JPH03149610A - Key entry device - Google Patents

Abstract

PURPOSE:To surely detect the abnormality of an output signal by substituting a diode, a resistor, or a short-circuit line for one of key switches connected at least to one output terminal and detecting the presence or absence of fault in accordance with a state indicating whether the input of the substituting part is closed state or not. CONSTITUTION:A microcomputer MC is provided with plural input terminals I0 to I3 and plural output terminals O10 to O13, O30 to O33. A diode, a resistor, or a short-circuit line(S) is substituted for one of key switches K connected at least to one output terminal O13 e.g. and the presence or absence of a fault is detected in accordance with a state indicating whether the input of the replacing part is a closed state or not. When other key switches K connected to the output terminal O13 are set up as important switches, the disablement of these key switches K can be detected and the key switches can be prevented from being left disabled.

Description

DETAILED DESCRIPTION OF THE INVENTION [Statement of the Invention] (Field of Industrial Application) The present invention relates to a key input device having a plurality of key switches arranged in a matrix. (Prior Art) This heel key input device has signal lines connected to a plurality of input terminals and a plurality of output terminals of a microcomputer, for example, and a signal line connected to each input terminal and a signal line connected to each output terminal. The signal lines are arranged in a matrix, and a key switch is connected to each intersection of the matrix circuit. For example, a low level signal is sequentially output from each output terminal, and depending on whether the signal input to each input terminal is low level/% high level at the output timing of that signal, it is determined whether the corresponding key switch is turned on or not. I am trying to load it. In this device, if a failure occurs in the microcomputer and it becomes impossible to output a low-level signal from one of the output terminals, the key switch connected to the signal line connected to that output terminal will be activated regardless of whether the switch is operated or not. All will be read as open. In other words, the key switch cannot be read. (Problem to be Solved by the Invention) However, in the conventional device, even if such a failure occurred, it could not be detected. For this reason, if the key switch connected to the signal line in which the abnormality has occurred is a key switch that plays an important role in controlling the control device, there is a risk of serious trouble in control. For example, in the case of a stop switch in a combustion device, if a failure occurs during combustion, there is a problem in that the combustion operation cannot be stopped even if the stop switch is operated. SUMMARY OF THE INVENTION Accordingly, the present invention aims to provide a key input device that can reliably detect when an abnormality occurs in a signal output from an output terminal, and eliminates the risk of leaving a key switch disabled. . [Structure of the Invention] (Means for Solving the Problems) The present invention forms a matrix circuit by connecting signal lines to a plurality of input terminals and a plurality of output terminals, respectively, and connects each signal line to each intersection of the matrix circuit. In a key input device that connects a key switch and reads the presence or absence of an input to each key switch by detecting the level state of a signal input to each input terminal at the timing of sequentially outputting a signal from each output terminal, at least one One of the key switches connected to the output terminal is replaced with a diode, a resistor, or a short-circuit wire, and the presence or absence of a failure is detected based on whether the input of this replacement part is in a closed state. (Function) In the present invention having such a configuration, one of the key switches connected to at least one output terminal is replaced with a diode, a resistor, or a short-circuit wire, so that the signal output from the output terminal is normal. Whether or not it can be detected by the replacement part. Therefore, if you make other key switches connected to that output terminal important switches, you can know when those key switches are inoperable.
, there is no risk of it being left inoperable. (Example) Hereinafter, an example of the present invention will be described with reference to the drawings. In Fig. 1, MC is a microcomputer that constitutes the main body of the control section, and this microcomputer
Built-in OM, RAM, timer, etc. Further, the microcomputer MC has a plurality of input terminals 1o, Is.
, 12.1i and a plurality of output terminals 01°, 0. ．． ,0.
□, Qll, 02°. Oson O118012@O)m is provided. - each of the input terminals 10. I,,I,,1. There are signal lines 11.12-. 1m, 14 are connected. Signal lines I, 16, 17, . Ig is connected. and each of the signal lines 1. , 12.13° 14 and each of the signal lines Is, 16. Lt and Ig form a matrix circuit. Each of the signal lines 11.12. li, 1
4 are pull-up resistors R*, R2, Rs, R, respectively
It is connected to the TE vCC terminal via 4. In the matrix circuit, each signal line IIs1, .
1. ．． l, and each signal line I%, 16°17, and each signal line 12, l,. A key switch K is connected to each intersection between the signal line 14 and the signal line l. Furthermore, the signal line 11 and the signal line 1. A shorting line S is connected to the intersection with the . The output terminal 02° has an output inversion type driver DCl.
input terminal is connected. And the driver D
The output terminal of CI is connected to the VCC terminal via a light emitting diode LED and a current limiting resistor R in series. The output terminal 010 has an output inversion type driver DC2.
input terminal is connected. And the driver D
The output terminal of C is connected to VC via relay coil L V t.
Connected to C terminal. A diode D for absorbing back electromotive force is connected in parallel to the relay coil Ly1. An input terminal of an output inversion type driver DC is connected to the output terminal O0. And the driver DC
, are connected to the vcc terminal via the relay coil LY2. A diode D2 for absorbing back electromotive force is connected in parallel to the relay coil LVz. The output terminals 0 and 2 are equipped with an output inversion type driver DC.
The input terminal of a is connected. The output terminal of the driver DC is connected to the VCC terminal via a light emitting diode LED and a current limiting resistor R6 in series.
. - The output terminal 033 has an output inversion type driver DC,
input terminal is connected. And the driver D
The output terminal of C is connected to the vcc terminal via a light emitting diode LED and a current limiting resistor R7 in series. The microcomputer MC has each output terminal 010,
As shown in FIG. 2, low level signals are sequentially output from 012.011 onwards. Then, each input terminal I at the timing of outputting a low level signal from the output terminal OIo. , 1. ．． The level of the signal input to I2.13 is detected to detect whether or not a key switch connected to the intersection of signal lines 11-14 and signal line 1 has been operated. Also, each input terminal I at the timing when a low level signal is output from the output terminal 011. w I j # I 2 The signal level input to tI3 is detected and signal line 1. ~14 and signal line 1
The presence or absence of an operation on a key switch connected to the intersection with 6 is detected. Also, at the timing when a low level signal is output from the output terminal 082, each input terminal ■. *II
n ■2+! , and detects whether or not a key switch connected to the intersection of the signal lines 11 to 14 and the signal line 17 has been operated. Furthermore, each input terminal 1, . I. 42. Detects the signal level input to 13 and outputs from output terminal 0 and the state of the signal and signal lines 12 to 1
The presence or absence of an operation on a key switch connected to the intersection of signal line 17 and signal line 17 is detected. The microcomputer MC selectively outputs a high level signal to the output terminals 03° to 0,3 by operating the key switch, and selectively operates the relay coil L''I*+LY2 and the light emitting diodes LED, , LED. let me,
Also, output terminal 0. ．． 0. ．． Outputs a low level signal to the relay coil ty,. Ly2 and light emitting diode LED2. The operation of the LED 3 is stopped. . The microcomputer MC also outputs an input terminal I at the timing when a signal is output from an output terminal 013, as shown in FIG. If the input signal level is high when detecting the signal level input to the output terminal 013, it is determined that an abnormality has occurred in the signal from the output terminal 013, and a high level signal is output to the output terminal 020. ~033
outputs a low level signal to relay coil L”jx,
L) 12 and light emitting diodes L E D2 , L E
The operation of Dl is forcibly stopped. In this embodiment having such a configuration, when the key switch K of the matrix circuit is turned on, a low level signal is generated on the signal line 1 connected to the key switch K and is input to the corresponding input terminal. . In this way, the microcomputer MC determines which key switch K has been operated, and outputs the output terminals O,. A high level signal is selectively output to ~0 and 3, and the relay coil L ``l * +
L”I 2 and light emitting diode LED2 .LED
, are selectively operated. Also, at the timing when a signal is output from output terminal O13, input terminal ■. The signal level input to is detected,
If the signal level is low, it is determined that the low level signal is normally output from the output terminal 013. Also, if the signal level is high level, output terminal 01
．． It is determined that an abnormality has occurred in the signal from. At this time, a high level signal is output to the output terminal 02° to light up the light emitting diode LED, and a low level signal is output to the output terminals 030 to 033 to output the relay coil L)1°Ly2 and the light emitting diode LEDz.
Forcibly stop the operation of LED1. This ensures safety. Therefore, if the key switches K connected to the intersections of the signal lines 12 to 14 and the signal line 18 are key switches that play an important role in control, these key switches K will become disabled due to signal abnormality. Relay coils Ly, Ly2 and light emitting diodes 2°LED, which can detect the current state and light up a light emitting diode LED to notify the user, are also used for control.
can be forcibly stopped. In this way, there is no risk of the key switch being left inoperable. In the above embodiment, the short-circuit line S was connected only to the intersection of the signal line 1 and the signal line 18, but the invention is not limited to this, and the short-circuit line S
may be further connected to the intersection of the signal line 11 and the signal lines 15 to 1f. In this way, further output terminals O,. Abnormalities in the signals from ~0 and 2 can also be detected, making it more reliable. ,In addition,
Although a short-circuit wire is used in the above embodiment, the present invention is not necessarily limited to this, and a diode or a resistor may also be used. [Effects of the Invention] As detailed above, according to the present invention, when an abnormality occurs in the signal output from the output terminal, it can be detected reliably, and there is no possibility that the key switch may be left inoperative. It is possible to provide a key input device that does not require a key input device.

[Brief explanation of the drawing]

The figures show an embodiment of the present invention, in which Fig. 1 is a circuit diagram of the main part, Fig. 2 is a signal waveform diagram output from the output terminal, and Fig. 3 is a flowchart showing the main part judgment processing by the microcomputer. It is. MC...Microcomputer, IO-1,...Input terminal, 01°~01. ...Output terminal, K-...Key switch, S...Short wire.

Claims (1)

[Claims] A matrix circuit is formed by connecting signal lines to a plurality of input terminals and a plurality of output terminals, a key switch is connected to each intersection of this matrix circuit, and a signal is sequentially output from each of the output terminals. In the key input device that reads the presence or absence of input to each key switch by detecting the level state of the signal input to each input terminal, one of the key switches connected to at least one output terminal is connected to a diode, a resistor, or A key input device characterized in that a short-circuit line is substituted, and the presence or absence of a failure is detected based on whether the input of the substitute section is in a closed state.