KR930004882Y1 - Relay control circuit for magnetron control of electronic range - Google Patents

Abstract

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Description

Relay control circuit for magnetron control of microwave oven

1 is a conventional circuit diagram.

2 is a circuit diagram of the present invention.

3 is a flow chart according to the present invention.

* Explanation of symbols for main parts of the drawings

1: power supply unit 2: waveform shaping circuit

3: oscillation circuit 4: microcomputer

5: high frequency noise detection circuit T ₁ : high voltage transformer

T ₂ : control transformer RY: relay

OP ₁ : OP amplifier R ₁ -R ₄ : Resistance

C _1, C _2: condenser

The present invention relates to a relay control circuit for magnetron control of a microwave oven, in particular, to grasp the voltage phase relationship between the control transformer and the high-voltage transformer to enable the magnetron control relay to be turned on and off in a section in which no current flows.

The control circuit of the conventional microwave oven includes a power supply unit 1 for converting, rectifying and smoothing AC power to DC as shown in FIG. 1, and a waveform shaping circuit for inputting a 60HZ frequency to a microcomputer by tying a waveform converted from AC to DC. ), An oscillation circuit 3 for oscillating the magnetron, a microcomputer 4 for controlling the respective parts, and a gas sensor 6 for cooking check.

In the prior art having such a configuration, the voltage and the control transformer T generated on the secondary side of the high voltage transformer T ₁ are configured to match the polarity of the high voltage transformer T ₁ and the control transformer T ₂ during the manufacturing process. The phase of the voltage generated on the secondary side of ₂ ) becomes equal.

In addition, the microcomputer 4 receives the voltage waveform on the secondary side of the control transformer T ₂ through the waveform shaping circuit 2, and the phase of the waveform is equal to the phase of the secondary voltage waveform of the high voltage transformer T ₁ . Becomes the same.

In addition, since the secondary voltage waveform of the high-voltage transformer (T ₁ ) becomes a (+) section, the microcomputer (4) is a section in which the signal input from the waveform shaping circuit (2) is (+), that is, a section in which no current flows. Control relay (RY) to turn on / off.

In other words, in the conventional control circuit, the relay RY is turned on and off in a state in which no current flows only when the polarities of the high voltage transformer T ₁ and the control transformer T ₂ match.

Therefore, when you connect the transformer (T ₁ ) (T ₂ ), you have to be very careful about the polarity. If you control the relay (RY) in a state where the polarity is not correct, noise is generated to damage the microcomputer (4). .

The present invention was devised in view of the drawbacks of the prior art, and when the magnetron operates without adjusting the voltage phase of the control transformer and the high voltage transformer in a constant state, the microcomputer grasps the voltage phase relationship between the control transformer and the high voltage transformer. When the phases are the same, the object is to provide a circuit that can control a relay in a section in which the voltage waveform is (+), that is, a section in which no current flows.

The present invention for achieving the above object is characterized by configured to suppress the generation of noise by connecting a high-frequency noise detection circuit between the existing microcomputer and the magnetron.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2 as follows.

The present invention transforms AC power into DC power and supplies power to each part, and applies a 60HZ frequency to the microcomputer by shaping waveforms from the secondary side of the control transformer T ₂ of the power supply 1. The waveform shaping circuit 2, the oscillating circuit 3 for oscillating the magnetron M, and the output of the waveform shaping circuit 2 and the noise of the amplified magtetron M are synchronized. It is connected between the T ₂₎ and the microcomputer (4) to determine the voltage phase relationship of the high voltage transformer (T _1), a magnetron (M) of the microprocessor 4 and the oscillation circuit (3) detecting and amplifying the noise, so It consists of a high frequency noise detection circuit 5 which enables the microcomputer 4 to detect noise.

According to the present invention configured as described above, the AC power is shaped and smoothed to DC through the control transformer T ₂ , the diode D, and the capacitor C ₁ of the power supply unit 1, and then applied to the microcomputer 4 and at the same time, the control transformer When the voltage waveform at the secondary side of (T ₂ ) is applied to the microcomputer 4 through the waveform shaping circuit 2 and is applied to the magnetron M through the high voltage transformer T ₁ , the magnetron is applied. (M) is operating in the microwave noise is induced in the capacitor (C ₂₎ of the high frequency noise detection circuit 5 is composed of an OP amplifier (OP ₁₎ and the resistor (R ₁ ~ R ₂₎ and capacitor (C _2).

Therefore, when the noise biased by the echo R ₃ (R ₄ ) is amplified through the OP amplifier OP ₁ and input to the A / D conversion terminal of the microcomputer 4, the microcomputer 4 generates the waveform. synchronization by repeatedly checking the output from the shaping circuit (2) it will determine the voltage phase relationship of the control transformer (T ₂₎ and a high voltage transformer (T _1).

In this case, the relay RY control is performed in a section in which the voltage waveform of the control transformer T ₂ is (+), that is, in a section in which no current flows, when the voltage phases of the control transformer T ₂ and the high voltage transformer T ₁ are the same. By controlling the relay (RY) and controlling the relay (RY) in the period where the voltage waveforms of the control transformer (T ₂ ) and the high voltage transformer (T ₁ ) are negative, noise generated from high voltage on and off can be suppressed. have.

3 shows a flow chart according to the present invention.

The subject innovation as described above is the control transformer (T ₂₎ and a high voltage transformer (T ₁₎ a high voltage transformer (T ₁₎ and the control in the do not need adjustment so that the constant voltage phase microcomputer 4 of the transformer as in the prior art ( The phase relationship of T ₂ ) can be grasped to automatically control the high voltage transformer T ₁ to operate in a region where no current flows, thereby suppressing noise generated from the magnetron M, thereby reducing the It has the effect of preventing damage.

Claims (2)

A circuit for controlling a microcomputer to turn on and off a relay in a section in which a signal input from a waveform shaping circuit is positive by matching a polarity of a control transformer and a high voltage transformer, wherein the phase of the high voltage transformer and the control transformer is detected. In order to configure a high frequency noise detection circuit between the magnetron and the microcomputer to control the magnetron control relay according to the output of the high frequency noise detection circuit, the magnetron control relay control circuit of the microwave oven. The microwave control relay control circuit according to claim 1, wherein the high frequency noise detection circuit comprises a capacitor for inducing microwave noise, a resistor for biasing the noise, and an amplifying OP amplifier.