KR950004806Y1 - Safety circuit of range inverter type - Google Patents

Abstract

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Description

Inverter Type Microwave Safety Circuit

1 is a detailed circuit diagram of the present invention.

2 is a graph illustrating a conventional problem.

3 is a conventional circuit diagram.

* Explanation of symbols for main parts of the drawings

5: Output setting part 6: Output limiting and soft start part

7: Synchronous pulse generator 8: Sawtooth wave generator

9A: Safety Circuit

The present invention relates to an improved circuit of 'microwave oven using an inverter circuit' of Korean Utility Model Application No. 92-25635, which is filed by the present applicant, and in particular, the protection circuit can be configured more reliably to perform a reliable protection function. It relates to a safety circuit of an inverter type microwave oven.

The configuration of the aforementioned inverter type microwave oven and its problems will be described with reference to FIGS. 2 to 3.

In the conventional microwave oven, the noise filter unit 1 which passes only a predetermined frequency band of the power source AC, the rectification and resonant circuit unit 2 which converts the power source AC into a DC component, and enables frequency resonance, It consists of a high voltage transformer (3), a high voltage diode (D ₁ ), a high pressure capacitor (C ₁ ), a high pressure diode (D ₂ ) and a magnetron (MT), the magnetron (MT) according to the secondary side voltage of the high voltage transformer (3) ), A high frequency oscillator (4), a resistor (R ₁ to R ₅ ), a capacitor (C ₂ to C ₄ ), a variable resistor (VR ₁ ), an error amplifier (AMP) and a diode (D ₃ ) (D _{43 )} , An output setting unit 5 configured to set a high frequency output according to the resistance value of the variable resistor VR ₁ , a diode D ₅ to D ₈ , a resistor R ₈ to R ₁₈ , and a capacitor ( C ₆ ~ C ₈ ), comparator (COM ₁ ) (COM ₂ ), transistor (TR ₁ ) composed of high voltage transformer (3) for overvoltage and overcurrent between both ends of switching element (12) on the primary side. Secondary Detected through a secondary winding (N ₅₎ and a high voltage transformer (3) safe to detect a short-circuited state of the secondary side into a voltage by the secondary winding (N ₄₎ generating an output blocking signal to perform the protection circuit functions Output limiting and soft, consisting of a circuit section 9, resistors R ₆ (R ₇ ), variable resistors VR ₂ , and capacitors C ₅ to limit the output to below a certain value at the beginning of initial high frequency oscillation. A synchronization pulse generator 7 for generating a synchronization pulse corresponding to the primary side through the start unit 6, the auxiliary winding N ₅ on the secondary side of the high voltage transformer 3, and the synchronization pulse generator ( 7) A sawtooth wave generator 8 for generating a sawtooth waveform by using the same, and an output controller for outputting a square wave by comparing the output signal of the output setting unit 5 and the output signal of the sawtooth wave generator 8 with each other. (10) to drive the switching element 12 by the comparator and the output of the output control unit 10 And a switching driving circuit 11 for outputting a predetermined signal depending on an output signal of the switching driver circuit portion 11 is constituted by a switching element 12 to be driven off.

Reference numeral V1 denotes a DC voltage.

When a power source AC is applied to the circuit configured as described above and a DC voltage V ₁ is supplied, the power source AC is converted into a DC component through the noise filter 1 and the rectifying and resonant circuit unit 2, and then the switching element. The collector and emitter of the transistor (12) are caught. On the other hand, the potential difference between the input terminal (+) and (-) of the error amplifier AMP varies according to the value set by the variable resistor VR ₁ of the output setting unit 5, and the non-inverting terminal (+) set at this time is different. According to the potential of the error amplifier (AMP) outputs the inverted amplifier signal through the resistor (R ₅ ) and diode (D ₄ ).

In addition, the output is limited by the DC voltage V ₁ supplied simultaneously with the application of the power supply AC, and the capacitor C ₅ of the soft start unit 6 is charged at the time constant determined by the variable resistor VR ₂ . Is charged, and the potential during this charging is applied to the non-inverting terminal (+) of the output control unit 10, and finally the magnetron when the output control unit 10 outputs the square wave in comparison with the sawtooth wave applied to the inverting terminal (-). Initially activate (MT). During this charging time, the voltage at the anode end of the diode D ₄ of the output setting unit 5, that is, the potential at the point b becomes higher than the potential at the cathode end of the diode D ₄ . output is the output control unit 10 of when the combined potential of up soft start portion 6 in the non-inverting terminal (+) of the comparator and forms a voltage at the time of normal operation and the initial magnetron oscillation due to this process, the capacitor (C ₅ The oscillation output is controlled below a certain value during the time when the charge is charged, and at the same time, it functions as a soft start.

Meanwhile, the sawtooth wave formed through the secondary winding N ₅ on the secondary side of the high voltage transformer 3 and through the synchronous pulse generator 7 and the sawtooth generator 8 is connected to the inverting terminal (-) of the output controller 10. Applied at the reference potential, and compared with the comparison potential output from the output setting unit 5, the output control unit 10 outputs a square wave signal. This signal is applied to the switching driver circuit part 11, and the switching driver circuit part 11 applies a constant interruption signal to the base by a transistor, which is the switching element 12, so that the switching element 12 is turned on and off at regular intervals, and thus high voltage is applied. The voltage is applied to the primary side of the transformer 3. Therefore, the secondary induced voltage through the high voltage transformer 3 is applied to the magnetron MT so that the magnetron MT oscillates high frequency.

In such an inverter circuit, the secondary side is caused by a short circuit phenomenon on the secondary side of the high voltage transformer 3 (especially, the secondary high voltage winding (N ₂ ), the positive cathode short circuit of the magnetron (MT), and the high voltage diode (D ₂ ) short circuit. Since the voltage of the auxiliary winding (N ₄ ) is down, the low voltage induced in the auxiliary winding (N ₄ ) is reduced by the diode (D ₅ ), the capacitor (C ₈ ), and the resistor (R) of the safety circuit unit (9). ₈₎ through the inverting input terminal (of the comparator (COM _1), - a comparator (COM ₁₎ is to apply a low potential to) was outputting a normal when low signal is output a high signal and thereby turning on the transistor (TR) is When the transistor Q1 is turned on, the output is limited and the voltage of one end a of the soft start unit 7 flows to the emitter of the transistor TR, so that 'O' is applied to the non-inverting terminal (+) of the output control unit 10. When the potential is applied, the output control unit 10 cuts the output so that the switching element 12 cannot be driven. Is blocked and also the non-inverted in relation to which is connected the input terminal (+) of the high-signal diode is fed back through the (D _8), the comparator (COM ₁₎ back to power in the high output of the comparator (COM ₁₎ terminals ( The potential of +) remains high and can act as a complete blocking circuit.

On the other hand, when the voltage VCE at both ends of the primary-side switching element 12 of the high-voltage transformer 3 is excessively applied or when an overcurrent flows between the primary-side windings N ₁ , the auxiliary line N at the secondary side of the high-voltage transformer 3 is applied. ₅ ) An overvoltage corresponding to the turns ratio of the high voltage transformer 3 is applied, and the voltage at this time is connected to the diode D ₈ , the resistor R ₁₄ , R ₁₇ and the capacitor C ₈ through the auxiliary winding N ₅ . and to apply a high potential to the inverting terminal of the comparator (COM ₃₎ includes a comparator (COM ₁₎ and outputting a low signal was output when normal-high signal (-) to an inverting terminal of the comparator (COM ₂₎ via-in () The low signal is applied. Accordingly, the output of the comparator COM ₁ blocks the drive of the inverter circuit, that is, the switching element 12, as described above, thereby protecting the inverter circuit.

However, such a conventional circuit has a large capacitor C ₅ connected to the output limit and one end of the soft start section 6, and when the transistor TR is turned on during the protection operation of the safety circuit section a, Even when the potential of the point is set to ground, the switching element 12 operates during the discharge time of the capacitor C ₅ . As shown in FIG. 2, when the curve Y indicating the potential (charge amount) of the capacitor C ₅ is examined, the potential at which the switching element 12 can operate is V ₁ or more and the time T ₁ . the switching element 12 is operating, and the transistor (TR) of the safety circuit section (9) in time (T ₂₎ is turned on when performing a protection capacitor (C ₅₎ is to initiate the discharge the time (T ₃ Switching element 12 continues to operate.

Therefore, the switching element 12 is destroyed at the same time as the protection operation (oscillation stop), or when the protection operation is continuously generated, thereby causing a great problem in the protection of the switching element 12.

Accordingly, the present invention has been made in view of the above problems, and an object of the present invention is to perform the protection and safety functions of the inverter circuit during the overvoltage and overcurrent of the high voltage transformer primary side, or the circuit short circuit of the secondary side. When the safety function is executed, the output voltage of the output setting part and the sawtooth generator block the operating voltage, so that the oscillation stop effect of the switching element can be obtained. The present invention provides a safety circuit for an inverter microwave oven that can be operated.

Hereinafter, the present invention will be described based on FIG. The construction of the present invention is the same as the conventional circuit described above, but the configuration of the safety circuit portion 9A by improving the safety circuit portion 9A will be mainly described.

One end of the auxiliary winding N ₄ of the high voltage transformer 3 is connected to the inverting terminal of the comparator COM ₁ through the diode D ₅ and the resistor R ₈ so that the circuit of the secondary side of the high voltage transformer 3 is shorted. so that the can be detected, and the comparator were, the non-inverting terminal of the (COM ₁₎ the potential divided by the resistor (R ₉₎ and a resistance (R ₁₀₎ and capacitor (C ₆₎ to take a reference potential comparator (COM ₁₎ Is connected to the base of the transistor TR ₁ via the resistors R ₁₁ to R ₁₃ , and is feedback-connected to the non-inverting terminal of the comparator COM ₁ through the diode D ₆ . soon as connected to the inverting terminal of the collector of TR ₁₎ a comparator (COM ₂₎ in addition, an inverting terminal of the comparator (COM ₂₎ has been arranged to take a potential which is divided by a resistor (R15), a ratio of said comparator (COM ₂₎ One end of the auxiliary winding N ₅ is connected to the inverting terminal through a resistor R ₁₆ and a diode D ₇ . Also soon as connected to the base of said comparator (COM ₂₎ transistor (TR ₂₎ output through soon as connected to the base of the transistor (TR ₂₎ via a resistor (R ₁₇₎ at the same time the diode (D ₈₎ at the same time the diode (D ₈ ) Is fed back to the non-inverting terminal of the comparator COM ₂ , and a constant DC voltage V ₁ is applied to the emitter terminal of the transistor TR and is connected to the base thereof via a resistor R ₁₈ .

In addition, the collector terminal of the transistor TR _{2 is} connected to one end of the resistor R ₃ of the output setting unit 5 and the driving voltage V ₂ of the error amplifier AMP, and at the same time, the sawtooth wave generator 8 The DC voltage V ₁ applied to the emitter is applied or cut off according to the on / off of the transistor TR ₂ and connected to the driving voltage V ₂ of V ₁ ≒ V ₂ .

The operation and effects of the present invention constructed as described above will be described below.

The power source AC is applied and the switching element 12 oscillates by the output set through the output setting unit 5, and accordingly, the output set on the secondary side of the high voltage transformer 3 is generated, thereby oscillating high frequency. In operation of the inverter circuit, if the voltage VCE between the switching element 12 exceeds the prescribed value or the current flowing through the primary side winding N _{1 of} the high voltage transformer 3 exceeds the specified value, the secondary side of the high voltage transformer 3 An induced voltage corresponding to the turns ratio is generated in the auxiliary winding N ₅ , and the induced high potential is applied to the non-inverting terminal of the comparator COM ₂ through the diode D ₇ and the resistor R ₁₆ to be in a steady state. The comparator COM ₂ which outputs the low level signal by the divided voltage of the resistor R ₁₄ and the resistor R ₁₅ applied to the inverting terminal at the time outputs the high level signal.

At this time, the output high level signal is applied to the base of the transistor TR ₂ through the resistor R ₁₇ and the transistor TR ₂ is turned off so that the DC voltage V ₁ supplied from the emitter of the transistor TR ₂ is generated. Of the reference sawtooth wave applied to the inverting terminal (-) and the non-inverting terminal (+) of the comparator, which is the output control unit 10, by cutting off the supply of the DC power supply (V2) to the output setting unit 5 and the sawtooth generator 8 The output control unit 10 stops further output by 'O' potential of the potential and the comparative potential to stop the oscillation of the switching element 12 to perform a reliable protection operation, and also the secondary winding (N) of the high voltage transformer 3 ₂ ) A short circuit at both ends, a positive cathode short circuit at the magnetron (MT), and a high voltage diode (D ₂ ) short circuit phenomenon are detected by the auxiliary winding (N ₄ ), and at this time, the voltage of the auxiliary winding (N4) is down (down) and the diode ( D ₅₎ and a resistor (R ₆₎ to the inverting terminal of the comparator (COM ₁₎ for applying a low potential through To step the comparator (COM ₁₎ was output at normal low signal thereby is output a high level signal wherein the outputted high level signal thereby turning on the transistor (TR ₁₎ via a resistor (R ₁₁ ~ R ₁₃₎ transistor (TR ₁ ) the potential of the inverting terminal of the comparator COM ₂ connected to the collector is lowered and the comparator COM ₂ which outputs a low signal at the normal state outputs a high level signal to turn off the transistor TR ₂ . As described above, the power supply to the output setting unit 5 and the sawtooth wave generating unit 8 is cut off to perform a function of a complete protection circuit. In particular, the diode D ₆ is feedback-connected to the comparator COM ₁ and COM ₂ . When the safety circuit function of the inverter circuit (D ₇ ) is provided and the output of the comparator (COM ₁ ) (COM ₂ ) becomes a high level state, the high signal is fed back to the high signal, but the comparator (COM ₁ ) (COM ₂₎ which is maintained by the latch (lATCH) state Before blocking the emitter circuit power supply (AC) of the will to continue to do the protection circuit function.

As described above, the present invention has the effect that the circuit can be completely stopped without destroying the switching element in the event of an abnormality of the inverter circuit, thereby providing a certain protective function.

Claims (1)

Electronic using inverter circuit including high voltage transformer (3), high frequency oscillator (4), output setting part (5), output limiting and soft start part (6), sawtooth wave generation part (8) and switching element (12) In the stove, one end of the auxiliary winding N ₄ of the high voltage transformer 3 is connected to the inverting terminal of the comparator COM ₁ through the diode D ₅ and the resistor R ₈ , and the comparator COM ₁ . The non-inverting terminal of is connected to a resistor (R ₉ ), a resistor (R ₁₀ ) and a potential divided by the capacitor (C ₆ ), and the output terminals of the comparator (COM ₁ ) are resistors (R ₁₁ to R ₁₃ ). Is connected to the base of the transistor TR ₁ through the diode D ₆ , and is feedback-connected to the non-inverting terminal through the diode D ₆ , and the collector of the transistor TR ₂ is connected to the resistor R ₁₄ and the resistor R ₁₅ . soon as connected to a contact point connected to the inverting terminal of the comparator at the same time (COM _2), Bo is the non-inverting terminal of the comparator (COM ₂₎ via a resistor (R ₁₆₎ and a diode (D ₇₎ Winding transistor (N ₅₎ one end soon as the connection at the same time being connected to the output of the comparator (COM ₂₎ via a diode (D _8), via a comparator resistance (R ₁₇₎ (R ₁₈₎ output terminal of the (COM ₂₎ of the ( TR ₂ ), and the emitter of transistor TR ₂ is configured by connecting a DC power supply to the collector and the collector to a power supply line of the output setting section 5 and the sawtooth generator 8. Safety circuit of inverter type microwave oven.