KR20000007303U - The heater voltage stabilization circuit - Google Patents

Abstract

The present invention relates to a heater voltage stabilizing circuit, and more particularly, to a heater voltage stabilizing circuit in which a direct current voltage supplied from a switching power supply circuit (SMPS) R _H ) To the heater (heater) through the heater resistor R _H And a heater (not shown) R _H A regulator 10 for receiving a voltage from the switching power supply circuit SMPS and outputting a constant voltage regardless of the input voltage; And a voltage-dividing resistor unit 20 for dividing the voltage output from the regulator 10 and supplying the divided voltage to the heater. The heater voltage is stabilized using the regulator, , It is effective to always supply a constant voltage to the heater of the number of correlations to prevent the variation of the brightness of the image correlated with the variation of the heater voltage.

Description

A circuit for stabilizing a heater-voltage in a CRT

The present invention relates to a heater voltage stabilizing circuit of a number of corrections, and more particularly, to a heater voltage stabilizing circuit of a number of corrections which is adapted to stabilize the heater voltage by using a regulator and supply the heater voltage to the heater.

Generally, the power supply circuit properly supplies the necessary voltage in each part of the monitor. It is related to the SMPS (Switched Mode Power Supply), which is smaller, lighter and more efficient than the linear power supply circuit Technology is in the trend of rapid development in recent years.

1 is a circuit diagram showing a general switching power supply circuit (SMPS), which includes a conventional switching power supply circuit (SMPS), a DC power supply 1, a transformer 2, a power transistor 3 A control IC 4, and an output section 5. The control IC 4 includes an output section 5,

Referring to FIG. 1, when a commercial AC voltage of 100 V or 220 V is applied through a fuse, the line filters L 1 and L 2 and the capacitors C 1, It removes the noise flowing through the commercial AC voltage by the L · C resonance action.

The commercial AC voltage having passed through the line filters L1 and L2 and the capacitors C1, C2 and C3 is rectified by the bridge diode D1 and smoothed by the smoothing capacitor C4 through the inrush current prevention resistor R1 DC voltage ( V _i And is then applied to the primary winding of the transformer 2. [

At the same time, the rectified voltage rectified in the bridge diode (D1) V _cc The control IC 4 is operated and the power transistor 30 is turned on / off (ON / OFF) by the PWM control signal output from the control IC 4 .

That is, the DC voltage ( V _i ) Is applied to the capacitor C5, a DC voltage ( V _i ) Is charged, the driving power source (not shown) of the control IC 4 V _cc Reaches the starting voltage, the control IC 4 is activated to generate the PWM control signal, and the power transistor 3 is turned on / off by the PWM control signal.

When the power transistor 3 is turned on and maintained in the ON state by the PWM control signal output from the control IC 4, an induced electromotive force induced in the primary winding of the transformer 2 is generated .

Therefore, the transformer 2 outputs the alternating-current voltage (" V _s, V _sm, V _sn .

This operation is repeated so that the alternating-current voltage (?) Output from the secondary winding of the transformer V _s, V _sm, V _sn Is again supplied with the DC voltage ( V _o, V _om, V _on ).

That is, the AC voltage (? V _s, V _sm, V _sn Is connected to the DC voltage Vdd by the rectifying diodes D2, D3 and D4 and the smoothing capacitors C7, C8 and C9 V _o, V _om, V _on ), And supplied to each circuit of the monitor to operate the circuit.

The DC power output from the switching power supply circuit (SMPS) V _on ) Is the heater resistance R _H (Heater) from a switching power supply circuit (SMPS), which is usually a filament, through a heater V _H ) To generate heat.

Accordingly, when the temperature of the cathode (cathode) supplied with the heat generated from the heater is as high as about 180 ° C., a large amount of electrons are emitted toward the fluorescent film of a few correlations.

Generally, the heater voltage applied to the heater V _H ) Should be within the range of 6.3 ± 0.1V. If the voltage fluctuation or fluctuation of the commercial AC voltage inputted from the outside fluctuates, a voltage out of the rated range is applied to the heater, There is a problem that it affects brightness.

Accordingly, it is an object of the present invention to provide a heater voltage stabilization circuit capable of stabilizing a heater voltage by using a regulator and supplying the heater voltage to a heater of a plurality of correlations .

According to an aspect of the present invention, there is provided a heater voltage stabilizing circuit for a water-

In order to supply the DC voltage supplied from the switching power supply circuit to the heater through the heater resistor,

A regulator connected between the heater resistor and the heater for receiving a voltage from the switching power supply circuit through the heater resistor and outputting a constant voltage regardless of the input voltage;

And a voltage dividing resistor section for dividing the voltage output from the regulator and supplying the divided voltage to the heater.

1 is a circuit diagram showing a general switching power supply circuit,

FIG. 2 is a circuit diagram showing a heater voltage stabilizing circuit of the number of corrections according to the present invention. FIG.

[Description of Drawings]

SMPS: Water heater: Heater

10: regulator 20:

R 1,2: The first and second resistances R _H : Heater resistance

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

FIG. 2 is a circuit diagram showing a heater voltage stabilizing circuit of the number of corrections according to the present invention. FIG.

As shown in FIG. 2, the apparatus according to the present invention controls the DC voltage supplied from the switching power supply circuit (SMPS) R _H ) To the heater (heater) through the heater resistor R _H And a heater (not shown) R _H A regulator 10 for receiving a voltage from the switching power supply circuit SMPS and outputting a constant voltage regardless of the input voltage; And a voltage dividing resistor section 20 for dividing the voltage output from the regulator 10 and supplying the divided voltage to the heater.

Here, the regulator 10 is designed to maintain the output voltage at 6V at all times even if the input voltage is unstable (typically 4V-15V).

The voltage-dividing resistor unit 20 includes a first resistor R1 having one end connected in parallel between the regulator 10 and a heater and a second end connected to one end of the second resistor R2, And the other end of the second resistor R2 is grounded, and the regulator 10 is grounded via the second resistor R2.

The circuit operation of the apparatus according to the present invention will now be described.

The DC voltage output from the switching power supply circuit SMPS is supplied to the heater resistor ( R _H And is supplied to the regulator 10 via the regulator 10.

The regulator 10 outputs a constant voltage (6V) regardless of the input voltage.

The voltage 6V output from the regulator 10 is divided by the first resistor R1 and the second resistor R2 and then supplied to a heater of a water correlation.

At this time, the heater voltage supplied to the heater V _H Is determined by the first resistor R1 and the second resistor R2 and is expressed by Equation (1).

_{V H = I R1 R 1 +} (I G + I R1) R 2 = 6.3V

At this time, the current I _R1 Is the current flowing through the first resistor R1, I _G Is a current flowing from the regulator 10 to the ground.

Accordingly, a heater voltage of 6.3 V (heater voltage V _H , 6 V is set by the first resistor R 1 and 0.3 V is set by the second resistor R 2.

Therefore, a heater with a constant voltage of 6.3 V V _H Is supplied.

As described above, according to the present invention, the heater voltage is stabilized by using the regulator, and then the heater is supplied to the heater of a few correlations, so that a constant voltage is always supplied to the heater of the water- This is effective.

Claims (1)

The DC voltage supplied from the switching power supply circuit (SMPS) R _H To the heater through the heater (heater) The heater resistance ( R _H And a heater (not shown) R _H A regulator 10 for receiving a voltage from the switching power supply circuit SMPS and outputting a constant voltage regardless of the input voltage; And a voltage-dividing resistor section (20) for dividing the voltage output from the regulator (10) and supplying the divided voltage to the heater (20).