KR200154599Y1 - Power relay operation circuit for microwave oven - Google Patents

Abstract

The present invention relates to a power relay driving circuit of a microwave oven, and the control signal output from the microcomputer 10 to operate the power relay RY is delayed for a predetermined time by using the capacitor C to zero crossing time of the AC power supply. By operating the power relay in, there is an effect that can prevent the inrush current.

Description

Microwave Power Relay Drive Circuit

The present invention relates to a power relay driving circuit of a microwave oven, and more particularly, an electron that reduces an inrush current by adjusting an operating time point of a power relay operated by a microcomputer of a main printed circuit board. It relates to a power relay driving circuit of a range.

In general, a microwave oven generates microwaves by applying a high-voltage electric power to a microwave oscillation tube called magnetron, unlike a conventional cooking apparatus of a conventional external heating method using heat conduction and heat radiation.

When microwave is applied to the food as described above, a lot of frictional heat is generated as the molecules constituting the food rotate at a high speed, and the food is heated and cooked by this heat.

As shown in FIG. 1, the driving circuit of the microwave oven operated according to the above principle includes a noise filter 1, a low pressure transformer 2, a LVT, a fan motor FM, and a rotation plate driving motor GM. , Various loads (3) consisting of lamps (L), high voltage transformers (4, HVT), high voltage capacitors (HVC) and high voltage diodes (HVD), back pressure circuits (5), magnetrons (6), and microcomputers (not shown). And a printed circuit board 7).

The noise filter 1 removes noise of a commercial AC power source (AC220V, 60 Hz in Korea) input from the outside, and the low voltage transformer 2 replaces the commercial AC power input through the noise filter 1 with a printed circuit board. (7) is transformed into a low voltage for driving and supplied to the printed circuit board (7).

The high voltage transformer 4 converts the commercial AC power input through the noise filter 1 into a high voltage, inputs the voltage into the back pressure circuit 5, and simultaneously generates a low voltage for the filament of the magnetron 6 to generate the magnetron 6. ).

The back pressure circuit 5 backs up the power supply voltage supplied from the high voltage transformer 4 and supplies it to the magnetron 6, and the magnetron 6 generates microwaves by the high voltage supplied in this way.

At this time, the operation of the various loads 3 and the magnetron 6 is controlled by the printed circuit board 7, the printed circuit board 7 controls the operation of various relays (main relay, power relay, etc.) It is to control the operation of the microwave oven.

The printed circuit board 7 is implemented by a microcomputer and various electronic devices. The power relay driving circuit for driving the power relays (POWER, RELEY) in the printed circuit board 7 is shown in FIG. Similarly, the microcomputer 10 includes a plurality of transistors TR1, TR2, and TR3, a plurality of resistors R1 to R5, and a diode D1.

As shown in FIG. 2, when a user selects a cooking by operating a cooking selection key and starts cooking by operating a cooking start key, a high signal OV is generated in the provisional section, and at this time, the terminal of the microcomputer 10 ( P2) will have -5V.

Accordingly, transistor TR3 is turned on and current flows along line ②, transistor TR1 is turned on, and current flows to terminal P2 of micom 10 through lines ③ and ①.

At this time, the transistors TR1 and TR3 remain on as long as the terminal P2 of the microcomputer 10 maintains -5V even when the cooking start key is released. In this state, the terminals of the microcomputer 10 are turned on. When (P1) is set at -5V, the transistor TR2 is turned on and the power relay RY is turned on.

The on / off of the power relay RY during the cooking is controlled by the terminal P1 of the microcomputer 10.

However, in the conventional power relay driving circuit operating as described above, since the power relay has an operation delay period of a predetermined time due to the characteristics of the relay, there is a problem in that the inrush current is generated by the operation time deviation of the power relay.

That is, the commercial AC power supply has a minimum current value at a point where the voltage value is maximum, and a maximum current value at a point where the voltage value is minimum.

Therefore, in order to prevent the inrush current, the power relay must be operated at the point where the voltage value of the commercial AC power supply is maximum, but there is a problem that the inrush current is generated due to the deviation of the operating time of the power relay.

The present invention is to solve the conventional problems as described above, to provide a power relay driving circuit of the microwave oven to prevent the inrush current by operating the power relay at the zero crossing time (ZERO CROSSING TIME) of the AC power source. The purpose is.

In the microwave power relay driving circuit according to the present invention for achieving the above object, in the power relay driving circuit of the microwave oven to supply the AC power to the high-voltage transformer through the power relay by controlling the operation of the power relay by the microcomputer. ,

Delay means for delaying the control signal output from the microcomputer to operate the power relay for a predetermined time, so that the power relay operates at the zero crossing time of the AC power source.

1 is a circuit diagram of a general microwave driving circuit,

2 is a circuit diagram of a conventional power relay driving circuit,

3 is a circuit diagram of a power relay driving circuit according to the present invention,

4 is a timing diagram for explaining the operation of the power relay driving circuit according to the present invention.

* Explanation of symbols for main parts of the drawings

10: micom TR1, TR2, TR3: transistor

R1, R2, R3, R4, R5: Resistor D1: Diode

C: Capacitor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram of a power relay driving circuit according to the present invention, the power relay driving circuit of the microwave oven according to the present invention, the microcomputer 10, a plurality of transistors (TR1, TR2, TR3), a plurality of resistors (R1) To R5), a diode D1, and a capacitor C connected between the transistor TR2 and the output terminal P1 of the microcomputer 10.

As shown in FIG. 3, when the user selects a cooking by operating a cooking selection key and starts cooking by operating a cooking start key, a high signal OV is generated in the provisional part, and at this time, the terminal of the microcomputer 10 ( P2) will have -5V.

Accordingly, transistor TR3 is turned on and current flows along line ②, transistor TR1 is turned on, and current flows to terminal P2 of micom 10 through lines ③ and ①.

At this time, the transistors TR1 and TR3 remain on as long as the terminal P2 of the microcomputer 10 maintains -5V even when the cooking start key is released. In this state, the terminals of the microcomputer 10 are turned on. When (P1) is set at -5V, the transistor TR2 is turned on and the power relay RY is turned on.

The on / off of the power relay RY during the cooking is controlled by the terminal P1 of the microcomputer 10.

In this case, the control signal output from the microcomputer 10 is delayed by the capacitor C for a predetermined time to operate the transistor TR2, and thus the time for which the power relay RY operates is delayed for a predetermined time. The power relay RY operates at the zero crossing time of the AC power supply to prevent inrush current.

4 is a timing diagram for explaining the operation of the power relay driving circuit according to the present invention, (A) shows the waveform of the AC power supply, (B) shows the contact operation of the power relay, (C ) Shows the control signal output from the microcomputer.

As shown in FIG. 4, the AC power source AC has a minimum current value at a time point a when the voltage value is maximum, and a maximum current value at time point b when the voltage value is minimum. The inrush current can be prevented by operating the power relay at a time point (a) at which the voltage value is maximum.

That is, as shown in (C) of FIG. 4, the control signal output from the microcomputer 10 is delayed for a predetermined time in the capacitor d, again at a time c delayed by the relay characteristic, At zero crossing time, the power relay contacts are on to prevent inrush current.

As described above, according to the present invention, the power relay operates at the zero crossing time of the AC power, thereby preventing the inrush current of the microwave oven.

Claims (2)

In the microwave power relay driving circuit for controlling the operation of the power relay by the microcomputer to supply AC power to the high-voltage transformer through the power relay, Delay means for delaying the control signal output from the microcomputer to operate the power relay for a predetermined time, the delay means for operating the power relay at the zero crossing time of the AC power supply is further provided. . The method of claim 1, And the delay means comprises a capacitor connected to the output terminal of the microcomputer.