KR970007585A - Key Matrix Circuit and Key Recognition Method - Google Patents

Abstract

The present invention is composed of a key matrix, a pull-up resistor, a distribution resistor unit, an A / D converter, and a microcomputer to generate different voltage values generated when a plurality of keys included in the key matrix are turned on. If the power supply voltage applied to the key matrix circuit is detected as it is, all the keys are turned off, and the pull-up resistor R _o and the distribution resistors R ₁ to R _M included in the key matrix circuit are recognized. ₁₎ the power supply voltage (V _DD) by this is distributed when the voltage value V (M), as shown in the expression below detection key matrix circuit for recognizing that the number of keys included in the key of the M-th matrix-one and The key recognition method is connected to a large number of keys, and when each key is turned on, the A / D converter which inputs a different voltage value and converts it into a digital signal is connected to the input port of the microcomputer. Assigned Because it can significantly reduce the number of MCU ports to improve the input and output efficiency of the microcomputer, a key advantage of the scalable key matrix.

Description

Key Matrix Circuit and Key Recognition Method

Since this is an open matter, no full text was included.

3 is a diagram showing a key matrix circuit according to the present invention, and FIG. 4 is a flowchart showing a key recognition method of the key matrix circuit according to the present invention.

Claims (5)

A key matrix including a plurality of keys, a pull-up resistor that is connected in parallel with the key matrix and is supplied with a power supply voltage, and when any key included in the key matrix is on; A distribution resistor unit including a plurality of distribution resistors for distributing the power supply voltage together with a pull-up resistor, an A / D converter for receiving the pull-up resistors and the voltage values distributed by the distribution resistor unit and converting them into digital signals; A key matrix circuit comprising a microcomputer that senses which key is on by sensing a digital signal output from an A / D converter. The key matrix circuit according to claim 1, wherein a plurality of keys included in the key matrix are connected in parallel to each other and simultaneously connected to ground. The key matrix as claimed in claim 1, wherein when the number of the plurality of keys included in the key matrix is N, the distribution resistor unit includes N-1 distribution resistors connected one by one between each key. Circuit. 2. The method of claim 1, wherein when any key number included in the key matrix is M, V (M) indicating a voltage value distributed by the pull-up resistor and the distribution resistor unit when the M key is turned on, It is defined as Wherein R _o is the pull-up resistor, R ₁ to R _M-1 are the distribution resistors included in the distribution resistor section, and V _DD is the power supply voltage. Detects the different voltage value generated when each of the plurality of keys included in the key matrix is turned on, and recognizes that all the keys are off when the power voltage applied to the key matrix circuit is detected as it is. The power supply voltage V _DD is divided by the pull-up resistor R _o and the distribution resistors R ₁ to R _{M-1 included} in the key matrix when the voltage value V (M) indicated as shown below is detected. A key recognition method of a key matrix circuit, characterized in that the number of keys are recognized as having been turned on. ※ Note: The disclosure is based on the initial application.