KR900005043Y1 - Power relay driving circuit of electronic range - Google Patents

Abstract

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Description

Microwave power control relay drive circuit

1 is a control block diagram of a microwave oven to which the present invention is applied.

2 is an internal block diagram of the first microcomputer.

3 is a detailed circuit diagram of the relay driving determination unit of FIG. 2;

4 is a diagram illustrating a relay driving time point for an input voltage.

* Explanation of symbols for main parts of the drawings

1: Micom 5: Power control relay drive device

12 control unit 16 relay drive unit

17: relay drive determination unit 171: counter

172,173: shift register AND ₁ -AND ₁₇ : AND gate

OR ₁ : Oagate

The present invention relates to a power control relay driving circuit of a microwave oven, and more particularly, to a power control relay driving apparatus that allows the driving time of the power control relay to be sequentially performed at various parts with respect to an AC input voltage.

In the conventional microwave power control relay driving device, the power control relay is driven at a constant point of the AC input voltage at all times, or randomly. However, since the power control relay is mechanically and electrically driven, it is virtually impossible to always drive at a constant point of the AC input voltage due to the drive voltage or the drive time distribution of the relay itself. In this case, the power control relay is driven by being biased at a certain portion of the AC input voltage, so that the contact of the power control relay is damaged by the inrush current of the high voltage transformer, which shortens the life of the relay.

The present invention has been devised to improve the life of the power control relay by sequentially driving the power control relay at various parts of the AC input voltage in order to solve this conventional drawback, which will be described in detail with reference to the accompanying drawings. The explanation is as follows.

1 is a control block diagram of a microwave oven to which the present invention is applied, and as shown therein, a microcomputer 1, a power supply unit 2, a reset signal generator 3, a clock generator 4, and a power control relay. It consists of a drive device 5, a buzzer drive device 6, a display drive device 7 and a key input device 8.

FIG. 2 is an internal block diagram of the microcomputer 1 of FIG. 1, as shown therein. The key input unit 11 and the control unit 12, the RAM 13, the ROM 14, the display driver 15, and the relay are shown. Comprising a drive unit 16 and a relay drive determination unit 17, the input side of the power control relay drive device 5 is connected to the output side of the relay drive determination unit 17.

FIG. 3 is a detailed circuit diagram of the inventive relay drive determining unit 17 shown in FIG. 1, and as shown therein, the output side of the relay drive unit 16 has one input terminal and a shift register of the AND gate AND ₁₆ . The output terminal of the counter 171 to the other input terminal of the AND gate AND ₁₆ and the clock terminal CK of the shift register 173, and the shift Output terminals A ₁ -A ₁₅ and B ₁ -B _{15 of} the registers 172, 173 are connected to one and the other input terminals of the AND gate AND ₁ -AND ₁₅ , and the AND gate ( AND ₁ -AND ₁₅ ) is connected to the input terminal of the oragate (OR ₁ ), and its output terminal and the output terminal of the AND gate (AND ₁₆ ) to the input terminal of the AND gate (AND ₁₇ ), the output terminal of the aND gate (aND ₁₇₎ configured to be connected to power control relay drive unit (5), the car Emitter 171 is a pulse signal to be output at regular intervals with respect to the AC input voltage.

A control signal for controlling the power control relay is output from the controller 12 of the microcomputer 1 to the relay driver 16, and a pulse signal is output from the relay driver 16 to output the AND gate AND ₁₆ . It is applied to the clock terminal CK of the one input terminal and the shift register 172.

As described above, when a pulse signal is applied to the clock terminal CK of the shift register 172, the high potential signal is sequentially output from the output terminal A ₁ to the output terminal A ₁₅ .

On the other hand, in the counter 171, as shown in FIG. 4, 15 pulse signals are output at regular intervals with respect to the AC input voltage, that is, at one interval with respect to one cycle of the input voltage, so that the clock terminal of the shift register 173 ( CK). As a result, the shift register 173 shifts the high potential signal sequentially from the output terminal B ₁ to the output terminal B ₁₅ .

Accordingly, when the high potential signal is output from the output terminal Q ₁₄ of the shift register 173 when the high potential signal is output from the output terminal A _{1 of} the shift register 172, the AND gate AND ₁ -AND ₁₅ is output. ), The low-potential signal is outputted at all, the low-potential signal is output at the OR gate OR ₁ , and the low-potential signal is output at the AND gate AND ₁₇ , so that the power control relay driving device 5 is not driven. The driving signal of the control relay is not output.

In such a state, when the pulse signal is output again from the counter 171, a high potential signal is output from the output terminal B ₁₅ of the shift register 173, but the output signal A ₁ of the shift register 172 is also output. Since the high potential signal is output, the low potential signal is output from the AND gates AND ₁ -AND ₁₅ as described above, so that the power control relay driver 5 is not driven.

Thereafter, when the pulse signal is output from the counter 171 again, the high potential signal is output to the output terminal B ₁ of the shift register 173, and at this time, the high potential signal is output to the output terminal A ₁ of the shift register 172. Since the signal is being output, the high potential signal is output from the AND gate AND ₁ , and the high potential signal is applied to the input terminal of the AND gate AND ₁₇ through the oragate OR ₁ .

At this time, the high potential signal is output from the AND gate AND ₁₆ by the pulse signal output from the relay driver 16 and the pulse signal output from the counter 171, and applied to the other input terminal of the AND gate AND ₁₇ . As a result, a high potential signal is output from the AND gate AND ₁₇ and applied to the power control relay driver 5. Accordingly, the power control relay driving device 5 is driven to output the drive signal of the power control relay.

On the other hand, when the Perth signal is output from the relay driver 16 again, the high potential signal is output from the output terminal A ₂ of the shift register 172. Therefore, at this time, when the high potential signal is output from the output terminal (B ₂ ) of the shift register 173, the power control relay driving device 5 is driven as described above to output the drive signal of the power control relay.

Similarly, in the state in which the pulse signal is output from the relay driver 16 again, when the high potential signal is output from the output terminal B ₂ of the shift register 173, the power control relay driver 5 is driven to power control relay. The drive signal of is output.

As described in detail above, the present invention outputs a drive signal of a power control relay in sequence to an AC input voltage at various parts, thereby preventing damage to the product due to contact transition of the power control relay and continuous inrush current. There is an effect that can greatly extend the life of the power control relay.

Claims (1)

The output side of the relay driver 16 connected to the internal control unit 12 of the microcomputer 1 is connected to one input terminal of the AND gate AND ₁₆ and the clock terminal CK of the shift register 172, and to the AC input voltage. The output side of the counter 171 which outputs a pulse signal at a predetermined period is connected to the other input terminal of the AND gate AND ₁₆ and the clock terminal CK of the shift register 173, and the shift register 172, Output terminals (A ₁ -A ₁₅ ) and (B ₁ -B ₁₅ ) of (173) are connected to one and the other input terminals of the AND gate (AND ₁ -AND ₁₅ ), respectively, and their output terminals are Oagate (OR ₁ ). a, configured to an output terminal of the aND gate (aND ₁₆₎ directly connected to the input terminal of the aND gate (aND ₁₇₎ and, connected to the output terminal of the aND gate (aND ₁₇₎ to a power control relay drive unit 5 via A power control relay driving circuit of a microwave oven, characterized in that.