KR840001038Y1 - The preventive circuit of hunting in automatic voltage control circuits - Google Patents

Abstract

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Description

Hunting prevention circuit in voltage automatic regulation circuit

1 is a block diagram showing a circuit of the present invention.

2 is a conventional circuit diagram.

3 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: rectifier circuit 2: phase angle driver

3: driving voltage start part 4: phase angle adjusting part

5: Trigger pulse generator 6: Voltage selection and detection unit

7: transient voltage protection part A: hunting prevention circuit

The present invention relates to a circuit for obtaining a stable rectified voltage in any AC input state by preventing an unstable element (hunting phenomenon) of the rectified voltage generated when a considerably high AC pressure is applied in a voltage automatic regulation circuit.

In general, a step-down transformer is used in a power supply circuit to obtain a predetermined DC voltage required for a home appliance such as a TV. In this case, in order to cope with voltage fluctuations, a switching switch is provided to select an appropriate voltage value to remove the rectifier circuit and ripple. In most cases, a predetermined DC voltage has been obtained using a circuit. However, in the case of using the transformer in this way, it was not easy to manufacture the transformer and consumed a lot of power consumption in the transformer itself. Automatic regulation circuit (refer to the second figure of the present invention), which is able to automatically obtain a predetermined DC voltage value even when the operation is stable even under the wide input condition of 85-260V range. Although there are many advantages, the screen of the receiver is not stable when a very high AC input is applied, and the so-called hunting phenomenon occurs in which the vertical lines of the screen are curved.

When the cause of this hunting is roughly explained in the circuit operation of FIG. 2, when the power switch SW is turned on by applying a certain or more high AC input voltage, the pulse voltage of the output terminal of the rectifying circuit 1 is momentarily increased. ₁ ), the voltage at the output terminal (a) appears to be quite high. This is because the high current is fed back to the base of the transistor TR ₁ through the resistors R ₁ , R ₂ , and R ₃ , so that the collector current of the transistor TR ₁ Because of the excessive flow, the voltage drop across resistor R ₄ becomes large. At this time, the transistor (TR ₂₎ the emitter potential becomes any one transistor (TR ₂₎ operating in a transition point below which fall down to the bottom of the driving voltage wave applied to the base of the transistor (TR ₂₎ below the value of the output terminal ( The potential of a) becomes considerably lower compared to the state when the initial power switch SW is ON.

Afterwards, the transistor TR ₁ operates in the opposite direction to that when the potential of the output terminal a is high, thereby operating in a direction of increasing the voltage at the point a.

By repeating such an operation, the potential of the output terminal a is not stabilized to a certain value and the voltage fluctuates so that hunting occurs on the screen.

The present invention connects the transistors which are alternately operated in a way to compensate for the potential of the output terminal being lowered below the prescribed value in order to solve such a defect, which will be described in detail with reference to the drawings.

As shown in FIG. 3, the output terminal of the rectifier circuit 1 connects the phase angle driver 2, the driving voltage generator 3, and the transient voltage prevention unit 7, and the phase angle to the output terminal of the driving voltage generator 3. After the control unit 4 is connected, the output terminal thereof has a trigger pulse generator 5 connected to the gate of the silicon-controlled rectifier element SCR in the phase angle driver 2, and the phase angle driver 2 The voltage selection and detection unit 6 and the hunting prevention circuit A are connected between the phase angle control unit 4. The hunting prevention circuit A includes a transistor TR _A TR _B alternately switched with each other. The wires are connected by resistors R _A , R _B , R _C , and R _D.

Referring to the operation state of the circuit configured as described above, when the high AC input voltage is applied and the potential of the output terminal a 'becomes very high, the operation of the transistor TR ₁ causes the emitter potential of the transistor TR ₂ to be lowered and thus the output terminal a'. ), But the transistor (TR _B ) remains ON until the potential of the output terminal (a ') is 10 percent lower than the specified value, but the resistance (R ₁ , R _D , R) becomes lower than 10 percent. ₂ and R ₃ are applied to the base of the transistor TR _B. In addition, the voltage is designed to be lower than the sum of the emitter voltage of the transistor TR _B set by the Zener diode D _Z and the forward V _BE (voltage between the base and the emitter) of the transistor TR _B. Since it is to a transistor (TR _B) is geotyieoseo is OFF resistance (R _B), the base potential rises by the transistor (TR _a) of the transistor (TR _a), without a voltage drop occurs starts to operate.

The load resistors R _A and R _B may be set such that the transistor TR _A is turned off when the transistor TR _B operates.

The transistor (TR ₁₎ operates as described above the load resistor (R ₄₎ operates as a transistor (TR at the moment the transistor (TR _A) to disengage the emitter potential of the transistor (TR ₂₎ to the voltage drop that occurs in less than a predetermined value ₂ ) the capacitor C ₂ is charged so that the emitter potential of the transistor does not fall below a certain value, thereby compensating for the drop of the emitter voltage of the transistor TR ₂ due to excessive voltage drop of the resistor R ₄ . It is possible to prevent the hunting phenomenon caused by voltage instability of the output terminal (a '), which has a very beneficial feature to improve the reliability and quality of rotating products such as TV.

Claims (1)

Rectifier circuit (1), phase angle driver (2), drive voltage generator (3), phase angle controller (4), trigger pulse generator (5), voltage selector and detector (6), transient voltage protection In the voltage automatic regulation circuit composed of (7), transistors TR _A and TR _B and resistors R _A and R _B which alternately operate between the phase angle driver 2 and the phase angle adjuster 4 described above. , R _C, R _D) to avoid hunting in the automatic voltage adjusting circuit configured hayeoseo connection circuit.