KR900002159Y1 - Mistaking control circuit for electronic range - Google Patents

Abstract

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Description

Malfunction prevention circuit of the microwave oven at initial power-up

1 is a power supply and relay control circuit diagram of a conventional microwave oven.

2 is a malfunction prevention circuit diagram of the microwave oven according to the present invention.

* Explanation of symbols for main parts of the drawings

1: rectification and smoothing circuit 2: reverse current and overvoltage prevention circuit

3: constant voltage source circuit 4: reset circuit

5: micom 6,7,8: relay drive circuit

9: relay control circuit T ₁ : transformer

D ₁ -D ₉ : Diode R ₁ -R ₇ : Resistance

C ₁ ~ C ₃ : Capacitor Q ₁ ~ Q ₈ : Transistor

ZD ₁ : Zener Dial Loud

The present invention relates to a power supply circuit of a microcomputer microwave oven, and in particular, to prevent malfunction of the microwave oven when the initial power is applied to prevent the microwave oven from being instantaneously driven even when the initial power is applied. It is about a circuit.

The present invention relates to a malfunction prevention circuit of a conventional microwave oven.

In the conventional microwave oven, the configuration of the power supply circuit and the relay driving circuit of the microwave oven when the initial power is applied, as shown in FIG. ₁ , the diodes D ₁ (D ₂ ) and the capacitors C at both ends of the transformer T ₁ . _The rectification and smoothing circuit (1) consisting of ₁ ~ C ₃ ) is connected to rectify and smooth the voltage, and the cathode of the diode (D ₁ ) is connected to the power supply (Vcc) and the diode (D ₃ ) and the resistor (R ₁ ~) R ₄ ) connects the reverse current and overvoltage protection circuit 2, and connects a constant voltage source circuit 3 composed of a transistor Q ₁ , a resistor R ₅ , a diode D ₄ , and a zener diode ZD ₁ . The operating power is applied to the microcomputer 5, and the transistors Q ₂ and Q ₃ and the resistors R ₆ -R ₈ are passed through the cathode resistor R ₆ of the zener diode ZD ₁ . signal of the diode (D _5), a capacitor (C ₄₎ is connected to the (C ₅₎ a reset circuit (4) configured to control the microprocessor (5) and the microcomputer (5) Ryeokdan (Sout ₁₎ the emitter of the main relay drive circuit 6, a resistance (R ₉₎ (R ₁₀₎ a through supply a bias to the base and the emitter of the transistor (Q ₄₎ and a transistor (Q ₄₎ of the emitter diode ( D ₆ ) and the main relay (RY ₁ ) are connected to the power supply (Vcc) in parallel, and the signal output terminal (Sout ₂ ) is powered as described above to open the resistor (R ₁₁ ) (R ₁₂ ) of the relay drive circuit (7). in that after supplying the bias to the base and the emitter of the transistor (Q ₅₎ and via a parallel connection of the collector of the transistor (Q ₅₎ is a diode (D ₇₎ and pawooeo relay (RY ₂₎ connected to the power supply (Vcc) configuration The operation state thereof will be described with reference to the drawings.

When the initial power is applied, the voltage induced in the transformer T ₁ is rectified and rectified by the diodes D ₁ and D ₂ and rectified and smoothed through the capacitors C ₁ to C ₃ .

The smoothed voltage is a diode (D ₃₎ and a resistor (R ₁ ~ R ₄₎ reverse-current and over-voltage protection circuit (2) is applied to the transistor (Q ₁₎ for biasing the transistor base of the constant-voltage circuit 3 via a conduction voltage of the driving transistor by (Q ₁₎ emitter sikimyeo outputs the potential of the state, to the transistor (Q _1), the Zener diode (ZD ₁₎ during the initial base potential through the diode (D ₄₎ of the (0.7V) Since it becomes the following, it does not pass through the zener diode ZD ₁ and is applied to the transistor Q ₂ base of the reset circuit 4.

The transistor Q ₂ is turned off and the transistor Q ₃ is driven so that the emitter output of the transistor Q ₁ of the constant voltage circuit 3 passes through the transistor Q ₃ and resets the reset stage R of the microcomputer 5. Since the high voltage is applied to the microcomputer 5, the microcomputer 5 is in a reset state, thereby preventing the microcomputer 5 from malfunctioning when the unstable initial power is applied.

After a certain period of time, when a normal power source is applied instead of an unstable initial power source, the power source that has passed through the rectifying and smoothing circuit (1) and the reverse current and overvoltage protection circuit (2) turns the transistor (Q ₁ ) of the constant voltage source circuit (3). sikimyeo is driven at the same time diode (D ₄₎ via a zener diode (ZD ₁₎ conduction voltage (0.7V) or more is caused to flow through the zener diode (ZD _1), the transistor (Q _2), the base of the reset circuit 4 is low In this state, the transistor Q ₂ is driven to drive the transistors Q ₃ to drive the relays RY ₁ and RY ₂ , respectively, so that the microwave oven is about 20-30 msec even when the initial power is applied. It was momentarily driven and malfunctioned.

Therefore, the present invention is designed to improve the above problems, and to control the transistors connected to the main relay and the power relay as a reset signal of the microcomputer to control each relay when the initial power is applied. Referring to the configuration according to the accompanying drawings as follows.

2 is a diagram illustrating a microcomputer malfunction prevention circuit of a microwave oven when an initial power is applied according to the present invention, and includes diodes D ₁ and D ₂ and capacitors C ₁ to C ₃ at both ends of a transformer T ₁ . The rectification and smoothing circuit 1 is connected to rectify and smooth the voltage, and the cathode of the diode D ₁ is connected to the power supply Vcc to reverse the current of the diode D ₃ and the resistors R ₁ to R ₄ . And an overvoltage prevention circuit 2 and a constant voltage source circuit 3 composed of a transistor Q ₁ , a resistor R ₅ , a diode D ₄ , and a zener diode ZD ₁ to connect the microcomputer 5 to the microcomputer 5. The operating power is applied to the transistor Q ₂ , Q ₃ , resistors R ₆ -R ₈ , diode D ₅ , through the cathode resistor R ₆ of the zener diode ZD ₁ , a capacitor (C ₄₎ (C ₅₎ is connected to the reset circuit 4 is composed of a control microcomputer 5 and the output signal (Sout ₁₎ (Sout ₂₎ of the microcomputer (5) Via a respective resistor (R ₁₃ ~ R ₁₅₎ being connected to the transistor (Q ₆₎ and a transistor (Q _7), the base of the relay drive circuit (8), the transistor (Q _6), (Q ₇₎ is a cathode code (Cascode ), Diode (D ₈ ) and main relay (RY ₃ ) are connected in parallel to the collector of transistor (Q ₆ ) and connected to the power supply (Vcc) .The emitter is diode (D ₉ ) and power relay (RY _4). ) Is connected in parallel to the power supply (Vcc), and the base of the transistor (Q ₇ ) connects the collector (Q ₈ ) of the relay control circuit (9) to which the base of the terminal (R) of the microcomputer (5) and the base are connected. In the configuration in which the resistor R ₁₇ is connected between the base and the emitter by connecting the same, the operation and effect of the circuit configuration will be described with reference to the accompanying drawings.

When the initial power is applied, the reset operation of the microcomputer 5 is the same as the conventional operation description, and during the reset operation of the microcomputer 5, high signals are output to the signal output terminals Sout ₁ and Sout ₂ , respectively, so that the relay driving circuit 8 The transistors Q ₆ and Q ₇ are driven to drive the main relay RY ₃ and the power relay RY ₄ , but at this time, the reset terminal R of the microcomputer 5 is a high state signal. The high signal is applied to the transistor Q ₈ base of the relay control circuit 9 to drive the transistor Q ₈ to flow the signal output terminal Sout ₂ signal of the microcomputer 5 to the ground terminal.

The base of the transistor (Q ₇₎ in accordance with the above are also to be low because the off state is off the transistor (Q ₇₎ transistors (Q ₆₎ and by a code cathode connection of the transistor (Q ₆₎ transistor (Q _6).

Therefore, the main relay RY ₃ and the power relay RY ₄ are turned off to prevent the microwave oven from operating momentarily.

Therefore, the present invention prevents the loss of product malfunctions and damages by preventing the microwaves from being instantaneously driven by the reset terminal signal of the microcomputer as each relay is driven even in the reset state of the microcomputer upon initial power-up as described above. By doing so, consumers can use the product more safely and conveniently.

Claims (1)

In the power supply and the relay control circuit of the microwave oven in which the microcomputer 5 is reset when the initial power is applied and the relay is controlled by the signal output terminal Sout ₁ (Sout ₂ ) signal of the microcomputer 5, A cascaded transistor Q ₆ (Q ₇ ) is connected to the signal output terminals Sout ₁ and Sout ₂ , respectively, to the collector and emitter of the transistor Q ₆ for the main relay RY ₃ and the powder relay RY _4. ) for connection and, the base, of the transistor (Q ₇₎ connects the transistor (Q ₈₎ the collector of the reset stage (R) and the base is connected to the relay control circuit 9 of the microcomputer (5) upon application of the initial power microcomputer A circuit for preventing malfunction of the microwave oven when the initial power is applied, wherein the relays RY ₃ and RY ₄ are turned off in the reset state of (5).