KR820000221B1 - Voltage regulator used to electronics circuit - Google Patents

Abstract

The voltage converter having effective power saving function, comprises a phase control circuit, a compensation circuit including a resistor(R2) and a DIAC(D2), a stabilizing resistor(R0), and a TRIAC protection circuit including a capacitor(C2) and a resistor(R3). The phase control circuit includes a TRIAC(T), a DIAC(D1), a variable resistor(R1) and a capacitor(C1). This voltage converter has a economical benefit compare to the conventional coil-type transformer and has feature of good productivity.

Description

Electronic voltage converter

1 is an exemplary circuit diagram of the present invention.

2 is a front sectional view of a voltage converter.

3 is an outline view of a voltage converter.

The present invention is a voltage converter which has been constructed as an electronic circuit by improving a transformer type voltage converter. Until now, the voltage converter has been wound around the core core with enameled copper wires in a primary and a secondary direction, thereby winding a coil of a cross-sectional coil of the core. It is widely used today to have the action of stepping down or stepping up in proportion to the athlete.

However, these voltage converters not only have high self-loss (96% efficiency and 4% loss), but also require expensive core core and enameled wire, and require complicated process. There was a lot of phosphorus loss and inconvenience to use.

The present invention eliminates all these drawbacks, and can be applied to triac and die solution to reduce the volume, reduce raw materials, and also to reduce the loss of the electronic, it can be enough to act as a trans, small capacity, large capacity In the 220V boosted area, it can be used without changing the power stage of 100V home appliances, and it is a small socket type that can avoid the single-phase three-wire system promoted by the government. The voltage converter will be described in detail with reference to the accompanying drawings as follows.

1 illustrates a fuse F between an input terminal (a) and an output terminal (b), and a triac (TiTRIAC) between an input terminal (c) and an output terminal (d) as an embodiment of the present invention. The resistor Ro was connected between the output terminal (b) and the terminal (d), and the diac (D ₁ iDIAC) and the gate for applying the gate voltage to the gate (G) of the triac (T). The time constant circuit capacitor (C ₁ ) and the resistor (R ₁ ) for the phase control of the voltage were configured in series and in parallel to the gate (G) of the triac (T), and the diac (D ₂ ) and the resistor ( R ₂ ) was connected in parallel with the triac (T) to stabilize the voltage between the terminals (c) and (d) and classify the current flowing through the triac (T) to protect the triac (T). .

The unexplained capacitor C ₂ and the resistor R ₃ are a triac (T) protection circuit connected in parallel between the anode 1 (A ₁ ) and the anode 2 (A ₂ ) of the triac (T).

When AC 220V (60HZ) is applied between the input terminals (a) and (c) of the circuit configured as described above, the capacitor C ₁ is charged through the variable resistor R ₁ and discharged when a predetermined voltage is charged. Since the die solution D ₁ is started to apply a voltage to the gate G of the tri solution T, the tri solution T becomes conductive.

At this time, the voltage across the anode ₁ (A 1) of the triac (T) is to adjust the capacitor (C ₁₎ the anode ₂ (A 2) to the phase-controlled by a voltage charged voltage in accordance with the variable resistance (R ₁₎ It is applied to the output terminal (D) through.

The other hand the resistance (R ₂₎ and die solution (D ₂₎ is a triac (T) the die solution (D ₂₎ to have ever compensation when there is a change, to drop the voltage to the resistor (R ₂₎ at a voltage through the It is configured to be applied to the output terminal (D).

At this time, the resistance (R ₂ ) is to limit the current at the same time to maintain a constant voltage, triac by dividing the current flows from the overcurrent phenomenon caused by the transient phenomenon caused when connecting the load to the output terminal of the socket of the present invention (T) acts to protect.

It was In the voltage applied between the output terminal (B) and (D) by the action of the it may not be stabilized using a resistor (R ₀₎ brought to stabilize the voltage at the both ends, the resistance (R ₀₎ is neon It may be replaced by a lamp or the like and used as a display lamp of the socket.

In particular, the neon lamp has a high lighting voltage (it is preferable to light at the transient voltage level at the time of loading), and the lighting sustain voltage is preferably about 100V.

2 is a cross-sectional view of a voltage converter, in which a 220V plug, a case in which the fuse F of the present invention and a step-down electronic circuit are installed, and a socket for a 100V are integrally formed, wherein the case is operated during the operation of the triac T. It is good to be able to radiate heat generated smoothly and to have good insulation.

3 is an external view of a voltage converter incorporating the circuit of the present invention.

As described above, the present invention is economical compared to the conventional coil-type voltage converter, has an advantage of good productivity, and has an excellent power saving effect in terms of power loss.

Claims (1)

As shown in the drawings and as specified in the specification, a phase control circuit consisting of a triac (T), a die solution (D ₁ ), a variable resistor (R ₁ ), a capacitor (C ₁ ), a resistor (R ₂ ) and a die An electronic voltage converter comprising a compensation circuit composed of liquid (D | ₂ ) and a stabilizing resistor (R ₀ ).

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