is touched. The interrupt controller 4a is momentarily applied with a 'low' level to interrupt.

In this way, once the interrupt is applied, the FET switch PM applies power to the horizontal and vertical axes of the touch panel 1 from the panel driver 2 so that the interrupt is generated until the output voltage is converted according to its contact position. It is turned off so as not to occur, and since the transient conversion occurs at the moment when the AD conversion unit 4c is in contact with the panel, the AD conversion is performed after a predetermined time after the transient is settled down, and the touch panel 1 is changed by the voltage value. The contact position of is detected.

However, in the conventional apparatus, when two or more contact points occur in the touch panel, it is difficult to calculate an accurate contact position, which may cause a malfunction in the operating system.

Therefore, the present invention was created to solve the above-described problems, and by dividing the contact point of the touch panel into a plurality of sections to operate independently for each section, the resolution of the contact point can be increased and a plurality of Its purpose is to provide a touch panel circuit that can receive contact inputs from a point.

1 is a schematic configuration diagram of a conventional resistive touch panel circuit.

2 is a schematic configuration diagram of a touch panel circuit according to the present invention;

Figure 3 is an embodiment of the structure of a divided touch panel according to the present invention.

Figure 4 is a flow chart showing the operation process according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: touch panel 20: panel driver

30: touch detection unit 40: output selection unit

50: contact position detector

The present invention for achieving the above object, the touch panel is divided into a plurality of panel surface and each receives a touch input independently; A panel driver which supplies power to each divided panel surface of the touch panel to output a voltage according to a resistance value; A touch sensing unit which independently senses the divided panel surface when the touch panel is pressed; An output selector for selectively controlling an output from each independent panel surface of the touch panel; It is achieved by configuring a contact position detection unit for calculating the contact position on the touch panel surface and the entire touch panel by the voltage value output when the touch panel is pressed, an embodiment according to the present invention Detailed description with reference to the following.

FIG. 2 is a schematic configuration diagram of a touch panel circuit according to the present invention. As shown in FIG. 2, the touch panel 10 receives a touch input independently by dividing the panel surface into a plurality; A panel driver 20 which supplies power to each divided panel surface of the touch panel 10 to output a voltage according to a resistance value; A touch sensing unit 30 which independently detects the divided panel surface when the touch panel 10 is pressed; An output selector 40 for selectively controlling output from each independent panel surface of the touch panel 10; The touch panel 10 includes a contact position detector 50 that calculates a contact position on the touch panel 10 and the entire touch panel 10 by a voltage value output when the touch panel 10 is pressed.

In this case, the contact position detector 50 may include an interrupt controller 50a configured to receive and process a plurality of interrupts from the touch detector 30; A CPI (50b) which receives an interrupt signal from the interrupt controller (50a) and controls each component by a preset interrupt priority; The operation and action of the present invention configured as described above are constituted by the AD conversion unit 50c which converts analog voltages of the independent panel surfaces sequentially output by the control of the CAPI oil 50b into digital values.

First, as illustrated in FIG. 3, the touch panel 10 is divided into a plurality of panel surfaces that can be driven independently, and each independent panel surface is connected to the touch sensing unit to contact each panel surface. In this case, an interrupt is generated independently so that simultaneous touch input can be processed by the number of divided panel surfaces.

In other words, when two or more contacts occur on each independent panel at the same time, each touch is detected and interrupted. At this time, the interrupt is selected according to the priority because the interrupt priority is determined according to the position of the panel. By controlling the unit 40, first, the voltage of the panel surface of the upper position is outputted by the AD, and then the voltage of the lower panel surface is output.

Accordingly, the touched position on the entire touch panel 10 is obtained by first obtaining the position of each independent panel surface, and then obtaining the detailed position on the independent panel surface and extending it to the entire coordinate section.

Meanwhile, the touch sensing unit 30 includes a plurality of pairs of FET switches (PM) connected in series with a pull-up resistor (R) for the number of independent panel surfaces in order to independently detect contact with each independent panel surface. Is not significantly different from the prior art.

That is, during normal times, the signal of the 'high' level is applied to the interrupt controller 40a through the pull-up resistor R, and when the touch panel 10 is touched, the interrupt controller 40a is applied through the FET switch PM. Instantaneously 'low' level is applied to interrupt.

In this way, once the interrupt is applied, the FET switch PM applies power to the horizontal and vertical axes of the touch panel 1 from the panel driver 2 until the output voltage is converted according to its contact position. It is turned off so that no interrupts occur again.

At this time, the interrupt allowance of the touch panel 10 is divided into a case where only one touch input is allowed and a case where two or more inputs are allowed, and when only one input is allowed, an interrupt is applied on the panel surface of a high priority position. The interrupt is only acknowledged, the interrupt is not allowed for the rest, and if two or more simultaneous inputs are allowed, the interrupts are processed in order of priority.

This operation process will be described again with reference to the flowchart of FIG. 4.

First, if each independent panel surface is contacted at the same time and an interrupt occurs, it detects this, and if it is a mode that allows multiple inputs according to the mode at that time, the output selector 40 is sequentially controlled according to the priority. The output voltage of the high panel surface is AID converted to obtain the position on the independent panel surface, and then the position is expanded on the entire touch panel to calculate the position.

As described above, the touch panel circuit of the present invention divides the touch point of the touch panel into a plurality of sections to operate independently for each section, thereby increasing the resolution of the contact point and receiving contact inputs simultaneously from a plurality of points. It has the effect of making it possible.

Claims (3)

A touch panel that divides the panel surface into a plurality and receives touch inputs independently from each other; A panel driver which supplies power to each divided panel surface of the touch panel to output a voltage according to a resistance value; A touch sensing unit which independently senses the divided panel surface when the touch panel is pressed; An output selector for selectively controlling an output from each independent panel surface of the touch panel; And a contact position detector for estimating the contact position of the touched panel surface and the entire touch panel by the voltage value output when the touch panel is pressed. The apparatus of claim 1, wherein the contact position detector comprises: an interrupt controller configured to receive and process a plurality of interrupts from a touch sensor; A CPI for receiving an interrupt signal from the interrupt controller and controlling each component by a preset interrupt priority; And an AD converter for converting analog voltages of independent panel surfaces sequentially output by the control of the CPI into a digital value. The touch panel circuit according to claim 1, wherein the output selector outputs only a voltage of one panel surface selected from the plurality of panel surfaces by control of the contact position detector in the horizontal axis and the vertical axis of each panel surface.