KR920000770Y1 - Power supply circuit - Google Patents

Abstract

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Description

Horizontal Oscillation Power Supply Circuit

1 is a conventional horizontal oscillation power supply circuit diagram.

2 is a horizontal oscillation power supply circuit diagram of the present invention.

* Explanation of symbols for the main parts of the drawings

1: instantaneous bias supply unit 2: horizontal drive stage

3: horizontal oscillation circuit R1-R4: resistance

C1, C2: capacitor Q1: transistor

FBT: flyback transformer D1-D3: diode

The present invention relates to a horizontal oscillating power supply circuit for operating a horizontal oscillating circuit of a television.

In the conventional horizontal oscillation power supply circuit, as shown in FIG. 1, when the power switch of the television is 'on', the main power applied from the main transformer is applied through the input terminal IO and is applied to the input terminal IO. The may power is applied to the collector of the transistor Q1 through the resistor R1 and is applied to the base of the transistor Q1 to which the bias resistor R2 and R3 are connected. Turn on.

When the transistor Q1 is 'turned on', the main power source is applied to the horizontal oscillation circuit 3 through the diode D1 to operate the horizontal oscillation circuit 3, and when the horizontal oscillation circuit 3 is operated, the flyback transformer ( FBT) is operated to output horizontal output pulses to the secondary side, and the horizontal output pulses fed to the secondary side of the flyback transformer FBT are rectified and smoothed by the diode D3 and the capacitor C1, and then the diode D2. It is applied to the horizontal oscillation circuit 3 through the continuous power supply.

As such, the horizontal oscillation circuit 3 is operated by a main power source applied through the transistor Q1 only when the power is 'on', and is then configured by a power source rectifying the secondary horizontal output pulse of the flyback transformer FBT. To lose.

However, conventionally, the transistor Q1 is 'turned on' so that the main power is continuously supplied through the diode D1 even when a power source rectifying the horizontal output pulse of the flyback transformer FBT is applied to the horizontal oscillation circuit 3. Therefore, even if an abnormality occurs in the set, abnormal current is continuously supplied through the transistor Q1, which may cause a fire.

That is, the horizontal oscillation circuit 3 may be supplied with the main power supply through the transistor Q1 only when the power is 'on', and then the secondary voltage of the flyback transformer FBT may be applied thereafter. As described above, the transistor Q1 is kept in a 'turned on' state so that an abnormal occurrence of a set may cause a fire due to an overcurrent flow.

In order to solve the above disadvantages, the present invention applies the main power supply to the horizontal oscillating circuit only when the power is 'on', and after the operation of the horizontal oscillating circuit, the secondary power of the flyback transformer is applied to the horizontal oscillating circuit. By shutting off, the transistor that supplies the main power supply to the horizontal oscillator circuit is driven for a certain time only when the power is 'on' using the time constant of the resistor and condenut.

This invention is described in detail by the accompanying drawings as follows.

2 is a circuit diagram of the present invention, in which the main power is applied to the horizontal oscillation circuit 3 through the transistor Q1, and the output power of the horizontal drive stage 2 operated by the driving of the horizontal oscillation circuit 3 is horizontal. In the horizontal oscillation power supply circuit configured to be applied to the oscillation circuit 3, a resistor R2 (R3) and a capacitor C2 having a transistor Q1 for supplying a main power supply to the horizontal oscillation circuit 3 connected to a base thereof. The instantaneous bias supply unit 1 is configured to be driven during the time constant of.

That is, in the present invention, when the initial main power is turned on, the transistor Q1 of the instantaneous bias supply unit 1 is driven during the time constant by the resistors R2 and R3 and the capacitor C2, so that the initial start power source is supplied to the horizontal oscillation circuit 3. After the operation of the horizontal oscillation circuit (3) and the horizontal oscillation circuit (3) by smoothing the secondary induced voltage of the flyback transformer (FBT) of the horizontal drive stage (2) to the diode (D3) and condenser (C1) The horizontal drive stage (2) is configured to supply power.

In the drawings, reference numerals D1 and D2 denote reverse voltage preventing diodes.

Referring to the operation and effects of the present invention configured as described above in detail.

When the power switch of the television is 'on', the main power generated from the main transformer is applied to the terminal IO, and the capacitor is connected to the time constant by the resistor R2 ((R3) and the capacitor C2) of the instantaneous bias supply unit 1. It begins to charge at (C2).

That is, since the capacitor C2 of the instantaneous bias supply unit 1 is charged with power when the main power is supplied, the base potential is lower than the emitter potential of the transistor Q1 while the power is charged to the capacitor C2. Will be 'turned on'.

At this time, when the power is completely charged to the capacitor C2, the transistor Q1 is 'turned off' because there is no voltage difference between the emitter and the base.

Therefore, the transistor Q1 of the instantaneous bias supply unit 1 is 'turned on' while the power is charged to the capacitor C2 when the initial main power is applied, and when the transistor Q1 is 'turned on', the main power source turns on the diode D1. The horizontal oscillation circuit 3 starts operation by being supplied to the horizontal oscillation circuit 3 as a start power supply.

When the horizontal oscillation circuit 3 is operated, the flyback transformer (FBT) is driven to output a horizontal output pulse to the secondary side of the flyback transformer (FBT) and the horizontal output output from the secondary side of the flyback transformer (FBT). The pulse is kindly smoothed in the diode D3 and the capacitor C1 and then applied to the horizontal oscillation circuit 3 through the diode D2.

Therefore, since the horizontal oscillation circuit 3 is operated by the power applied from the horizontal drive stage 2 after the main power source is initially operated, the main power supply is not necessary.

Therefore, the transistor Q1 of the instantaneous bias supply unit 1 needs to be 'turned on' only enough time to drive the horizontal oscillation circuit 3 at the initial power 'on'.

Performing such an operation is a resistor R2 (R3) and a capacitor C2 connected to the base of the transistor Q1.

That is, the transistor Q1 is 'turned on' only while the main power is turned on and the capacitor C2 is charged, and when the power is fully charged in the capacitor C2, the transistor Q1 is 'turned off'. Only when the power is 'on', the main power supply for driving the horizontal oscillation circuit 3 is supplied, and after the operation of the horizontal oscillation circuit 3, the main power supply is cut off.

Therefore, the main power is supplied to the horizontal oscillation circuit 3 only at the initial power 'on', and is not supplied thereafter, thereby preventing the risk of fire from overcurrent flow due to a set abnormality.

Here, the time constants of the resistors R2 and R3 and the capacitor C2 of the present invention may be set to a period in which the flyback transformer FBT is driven to output the secondary rated voltage.

The secondary horizontal output pulse of the flyback transformer FBT is rectified and smoothed by the diode D3 and the condenser C2, and then supplied to the horizontal oscillation power of the horizontal oscillation circuit 3, and at the same time, the operating power of each part of the set ( B˝) is supplied.

As described above, the present invention is to turn on the transistor until the secondary oscillation power of the flyback transformer is applied to the horizontal oscillation circuit when the initial power is 'on' so that the initial start power is supplied. The driving time of the in transistor is determined by the time time constant of the resistor and the capacitor.

Therefore, the transistors are 'turned on' only at initial start-up, preventing the set-over generator overcurrent from flowing, preventing the risk of fire due to the transistor's destruction and overheating.

Claims (1)

Main power is applied to the horizontal oscillation circuit 3 through the transistor Q1 and output power of the horizontal drive stage 2 operated by the driving of the horizontal oscillation circuit 3 is applied to the horizontal oscillation circuit 3. In the configured horizontal oscillation power supply circuit, a moment at which the transistor Q1 for supplying the main power supply to the horizontal oscillation circuit 3 is driven during the time constants of the resistors R2 and R3 and the capacitor C2 connected to the base. A horizontal oscillation power supply circuit comprising a bias supply section (1).