KR900002156Y1 - Driving control circuit for electronic ranges - Google Patents

Abstract

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Description

Drive control circuit of electronic cooker

1 is a conventional drive control circuit diagram.

2 is a drive control circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: Digital / Analog Converter 2: Input Current Detector

3: comparison and output control voltage generation circuit 4: control unit

5: Object detection and search generation circuit 6: Inverter driver

7: Inverter OP ₁ -OP ₃ : Operational Amplifier

TR ₁ : Transistor

The present invention is an electronic cooker for cooking food by the magnetic force generated by the heating coil according to the current flowing in the heating coil, the control voltage input to the inverter drive, that is, the control voltage output from the comparison and output control voltage generating circuit is constant The present invention relates to a drive control circuit which blocks the control voltage when the voltage falls below the voltage so that the inverter drive unit does not drive the inverter unit. Particularly, when the control voltage output from the comparison and output control voltage generation circuit is higher than or equal to a predetermined voltage. The driving control circuit of the electronic cooker to drive the inverter unit while the drive again.

In the conventional drive control circuit, as shown in FIG. 1, the output terminal of the digital / analog converter 1 and the output terminal of the input current sensing unit 2, which converts the output signal of the controller into an analog signal, have an operational amplifier OP. ₁₎ non-inverting and inverting input terminals (+) (a - each connected to), and an operational amplifier (output stage the resistance (R ₂₎ and kondeseo (C ₁₎ via a resistor (R ₁₎ of the OP _1), the diode ( D ₁ ) is connected to an anode of the comparison and output control voltage generation circuit 3, and the cathode of the diode D ₁ is connected to the inverting input terminal (−) of the resistor R ₃ and the operational amplifier OP ₂ . connected to the operational amplifier non-inverting input terminal (+) of (OP ₂₎ there, and connected to for the reference voltage setting resistor (R _4, R _5), an output terminal of the operational amplifier (OP ₂₎ resistance (R ₆₎ and diode (D ₂₎ via a resistor (R _7), and a transistor connected to the base of (TR ₁₎ and constituting the control section 4, the cathode and the address of the transistor (TR ₁₎ With the output terminal of the detection and search generation circuit 5 was configured to connect to an inverter driving unit (6).

In the conventional drive control circuit configured as described above, a digital signal is output, converted into an analog signal by the digital / analog converter 1, and applied to the non-inverting input terminal (+) of the operational amplifier OP ₁ , and the input current sensing unit ( 2) the inverting input terminal (of the operational amplifier (OP ₁₎ to detect an input current flowing to the drive unit (7) is applied to), an operational amplifier (OP ₁₎ has its non-inverting and inverting input terminals (+) ( -) Compared the voltage applied to the output a constant voltage, the output voltage is charged to the capacitor (C ₁ ) through the resistor (R ₁ ) while outputting the control voltage through the diode (D ₁ ) inverter drive unit ( 6) is entered.

At this time, when the control voltage output from the comparison and output control voltage generating circuit 3 is equal to or lower than a predetermined voltage, the inverter driver 6 turns on the power transistor only for a very short time so that the power transistor is turned on. The control voltage output from the comparison and output control voltage generation circuit (3) is a constant voltage in order to prevent the power transistor from being damaged because the instantaneous change of the current flowing into the power transistor becomes very large. If below, the operational amplifier (OP ₂₎ of the non-inverting input terminal (+) to the reference voltage is set the value of the high resistance (R _4, R ₅₎ than the control voltage applied to the operational amplifier (OP ₂₎ in the classic When the output is high and the high potential is output from the operational amplifier OP _{2 in} this way, the high potential is applied to the base of the transistor TR ₁ so that it is turned on. The output control voltage is grounded through the transistor TR ₁ , a low potential is applied to the inverter driver 6, and the inverter driver 6 stops driving the inverter 7, thereby preventing damage to the power transistor. .

However, in the conventional driving control circuit, when the high potential is output from the operational amplifier OP ₂ and the transistor TR ₁ is turned on, even when a control voltage of a predetermined voltage or more is output from the comparison and output control voltage generation circuit 3. Since the transistor TR ₁ continues to be turned on and the composition is stopped by the inverter unit 7, when the electronic cooker is driven again, the transistor TR ₁ must be turned on after the power switch is turned off.

The present invention, in view of such a conventional defect, when the control voltage is a constant voltage or more in the state that the control voltage is output below a certain voltage in the comparison and output control voltage generation circuit, the electronic cooker is designed to be driven again. This will be described in detail with reference to the accompanying drawings of FIG. 2.

As shown in FIG. 2, the digital / analog converter 1 and the comparison and output control voltage generation circuit 3, the control unit 4, the object detection and search generation circuit 5, the inverter driver 6 and the inverter part In the drive control circuit (7), the cathode of the diode (D ₁ ) of the comparison and output control voltage generation circuit (1) is connected to the non-inverting input terminal (+) of the capacitor (C ₂ ) and the operational amplifier (OP ₃ ). ), The output terminal of the operational amplifier OP ₃ is connected to its inverting input terminal (-), and the connection point is connected through the resistor R ₈ , and then the transistor TR ₁ collector of the controller 5 is connected. And the connection point between the object detection and search generation circuit 5 and the inverter driver 6.

According to the present invention, the voltage applied to the inverting input terminal (-) of the operational amplifier OP ₂ is the power supply terminal Vcc when the control voltage output from the comparison and output control voltage generation circuit 3 becomes a predetermined voltage or more. Since the power supply is divided into resistors R ₄ and R ₅ to be higher than the voltage applied to its non-inverting input terminal (+), the operational amplifier OP ₂ outputs a low potential so that the transistor TR ₁ is turned off. in addition, comparison, and outputs the control voltage generating circuit 3, the control voltage is an operational amplifier (OP ₃₎ of the non-inverting input terminal (+) is applied to the means that a constant voltage is output to its output terminal, an operational amplifier output at (OP ₃₎ Since is operated as a voltage follower (woltage follawer), the control voltage output from the comparison and output control voltage generating circuit (3) is output as it is from the operational amplifier (OP ₃ ), the output voltage is the inverter through the resistor (R ₈ ) The inverter driving unit 6 is applied to the drive unit 6 so that the inverter The unit 7 is normally driven.

In such a state, when the voltage output from the comparison and output control voltage generation circuit 3 becomes lower than or equal to the predetermined voltage, the voltage applied to the inverting input terminal (-) of the operational amplifier OP ₂ becomes its non-inverting input terminal (+). Since the operational amplifier OP ₂ outputs a high potential and the transistor TR ₁ is turned on, the output voltage of the operational amplifier OP ₃ is turned on through the resistor R ₈ . ₁ ), and because the low potential is applied to the inverter driver 6, the inverter driver 6 does not drive the inverter 7.

In such a state, when the control voltage output from the comparison and output control voltage generation circuit 3 becomes higher than or equal to the predetermined voltage again, the low potential is output from the operational amplifier OP ₂ as described above, and the transistor TR ₁ is turned on. The output voltage of the operational amplifier OP ₃ is applied to the inverter driver 6 through the resistor R ₈ so that the inverter driver 6 normally drives the inverter 7 again.

As described above, the inverter driver automatically drives and cuts off the inverter part according to the magnitude of the control voltage output from the comparison and output control voltage generation circuit. The output has the effect of eliminating the need to turn off and on the power switch in order to drive the inverter unit in the stopped state of the inverter unit.

Claims (1)

In the drive control circuit which the control unit 4 controls that the control voltage output from the comparison and output control voltage generation circuit 3 is applied to the inverter driver 6, the comparison and output control voltage generation circuit 3 Connect the output terminal to the non-inverting input terminal (+) of the condenser (C ₂ ) and the operational amplifier (OP ₃ ), and the output terminal of the operational amplifier (OP ₃ ) to its inverting input terminal (-) to supply voltage voltage. In addition, the output terminal of the operational amplifier OP ₃ is connected to the collector of the transistor TR ₁ of the controller 4 and the connection point side of the inverter driver 6, and even when the transistor TR ₁ is turned on. A drive control circuit for an electronic cooker, characterized in that the normal control voltage is output from the output control voltage generating circuit (3).