KR890004800Y1 - Error movement cheek circuits of micom - Google Patents

Abstract

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Description

Micom's malfunction prevention circuit

1 is a malfunction prevention circuit diagram of the present invention.

FIG. 2 (a)-(f) is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: Micom 2: Initial reset circuit

3: mono-multi TR ₁ : transistor

COM ₁ : Comparator R ₁ -R ₅ : Resistance

C ₁ , C ₂ : Capacitor I ₁ : Inverter

The present invention relates to a malfunction prevention circuit of the microcomputer to prevent a malfunction by resetting when the microcomputer malfunctions and fails to execute a predetermined program normally.

Conventionally, only an initial reset circuit which resets the microcomputer at the initial time of power supply is connected to the microcomputer, and when the microcomputer malfunctions, there is no circuit configured to detect and reset the microcomputing. There was a fault that would continue to perform the malfunction.

The present invention, in view of such a conventional defect, detects the malfunction of the microcomputer using a pulse signal that is periodically output when the microcomputer is in normal operation, and when the malfunction is detected, the microcomputer is designed to recess the micom, This will be described in detail with reference to the accompanying drawings.

FIG. 1 is a malfunction prevention circuit diagram of the present invention. As shown in FIG. 1, in a reset circuit in which the reset terminal RST of the microcomputer 1 is connected to the output terminal side of the initial reset circuit 2, The pulse signal output terminal PO of 1) is connected to the input terminal of the mono multi 3 through the output terminal diode D ₁ of the mono multi 3, and then the initial reset through the diode D ₂ . via a resistor (R ₁₎ with the output terminal of the circuit (2) connected in common to the base and a resistor (R ₂₎ of the transistor (TR ₁₎ and the collector of the traffic register (TR ₁₎ has a resistance (R ₃₎ and a condenser (C ₁ ). A comparator (COM ₁₎ the inverting input terminal of the (-) connected by connecting the comparator non-inverting input terminal (+) of (COM _1), the resistance (R ₁₎ and zener diode (ZD ₁₎ on, and the output terminal The capacitor (C ₂ ) and the reset terminal of the microcomputer 1 together with the output terminal of the initial reset circuit 2 through the resistor R ₃ , the inverter I ₁ , the diode D ₃ and then the diode D ₄ . In this case, the pulse signal output terminal PO of the microcomputer 1 outputs a pulse signal when the microcomputer 1 operates normally. Is the power terminal.

If described in detail with reference to the waveform diagram of Figure 2 the effect of the present invention configured as described above.

When Sagan (t _0), the power to the power supply terminal (Vcc) applied to the first 2 (a) is a high potential signal at the output terminal of the initial reset circuit (2) outputs, as shown in Fig diode (D ₄₎ Since the microcomputer 1 is reset to the reset terminal RST of the microcomputer 1 through the reset terminal RST, the microcomputer 1 is reset at the initial time when the power is applied, and the microcomputer 1 is reset to the initial reset circuit 2. The output high potential signal is applied to the base of the transistor TR ₁ through the diode D ₂ and the resistor R ₁ and is turned on so that the power supply of the power supply terminal Vcc is turned on through the resistor R ₃ . ₁₎ it flows, the capacitor (C _1), the first 2 (d) is a low potential signal charge as shown in Figure-inverting input terminal (of the comparator (COM ₁₎ - is applied to), wherein the comparator (COM ₁ ) Viva I input terminal (+) is because the application of the Zener voltage (V _ZD) of the zener diode (ZD _1), shown in claim 2 (e) is also the output terminal of the comparator (COM ₁₎ of The signal high potential is outputted as its output a high potential signal is inverted in claim 2 (f) a low potential signal, as shown in Fig through the condenser via the (C _2), and an inverter (I ₁₎ diode It is applied to the reset terminal RST of the microcomputer 1 via (D ₃ ).

In this state, a predetermined time (t ₁ ) has elapsed, and a low potential signal is output from the output terminal of the initial reset circuit (2), and the microcomputer (1) performs a normal operation at its pulse signal output terminal (PO). When the pulse signal is output as shown in FIG. 2 (b), the pulse signal is input to the mono multi 3, and the output terminal of the mono multi 3 is pulsed as shown in FIG. 2 (c). signals are output, and the output pulse signal is power to the diode (D ₁₎ and a resistor (R ₁₎ is applied to the base of the transistor (TR ₁₎ over so he came. repeat the off capacitor (C ₁₎ terminals ( claim 2 (d) the power supply of Vcc) via a resistor (R ₃₎ as shown in Fig. as the charge on the capacitor (C _1), the inverting input terminal (of the comparator (COM ₁₎ - is applied to), mono multi ( 3) when the high potential signal is output from the transistor (TR ₁₎ on the capacitor (C ₁₎ the room through the charging potential transistor (TR ₁₎ to That is to perform a repeated gyeot.

Therefore, when the microcomputer 1 performs the normal operation and outputs the pulse signal to the pulse signal output terminal PO thereof, the potential applied to the inverting input terminal (-) of the comparator COM ₁ has its non-inverting input terminal. Since it is lower than the Zener voltage V _ZD of the constant voltage diode ZD ₁ applied to the positive _pole , the high potential signal is continuously output to the output terminal of the comparator COM ₁ as shown in FIG. The high potential signal is applied to the reset terminal RST of the microcomputer 1 through the capacitor C ₂ and is inverted into a low potential signal through the inverter I ₁ , and then through the diode D ₃ . (1) is not reset and continues normal operation.

In this state, when the microcomputer 1 malfunctions at the time t ₂ and no pulse signal is output to the pulse signal output terminal PO thereof, a low potential signal is output to the output terminal of the monomulti 3 and a transistor is output. (TR ₁₎ is while continuing to allow the off state, so to continue charging the capacitor (C ₁₎ as the power source of the power supply terminal (Vcc) via a resistor (R ₃₎ shown in claim 2 (d) comparator (COM ₁ When the potential charged to the capacitor C _{1 after} being applied to the inverting input terminal (-) of the constant voltage (t ₃ ) has passed the zener voltage (V _ZD ) of the constant voltage diode (ZD ₁ ), the comparator ( COM ₁ ) A low potential signal is output to this output terminal as shown in FIG. 2 (e), and the output low potential signal is passed through a capacitor C ₂ and a _second voltage is transmitted through an inverter I ₁ . (f) as shown in Fig inverted to the high potential signal so applied to the reset terminal (RST) of the microcomputer (1) via a diode (D _3), the microprocessor (1) is It is set, a malfunction has been stopped, and performs the operations again from the initial state.

As described above, if the microcomputer malfunctions, the present invention detects the malfunction and resets the microcomputer, thereby preventing the microcomputer from malfunctioning and preventing the risk of a safety accident due to the malfunction of the microcomputer. There is.

Claims (1)

In the reset circuit in which the initial reset circuit (2) is connected to the reset terminal (RST) of the microcomputer (1), the pulse signal output terminal (PO) of the microcomputer (1) passes through the monomulti (3). The inverting input terminal of the resistor R ₃ , the capacitor C ₁ , and the comparator COM ₁ is connected to the base side of the transistor TR ₁ together with the output terminal side of the initial reset circuit 2. -), the microcomputer connected, and through the non-inverting input terminal (+), the resistance (R ₄₎ and constant voltage diodes (inverter (I ₁₎ for his output jacheuk by connecting ZD ₁₎ of a comparator (COM ₁₎ to (1) Micom's malfunction prevention circuit, characterized in that connected to the reset terminal (RST) side of the microcomputer.