KR960011225B1 - Deflection circuit - Google Patents

Abstract

The circuit for compensating a horizontal/vertical deflection of a television by controlling a voltage source instead of a matching coil, includes a deflection controller generating a sawtooth wave for a vertical deflection and a pulse for a horizontal one, a vertical display amplifying the sawtooth wave to add the FBT pulse, a horizontal driver receiving the pulse from the deflection controller to drive a base current, a horizontal display generating a driving current, a deflection driving signal generator converting the sawtooth wave into a parabola wave, a voltage source controller controlling a voltage source according to the signal from the deflection driving signal generator.

Description

Horizontal / Vertical Deflection Compensation Circuit

1 is a block diagram of a conventional horizontal and vertical deflection correction circuit.

FIG. 2 is a detailed circuit diagram of the horizontal output section (50) and the deflection correction section (6) diode modulation section in FIG.

3 is a block diagram of a horizontal / vertical deflection correction circuit of the present invention.

FIG. 4 is a detailed circuit diagram of the deflection drive signal generator 3 and the power supply voltage controller 8 in FIG.

(A) to (d) of FIG. 5 are input / output waveform diagrams for FIG.

* Explanation of symbols for main parts of the drawings

1: deflection control unit 2: vertical output unit

3: deflection drive signal generating unit 4: horizontal drive unit

5: horizontal output unit 6: deflection compensation

7: diode modulator 8: power supply voltage controller

10: Citifit L ₁ : Check Coil

L ₂ : Linear Coil L ₃ : Matching Coil

IC ₁ : Integrator HDY: Horizontal Deflection Yoke

VDY: Vertical Deflection Yoke

The present invention relates to a horizontal / vertical deflection correction circuit of a TV, and in particular, to compensate for horizontal / vertical deflection by switching a power supply voltage instead of a matching coil method that is difficult to design and difficult to correct. A horizontal and vertical deflection correction circuit is provided to provide stability and design convenience.

1 is a configuration diagram of a conventional horizontal / vertical deflection correction circuit. As shown in FIG. 1, a deflection control unit 1 outputs a sawtooth wave for vertical deflection and a pulse wave for horizontal deflection, and a sawtooth wave output from the deflection control unit 1. Amplifies and outputs a vertical output unit 2 outputting the vertical deflection yoke VDY of the CPT 10 and a sawtooth wave input through the vertical deflection yoke VDY to generate a parabola wave. The check coil L according to the output signal of the driving signal generator 3, the horizontal driver 40 driving the base current by receiving the pulse wave output from the deflection control unit 1, and the horizontal driver 40. ₁ ) a horizontal output unit 5 for outputting the power supply voltage B ^{+ received} through the linear coil (L ₂ ) to the horizontal deflection yoke (HDY) of the Sipiti (10), and the horizontal deflection yoke (HDY) Voltage of the capacity (Cs) for charging and discharging the voltage flowing through The deflection compensator 6 which adds the parabola wave of the generator 3 to the matching coil and modulates the output signal of the deflection compensator 60 and outputs the modulated output signal to the fraudulent horizontal output stage 50. And a diode modulator 7 for correcting in the horizontal / vertical direction, wherein the horizontal output part 5 receives the output signal of the horizontal driver 40 as a base and supplies the collector of the transistor TR ₁ to the power supply voltage B. FIG. ⁺ ) Is connected to the check coil (L ₁ ) is applied, and the connection point is configured by connecting to one terminal of the capacitor (Cs) through the linear coil (L ₂ ) horizontal deflection yoke (HDY), the deflection correction unit ( 6) the one end terminal of the matching coil (L ₃ ) at a low speed to the other terminal of the capacitor (Cs), the other terminal of the matching coil (L ₃ ) through the resistance (R ₁ ) deflection drive signal generator 30 ) Is connected to the ground capacitor (Cs) and the other end of the matching coil (L ₃ ) is connected to the resistor (R). ) Is connected to one terminal of the matching coil (L ₃ ) through the capacitor (C) and the connection point is connected to the input terminal of the diode modulator (7), the diode modulator (7) is the horizontal output The diode D ₁ (D ₂ ) and the capacitor C ₁ (C ₂ ) are connected in series to the output terminal of the unit 5, respectively, and the diode D ₁ (D ₂ ) and the capacitor (C ₁ ) (C The common connection point of ₂ ) is connected to the output terminal of the deflection correction unit 6, and configured.

In the conventional horizontal / vertical deflection correction circuit configured as described above, as shown in FIGS. 1 and 2, the deflection control unit 1 sends a sawtooth wave for vertical deflection to the vertical output unit 2, and a pulse wave for horizontal deflection. To the horizontal drive (4).

At this time, the vertical output unit 2 amplifies the input sawtooth wave and adds a flyback pulse to the signal to the deflection drive signal generation unit 3 through the horizontal deflection yoke VDY of the Citity 10. Output

On the other hand, the horizontal driver 4 drives the base current by the input pulse wave and applies the base current to the horizontal output part 5 so that the horizontal drive part 4 is caught in the collector of the transistor TR _{1 of} the horizontal output part 5. The power supply voltage B ⁺ flows into the horizontal deflection yoke HDY through the check coil L ₁ and the linear coil L ₂ , charges the capacitor Cs, and discharges the horizontal deflection yoke HDY.

In this case, the deflection drive signal generation unit 30 integrates the sawtooth wave input through the vertical deflection yoke (VDY) to produce a parabola wave, amplifies it, and outputs it to the deflection correction unit (6). (6) adds the parabolic wave on the vertical side to the charging voltage of the capacitor Cs at the matching coil L ₃ and outputs the result to the diode modulator 7.

Accordingly, the diode modulator 7 modulates the diodes D ₁ (D ₂ ) and the capacitors C ₁ (C ₂ ) to correct horizontal and vertical deflections of the CFT 10, and corrects this. When the value is applied to the collector of the transistor TR ₁ , this correction value flows to the horizontal deflection yoke HDY through the linear coil L ₂ to correct the deflection of the CTP 10.

However, the conventional horizontal / vertical deflection correction circuit described above is slightly simpler in layout since the deflection correction method using the matching coil L ₃ is used, but it is necessary to solve the complicated coil equation for determining the matching coil value. It is difficult to set the matching coil because there is a difference between the value obtained through the eclipse and the value that is actually applied.If the design of the matching coil is a little wrong, the large current noise on the horizontal side is taken into the vertical side and the horizontal and vertical deflection correction fails. Problems will arise.

In order to compensate for this problem, a horizontal / vertical deflection correction circuit has been devised to provide stability and design convenience of TV deflection by correcting horizontal / vertical deflection with a transistor switching method of controlling a supply voltage instead of a matching coil. When described in detail with reference to the accompanying drawings as follows.

3 is a configuration diagram of a horizontal / vertical deflection correction circuit according to the present invention, as shown in FIG. 3, a deflection control unit 10 generating a sawtooth wave for vertical deflection and a pulse wave for horizontal deflection; and an output from the deflection control unit 1. After amplifying the sawtooth wave to be added to the flyback pulse to the vertical deflection yoke (HDY) of the Citi (10) and the pulse wave output from the deflection control unit 10 receives the base A horizontal drive unit 4 for driving current, a horizontal output unit 5 for generating a current for driving the horizontal deflection yoke HDY of the city 10 according to the output signal of the horizontal drive unit 4, and The power supply voltage B ⁺ is controlled according to the output signal of the deflection drive signal generator 3 and the deflection drive signal generator 30 which integrates the sawtooth wave flowing through the vertical deflection yoke HDY to produce a parabolic wave. and that the control voltage to be checked through the coil (L ₁₎ It consists of a power supply voltage control unit (8) which flows to the horizontal deflection yoke (HDY) of the CTP 10 in combination with the output signal of the output unit (5), wherein the deflection drive signal generator (3) is a vertical deflection yoke (HDY) ) resistance to the other side of the (R ₃₎ a connection to the non-inverting terminal of the integrator (IC ₁₎ through, and a resistance (R applied to the non-inverting terminal of the integrator (IC ₁₎ to the supply voltage (B ⁺⁾ ₄₎ and and coupled to one terminal of a grounded variable resistor (VR _1), through that the well resistance (R ₆₎ connected to the output terminal of the integrator (IC ₁₎ on the one side is a ground resistance (R ₅₎ earth resistance (R ₇ ) to the connection point of resistance to an output end of the enemy secretion (connected to the inverting terminal of the IC _1), and the enemy molecule (IC ₁₎ connected to a (R ₈₎ and a ground capacitor (C _5), a power supply voltage control unit (8 via Is connected to an input terminal, and the power supply voltage control unit 8 transmits the output terminal of the deflection drive signal generation unit 8 to the transmitter TR whose emitter is grounded through the resistor R ₉ . Connected to the base of ₂₎ and, over that, and as well as a resistance (R ₁₀₎ connected to the base of the transformer jitter (TR ₃₎ which is applied to the transformer jitter (TR ₂₎ the power supply voltage collector (B ⁺ in) is to the emitter Check coil (L ₁₎ is connected, and connected to the base of the transformer jitter (TR ₃₎ transistor (TR ₄₎ applied to the collector to the power supply voltage (B ⁺⁾ the collector of, and of the transistor (TR ₄₎ The emitter is connected to the ground capacitor C ₆ , this connection point is connected to the check coil L ₁ , and the horizontal output unit 5 is configured in the same manner as in the prior art.

When described in detail with reference to Figures 4 and 5 attached to the effect of the present invention configured as described above are as follows.

First, when a sawtooth wave is generated in the deflection control unit 1, the vertical output unit 2 amplifies the sawtooth wave and then adds a flyback pulse to the amplified sawtooth wave to provide a signal as shown in FIG. Flow into the vertical deflection yoke (VDY) for vertical deflection.

On the other hand, the horizontal driver 4 receives a pulse wave from the deflection control unit 1 to drive a base current for driving the transistor TR ₁ of the horizontal output unit 5, and the transistor TR ₁ ) is turned on to generate a waveform as shown in FIG. 5C at the collector of the transistor TR ₁ , and this waveform flows to the horizontal deflection yoke HDY of the CPT 10 to perform horizontal deflection. do.

At this time, the sawtooth wave as shown in (a) of FIG. 5 flowing through the vertical deflection yoke VDY is integrated by the integrator IC ₁ of the deflection drive signal generation 3 and converted into a parabola wave as shown in FIG. Accordingly, to apply to a transistor (TR _2), the deflection drive signal generation section 3 in which after a power supply voltage control unit 8 amplifies this parabola wave, a transistor (TR ₂₎ is switched according to a parabola wave form of the Will perform the action.

That is, if a large amount of current flows in the center of the parabola wave, and a relatively small current flows at both edges, the parabola wave is controlled by on / off of the transistors TR ₂ and TR ₃ , and thus parabola is controlled. transistor of selling transistor (TR ₄₎ the applied base is the transistor (TR ₄₎ power supply voltage check coil (L ₁₎ a through the horizontal output section 5 via the emitter along with the (B ⁺⁾ flowing through the collector of the ( TR ₁ ) is applied to the collector. At this time, the signal added with the output signal of the power supply voltage control unit 8 and the output signal of the horizontal output unit 5 becomes a waveform as shown in (d) of FIG.

That is, the flyback pulse modulated as described above flows in the horizontal deflection yoke HDY of the CPT 10 to perform horizontal deflection.

In addition, if the input signal is varied by applying the variable resistor VR ₁ provided at the input terminal of the deflection drive signal generator 3, the horizontal modulation width can be easily adjusted freely, and the horizontal power supply voltage B ⁺ Is controlled directly by the power supply voltage control section 8, so that the large current of the horizontal output has little effect on the vertical output.

As described above, according to the present invention, it is possible to improve design time reduction and circuit stability by correcting horizontal / vertical deflection by power supply voltage, which is difficult and difficult in designing a correction circuit using a matching coil. By replacing this with an easy-to-supply element, there is an effect to facilitate the design.

In addition, the present invention can perform the horizontal / vertical correction perfectly, and there is an effect that can increase the reliability in 16: 9 TV or HDTV (HDTV) that requires a particularly large screen.

Claims (3)

A deflection control unit 1 for outputting sawtooth and pulse waves for vertical and horizontal deflection and a vertical output unit for amplifying the sawtooth wave of the deflection control unit 1 and adding a flyback pulse to the vertical deflection yoke (VDY) (2). ), A horizontal drive unit 4 for driving the base current by receiving the pulse wave of the deflection control unit 1, and a horizontal output unit for driving the horizontal deflection yoke HDY according to the output signal of the horizontal drive unit 4. (5) and a deflection drive signal generator (3) for integrating the sawtooth wave flowing through the vertical deflection yoke (VDY) into a parabola wave, and outputting the power supply voltage according to the output signal of the deflection drive signal generator (3). B ⁺ ) and the power supply voltage control unit 8 which flows the controlled voltage to the horizontal deflection yoke HDY through the check coil L ₁ and the output signal of the horizontal output unit 5. Horizontal / vertical deflection correction circuit, characterized in that. The horizontal / vertical deflection correction circuit according to claim 1, characterized in that the deflection drive signal generator (3) is provided with a variable resistor (VR ₁ ) at the input terminal to freely adjust the deflection modulation width. 2. The power supply voltage control section (8) according to claim 1, wherein the power supply voltage control section (8) connects the base of the transistor (TR ₂ ) whose emitter is grounded through a resistor (R ₉ ) to the output terminal of the deflection drive signal generator (3), The collector of (TR ₂ ) is connected to the base of the transistor (TR ₃ ) to which the power supply voltage (B ⁺ ) is applied to the emitter, and is connected to one end of the check coil (L ₁ ) through the resistor (R ₁₀ ). said transistor (TR ₃₎ and connecting the collector to the base of the supply voltage (B ⁺⁾ and the transistor (TR ₄₎ is applied to a collector, said transistor (TR ₄₎ emitter side is grounded capacitor (C a ₆ ) and a horizontal / vertical deflection correction circuit characterized in that the connection point is connected to one end of the check coil (L ₁ ).