KR900008283Y1 - 100v-200v free voltage power circuit for television remocon - Google Patents

Abstract

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Description

100V-200V pre-voltage remote control standby power supply circuit

1 is a circuit diagram of the remote control standby power supply of the present invention.

* Explanation of symbols for main parts of the drawings

TRANS: Power transformer A: Rectifier

B: detector c: amplifier

D) control part t: constant voltage part

TR1-TR4: Transistor R1-R4: Resistor

C1-C3: Capacitor ZD1, ZD2: Zener Diode

D1-D4: Diode

The present invention relates to a 100V-220V pre-voltage remote standby standby power circuit in a TV or VTR. In particular, a 100V-220V pre-voltage for preventing noise and malfunction of the device by adding a stable control circuit to the remote control standby power circuit of the TV. It relates to a remote control standby power circuit.

The conventional remote control standby power supply circuit has a problem that the control circuit is unstable, the sound from the transformer and the current capacity is too low, causing the device to malfunction.

The present invention is to solve the above problems by controlling the power supply voltage input from the transformer as a control circuit to supply a stable power supply voltage to the circuit to prevent malfunction of the device as well as to remove the noise of the transformer.

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

A rectifier (A) consisting of rectifier diodes (D1) and (D2) is connected to a secondary side of a known power transformer (TRANS) to which an AC input voltage is applied, while the diode (D1) of the rectifier (A) is a resistor (R3) and a transistor. The resistor R4 and the Zener diode ZD2 capacitor are connected to the control unit D formed by the TR3 and through the amplification unit C consisting of the diode D1, the transistor TR1, the transistor TR2, and the capacitor C2. (C3) a diode D2 of the rectifier A is connected to a constant voltage part E consisting of a transistor TR4, and the diode D2 of the rectifier A4 is connected through a detector B consisting of a resistor R1, a resistor R2, and a Zener diode ZD1. When connected to the control unit (D) and connected to the constant voltage unit (E) through the diode (D3) and the capacitor (C1) of the detection unit (B) will be described the operation and effect of the present invention configured as described above same.

First, when an AC voltage of 110V is applied to the primary side of the power transformer TRANS, the diode D1 of the rectifying unit connected to the secondary side is half-wave rectified and applied to the controller D and the amplification unit C. The applied half-wave rectified voltage is applied to the base terminal of the transistor TR2 through the resistor R3 diode D4. Accordingly, the transistors TR2 and TR1 are sequentially turned on to amplify the voltage and the amplified voltage is a capacitor. It is rectified by C1 and applied to the constant voltage part e.

On the other hand, the half-wave rectified voltage through the rectifying diode D2 of the rectifying unit A is applied to the divided voltage by the resistors R1 and R2 of the detecting unit B to the zener diode ZD1. Since the transistor Z3 is not high enough to turn on the transistor TR3, the transistor TR3 cannot be turned on. Therefore, the half-wave rectified voltage is rectified through the diode D3 and the capacitor C1 of the detection unit B, and thus the rectified diode D1. ) Is combined with the voltage amplified and rectified by the amplifying unit (c) to be applied to the constant voltage unit (e). Therefore, the transistor (TR3) is turned on in the constant voltage unit (e). The power supply terminal B + is output through the collector and emitter terminals.

On the other hand, when the AC input source of 220V is applied from the primary side to the secondary side of the power transformer (TRANS), the power is half-wave rectified through the rectifier diode (D2) of the rectifier (A) is the resistance of the detector (B). The voltage divided by the R1 and R2 conducts the zener diode ZD1 to turn on the transistor TR3 of the controller D. Therefore, the voltage half-wave rectified through the diode D1 of the rectifying unit is Since the resistor R3 of the amplifier C flows out through the transistor TR3 of the controller D, the transistors TR2 and TR1 of the amplifier C are turned off and there is no output voltage. .

At this time, the capacitor C2 removes the rectified pulse when the transistors TR2 and TR1 do not operate to remove noise from the power output terminal.

Therefore, the half-wave rectified voltage applied through the diode D2 of the rectifying unit A is rectified by the capacitor C1 through the diode D3 of the detecting unit B to become a constant voltage level so that the transistor TR4 of the constant voltage unit E Since it is applied to the base terminal of the transistor TR4 through the collector terminal of the transistor and resistor R1, the transistor TR4 is turned on so that the voltage half-wave rectified by the diode D2 of the rectifying unit is supplied to the power supply terminal. Will be output to (B +).

If an input voltage of about 160V is applied to the primary side of the power transformer TRANS, the voltage is half-wave rectified by the diode D2 of the rectifier on the secondary side, so that the resistances R1 and R2 of the detector B are applied. Is applied to the zener diode ZD1, and the applied voltage turns on the transistor TR3 of the controller D in a range of a voltage higher than the level enough to turn on the zener diode ZD1. A) The half-wave rectified voltage in the diode D1 flows out to the transistor TR3 of the controller D only through the resistance R3 of the detector I only within the range, and the rest of the voltage range, i. It is applied to the base terminal of the transistor TR2 through the diode D4 of the amplifying unit C. The transistors TR2 and TR1 are sequentially turned on to amplify the applied voltage and rectified by the capacitor C1 to rectify the rectifying unit. A) diode D2 and detector diode (D3) is combined with the voltage rectified by the capacitor (C1), the diode (D3) of the detection unit (B) and the transistor (TR3) of the control unit (D) is controlled so that the combined voltage becomes a free voltage. D3) The transistor TR3 performs a free voltage operation in which the output DC is constant according to each input power voltage variation depending on how much the input power voltage half-wave rectified through the diode D1 is blocked. The DC voltage of a predetermined degree is supplied to each stage as a remote control standby power supply with the stable voltage by the transistor TR4 of the constant voltage part (e).

The zener diode ZD2 is for constant voltage and the capacitor C3 is for layer discharge.

As described above, according to the present invention, the voltage applied from the primary side of the power transformer is half-wave rectified by the rectifier and then amplified and rectified by the amplifier, the detector, and the controller to supply stable remote standby power through the constant voltage unit. By doing so, the noise and current capacity of the transformer coming from the instability of the conventional control circuit can provide an advantage that can completely solve the problem that causes the malfunction of the device coming from.

Claims (1)

In a normal remote standby power supply, a rectifier (A) consisting of diodes (D1) and (D2) is connected to a secondary side of a known power transformer (TRANS) to which an AC input voltage is applied, but the diode (D1) of the rectifier (A) is connected. Is connected to the constant voltage unit (e) through the control unit (d) and amplification unit (c), and the diode (D2) of the rectifier (a) is connected to the control unit (d) through the detection unit (b) and the detection unit (b). ) Is connected to the constant voltage unit (e) through a diode (D3) condenser (C1) to supply a constant voltage suitable for the remote control standby power supply to the input AC voltage, characterized in that 100V-220V pre-voltage remote control standby power supply Circuit.