KR880002859Y1 - Variable output voltage control circuit by using a switch - Google Patents

Abstract

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Description

Output Voltage Control Circuit Using Switch

1 shows an example of a conventional DC power supply device,

2 is a circuit diagram of a DC power supply according to the present invention.

3 is a circuit diagram of an embodiment of a DC power switching circuit of the present invention.

4 is an output waveform diagram of the switching transistor Q ₁ of FIG.

* Explanation of symbols for main parts of the drawings

A, b: rectifier circuit T ₁ , T ₂ : transformer

Q ₁ : transistor D ₁ -D ₅ : diode

C: Distortion gate control circuit S _1- S ₅ : switch

The present invention relates to a DC power supply, and more particularly to a DC power supply that can adjust the output voltage arbitrarily using a button switch or a rotary switch without changing the voltage of the rectifier circuit input terminal.

DC power supply is usually used to rectify household AC power to make a DC voltage, and only a fixed voltage is supplied to the rectifier circuit in proportion to the number of turns of the transformer connected to the input of the rectifier circuit. Only the output is output.

In order to supply the DC power required for small household electrical appliances or to select the DC power required by the laboratory according to the product's rated voltage, an AC-DC converter according to the rated voltage must be purchased separately or expensive variable output The constant voltage device had to be purchased and used, and the trouble of purchasing and using a separate AC-DC converter and the economics of purchasing expensive constant voltage devices are problematic.

The present invention was devised to eliminate the above drawbacks. The present invention is to select the output voltage by changing the grounding position of the rectifier circuit output terminal by using a switch so that the output voltage of the normal DC power supply can be arbitrarily selected. Referring to the present invention in detail according to the drawings as follows.

2 is an overall circuit diagram of the present invention, in which a home power supply AC100V is connected to an input terminal of a known rectifier circuit (a) consisting of a bridge diode (BD ₁ ) and a smoothing capacitor C ₁ , and a power supply AC 100V is directly connected to a transformer (T _2). Is connected to another rectifier circuit (B).

An output terminal (P) of the rectifier circuit (A) is connected to one end of the primary coil of the transformer (T _1), the other end of the primary coil is connected to the collector of the transistor (Q _1), the transistor (Q ₁ ) of the base has an in strength type oscillator at the same time coupled to the output terminal (P) consisting of the auxiliary winding coil L and a capacitor (C _3), the resistance (R ₁₎ coupled to the primary coil via a resistor R _1, the control circuit (C) is connected.

Here, the emitter of transistor Q ₁ is commonly connected to ground.

The winding with each intermediate tap of the secondary coil of the transformer (T ₁ ) is connected to the cathode terminals of each of the thyristors (SCR ₁ -SCR ₄ ) of the positive terminal of the capacitor (C ₂ ) and the thyristors The anode terminal of (SCR ₁ -SCR ₄ ) and (-) terminal of condenser (C ₂ ) are connected and are connected to (-) terminal of output voltage (V _OUT ).

In addition, as a gate control circuit (D) of the thyristors (SCR ₂ -SCR ₄ ), the positive output terminal of the rectifying circuit (B) is commonly connected to _one end of the switches (S ₁ -S ₅ ), and the switch (S _1). The other end of -S ₄ ) is connected to the anode terminal of the diode (D ₁ -D ₄ ) through each differential circuit composed of a capacitor (C) and a resistor (R), which diode (D ₁ -D ₅ ) The cathode terminal of is connected to the gate terminal of the thyristor (SCR ₁ -SCR ₅ ).

On the other hand, the other end of the switch S ₅ is connected to the cathode terminal of the diode D ₅ via a differential circuit, and the enowood terminal thereof is in common with the diode D ₁ -D ₄ cathode terminal. 3 is a circuit diagram of an embodiment of a DC power supply switching circuit of the present invention, and FIG. 4 is an output waveform diagram of the switching transistor Q ₁ .

Referring to the operation of the circuit of the present invention of the above configuration is as follows.

The input voltage supplied to the primary coil of the transformer T ₁ through the rectifying circuit a operates as a switching mode by the control circuit c. That is, as current initially through the resistor (R ₁₎ of the control circuit (C) is applied to the base of the transistor (Q ₁₎ transistor (Q ₁₎ is turned on, the current through the primary coil of the transformer (T ₁₎ Is induced in the auxiliary winding coil (L) so that a current flows in the coil (L).

However, as the current of the coil L continues to increase, the collector current IC of the transistor Q ₁ increases, and when the current IC exceeds the reference value I _c = h _Fe .I _B , the collector rapidly increases. The voltage (V _CE ) between the meters increases so that no current flows in the coil (L), and the reverse base force completely subtracts the base charge of the transistor (Q ₁ ) by the capacitor (C ₂ ) and the resistor (R ₂ ). do.

Therefore, the transistor Q ₁ is cut off, and then the base current is supplied again through the resistor R ₁ and the current flows in the primary coil of the transformer T ₁ as the transistor Q ₁ is conducted. Repeatedly, the flow of current induced in the secondary coil of the transformer T ₁ is controlled.

The DC voltage induced through the transformer (T ₁ ) is output from the both ends of the capacitor (C ₂ ) to the output voltage (V _OUT ). The output DC is changed by changing the position of each ground terminal of the secondary coil as a button switch or a rotary switch. The voltage V _OUT is arbitrarily adjusted.

That is, a low DC voltage having a transformer (T ₂ ) and a rectifier circuit (B) is applied to both ends of the switches (S ₁ -S ₅ ), and when the switch (S ₁ ) is turned on, the generated pulse passes through the differential circuit. It is in when the bipolar impulse is created, and a diode (D _1), only the impulse of the (+) polarity is detected it is applied to the gate of the thyristor (SCR ₁₎ thyristors (SCR ₁₎ is turned on state thyristor (SCR _{The output} terminal (V _OUT ) corresponding to the secondary winding of the transformer (T ₁ ) connected to the cathode terminal of ₁ ) appears through the capacitor (C ₂ ).

In order to convert the output voltage again, when the reset switch S ₅ is turned on, an impulse through the differential circuit is made into a negative polarity by the diode D ₅ , and the negative signal voltage is converted into a thyristor ( Each thyristor is turned off by being applied to the gates of SCR ₁ -SCR ₄ ).

Therefore, the switches S _1- S ₄ can be selected again in the initial state.

As described above, according to the circuit of the present invention, a transformer (T ₁ ) is provided at a DC voltage output terminal passed through a rectifying circuit, and a thyristor is connected between each ground terminal of the secondary coil of the transformer (T ₁ ) to connect a button switch. There is a great practical advantage in that the output voltage can be arbitrarily adjusted by changing the position of the ground terminal of the secondary coil by turning on and off the die Lister with the signal voltage.

Claims (1)

According to a bridge Hiro (BD ₁₎ and obtain a direct-current power from the secondary side of which transformer (T ₁₎ the output of the rectifier circuit capacitor (s) is configured to (C _1); A control circuit (C) connecting the auxiliary winding coil (L) of the transformer (T ₁ ), the resistors (R ₁ , R ₂ ), and the capacitor (C ₃ ) is provided to switch the primary winding of the transformer (T ₁ ). Is connected to the base of the switching transistor Q ₁ ; Die connected to each differential circuit composed of resistor (R) and capacitor (C), selector switch (S ₁ -S ₅ ), and diode (D ₁ -D ₅ ) through transformer (T ₂ ) and rectifier circuit (B). thyristor (SCR ₁ -SCR ₅₎ hayeoseo of a gate control circuit (d) transformer (T ₁₎ by connecting said thyristors (SCR ₁ -SCR ₅₎ between two respective intermediate tap terminals and the ground point of the primary coil of the selected Output voltage regulation circuit using a switch, characterized in that configured to obtain a direct current output voltage.