KR890000477Y1 - Switch control circuit of power input or output - Google Patents

Abstract

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Description

Power-on-off control switch circuit

1 is a block diagram of a conventional switching mode power supply circuit.

2 is a power-on-off control switch circuit according to the present invention.

3 is another embodiment of FIG.

The present invention relates to a power on and off control switch circuit, and more particularly to a circuit for power on, off by directly controlling the control circuit in the switching mode power supply circuit.

In a switching mode power supply circuit like a normal switching regulator, etc., as shown in FIG. 1, DC power is applied to the input terminal 1-1 'and the switch SW is turned on to output the terminal 3-3' through the high frequency transformer T. In outputting a low output DC voltage, a method of stabilizing the output voltage by the on / off operation of the switching transistor Q ₁ has been used.

For example, in a switching accumulator, the output DC voltage is compared with a reference voltage using an eddy differential amplifier, and the output of the error amplifier is changed on and off of the switching transistor Q ₁ by varying the pulse width through the pulse width modulation circuit 2. Operation has stabilized the output voltage. Therefore, when the output voltage is low, the pulse width is increased to increase the output voltage, and when the output voltage is high, the pulse width is narrowed to reduce the output voltage.

However, in such switching mode power supply circuits, spike pulses are generated by the on / off operation of the switch SW, and noise may be generated due to the contact resistance of the switch SW. There is a problem that the protection of the circuit connected to can not be easily received.

Accordingly, an object of the present invention is to provide a control switch circuit that can turn on or off a power supply without using a separate power switch at an input terminal in a switching mode power circuit.

Another object of the present invention is to provide a control switch circuit capable of protecting a circuit by quickly turning off a power supply when an overvoltage occurs.

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

2 is a power on-off control switch circuit according to the present invention, R _1- R ₆ is a resistor, Q _2- Q ₄ is a transistor, D ₃ and D ₄ is a diode, C ₂ is a capacitor, PC ₁ and PC ₂ Is a photocoupler, SW ₂ is an on switch, SW ₃ is an off switch, the output terminal 6 is a terminal for outputting a power on / off control signal, and the terminal 7 is a terminal for supplying a supply voltage of Vcc. (8) is a terminal to which an overvoltage inputs.

If now the supply voltage Vcc to the terminal 7, is to apply power to initially resistor R ₃ with capacitor C _2, so the supply voltage of the transistor Q ₃ base applied through transistor Q ₃ is "on" the transistor Q ₃ Collector will be in the "low" state.

Thus, the base of transistor Q ₂ goes low and the flip-flop operation causes transistor Q ₂ to turn off, so that the collector of transistor Q ₂ goes high and the base of transistor Q ₃ remains high. The collector of transistor Q ₃ remains low. Therefore, the collector of transistor Q ₂ is latched in a high state, and this state is output to output terminal 6 through diode D ₃ , so that a control signal for turning off the power is output.

Therefore, when the supply voltage Vcc is input via the terminal 7, the resistance R ₃ and capacitor C ₂ for instantaneous over-voltage of the transistors Q input to the _third base and by the over-voltage transistor Q ₃ through is in the ON state also flip The transistor Q ₂ constituting the flop is turned off so that the "high" voltage is output to the output terminal 6, thereby deactivating the pulse width modulation circuit 2 shown in FIG. 1 to which the circuit of the present invention can be connected. In this state, the power supply can be cut off.

At this time, if the on switch SW2 is pressed and the cathode of the photocoupler PC ₁ is grounded, the light emitting diode of the photocoupler PC ₁ emits light and the phototransistor is turned on, so the collector of transistor Q ₂ is "low". State and thus the base of transistor Q ₃ is also "low" so that the collector of transistor Q ₃ goes high and the collector of transistor Q ₂ remains "low". Therefore, the output terminal 6 is brought low and the power can be supplied by operating the pulse width modulation circuit to which the circuit of the present invention can be connected as described above.

On the other hand, if the cathode of the photocoupler PC ₂ by pressing the off switch SW3 light emitting diode to the ground state light-emitting diode of the photocoupler PC ₂ is to the light emission at the same time, photo-transistor is "on" state, because the transistor Q ₃ kolraek emitter The transistor Q ₂ is turned off and the collector of transistor Q ₂ is turned high while the collector of transistor Q ₃ is kept in a low state. Therefore, at this time, the collector of transistor Q ₂ is latched in the "high" state and the voltage of the "high" state is outputted to the output terminal 6 to be used as a control signal for turning off the power supply.

Using the photocouplers PC ₁ and PC ₂ above isolates the flip-flop circuit consisting of transistors Q ₂ and Q ₃ from the switches SW ₂ and SW ₃ so as not to affect the contact resistance and chattering of the switch in the flip-flop circuit. It is in a ship.

In addition, the capacitor by the use of C ₂ in order to the collector of the power supply terminal 7 to the power supply Vcc is applied when the transistor Q ₃ the transistor Q instantaneously reset to ₃ in the "low" state, the resistance R ₁ -R ₇ is It is a protection resistor to protect photocouplers and transistors with overcurrent.

On the other hand, the terminal 8 is a terminal to which the overvoltage detected from the overvoltage detection circuit (not shown) is input, and when the overvoltage is detected, the voltage of the "high" state is inputted. Therefore, when an overvoltage is detected and the voltage of the "high" state is inputted to the terminal 8, the transistor Q ₄ is in the "on" state and the collector of the transistor Q ₄ is in the "low" state. Transistor Q ₂ is thus off and the collector of transistor Q ₂ is in a "high" state. At the same time, the collector of transistor Q ₃ is in the "low" state, and the collector of transistor Q ₂ is latched in the "high" state, and a control signal which turns off the power supply while outputting the voltage "high" to the output terminal 6 is output. Will be done.

FIG. 3 is a view showing another embodiment of the overvoltage protection control circuit according to the present invention of FIG. 2, in which the reference numeral is the same as the reference numeral of FIG. 2 and the base of transistor Q ₃ through diode D ₅ from terminal 8 is shown. The figure shows the direct connection.

If the voltage is the voltage that is a detection signal of the high level inputted to the terminal 8 of the transistor Q ₃ and the transistor base is a high level Q ₃ is "ON". Therefore, the emitter kolraek "low" state of the transistor Q _3, and this state is input to the base of the transistor Q ₂ and the transistor Q ₂ is turned off.

Thus, the collector of transistor Q ₂ is in the "high" state, so that the collector of transistor Q _{3 and} the collector of transistor Q ₂ are latched into the "low" and "high" states, respectively. Therefore, the output terminal 6 outputs a high voltage and is used as a control signal to cut off the power supply by this voltage.

In addition, the operation by pressing on-switch SW2 and off-switch SW3 is the same as that of FIG.

As described above, the present invention does not use a switch at the input terminal separately in the switching mode power supply circuit, so a good countermeasure can be realized by a noise countermeasure method for a circuit that causes noise and affects other equipment. Also, by directly controlling a control circuit such as a pulse width modulation circuit for controlling the switching transistor, the power supply can be turned on and off, thereby achieving high stability and high reliability.

Therefore, the present invention can be used not only for the on / off control circuit of a switching mode power supply circuit using a type switching regulator, etc., but also for overcurrent or overvoltage in a motor control system using pulse width modulation. It can also be used for on / off control.

Claims (1)

A switching mode power supply circuit, comprising: a flip-flop circuit composed of transistors Q ₂ and Q ₃ , and a base and a power supply terminal of any one of the transistors for initializing the flip-flop circuit simultaneously with input of a power supply voltage. 7) a transistor Q ₄ or diode connected to the base of any one of an initialization circuit connected in series with a resistor R ₃ and a capacitor C ₂ and the transistors Q ₂ and Q ₃ constituting the flip-flop. An overvoltage protection circuit for connecting (D ₅ ) and inputting an overvoltage detection signal to the transistor (Q ₄ ) or the diode, and a photocoupler to a collector of the transistors (Q ₂ ) (Q ₃ ) constituting the flip-flop. (PC ₁ ) (PC ₂ ) is provided with an on / off switch circuit connecting an on switch (SW2) and an off switch (SW3) in series to the light emitting diode of the photocoupler, and the overvoltage detection signal input or off switch voltage ABS power An on / off control switch circuit for outputting a supply cutoff signal and outputting a power supply signal when the on-switch is pressed.