KR820001210Y1 - Television receiver - Google Patents

Abstract

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Description

Arch Distortion Correction Circuit of Television Receiver

1 is a connection diagram showing an example of an arch distortion correction circuit of a television receiver according to the present invention.

2 is a waveform diagram for explaining the operation of the AFC circuit.

3 is a waveform diagram for explaining the operation of the arch distortion correction circuit of the television receiver according to the present invention.

The present invention relates to an arch distortion correction circuit for correcting an arch distortion in a video image of a television receiver. Especially, the arch distortion correction circuit is corrected without a physical adjustment of the deflection coil in a simple configuration. I do it.

Hereinafter, an embodiment of an arch distortion correction circuit of a television receiver according to the present invention will be described with reference to the accompanying drawings.

In Fig. 1, reference numeral 1 denotes an input terminal to which a horizontal synchronous signal is supplied, and supplies a signal from the input terminal 1 to the comparison circuit 2. Referring to the comparison circuit 2, the input terminal 1 is connected to the base of the transistor 21, the collector of the transistor 21 is connected to the power supply terminal 3 through the resistor 22, and the emitter Is grounded via a resistor (23). The collector and emitter of the transistor 21 are respectively connected to the anode of the diode 26 and the cathode of the diode 27 through the capacitors 24 and 25 of the transistor 21, respectively, and the cathode of the diode 26 is connected to a resistor ( 28 is connected to the power supply terminal 3, and is connected to the anode of the diode 27, and the connection point A of these diodes 26 and 27 is grounded through the capacitor 29 and compared. The signal input terminal 4 is connected. Also, the capacitors 24 and connected to the connection point B of the diode 26, the resistor R _C and the connection point C between the capacitor 25 and the diode 27 via the R _E and an output terminal at a node between the resistors R _C and R _E ( 20).

In this case, when there is a difference between the frequency of the signal supplied from the horizontal synchronous signal input terminal 1 to the comparing circuit 2 in the output terminal 20 of the comparing circuit 2, the voltage according to the difference is obtained. This voltage is supplied from the comparator circuit 2 to the horizontal oscillator 5 including, for example, a voltage controlled variable frequency oscillator, so that the frequencies of both signals coincide.

Next, the transistor of the horizontal output circuit 7 which supplies the signal of the horizontal period obtained from the output side of the horizontal oscillator 5 to the horizontal drive circuit 6, and the signal obtained from the output side of the horizontal drive circuit 6 constitutes the horizontal output circuit 7 ( 7T) to the base. Then, the collector of the horizontal output circuit 7 is grounded through a series circuit of the horizontal deflection coil 7L and the condenser 7C, and connected to one end of the primary winding 8a of the horizontal output transformer 8. do. In addition, the signal of the horizontal period H obtained at the output terminal 9 on the secondary winding 8b side of the horizontal output transformer 8 is connected in series with the capacitor 12 and the parallel circuit composed of the resistor 10 and the capacitor 11. It is supplied to the comparison signal input terminal 3 of the comparison circuit 2 through the circuit. In this case, an integration circuit is formed by the resistor 10 and the capacitor 29. The above structure is the same as what is conventionally called AFC circuit (automatic frequency adjustment device).

In the present invention, a parabolic waveform voltage for failure type distortion correction is supplied to the other end of the primary winding 8a of the horizontal output transformer 8. That is, the input terminal 13 to which the parabolic waveform voltage for failure type distortion correction is supplied is connected to the base of the output transistor 14, and the emitter of the transistor 14 is connected to the other end of the horizontal output transformer 8, The collector is connected to the power supply terminal 15 and connected to the base via a resistor 16. One end of the secondary winding 8b of the horizontal output transformer 8 is grounded through a parallel circuit of the variable resistor 17 and the diode 18. In this case, the diodes 18 are connected such that the anode side is grounded, for example.

Next, the operation of the arc-shaped distortion correction circuit of the inventive television set configured as described above will be described. First, the operation of the circuit in this case will be described. The pulse signal of the horizontal period obtained from the output terminal 9 is the condenser 29. By means of the integrating circuit constituted by the and resistor 10, it becomes a sawtooth waveform voltage of the horizontal period integrated like the curve f of A, B in FIG. 2, and is supplied to the comparison circuit 2. As shown in FIG. In addition, a horizontal synchronous signal is supplied from the synchronous signal input terminal 1 to the base of the transistor 21 of the comparison circuit 2, and in the collector of the transistor 21, an inverse phase of the signal supplied from the input terminal 1 is obtained. The signal Sc of is obtained in the emitter for each horizontal phase of the signal S _E in phase. When the signal obtained from the comparison signal input terminal 4 and the frequency of the horizontal synchronizing signal coincide, the potential of the connection point A when the two signals are compared becomes zero potential, and the signal Sc obtained from the collector side of the transistor 21 is a capacitor. And the signal Sc obtained at the emitter side of the transistor 21 flows to ground through the capacitor 24, the diode 26 and the capacitor 29, and The signal S _E obtained at the emitter side of the transistor 21 flows through the capacitor 25, the diode 27, and the capacitor 29 to the battery, and at this time, the connection points B and C are at the same potential, so that the output terminal 20 Output voltage is not obtained.

Next, as shown in FIG. 2B, when there is a difference in the lower frequency, the potential of the connection point A becomes higher by C, and a potential difference corresponding to this voltage e occurs at the connection point and C, and this voltage is applied to the output terminal 20. FIG. Supplied to operate to compensate for differences in frequency.

Next, the operation of the arch distortion correction circuit of the television receiver according to the present invention will be described.

In the present invention, a parabolic waveform voltage of vertical period V for failure type distortion correction is supplied to one end of the primary winding 8a of the horizontal output transformer 8, and the signal obtained at the output terminal 9 is It is supposed to be modulated with parabolic waveform voltage. In this case, the negative component of this signal flows to ground through the diode 18, and the negative potential of this signal is determined only by the variable resistor 17. That is, as shown by the curve P shown in FIG. 3A, a signal obtained by clamping the negative side is obtained at the output terminal 9.

The average level of this signal is a parabolic waveform, as indicated by the dotted line m ₀ in FIG. In addition, this signal is connected to the contact point A through an integrating circuit constituted by the resistor 10 and the capacitor 29, and the horizontal period sawtooth is modulated by the parabolic waveform voltage of the vertical period V as shown by the curve f 'shown in FIG. The waveform voltage is obtained.

Also in this case, the average level of the signal becomes a parabolic waveform as shown in the curve of FIG. Therefore, even when the frequency of the synchronous signal and the horizontally excited pulse generated from the horizontal output transistor 8 coincide, the average level is changed into a parabolic waveform as described above, so that the potential of the connection point A changes accordingly to the parabolic line. The waveform changes, and the DC voltage for correction obtained at the output terminal 20 also changes in a parabolic waveform. In other words, this results in arch distortion correction. In this case, if the variable resistor 17 is adjusted in accordance with the degree of arch distortion, a desired voltage for correcting arch distortion is obtained. In this case, the arch distortion correction voltage is almost negligible with respect to the AFC operation.

As described above, according to the arch distortion correction circuit of the television receiver according to the present invention, the correction of the arch distortion with a simple configuration only by modulating the output signal of the comparison circuit of the AFC circuit to the parabolic waveform voltage of the vertical period according to the arch distortion. It will be. In addition, according to this paper, arch distortion is achieved only by modulating the output signal of the comparison circuit of the AFC circuit into a vertical parabolic waveform signal without physically adjusting the horizontal deflection coil according to the arch distortion of the video image of the television set. Is well calibrated.

Moreover, according to the present invention, there is no need to design a circuit for arch distortion correction separately.

In the above-described example, the parabolic waveform voltage for failure type distortion correction is supplied to the primary winding 8a of the horizontal output transformer, and as a result, the signal obtained at the output terminal 20 of the comparison circuit 2 becomes a parabolic waveform. The voltage itself obtained at the output terminal 20 of the comparison circuit 2 may be modulated with a parabolic waveform voltage of vertical period.

In addition, the present invention is not limited to the above examples and various other modifications and configurations can be obtained without departing from the spirit of the present invention.

Claims (1)

As shown in the figure and described above in the main text, a horizontal oscillator 5 whose oscillation frequency is controlled in accordance with an output signal of the comparison circuit 2, and a horizontal deflection coil 7L to which an output signal of the horizontal oscillator 5 is supplied. It characterized in that it has a horizontal output circuit (7) including, and modulates the output signal of the comparison circuit (2) for controlling the oscillation frequency of the horizontal oscillator (5) into a vertical parabolic waveform signal according to the arch distortion Arch distortion correction circuit of television receiver.