KR100927903B1 - Infrared touch sensor compensation device in automatic financial terminal - Google Patents

Abstract

The present invention relates to an infrared touch sensor correcting apparatus for an automatic financial terminal, and more particularly, to an infrared touch sensor correcting apparatus for an infrared touch sensor which is generated and output from an infrared touch sensor of a customer operating unit provided in an automatic financial terminal such as a cash dispenser (ATM) or a cash dispenser A plurality of phototransistors arranged in the longitudinal direction and a plurality of phototransistors arranged in the lateral direction are photoelectrically converted into electricity by photoelectric conversion of the voltage levels of the electric signals, The user can more accurately recognize the key value touched by the user through the touch panel of the customer's operation unit based on the signal, thereby providing a financial service normally.

An automatic financial terminal, a customer control unit, a touch panel, an infrared touch sensor, a correction circuit, a phototransistor

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an infrared touch sensor,             

FIG. 1 is a block diagram illustrating a configuration of an infrared touch sensor detecting apparatus in a general automated financial terminal,

FIG. 2 shows phototransistors included in a general infrared touch sensor detecting apparatus,

FIG. 3 shows waveforms of signals output by phototransistors included in a general infrared touch sensor detecting apparatus,

4 is a block diagram of an infrared touch sensor correcting apparatus according to the present invention,

5 shows signal waveforms of a phototransistor corrected by the infrared touch sensor correcting apparatus according to the present invention.

[Description of Drawings]

100: customer operation unit 200: touch panel unit

10: control unit 11: program memory                 

12: Data memory 13: Ueyarti (UART)

14: Driver 15: Bidirectional Buffer

16: lamp 17: buzzer

20: light emitting element 21: light receiving element

22: A / D converter 23: Sink driver

24: Source driver 25: Sensor register

50: correction circuit 501: sample / hold

502: comparator

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an infrared touch sensor correcting apparatus for an automatic financial terminal, and more particularly, to an infrared touch sensor correcting apparatus for an infrared touch sensor of a customer operating unit provided in an automatic financial terminal such as a cash dispenser (ATM) or a cash dispenser And more particularly to an infrared touch sensor correcting apparatus in an automatic financial terminal for correcting a voltage level of an electric signal outputted from an infrared sensor.

FIG. 1 illustrates a configuration of an infrared touch sensor detecting apparatus in a general automated financial terminal. For example, a cash dispenser (ATM) may be provided with a user interface A customer operation unit 100 and a touch panel unit 200 are provided.

The customer operation unit 100 includes a control unit 10, a program memory 11, a data memory 12, a UART (Universal Asynchronous Receiver Transmitter) 13, a driver 14, a bidirectional buffer 15, A lamp 16 and a buzzer 17. In the UART 13, the infrared signal is converted into a data format recognizable by the control unit 10 and outputted.

The touch panel unit 200 includes a touch panel including a plurality of light emitting devices 20 and a light receiving device 21 and an A / D converter 22, a sink driver 23, a source driver 24, And a sensor register 25. The light emitting element 20 outputs an infrared (IR) signal and the light receiving element 21, for example, a plurality of phototransistors (Photo Transistor) photoelectrically converts and outputs an electric signal having a voltage level corresponding to the infrared signal.

The A / D converter 22 converts the electrical signal output through the above process into a digital signal and outputs the digital signal to the bidirectional buffer 15. In the controller 10, the UART 13 The key value corresponding to the digital signal temporarily stored in the bidirectional buffer 15 is determined and then a series of operations corresponding to the key value is performed.

However, when the distance between the light emitting elements 20 and the light receiving elements 21 included in the touch panel unit 200 is different from each other, for example, when the distance between the light emitting elements and the light receiving elements arranged in the vertical axis direction is 3, the output values of the sensor detected and output by the longitudinal axis light receiving element are detected by the transverse axis light receiving element, as shown in Fig. 3, when the distance between the light emitting element and the light receiving elements arranged in the horizontal axis direction is relatively large A voltage level lower than the output values of the sensors to be detected and output is generated.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide an electronic control unit, And an object of the present invention is to provide an infrared touch sensor correcting device in an automatic financial terminal for automatically correcting a voltage level of a signal to a predetermined voltage level or higher so that the user can accurately recognize a key button .

According to another aspect of the present invention, there is provided an apparatus for calibrating an infrared touch sensor in an automatic financial terminal, including: a plurality of infrared touch sensors connected to a customer operation unit of an automated teller terminal for generating and outputting infrared touch signals, Foot / light receiving means; And correction means for correcting the voltage level of the electrical signal to be photoelectrically converted and received by the foot / light receiving means to be equal to or higher than a predetermined level,

The correction means may include a sample / hold element for detecting and holding an initial peak value of the photoelectric conversion electrical signal, and a comparator for selectively switching the signal input through the sample / hold, And corrects the voltage level of the electric signal so that the voltage level of the electric signal becomes equal to or higher than a predetermined level.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of an infrared touch sensor correction apparatus in an automatic financial terminal according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram illustrating an infrared touch sensor correcting apparatus in an automatic financial terminal according to an embodiment of the present invention. As shown in FIG. 4, for example, a cash dispenser (ATM) A program memory 11, a data memory 12, a UART 13, a driver 14, a bidirectional buffer 15, and a control unit 10 are connected to the customer operation unit 100, A lamp 16 and a buzzer 17 are included.

The touch panel unit 200 includes a touch panel including a plurality of light emitting devices 20 and a light receiving device 21 and an A / D converter 22, a sink driver 23, a source driver 24, And a sensor register (25).

A voltage level of the electric signal photoelectrically converted by the phototransistor is set to a predetermined level or higher between the output terminal of the light receiving element 21, for example, the phototransistor, and the input terminal of the A / D converter 22, A correction circuit 50 is additionally provided.
That is, in the touch panel unit 200, the voltage levels of the electric signals photoelectrically converted due to the distance between the light emitting elements and the light receiving elements arranged in the longitudinal axis direction are changed by the light emitting elements and the light receiving elements, (501) and a comparator (502), which are configured to include the sample / hold (501) and the comparator (502), at output ends of the photodiodes arranged in the longitudinal axis direction, Circuit 50 is additionally installed.

The correction circuit 50 is shown in FIG. 4, the correction circuit 50 is provided with a sample / hold 501 for sampling an initial voltage level of an electric signal output from the phototransistor and holding the initial voltage level for a predetermined time . The sample / hold circuit 501 includes a first input terminal (a) for receiving an electric signal output from the phototransistor, and a second phototransistor for selecting another phototransistor during an operation of maintaining / outputting the initial voltage level, And a second input terminal b receiving a switching signal output from the comparator 502, which will be described later, to sample and hold / output an initial voltage level of the electric signal of the first input terminal. That is, when the switching signal is transferred to the second input terminal (b), the current hold / output operation is stopped and the peak value of the initial voltage level of the electrical signal of the newly selected phototransistor is And keeps the detection and outputs it.
And a comparator 502 for selectively switching a signal input to the sample / hold circuit 501. The comparator 502 is provided with a (+) terminal and a (-) terminal. The (+) terminal side receives a voltage level of the electric signal output from the sample / hold 501 (hereinafter, referred to as a 'first voltage level'). The (-) terminal side receives a voltage level of an electric signal (hereinafter referred to as a second voltage level) applied on the phototransistor side. When the first voltage level is compared with the second voltage level, and when the voltage level is different, it is determined that the other phototransistor is selected by recognizing that an electric signal is applied from the other phototransistor to the sample / To the second input terminal (b). If the voltage level is the same, the sample / hold circuit 501 continues to maintain / output the electrical signal output by the sample / hold circuit 501. In this case, although it is possible to transfer the other signal to the sample / hold 501, it can be considered that the hold / output operation is continuously performed if the switching signal is not generated.

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Accordingly, the sample / hold circuit 501 samples the peak value of the initial voltage output from the first phototransistor in the form of a module having a plurality of phototransistors, and maintains the peak value of the initial voltage for a predetermined time . In such a state, the comparator 502 checks whether an electric signal is input to the (-) terminal while receiving the first voltage level output from the sample / hold 501 to the (+) terminal, When the electric signal is not input to the terminal, the sample / hold 501 outputs the electric signal currently being maintained / outputted. On the other hand, when the second voltage level is input to the (-) terminal (that is, when the electrical signal of the other phototransistor in the module form is inputted), the comparator 502 compares the first voltage level with the second voltage level , And when the voltage level is different, it recognizes that an electric signal is outputted from the other phototransistor. Then, the comparator 502 generates a switching signal, and the sample / hold 501 receives the switching signal through the second input terminal b.
When the switching signal is transferred, the sample / hold circuit 501 stops the output of the electrical signal output from the first phototransistor, detects the peak value of the initial voltage level for the electrical signal of the newly selected phototransistor, This is maintained for a predetermined time and output.
Such a process is shown in Fig. As shown in FIG. 5, the sample / hold circuit 501 samples and outputs a peak value of an initial voltage output from one phototransistor, and when the electrical signal is continuously input from another phototransistor, the comparator 502 It can be seen that a series of operations of holding the peak value of the initial voltage of the other phototransistor for a predetermined time are repeated.
Therefore, the voltage level of the electric signal output to the A / D converter 22 is corrected to a predetermined level or higher.

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Meanwhile, the A / D converter 22 converts the electrical signal output through the above process into a digital signal and outputs the digital signal to the bidirectional buffer 15. In the controller 10, the UART 13 , The key value corresponding to the digital signal temporarily stored in the bidirectional buffer 15 is determined, and a series of operations corresponding to the key value is performed.

Therefore, even if the distance between the light emitting element and the light receiving element is relatively far, the electric signal of a predetermined voltage level can be corrected and outputted, so that the user can accurately recognize the key button selected and designated by the user.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims.

The apparatus for correcting an infrared touch sensor in an automatic financial terminal according to the present invention configured and operated as described above is characterized in that the infrared touch sensor of the customer's operating unit provided in an automatic financial terminal such as a cash dispenser (ATM) or a cash dispenser A plurality of phototransistors arranged in the longitudinal direction and a plurality of phototransistors arranged in the transverse direction are arranged in a matrix form by vertically aligning the voltage level of the electric signal generated and output from the sensor so that the initial peak value is detected and maintained to be equal to or higher than a predetermined voltage level. The user can more accurately recognize the key value touched by the user through the touch panel of the customer operation unit based on the photoelectrically converted electric signal, thereby providing a financial service normally.

Claims (4)

A plurality of foot / light receiving means connected to the customer operation unit of the automated teller terminal for generating and outputting an infrared touch signal touched by a user; And And a correcting means for correcting the voltage level of the electrical signal to be photo-electrically converted and received by the foot / light receiving means to be equal to or higher than a predetermined level. The method according to claim 1, Wherein the correction means detects and maintains an initial peak value of the electric signal to be photoelectrically converted so as to correct the voltage level of the electric signal to a predetermined level or more. The method according to claim 1, Wherein the correction means includes a sample / hold element for detecting and holding an initial peak value of the photoelectric conversion electric signal, and a comparator for selectively switching the signal input through the sample / hold. A device for calibrating an infrared touch sensor in a terminal. The method according to claim 1, Wherein the correcting means is connected to at least one of output terminals of a plurality of phototransistors arranged in the longitudinal direction or a plurality of phototransistors arranged in the transverse direction.

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