KR850002774Y1 - Capacity loss regulating circuit - Google Patents

Abstract

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Description

No-load loss regulation circuit of voltage regulator

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

T ₁ : sub transformer T ₂ : main transformer

CT: Current Transformer Ry: Relay

a ₁ , a ₂ , b ₁ , b ₂ : relay contact 1: relay drive circuit

2: load detection circuit

The present invention relates to the configuration of a no-load loss control circuit which can reduce the no-load power loss of a tap-type voltage regulator or a small transformer used in a general household.

Conventionally, at home or business, 220 volts are used by stepping down the voltage regulator to 100 volts. Even when using a small amount of power or no load, the transformer of the voltage regulator loses no-load power and the customer has to pay more electricity bills. In order to solve this problem, there is a device that cuts off the input power of the voltage regulator and applies the input power when a load is applied at no load. Even if a lamp or digital clock is used, the voltage regulator is supplied with power, so there is a drawback in that no-load power is lost more.

In order to solve this problem, the present invention combines a separate small-capacity negative transformer with the main transformer of the voltage regulator so that the input power is applied to the main transformer when the load is large, and the input power is supplied to the small transformer when the load is small. The switch is automatically switched to apply the load, and when the load is small, only a no-load power loss with a very low no-load power loss is used so that there is almost no no-load power loss of the voltage regulator.

According to the configuration of the present invention, as shown in FIG. 1, the power input terminal IN is connected to the negative transformer T ₁ and the peripheral voltage T ₂ through the relay contacts b ₁ and a ₁ , respectively, and simultaneously with the relay Ry. bridge diode to the relay drive circuit _{(1) (D 1 ~D 4} ) is connected to the anode of a CR-S (Q ₁₎ through the gate of the S-CR (Q ₁₎ is a resistance (R ₁₎ and a capacitor (C ₁ ) for the same time is connected to the current transformer (CT) via a diode bridge (D ₅ ~D ₈₎ of the load detection circuit (2), a transformer (T _1, T _2), the relay contact (b ₂ from the center tap of the ground through, a ₂ ) through the current transformer (CT) to the output terminal (OUT).

Reference numeral C ₂ : Noise canceling capacitor, ∧R ₁ : Variable resistor.

Referring to the effect of the present invention is as follows.

As shown in FIG. 1, the current transformer CT detects a voltage only when the current supplied to the load is greater than the maximum nominal current of the sub-transformer T ₁ and is applied to the load detection circuit 2, and the variable resistor VR Adjusting ₁ ) adjusts the detected current more accurately.

When a small power load is normally applied to the output terminal OUT, the current detected by the current transformer CT is very small and the voltage detected by the load detection circuit 2 is also very small, so that the relay drive circuit 1 does not operate. As a result, the relay Ry is blocked.

Therefore, the contacts b ₁ and b ₂ are turned on and the contacts a ₁ and a ₂ are defective so that the 220 volt input power applied to the input terminal IN is applied only to the negative voltage transformer T ₁ . The transformed 100 volts appears at the output terminal (OUT) through the contact (b ₂ ) to supply power to the load.

In this state, when a large load is applied to the output terminal OUT, a large current flows from the sub transformer T ₁ to the load, and an AC voltage appears at both ends of the current transformer CT so that the bridge diode D of the load detection circuit 2 is present. _{5 to} D ₈ ), the rectified DC voltage is turned on to the SR Q ₁ of the relay drive circuit ₁ .

Therefore, the current flows through the relay Ry, the bridge diodes D _{1 to} D ₄ , and the SR Q ₁ at the input terminal IN, so that the relay Ry is excited and its contacts b ₁ and b ₂ . Is turned off and the contacts a ₁ , a ₂ are on. Therefore, the 220 volt input power applied to the sub transformer T ₁ is applied to the main transformer T ₂ through the relay contact a ₁ so that the voltage transformed to 100 volts in the main transformer T ₂ is the contact point a. _It appears at the output terminal (OUT) through ₂ ) to supply power to the load. Not be held back load, so this is substantially voltage output ends of the small ground current transformer (CT) show the gate of S. CR (Q ₁₎ to the relay drive circuit (1) as described above is applied to the trigger voltage S. CR (Q ₁₎ is The input power flowing through the relay Ry and the bridge diodes D _{1 to} D ₄ is turned off at the moment when the voltage reaches 0 volts.

Therefore, the relay Ry is cut off so that the contacts a ₁ and a ₂ are turned off and the contacts b ₁ and b ₂ are turned on so that the main transformer T ₂ is disconnected from the input power and the sub transformer T ₁ is powered. This is applied to the power supply to the load in the sub-transformer (T ₁ ).

As such, the present invention automatically selects the main transformer and the sub transformer according to the load, and supplies power to the load. Therefore, when using a 5-watt sleep lamp or a digital clock, the power is supplied from a sub-transformer having a low power loss. If heaters are used, the sub-transformers are disconnected from the power supply and power is applied to the main transformer.

Therefore, the no-load loss of the voltage regulator can be reduced, so that the general customer can save the electric charge.

Claims (1)

A signal of the load magnitude detected by the detection circuit 2 connected to the small current transformer T ₁ and the main transformer T ₂ in parallel to the power input terminal IN and connected to the current transformer CT coupled to the load line. The relay driving circuit 1 drives the relay Ry to turn on and off the contacts a ₁ , a ₂ , b ₁ , and b ₂ to selectively use the main transformer and the sub transformer according to the load size. No-load loss adjustment circuit of the voltage regulator, characterized in that the loss can be reduced.