DE1957840B2 - TV video signal amplifier regenerating synchronising pulses - has diode in negative feedback path to reduce gain for video signal components - Google Patents

Abstract

The video signal (1) including a line sync. pulse (2) is fed to the base of an amplifying transistor (3) over a resistor (14). Resistors (5, 6) generate the base bias potential. A negative feedback path includes two resistors (7, 8) one of which is bridged by a diode (9). The amplified video signal is taken off at the transistor's collector n10). The working point of the transistor is set so that at signal levels corresponding to the video modulation component, the diode (9) is conductive. Its resistance is small compared with that of the parallel resistor (8) and the transistor gain is low. At sign levels corresponding to the negative goin syn. component the diode is blocked, increasing the resistance of the feedback path and hence the gain of the transistor stage.

Description

The invention relates to a video amplifier for a television signal with means for regenerating the Sync pulses.

In a television video signal, the sync pulses are often subject to or in their interference Amplitude attenuated to such an extent that regeneration is necessary. This task occurs z. B. on at one Playback circuit for a tripal method recorded color television signal. The sync pulses can be disturbed and in need of regeneration especially for the following reasons:

1. In known TRIPAL playback circuits, the signals are color subcarrier frequencies with positive modulation processed because the signal amplitude is then low with low color saturation. Since you selects the degree of modulation as large as possible and the demodulator for the sync pulses containing luminance signal cannot be controlled with amplitudes that are too large, the Amplitude of the sync pulses due to the non-linearity of the demodulation diodes in relation reduced to the rest of the video signal.

2. In the simple version, the tripal switch contains the chrominance signal at the chrominance frequency, which is added to the luminance signal, at the time of Switchover interference pulses that fall in the range of the sync pulses.

3. The chrominance signal contains strong color carrier amplitudes in the area of the image sync pulses the matrixing of the carrier-frequency signals from three different lines. These carrier frequency pulses coincide with the image sync pulses and increase the signal amplitude towards ultra black in an impermissible manner.

To regenerate the synchronization pulses, it is known to blank the synchronization pulses and convert them into regenerated form or locally generated new pulses to insert into the signal. This solution ■ 5 requires a lot of circuitry, especially since the insertion with the correct amplitude, phase and the correct DC voltage value.

The invention is based on a video amplifier with a negative feedback path for a sync pulse K) television video signal containing se.

The invention is based on the object of modifying such an amplifier so that at the same time a regeneration of the sync pulses is achieved.

This object is achieved by the invention described in claim 1 π. Advantageous developments of the invention are specified in the subclaims.

The invention requires little additional circuitry, for example from a diode and a : o There is resistance The effect is particularly good because Due to the change in the negative feedback, a large increase in gain in the amplitude range of the sync pulses is achieved so that the desired amplitude value is obtained by cutting off the sync pulses r> can be set and faults eliminated.

Although there is a circuit known (DE-AS 12 75 594), the Lei in a pulse amplifier with a Transistor in emitter circuit between the collector and the amplifier input a diode is connected through the conductivity of the signal is influenced. However, this circuit works in such a way that when conductive Diode the input signal is switched through directly via the diode to the output, while with blocked i> diode the stage as a non-negative feedback amplifier works in common emitter circuit. It does not deal with the task of synchronizing a video signal to regenerate without new sync pulses being generated and fed to the video signal hi must.

There is also a circuit known (US-PS 29 23 768) in which the video signal is fed to an electron tube ur.d on the anode of which a diode is used to prevent falling below the black level. i "> During the sync pulse, a second Tube changed the bias voltage on the diode so that the sync pulses are as unaffected as possible. A regeneration of existing sync pulses is not carried out there, but only "i" image signal components that fall below the black level, suppressed by the limiter circuit.

The invention is explained using the drawing using an exemplary embodiment. In it shows

F i g. 1 shows a basic circuit diagram of the invention,
■ '·· Fig. 2 curves to explain the mode of operation and

F i g. 3 shows a circuit example of the invention for a tripal display circuit.

In Fig. 1, a video signal 1 containing line sync pulses 2 is fed to the base of a transistor 3 via a resistor 14. The transistor 3 contains a load resistor 5, 6 for generating the base bias. In addition, a negative feedback path consisting of resistors 7, 8 is provided, the ^{() 1} > resistor 7 being bridged by a diode 9. The amplified video signal 1 is at a terminal 10.

The operating point of the transistor 3 is set with the resistor 5 so that in the amplitude range

A of the video signal f (Fig.2) the diode 9 is controlled to be permeable. The forward resistance of the diode 9 is small in this amplitude range compared to the resistor 8, so that the gain of the transistor 3 is determined by the resistor 8 and is therefore constant. (Characteristic curve 11 in Fig. 2). As soon as the video signal 1 reaches the amplitude range B, ie the range of the sync pulses, the diode 9 is blocked by the falling voltage at the collector of the transistor 3. The resistor 7 is now in series with the resistor 8, so that the negative feedback resistance between the collector and the base increased, decreased the negative feedback and hence the gain of the transistor 3 is increased, as shown by the characteristic line 12 an increased gain therefore, for the synchronization pulses 2 effective as 2 shows While the video signal 1 in the amplitude domain a is a constant gain is, has the sync pulses automatically, namely by controlling the conductivity of the diode 9 by the video signal 1, an increased gain. This is generally non-linear due to the characteristic curve of the diode 9, but this is insignificant for the sync pulses

F i g. 3 shows a practical embodiment for a tripal display circuit. A color carrier frequency luminance signal Fy with positive modulation is demodulated in a demodulator 13. The video signal 1 with negative polarity obtained in this way is fed to the base of the transistor 3 via the resistor 14. The transistor 3 serves at the same time as an adding stage for adding a luminance signal Yu containing the high video frequencies

(mixed highs) as well as a modulated color carrier F. Between the collector of the transistor 3 and the output terminal 10 a transistor 15 with load resistors 16-18 is connected which cuts the amplified sync pulse 2 by the transistor 15, which is designed as a silicon transistor at voltages of less than 0.6 volts is blocked at the base. With the resistor 5, the operating point of the transistor 3 and thus the desired amplitude of the synchronizing pulses 2 at the terminal 10 can be set at the fixed cut-off potential of the transistor 15. The resistor 7 ensures that there is no unnecessarily large enlargement of the sync pulses and subsequent trimming, since this would only result in an unnecessarily large widening of the sync pulses. The circuit according to FIG. 3 is sufficiently temperature-stable. When using negative modulation for the signal Fy , the polarity of the diodes of the demodulator 13 is reversed and the resistor 5 is not connected to the operating voltage of + 12 V, but to a negative operating voltage of z. B. - 12 V connected.

Instead of the diode 9, a voltage-dependent resistor can generally be used, e.g. B. a VDR resistor sufficiently small inertia or a transistor. 3 if there is sufficient stability of the Amplifier can also use the diode in a positive feedback path, i. H. a positive feedback path, be included and in the amplitude range of the sync pulses the amount of positive feedback for the purpose of increasing increase the gain.

1 sheet of drawings

Claims (5)

Patent claims: 1. Video amplifier with a negative feedback path for a television video signal containing synchronous pulses, characterized in that in the negative feedback path (7, 8) a diode so polarized and controlled in this way by the video signal (9) is switched on so that the negative feedback is reduced in the amplitude range of the synchronizing pulses (2) is 2. Amplifier according to claim 1, characterized in that the diode (9) in parallel with one Resistor (7) of a series resistor connected between the output and input terminals of the amplifier (7, 8) and impermeable in the amplitude range of the sync pulses is controlled 3. Amplifier according to claim 1, characterized in that the amplifier is the amplitude of the Synch pulse (2) limiting cutoff circuit (15-18) is connected downstream. 4. Amplifier according to claim 3, characterized in that means (5) for adjusting the Amplitude of the sync pulses (2) are provided. 5. Amplifier according to claim 4, characterized in that the operating point of the amplifier (3) and / or the cut-off potential of the cut-off circuit (15-18) is adjustable (with 5)