JPH055225B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a horizontal output circuit, and particularly to a horizontal output circuit suitable for correcting screen distortion caused by a decrease in cathode ray tube high voltage when the screen brightness becomes brighter. , relates to a distortion correction circuit.

[Background of the invention]

The conventional distortion correction circuit is shown in FIG. 1 except for the part inside the dotted line. The operation of the conventional circuit is
As it is explained in detail in the patent application No. 58-32846,
It will not be explained in detail here.

In this method, a voltage corresponding to the primary coil current of the flyback transformer 10 is generated in the capacitor 15. When the screen is bright, the primary inflow current increases, the voltage of the capacitor 15 increases, and S
The voltage of the character correction capacitor 9 decreases. Therefore, when it is bright, the horizontal deflection current becomes smaller, the horizontal size is reduced, and size correction is performed. Here, 16
In small-sized television receivers such as 20-inch or smaller, the amount of change in current flowing into the primary coil of the flyback transformer 10 when the screen brightness changes is usually smaller than in large-sized television receivers such as 20-inch.

This can be easily understood from the fact that even if the cathode ray tube beam current changes are the same for large-sized television receivers and small-sized television receivers, the high-voltage peak change is small in the case of small-sized television receivers due to lower high voltage.

Furthermore, in the case of a small size, the coating capacity of the cathode ray tube is smaller than in the case of a large size, and high pressure fluctuations due to changes in brightness are large. For this reason, the proportion of distortion is usually higher than that of large-sized ones.

In the above state, if distortion correction is to be effected using the conventional circuit, the only option is to reduce the size of the capacitor 15. By making the capacitor smaller, the voltage generated in the capacitor 15 increases even when the screen is dark, and the S-shaped correction capacitor 9 voltage decreases accordingly. This causes a drop in high voltage and horizontal deflection current, and the power supply voltage is 1.
Even if 1 is 113V, the capacitor 9 voltage is
It drops to about 98V.

As television receivers become smaller,
The above phenomenon becomes stronger, making it difficult to perform normal horizontal deflection operation.

[Purpose of the invention]

An object of the present invention is to generate a distortion correction voltage without reducing the S-shaped correction capacitor voltage and to provide a sufficient distortion correction effect even in a small television receiver with small load current changes. There is a particular thing.

[Summary of the invention]

When the screen is bright, reduce the pace current of the distortion correction transistor to shorten the storage time of this transistor and turn it off earlier than the horizontal output transistor.

As a result, the collector current of the horizontal output transistor charges the correction capacitor and increases the distortion correction voltage. If the screen is dark, increase the base current of the distortion correction transistor, lengthen Ts of this transistor, and turn off almost simultaneously with the horizontal output transistor. This reduces the amount of charge in the correction capacitor and lowers the correction capacitor voltage.

[Embodiments of the invention]

The horizontal output transistor 1 is connected by the transformer 19.
7 and the distortion correction transistor 18 are driven by voltages of the same polarity. Since the transistor 17 has a large collector current, it is driven with a large pace current, and the storage time (Ts) is usually as long as about 4.5 μs.

Further, since the distortion correction transistor 18 only passes the primary coil current of the flyback transformer 10, a low pace current is sufficient, and Ts of 1 μS is normal. In this circuit, the collector current for 3.5 μS after the distortion correction transistor 18 turns off until the horizontal output transistor turns off is the correction capacitor 1.
5 is charging.

FIG. 2 shows the collector voltage of the horizontal excitation transistor 4 of FIG. 1.

represents the base drive voltage of the distortion correction transistor 18.

In FIG. 1, the primary inflow current of the flyback transformer flows through the transistor 18 and generates a voltage in the emitter resistor 21 in accordance with the current.

Shown in Figure 2.

When the screen is bright, the emitter voltage increases due to the resistor 21, but since the voltage in Figure 1 is constant,
-The voltage becomes low, the base current decreases, and the second
T _s shown in the figure shrinks and the transistor turns off quickly.

If Ts of the horizontal output transistor 17 is constant, collector current flows into the correction capacitor 15 for a long period until this transistor turns off, generating a large voltage. Reduce horizontal size.

When the screen is dark, the voltage generated by the resistor 21 is low,
The base current of the distortion correction transistor 18 increases,
Ts is increased, the charging period for the correction capacitor 15 is reduced, and the generated voltage is small. Increase horizontal size.

As described above, by changing the base current of the distortion correction transistor 18, it is possible to suppress an increase in the correction voltage of the correction capacitor 15 when the screen is dark and increase the distortion correction effect.

〔Effect of the invention〕

According to the present invention, a horizontal output circuit equipped with a distortion correction circuit suitable for correcting screen distortion caused by a drop in cathode ray tube high voltage when the screen brightness becomes brighter is achieved with an inexpensive circuit configuration. I can do it,
As a result, it exhibits an excellent effect that can be easily applied to even small-sized televisions.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing one embodiment of the present invention, and FIG. 2 is a voltage waveform diagram of each part of FIG. 1. 1...Resistor, 2...Capacitor, 4...Horizontal excitation transistor, 7...Resonance capacitor, 8...
Horizontal DY, 9...S-shaped correction capacitor, 10...
Flyback transformer, 11...Power supply voltage, 12
...High voltage rectifier diode, 13...High voltage capacitor, 14...Cathode ray tube equivalent resistance, 15...Correction capacitor, 17...Horizontal output transistor with damper diode, 18...Distortion correction transistor, 19...Horizontal excitation transformer, 20 ...Base resistance, 21...Resistance.

Claims (1)

[Claims] 1. A horizontal output transistor 17 with damper diodes connected in parallel, a series circuit of a horizontal deflection yoke 8 and an S-shaped correction capacitor 9 connected between the collector and emitter of the horizontal output transistor 17, and a collector of the horizontal output transistor 17. −
The high-voltage side of the parallel connection circuit is connected to the positive side of a DC power supply 11 via the primary coil of a flyback transformer 10, and the DC power supply A correction capacitor 15 and a distortion correction transistor 18 are connected in parallel between the negative electrode side of 11 and the low voltage side of the parallel connection circuit, and a horizontal oscillation In the horizontal output circuit configured to apply a voltage of the same polarity in response to horizontal excitation from the means and to turn on and off the horizontal output transistor 17 and the distortion correction transistor 18 in synchronization, the distortion correction The emitter of the transistor 18 is connected to the DC power supply 11.
a resistor 21 for controlling the current of the distortion correction transistor 18 according to the current flowing into the primary coil of the flyback transformer 10 from the positive electrode side of the
A horizontal output circuit characterized by inserting.