KR100605852B1 - Apparatus and method for recognizing key input - Google Patents

Abstract

The present invention relates to a key input recognition device comprising: a left and right direction key input unit having a left and right direction key and a right direction key whose resistance value is changed according to a pressure degree pressed by a user, and a resistance value changed according to a pressure degree pressed by a user; An up / down arrow input unit having an up arrow key and a down arrow key, and a switch control signal for connecting to the left, right, up and down arrow keys, respectively, and the left, right, up and down arrow keys are respectively connected to the left and right arrow keys. A control unit which checks the voltage changed according to the resistance value of the right, up, down key and recognizes the key input for the left, right, up, down key, and determines the moving direction by using the key input recognition result; A power supply for supplying power to the left and right arrow input unit and the up and down arrow key input unit, and the left, right, up and down arrow keys in turn according to the switch control signal. It is composed of a switch unit for connecting with the control unit. This invention enables the recognition of two key inputs at the same time. For example, four direction keys enable 8-way key input. Therefore, the apparatus for recognizing a key input of the present invention has an effect of enabling a fine position movement by recognizing a key input according to the amount of pressure pressed by a user in a game, an image program, etc. of the mobile communication terminal.

Key input recognition device, direction key

Description

Key input recognition device and method {APPARATUS AND METHOD FOR RECOGNIZING KEY INPUT}             

1 is a diagram illustrating an example of a key input device circuit having a conventional matrix structure.

2 is a block diagram illustrating a key input recognition apparatus according to an embodiment of the present invention.

3 is a circuit diagram illustrating a key input recognition device according to a first embodiment of the present invention.

4 is a circuit diagram illustrating a key input recognition device according to a second embodiment of the present invention.

5 and 6 are flowcharts illustrating a key input recognition process according to an embodiment of the present invention.

The present invention relates to a key input recognition apparatus and method, and more particularly, to a key input recognition apparatus and method used in a mobile communication terminal such as a mobile phone.

In general, a key input recognition device in a mobile communication terminal has a matrix structure.

The key input recognition device composed of the matrix structure has a simple circuit configuration and driving algorithm. However, when a key and another key are pressed at the same time or when another key is pressed while the key is pressed, I don't recognize it.

1 is an example of a circuit of a key input recognition device having a conventional matrix structure. 1 shows a four-way key input recognition device circuit having a matrix structure. Referring to FIG. 1, a conventional 4-way key input recognizing apparatus includes switches 2, 4, 6, and 8 corresponding to a first direction key, a second direction key, a third direction key, and a fourth direction key. digital inputs I _1, I ₂ receives provides two digital outputs O _1, O _2. The digital outputs O ₁ and O ₂ change as the switch corresponding to each direction key is pressed. Therefore, the key input is recognized through the digital outputs O ₁ and O ₂ . However, the key input recognition device having the matrix structure can recognize only one key input at a time. For example, when the first direction key and the second direction key are simultaneously pressed, the key input recognition device having the matrix structure may recognize only a key input to any one direction key of the first direction key and the second direction key. Also, when the second direction key is pressed while the first direction key is pressed, only the key input for the first direction key can be recognized.

As described above, the key input recognition apparatus of the conventional matrix structure cannot recognize two key inputs at the same time. Recently, as the mobile terminal becomes more versatile, the demand for various position movements is increased in games, image programs, etc., and therefore, a structure capable of simultaneously performing two key inputs and a structure for minute position input according to the pressure applied to the key input is required. This feature is not supported on the keypad.

Accordingly, an object of the present invention is to provide a key input recognition apparatus and method capable of recognizing two direction key inputs at a time.

Another object of the present invention is to provide an apparatus and method for recognizing a key input capable of recognizing two direction key inputs in two ways, either analog or digital.

In accordance with the above object, the present invention provides a key input recognition device comprising: a left and right direction key input unit having a left and right direction keys whose resistance values change according to the pressure degree pressed by the user, and a degree of pressure pressed by the user; Outputs a switch control signal for connecting the up / down direction key input unit having an up direction key and a down direction key whose resistance value changes according to the left and right keys, and the left, right, up and down direction keys, respectively. When connected to and respectively, and checks the voltage changes according to the resistance value of the left, right, up, down arrow keys to recognize the key input for the left, right, up, down arrow keys, and use the key input recognition result to determine the direction of movement A control unit for determining, a power supply unit for supplying power to the left and right direction key input unit and the up and down direction key input unit, and the left, right, and the like according to the switch control signal. It consists of a switch unit for connecting the up and down keys in sequence with the control unit.

In addition, the present invention is a key input recognition device, the left and right direction key input unit having a left and right direction key, the voltage is changed according to the degree of pressure pressed by the user, and the voltage is changed according to the degree of pressure pressed by the user Connecting up and down arrow keys having an arrow key and a down arrow key, a power supply control signal for supplying power to the left and right arrow keys and the up and down arrow keys, and the left, right, up and down arrow keys, respectively. Outputs a control signal for the switch, and when connected to the left, right, up, and down keys, respectively, checks the voltage applied to the left, right, up, and down keys, and inputs key inputs to the left, right, up, and down keys. A control unit for recognizing and determining a moving direction by using a key input recognition result, and the left and right direction key input unit and the controller according to the power supply control signal. And the lower the power supply unit that supplies power to the direction key input unit, in turn, the right and left, upper and the lower direction key in accordance with the switch control signal is composed of a switch connected to the control unit.

In addition, the present invention is a key input recognition method, the first step of checking the degree of pressing the left, right, up, down direction keys by the user, and the left, right, up, down direction keys according to the degree of pressing the left A second process of recognizing a first input for a right direction and a second input for an up and down direction, and a vector sum of a direction corresponding to the first input and a direction corresponding to the second input to the input; The third step is to determine the direction.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

2 is a block diagram of a key input recognition device according to an embodiment of the present invention. 2, the key input recognition apparatus according to an embodiment of the present invention, the left and right direction key input unit 10, the up and down direction key input unit 20, the control unit 30, the power supply unit 40, the switch unit ( 50).

The left and right direction input unit 10 includes a left direction key 12 and a right direction key 14. The left direction key 12 is a key for key input corresponding to the leftward movement, and the right direction key 14 is a key for key input corresponding to the rightward movement. The left and right arrow keys 12 and 14 may be configured as pressure sensors, respectively, and are connected in series with each other. One end of the left direction key 12 is connected to the power supply 40, and one end of the right direction key 14 is connected to the ground. When the left and right arrow keys 12 and 14 are pressed by the user in a state where power is applied from the power supply unit 40, the resistance value is increased by the amount that is pressed to increase the voltage applied to both ends thereof.

The up / down arrow input unit 20 includes an up arrow key 22 and a down arrow key 24. The upward key 22 is a key for key input corresponding to the upward movement, and the downward key 24 is a key for key input corresponding to the downward movement. The up and down arrow keys 22 and 24 may be configured as pressure sensors, respectively, and are connected in series with each other. One end of the up key 22 is connected to the power supply 40, and one end of the down key 24 is connected to the ground. When the left and right arrow keys 22 and 24 are pressed by the user in the state where power is applied from the power supply unit 40, the resistance value is increased as much as the pressed value is increased by the user, thereby increasing the voltage across the both ends.

The control unit 30 outputs a power supply control signal C ₁ for supplying power to the left and right direction key input unit 10 and the up and down direction key input unit 20, and each of the left, right, up and down direction keys ( It outputs a switch control signal (C ₂ ) for connection with 12,14,22,24. The control unit 30 is connected to each of the left, right, up, and down arrow keys 12, 14, 22, and 24 according to the switch control signal C ₂ . The voltage I inputted from and 24 is checked to recognize whether each of the left, right, up and down arrow keys 12, 14, 22, and 24 is pressed. The controller 30 determines the moving direction by using a key input result.

The power supply unit 40 includes switches for connection with the left and right direction key input unit 10 and the up and down direction key input unit 20, and the switches are provided to the power supply control signal C ₁ output from the controller 30. According to on / off operation. The power supply unit 40 supplies power to the left and right direction key input unit 10 when connected to the left and right direction key input unit 10. In addition, the power supply unit 40 supplies power to the up and down direction key input unit 10 when connected to the up and down direction key input unit 10.

The switch unit 50 includes a first switch 52, a second switch 54, a third switch 56, It may be configured as a fourth switch 58. The first switch 52, the second switch 54, the third switch 56, The fourth switch 58 is turned on / off according to the switch control signal C ₂ of the controller 30. When the first switch 52 is turned on, the first switch 52 connects the left direction key 12 and the controller 30. When the second switch 54 is turned on, the second switch 54 connects the right direction key 12 and the control unit 30. When the third switch 56 is turned on, the third switch 56 connects the up arrow 22 and the controller 30. When the fourth switch 58 is turned on, the fourth switch 58 connects the down direction key with the controller 30.

3 is a circuit diagram of a key input recognition device according to a first embodiment of the present invention. Hereinafter, a specific circuit example of a key input recognition apparatus according to an embodiment of the present invention will be described with reference to FIGS. 2 and 3.

The left and right direction key input unit 10 includes a fixed resistor Rx, a first variable resistor Rx ₁ , and a second variable resistor Rx ₂ connected in series. Rx has a predetermined fixed resistance value and one end is connected to the power supply 40. The resistance value of the first variable resistor Rx ₁ and the second variable resistor Rx ₂ is changed by being pressed by the user. The first variable resistor Rx ₁ and the second variable resistor Rx ₂ may be implemented as pressure sensors. The first variable resistor Rx ₁ corresponds to the left direction key 12, one end of which is connected to the fixed resistor Rx and the other end of which is connected to the second variable resistor Rx ₂ . The second variable resistor Rx ₂ corresponds to the right direction key 14, one end of which is connected to the first variable resistor Rx _1, and the other end of which is connected to ground. When the power supply Vc is connected to the fixed resistor Rx of the left and right direction key input unit 10 as described above, at the point a, (Rx ₁ + Rx ₂ ) * Vc / (Rx + Rx ₁ + Rx ₂ ) (hereinafter referred to as 'Vx ₁ ') is applied to the voltage. And at point b, Rx ₂ * Vc / (Rx + Rx ₁ + Rx ₂ ) (hereinafter referred to as 'Vx ₂ ') is applied.

If the left direction key 12 is pressed by the user, the value of the first variable resistor Rx ₁ is increased, thereby increasing the value of Vx ₁ , which is the voltage value at point a. When the right key 14 is pressed by the user, the value of the second variable resistor Rx ₂ is increased, so that the values of Vx ₁ and Vx ₂ which are voltage values at points a and b are increased. Therefore, when the value of Vx ₁ increases, at least one of the left direction key 12 and the right direction key 14 is pressed.

The up and down direction key input unit 20 includes a fixed resistor Ry, a third variable resistor Ry ₁ , and a fourth variable resistor Ry ₂ connected in series. Ry has a predetermined fixed resistance value and one end is connected to the power supply 40 under predetermined control. When the third variable resistor Ry ₁ and the fourth variable resistor Ry ₂ are pressed by the user, the value changes according to the strength of the pressure. The third variable resistor Ry ₁ and the fourth variable resistor Ry ₂ may be implemented as pressure sensors. The third variable resistor Ry ₁ corresponds to the upward key 22, one end of which is connected to the fixed resistor Ry and the other end of which is connected to the fourth variable resistor Ry ₂ . The fourth variable resistor Ry ₂ corresponds to the down key 24, one end of which is connected to the third variable resistor Ry _1, and the other end of which is connected to ground. When the power supply Vc is connected to the fixed resistance Ry of the up and down direction key input unit 20 as described above, at the point c, (Ry ₁ + Ry ₂ ) * Vc / (Ry + Ry ₁ + Ry ₂ ) (hereinafter referred to as 'Vy ₁ ') takes a voltage. And at point d, Ry ₂ * Vc / (Ry + Ry ₁ + Ry ₂ ) (hereinafter referred to as 'Vy ₂ ') takes a voltage.

If the upward key 22 is pressed by the user, the value of the third variable resistor Ry ₁ is increased, thereby increasing the value of Vy ₁ , which is the voltage value at point c. When the down direction key 24 is pressed by the user, the value of the fourth variable resistor Ry ₂ increases, so that the voltage values Vy ₁ and Vy ₂ , which are voltage values at points c and d, become large. Therefore, when the value of Vy ₁ increases, at least one of the up arrow 22 and the down arrow 24 is pressed.

The power supply unit 40 supplies the power Vc to the left and right direction key input unit 10 and the up and down direction key input unit 20 under predetermined control. For example, the power supply unit 40 includes a switch 1 42 for connecting and disconnecting the left and right key input unit 10 and a switch 2 44 for connecting and disconnecting the up and down key input unit 20. do. Switch 1 42 and switch 2 44 operate on / off according to the power supply control signal C ₁ . When the switch 1 42 is turned on, the power supply Vc is supplied to the left and right direction key input units 10, and when the switch 2 44 is turned on, the power supply Vc is supplied to the up and down direction key input units 20.

The switch unit 50 is the first to the first to connect the a, b, c, d point and the control unit 30 to check the voltage applied to the left, right, up, down keys 12, 14, 22, 24, respectively 4 switches 42, 44, 46, 48. Each of the first to fourth switches 42, 44, 46, and 48 operates on / off according to the switch control signal C ₂ output from the controller 30. Point a and the controller 30 are connected when the first switch 52 is turned on, and point a and the controller 30 are disconnected when the first switch 52 is turned off. When the controller 30 is connected to a point a, the controller 30 may check a voltage at a point, that is, a voltage applied to the left direction key 12 and the right direction key 14 (hereinafter referred to as 'Vx ₁ '). Also, when the second switch 54 is turned on, the point b and the controller 30 are connected. When the second switch 54 is turned off, the point b and the controller 30 are disconnected. When connected to point b, the controller 30 may check the voltage at point b, that is, the voltage applied to the right key 14 (hereinafter referred to as 'Vx ₂ '). When the third switch 56 is turned on, the point c and the controller 30 are connected. When the third switch 56 is turned off, the point c and the controller 30 are disconnected. When the controller 30 is connected to the c point, the controller 30 may check the voltage at the c point, that is, the voltage applied to the up key 22 and the down key 24 (hereinafter referred to as 'Vy ₁ '). In addition, when the fourth switch 58 is turned on, the point d and the controller 30 are connected. When the fourth switch 58 is turned off, the point d and the controller 30 are disconnected. When the controller 30 is connected to the d point, the controller 30 may check the voltage at the d point, that is, the voltage applied to the down direction key 24 (hereinafter referred to as 'Vy ₂ ').

The controller 30 checks voltages at points a, b, c, and d, that is, Vx ₁ , Vx ₂ , Vy ₁ , and Vy ₂ , in order to recognize key input. In other words, the controller 30 turns on the switch 1 42 through the power supply control signal C _{1 to} supply power to the left and right direction key input units 10 and through the switch control signal C ₂ . The first switch 52 and the second switch 54 are turned on in turn to read the voltages input from the a and b points, respectively. In addition, the controller 30 turns on the switch 2 44 through the power supply control signal C _{1 to} supply power to the up and down key input unit 20, and through the switch control signal C ₂ . The third switch 56 and the fourth switch 58 are turned on one by one, and the voltages input from points c and d are read.

The control unit 30 uses the left, right, up and down arrow keys 12, 14, 22, and ₅ to measure the voltage values at the a, b, c, and d points, that is, Vx ₁ , Vx ₂ , Vy ₁ , and Vy ₂ . Recognize keystrokes for 24).

However, in the key input recognition device circuit according to the first embodiment of the present invention configured as described above, if the magnitude of the Vx ₁ , Vx ₂ , Vy ₁ , and Vy ₂ values does not reach a predetermined reference value or there is almost no difference from each other, the controller ( 30) may not read the Vx ₁ , Vx ₂ , Vy ₁ , and Vy ₂ values, or may make it difficult to recognize a key input even when reading.

Accordingly, the key input recognition device circuit according to the second embodiment of the present invention further includes an amplifier 60 between the controller 30 and the switch unit 50. 4 is a circuit diagram of a key input recognition device according to a second embodiment of the present invention. Referring to FIG. 4, the key input recognition device circuit according to the second embodiment of the present invention further includes an amplifier 60 between the controller 30 and the switch unit 50. The amplifier 60 amplifies the Vx ₁ , Vx ₂ , Vy ₁ , and Vy ₂ values input to the controller 30 through the switch unit 50. Therefore, the key input recognition apparatus according to the second embodiment of the present invention may make key input recognition easier than the key input recognition apparatus according to the first embodiment of the present invention.

Hereinafter, a process of recognizing a key input by the key input recognition apparatus configured as described above will be described in detail. 5 and 6 are flowcharts illustrating a key input recognition process according to an embodiment of the present invention. 5 illustrates a key input recognition process when the key input recognition mode is the digital mode, and FIG. 6 illustrates a key input recognition process when the analog mode is used.

Referring first to FIG. 2 to FIG. 5, the controller 30 reads in step 102 a, b, c, a voltage value Vx _{1, 2} Vx, Vy _1, Vy ₂ of point d. That is, the controller 30 turns on the switch 1 42 through the power supply control signal C ₁ to supply power to the left and right direction key input units 10 and then through the switch control signal C ₂ . The first switch 52 and the second switch 54 are sequentially turned on to read Vx ₁ and Vx ₂ , respectively. In addition, the control unit 30 turns on the switch 2 (44) through the power supply control signal (C ₁ ) to supply power to the up and down key input unit (20), and then the switch control signal (C ₂ ) The third switch 56 and the fourth switch 58 are turned on in turn to read Vy ₁ and Vy ₂ , respectively.

After reading Vx ₁ , Vx _2, Vy ₁ , and Vy ₂ , the controller 30 determines whether the Vx ₁ or Vy ₁ value is greater than a predetermined threshold in step 104.

If the left direction key 12 is pressed by the user, the value of the first variable resistor Rx ₁ is increased, thereby increasing the value of Vx ₁ , which is the voltage value at point a. When the right key 14 is pressed by the user, the value of the second variable resistor Rx ₂ is increased, so that the values of Vx ₁ and Vx ₂ which are voltage values at points a and b are increased. Therefore, when the value of Vx ₁ is greater than a predetermined threshold, at least one of the left direction key 12 and the right direction key 14 may be viewed as being pressed.

In addition, when the upward key 22 is pressed by the user, the value of the third variable resistor Ry ₁ is increased, thereby increasing the value of Vy ₁ , which is the voltage value at point c. When the down key 24 is pressed by the user, the value of the fourth variable resistor Ry ₂ is increased, so that the voltage values Vy ₁ and Vy ₂ , which are voltage values at points c and d, are increased. Therefore, when the Vy ₁ value is greater than a predetermined threshold, it can be seen that at least one of the up key 22 and the down key 24 is pressed.

Thus certain of the control section 30 ₁ value Vx or Vy ₁ value is determined greater than the predetermined threshold value ₁ Vx or Vy ₂ is greater than a predetermined threshold value, the upper and the lower left and right arrow keys (12,14,22,24) It is determined that the direction key has been pressed and proceeds to step 106. The controller 30 determines whether the key input recognition mode is a digital mode in step 106. If the controller 30 is not in the digital mode, the controller 30 proceeds to step 150 to perform the analog mode. The process of performing the analog mode will be described with reference to FIG. 6.

If the key input recognition mode is the digital mode, the controller 30 determines whether the Vx ₁ value is greater than the threshold in step 108. If the value of Vx ₁ is greater than a predetermined threshold value, at least one of the left direction key 12 and the right direction key 14 is pressed. Therefore, the controller 30 proceeds to step 110 and the control point 30 proceeds to step b from the Vx ₁ value, the voltage value of the point a. It is determined whether the value obtained by subtracting the previous value of Vx ₂ is greater than the value of Vx ₁ . That is, the controller 30 determines whether the voltages Vx ₁ to Vx ₂ applied to the left direction key 12 are greater than the voltages Vx ₁ applied to the right direction key 14. If the voltage value Vx ₁ -Vx ₂ applied to the left direction key 12 is greater than the voltage value Vx ₁ applied to the right direction key 14, the controller 30 recognizes that there is a left key input in step 112. . However, if the voltage values Vx ₁ to Vx ₂ applied to the left direction key 12 are not greater than the voltage values Vx ₁ applied to the right direction key 14, the controller 30 recognizes that there is a right direction key input in step 114. do. Therefore, even if the left direction key 12 and the right direction key 14 are simultaneously pressed, the controller 30 recognizes a key input for the direction key having a large voltage value.

On the other hand, if the Vx ₁ value is not greater than a predetermined threshold value, the controller 30 determines whether the Vy ₁ value is greater than the threshold value in step 116. If the value of Vy ₁ is greater than or equal to a predetermined threshold, at least one of the up key 22 and the right key 24 is pressed. Therefore, the controller 30 proceeds to step 118 and the control point 30 proceeds to the point d from the voltage value Vy ₁ at point c. It is determined whether the value obtained by subtracting the value of Vy _2, which is equal to, is greater than the value of Vy ₁ . That is, the controller 30 determines whether the voltages Vy ₁ to Vy ₂ applied to the up direction key 22 are greater than the voltage Vy ₁ applied to the down direction key 24. If the voltage value Vy ₁ -Vy ₂ applied to the up key 22 is greater than the voltage value Vy ₁ applied to the down key 24, the controller 30 recognizes that there is an upward key input in step 120. . However, if the voltage value Vy ₁ to Vy ₂ applied to the up direction key 22 is not greater than the voltage value Vy ₁ applied to the down direction key 24, the controller 30 recognizes that there is a down key input in step 122. do. Therefore, the controller 30 recognizes the key input for the direction key having a large voltage value even when the up direction key 22 and the down direction key 24 are simultaneously pressed.

As described above, after recognizing the input for each direction key, the control unit 30 determines the moving direction by using the respective direction key input recognition results in step 124. That is, the controller 30 determines the direction of the input by vector sum of the directions corresponding to each direction key input. For example, the controller 30 determines the moving direction to the right direction when only the right key input is recognized, and determines the moving direction to the left direction when only the left key input is recognized. In addition, the controller 30 determines the upward direction when only the upward key input is recognized, and determines the upward direction when only the downward key input is recognized. If the right direction key input and the up direction key input are recognized, the controller 30 determines the moving direction to the right upper direction, which is the middle direction between the right direction and the up direction, and if the right direction key input and the down key input is recognized, the moving direction. Is determined as the lower right direction which is the middle direction between the right direction and the lower direction. In addition, if the left key input and the up key input are recognized, the controller 30 determines the moving direction to the upper left direction, which is a middle direction between the left and the upper direction, and if the left key input and the down key input is recognized, the moving direction. Determine in the lower left direction, which is the middle direction between the left direction and the downward direction. Accordingly, the key input recognition apparatus according to an embodiment of the present invention may determine eight directions with four direction keys.

Hereinafter, a key input recognition process in the analog mode of step 150 will be described with reference to FIGS. 2 to 6. First, referring to FIG. 6, in step 152, the controller 30 determines whether the voltage values Vx ₁ to Vx ₂ applied to the left direction key 12 are greater than the voltage values Vx ₁ applied to the right direction key 14. If the voltage value Vx ₁ -Vx ₂ applied to the left direction key 12 is greater than the voltage value Vx ₁ applied to the right direction key 14, the controller 30 recognizes the left coordinate in step 154. However, if the voltage values Vx ₁ to Vx ₂ applied to the left direction key 12 are not greater than the voltage values Vx ₁ applied to the right direction key 14, the controller 30 recognizes the right direction coordinates. Therefore, even if the left direction key 12 and the right direction key 14 are simultaneously pressed, the controller 30 recognizes the coordinates of the direction in which the voltage value is large.

On the other hand, the controller 30 determines whether the voltage Vy ₁ -Vy ₂ applied to the up key 22 is greater than the voltage Vy ₁ applied to the down key 24. If the voltage value Vy ₁ -Vy ₂ applied to the up direction key 22 is greater than the voltage value Vy ₁ applied to the down direction key 24, the controller 30 recognizes upward coordinates in step 160. In step 162, if the voltage values Vy ₁ to Vy ₂ applied to the up key 22 are not greater than the voltage values Vy ₁ applied to the down key 24, the down coordinates are recognized. Therefore, the controller 30 recognizes only the coordinates of the direction in which the voltage value is large even when the up key 22 and the down key 24 are simultaneously pressed.

As described above, after recognizing the coordinates for each direction, the controller 30 determines the moving direction coordinates using the direction coordinate recognition result in step 164.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

As described above, the present invention enables the recognition of two direction key inputs at a time, thereby enabling the rapid position movement in games, image programs, and the like of the mobile communication terminal.

In addition, the present invention has the effect of increasing the user convenience for performing the key input by allowing the two direction key input to be recognized in two ways, analog or digital at a time.

Claims (19)

In the key input recognition device, A left and right arrow key input unit having a left arrow key and a right arrow key, the resistance of which changes in response to the pressure pressed by the user; An up / down arrow key input unit having an up arrow key and a down arrow key, the resistance value of which is changed according to the pressure level pressed by the user, Outputs a switch control signal for connecting to the left, right, up, and down keys, respectively, and when connected to the left, right, up, and down keys, respectively, voltages varying according to resistance values of the left, right, up, and down keys A control unit for recognizing a key input for the left, right, up, and down keys by determining a, and determining a moving direction by using a key input recognition result; A power supply unit for supplying power to the left and right direction key input units and the up and down direction key input units; And a switch unit for connecting the left, right, up, and down direction keys to the control unit in order according to the switch control signal. The method of claim 1, wherein the left and right direction key input unit, A first resistor having one side connected to the power supply and receiving power; A first variable resistor having one side connected to the other side of the first resistor to change a resistance value according to a pressure pressed by a user to change a voltage value across the first resistor; One side is connected to the other side of the first variable resistor and the other side is connected to the ground, so that the resistance value changes in accordance with the pressure pressed by the user to include a second variable resistor for changing the voltage value across the end Key input recognition device characterized in that. The method of claim 2, wherein the up and down arrow input unit, A second resistor having one side connected to the power supply and receiving power; A third variable resistor having one side connected to the other side of the second resistor to change the resistance value according to the pressure pressed by the user, thereby changing the voltage value across the second resistor; One side is connected to the other side of the third variable resistor and the other side is connected to the ground, so that the resistance value is changed according to the pressure pressed by the user to include a fourth variable resistor for changing the voltage value across both ends Key input recognition device characterized in that. The method of claim 3, wherein the switch unit, One side is connected to the other side of the first resistor and one side of the first variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to switch the voltage between one side of the first variable resistor and the ground. A first switch provided to the controller, One side is connected to the other side of the first variable resistor and one side of the second variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to switch the voltage between one side of the second variable resistor and the ground. A second switch provided to the controller, One side is connected to the other side of the second resistor and one side of the third variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to switch the voltage between one side of the third variable resistor and the ground. A third switch provided to the controller, One side is connected to the other side of the third variable resistor and one side of the fourth variable resistor, and the other side is connected to the controller, and the switching operation is performed according to the switch control signal to change the voltage between one side of the fourth variable resistor and the ground. And a fourth switch provided to the controller. The method according to any one of claims 1 to 4, The control unit checks the voltage applied to the left, right, up, and down arrow keys to recognize a key input to the left, right, up, and down arrow keys. A key input recognition device, characterized in that it is digitally recognized by judging by "0" and "1" according to the magnitude of the case compared with a predetermined threshold value. The method according to any one of claims 1 to 4, The control unit checks the voltage applied to the left, right, up, and down arrow keys to recognize a key input to the left, right, up, and down arrow keys. A key input recognition device, characterized in that for recognizing the degree of key press differentially according to the size by an analog method. In the key input recognition device, A left / right arrow key input unit having a left arrow key and a right arrow key whose voltage is changed according to the degree of pressure pressed by the user, An up / down arrow key input unit having an up arrow key and a down arrow key whose voltage is changed according to the degree of pressure pressed by the user, Outputs a power supply control signal for supplying power to the left and right arrow input unit and the up and down arrow key input unit and a switch control signal for connecting to the left, right, up and down arrow keys, respectively. When connected to the up and down keys, respectively, the voltage applied to the left, right, up and down keys is checked to recognize key input for the left, right, up and down keys, and the moving direction is determined using the key input recognition result. A control unit for determining, A power supply unit supplying power to the left and right direction key input units and the up and down direction key input units according to the power supply control signal; And a switch unit for connecting the left, right, up, and down direction keys to the control unit in order according to the switch control signal. The method of claim 7, wherein the left and right direction key input unit, A first resistor having one side connected to the power supply and receiving power; One side is connected to the other side of the first resistor, the first variable resistor for changing the voltage value across both ends so that the resistance value is changed in accordance with the pressure pressed by the user, One side is connected to the other side of the first variable resistor and the other side is connected to the ground, so that the resistance value changes in accordance with the pressure pressed by the user to include a second variable resistor for changing the voltage value across the end Key input recognition device characterized in that. The method of claim 8, wherein the up and down arrow input unit, A second resistor having one side connected to the power supply and receiving power; A third variable resistor having one side connected to the other side of the second resistor to change the resistance value according to the pressure pressed by the user, thereby changing the voltage value across the second resistor; One side is connected to the other side of the third variable resistor and the other side is connected to the ground, so that the resistance value is changed according to the pressure pressed by the user to include a fourth variable resistor for changing the voltage value across both ends Key input recognition device characterized in that. The method of claim 9, wherein the switch unit, One side is connected to the other side of the first resistor and one side of the first variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to change the voltage between one side of the first variable resistor and the ground. A first switch provided to the controller, One side is connected to the other side of the first variable resistor and one side of the second variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to switch the voltage between one side of the second variable resistor and the ground. A second switch provided to the controller, One side is connected to the other side of the second resistor and one side of the third variable resistor, and the other side is connected to the controller, and switching according to the switch control signal to switch the voltage between one side of the third variable resistor and the ground. A third switch provided to the controller, One side is connected to the other side of the third variable resistor and one side of the fourth variable resistor, and the other side is connected to the controller, and the switching operation is performed according to the switch control signal to change the voltage between one side of the fourth variable resistor and the ground. And a fourth switch provided to the controller. The method of claim 9, wherein the power supply unit, A power supply unit providing a direct current; A switch 1 having one side connected to the power supply unit and the other side connected to the first resistor and switching according to the power control signal to supply a DC current provided from the power supply unit to the first resistor; One side is connected to the power supply unit and the other side is connected to the second resistor, Switching operation for supplying a DC current provided from the power supply to the second resistor by switching in accordance with the power control signal Key input recognition device. In the key input recognition method, A first step of checking the degree to which the user presses the left, right, up, and down arrow keys, A second process of recognizing a first input for a left and a right direction and a second input for an up and down direction, respectively, according to the degree of pressing the left, right, up and down direction keys;  And a third process of determining a direction of the input by vector sum of a direction corresponding to the first input and a direction corresponding to the second input. The method of claim 12, wherein the second process, The first input and the first input for the left and right directions are digitally determined by comparing the degree of pressing the left, right, up, and down arrow keys with a predetermined threshold value and determining "0" and "1" depending on the magnitude. And a process of recognizing each of the second inputs in the downward direction. The method of claim 12, wherein the second process, Recognizing the first input for the left and right directions and the second input for the up and down directions, respectively, by an analog method of differentially determining the degree to which the left, right, up, and down arrow keys are pressed according to the size thereof. Method characterized by that. The method of claim 12, The degree to which the left, right, up, and down arrow keys are pressed by the user is caused by the resistance value of the left, right, up, down arrow keys that change as the left, right, up, and down arrow keys are pressed by the user. The voltage characterized by the left, right, up, down arrow keys. The method of claim 12, wherein the first process comprises: A first step of checking the degree to which the left and right arrow keys are pressed by the user through the voltage between the left arrow key and the ground and the voltage between the right arrow and the ground; And a second step of checking the degree to which the up and down keys are pressed by the user through the voltage between the up key and the ground and the voltage between the down key and the ground. The method of claim 16, wherein the second process,  A first step of calculating a voltage of the left and right arrow keys using the voltage between the checked left and right arrow keys and ground; A second step of determining whether the voltage of the left direction key is greater than the voltage of the right direction key as a result of the calculation; As a result of the calculation, if the voltage of the left direction key is greater than the voltage of the right direction key, it is recognized that there is an input to the left direction key, and if the voltage of the left direction key is not greater than the voltage of the right direction key, there is an input to the right direction key. A third step of recognizing,  A fourth step of calculating a voltage of the up and down keys using voltages between the up and down keys and ground; Determining whether the voltage of the uplink key is greater than the voltage of the downkey as a result of the calculation; As a result of the calculation, if the voltage of the uplink key is greater than the voltage of the downlink key, the controller recognizes that there is an input to the uplink key. If the voltage of the uplink key is not greater than the voltage of the downkey, there is an input to the downlink key. The sixth step of recognizing the method. The method of claim 17, wherein the third process, A first step of determining a direction of the input as a right direction when the direction corresponding to the first input is a right direction and there is no direction corresponding to the second input; If the direction corresponding to the first input is a left direction and there is no direction corresponding to the second input, determining a direction of the input to the left; A third step of determining a direction of the input upward when there is no direction corresponding to the first input and the direction corresponding to the second input is upward; A fourth step of determining a direction of the input downward when there is no direction corresponding to the first input and the direction corresponding to the second input is downward; If the direction corresponding to the first input is a right direction and the direction corresponding to the second input is an upward direction, determining a direction of the input as a right upper direction; If the direction corresponding to the first input is a right direction and the direction corresponding to the second input is a downward direction, determining a direction of the input in a right downward direction; A seventh step of determining a direction of the input as an upper left direction when the direction corresponding to the first input is a left direction and the direction corresponding to the second input is an upward direction; And an eighth step of determining a direction with respect to the input in a lower left direction when the direction corresponding to the first input is a left direction and the direction corresponding to the second input is a downward direction. 12. The key input device according to claim 11, further comprising an amplifier connected to one end of the control unit and connected to one end of the switch unit to amplify a voltage input from the switch unit and output the amplified voltage to the control unit.

Images