FR2585205A1 - Circuit for TV receiver with controllable IF video signal amplifier - Google Patents

Abstract

A TV receiver is for positively modulated video signals and has a controllable IF video signal amplifier (2), whose output (3) is coupled to the input of a mean value detector (7). Behind the latter is connected an integrator (11), whose output is linked to the control input (12) of the amplifier. A limiter (5) is fitted in front of the integrator. The mean value detector pref. contains a multiplier, to whose first input (6) is fed the output signal of the limiter, while its second input (8) receives the IF image carrier, derived from the IF amplifier output signal by an image carrier generating circuit (4). With negative modulated video signals a changeover switch couples the output of the IF amplifier to the input of the mean value detector.

Description

Circuit arrangement for a television receiver comprising an adjustable IF video signal amplifier.

 The present invention relates to a circuit arrangement for a television receiver for positively modulated video signals comprising an adjustable IF video signal amplifier whose output is coupled to the input of a mean value detector and an integrator which follows the mean value detector, the output of which is connected to the amplifier adjustment input.

 Such a circuit arrangement is used in the integrated circuit TDA 2549. The amplifier IF must eliminate the fluctuations in the signal supplied by the tuner, which are caused, for example, by fluctuations in field strength at the place of reception, so that a set amplified IF video signal is present at the output of the IF amplifier. In addition, automatic regulation of the amplification makes it possible to obtain constant excitation of the image tube.

 In the known circuit arrangement, the average value of the envelope of the IF video signal is formed.

An adjustment signal dependent on this average value is applied to the adjustment input of the MF amplifier.

Since the maximum amplitude of the envelope depends, in the case of positively modulated video signals, on the respective image content, in rSgime established also an average value depends on the image content and thus also a signal adjustment dependent on image content. If, for example, for a certain period of time, only image signals of amplitudes close to the amplitude of the black level are emitted, this results in a denaturation of the image, that is to say that a black image point is displayed on the screen as a grayish image point, because the average value changes.

 The object of the invention is to provide a circuit arrangement of the aforementioned type in such a way that for positively modulated video signals is produced an adjustment signal which is largely independent of the respective image content and which therefore does not cause any image distortion.

 This object is achieved in accordance with the invention by the fact that in front of the integrator is installed a limiter.

In the circuit arrangement according to the invention, to reduce the influence of the image content on the adjustment operation, a limiter is introduced into the circuit which, in steady state, intervenes to limit the amplitudes above the level of the black. In this way, we manage to base the regulation of the amplification on the black level, essentially independently of the image content.

 In a development of the invention, it is expected that the mean value detector comprises a multiplier, the first input of which receives the output signal from the limiter and the second input of which receives the image carrier FI obtained by means of a circuit intended extracting the image carrier from the output signal of the IF amplifier In this development of the invention, the limited IF video signal is demodulated. At the output of the multiplier, it then appears in the form of a low frequency signal.

 In current television receivers, circuit arrangements are used which process television signals of different standards. So that television signals with positive and negative modulation can be processed by means of the circuit arrangement according to the invention, it is provided that, in the case of video signals with negative modulation, a first inverter connects the output of the IF amplifier at the input of the mean value detector. As a variant, it is possible that the output of the IF amplifier is connected to the input of another average value detector and that a second inverter, in the case of video signals with negative modulation, connects the output of this mean value detector at the input of the integrator. Such a circuit arrangement for negative modulation television signals is described in document DE-PS 28 55 880 and has been combined with the circuit arrangement in accordance with invention.

 Such a circuit arrangement for video signals with positive and negative modulation can be arranged in such a way that in front of the first input of the multiplier is arranged the first inverter which, in the case of video signals with positive modulation, connects the output of the limiter and , in the case of negatively modulated video signals, connects the output of the IF amplifier to the first input of the multiplier and that, in front of the second input of the multiplier, there is a third inverter which, in the case of modulated video signals positive, connects the output of the circuit for the extraction of the image carrier and in the case of video signals with negative modulation, connects the output of the FM amplifier to the second input of the multiplier.

The embodiments of the invention will be described below with reference to the attached drawing, in which:
Fig. 1 illustrates an exemplary embodiment of the circuit arrangement in accordance with the invention for video signals with positive modulation, and
Figs. 2 and 3 each time illustrate an exemplary embodiment of the circuit arrangement according to the invention for video signals with positive and negative modulation.

In Fig. 1, to an input 1 of an adjustable FM amplifier (preferably with several stages) 2 is applied an IF video signal which was previously obtained in a current tuner in a television receiver. At output 3 of the FIS amplifier, the amplitude-adjusted output signal is supplied to a synchronous demodulator, not shown in detail, which produces the complete low-frequency color signal. Amplifier output 3
FI 2 is also connected to a circuit 4 for extracting the carrier and to a limiter 5. To a first input 6 of a multiplier 7 is applied the output signal of the limiter 5 and to a second input 8 of the multi plier 7 is applied the output signal of circuit 4.

At the output 14 of the multiplier 7 there appears a demodulated and limited video signal and in addition a high frequency signal whose frequency is equal to twice the intermediate frequency. The multiplier 7 is followed by a low-pass filter 9 to remove the higher frequency fractions from the signal. Via an amplifier 10, the output signal of the low-pass filter 9 is applied to an integrator 11 which, in the simplest case, may consist of a capacitor connected to the output of the amplifier 10 and ground. The integrator output signal 11 is the control signal for the MF amplifier 2 and is applied to a control input 12.

 Circuit 4 produces, from the adjusted output signal of amplifier FI 2, the image carrier as described, for example, in the review "Funkschau'l 1972, no.4, page 105. Circuit 4 for carrier extraction includes a limiter which produces an output signal of constant amplitude and a resonant circuit. Circuit 4 produces the image carrier FI with a frequency of 38.9 MHz. In steady state, the limiter 5 operates in such a way that all the amplitudes which are situated above the black level and which exceed a determined amplitude are limited. The multiplier 7 forms, from the image carrier and the limited IF video signal, a demodulated limited video signal and a higher frequency signal which is suppressed in the low-pass filter 9 located downstream. Due to the limitation, the image content does not contribute substantially to the formation of the average value carried out by of the integrator there. As a result, a fluctuation in the signal of adjustment caused by different picture contents and fluctuation of the IF amplifier in steady state are also largely avoided.

 In Figs. 2 and 3 are shown circuit arrangements which are suitable for processing video signals X positive or negative modulation in an adjustable IF amplifier. The elements of the circuit having the same functions as in FIG. 1 are designated by the same reference numbers. In Fig. 2, to an input 1 of an adjustable IF amplifier 2 is applied a video signal lowered by the tuner to an intermediate frequency. The output 3 of the IF amplifier 2 is connected, in addition to a circuit 4 for extracting the carrier and to a limiter 5, also to an input 20 of an inverter 21 and to the input 22 of an inverter 23. The output signal of circuit 4 for the extraction of the carrier is applied to an input 24 of the inverter 21 and the output signal of the limiter 5 is applied to an input 25 of the inverter 23. The output 26 of the inverter 23 is connected to a first input 6 of a multiplier 7 and the output 27 of the inverter 21 is connected to an input 8 of the multiplier 7. If positive modulation video signals are applied to the IF amplifier 2, the inverter 21 connects the input 24 to the output 27 and the inverter 23 connects the input 25 to the output 26 and if negative modulation video signals are applied to the amplifier IF 2, the input 20 of the IF amplifier is connected to the output 27 and the input 22 of the inverter 23 is connected to the output 26.

 The multiplier 7 is followed by a lowpass filter 9 which removes the higher frequency fraction of the output signal from the multiplier 7 and an amplifier 10. The control signal is applied to a control signal input 12 of the amplifier FI 2 from amplifier 10 via an integrator 30. The integrator 30 comprises an inverter 31 and two capacitors 32 and 33. The inverter 31 connects one of the capacitors 32 or 33 installed between the output of amplifier 10 and ground at the control signal input 12. Using the inverter 31 and the two capacitors 32 and 33, it is possible to form the average value for video signals with positive modulation and negative with different time constants. The three inverters 21, 23 and 31 can, for example, other controlled by an identification circuit placed in front of the amplifier IF which checks whether the received signal is modulated positively or negatively.

 If negatively modulated video signals are present, these signals are squared in the multiplier 7, so that the synchronization pulses contribute more than the image content to the formation of average value, as explained in detail in the document. DE-PS 28 55 880. If positive modulation video signals are present at input 1 of the IF amplifier 2, the circuit arrangement works as described with reference to FIG. 1.

 In Fig. 3, an IF video signal is applied to the input 1 of an adjustable IF amplifier 2. The amplitude-adjusted output signal of the IF amplifier 2 is applied to a circuit 4 for the extraction of the carrier and to a limiter 5. The output signals of circuit 4 and of limiter 5 are multiplied in a multiplier 7 and are applied, via a low-pass filter 9 and an amplifier 10, to a first input 40 of an inverter 41. In addition, the output 3 of the IF amplifier 2 is connected to the two inputs of an amplifier 42. The output signal of the IF amplifier 2 squared in the multipliers 42 is brought, via d a low-pass filter 43 and an amplifier 44 at a second input 45 of the inverter 41.

The output 46 of the inverter 41 is connected to an integrator 47. The output signal of the integrator 47 is applied to a control input 12 of the amplifier
FI 2.

When positive modulation video signals are applied to the IF amplifier 2, the input 40 is connected to the output 46 of the inverter. In the case of video signals with negative modulation, the inverter establishes a connection between input 45 and output 46. The function of the circuit arrangement illustrated in FIG. 3 is the same as that of the circuit assembly illustrated on the
Fig. 2.

Claims (5)

CLAIMS: 1. Circuit arrangement for a television receiver for positively modulated video signals comprising an adjustable IF video signal amplifier, the output of which is connected to the input of a mean value detector, and an integrator which follows the detector average value and the output of which is connected to the adjustment input of amplifier 2, characterized in that a limiter (5) is installed upstream of the integrator (11). 2. Circuit arrangement for a television receiver for positively modulated video signals according to claim 1, characterized in that the mean value detector comprises a multiplier (7) at the first input (6) from which the signal is applied. output of the limiter (5) and to the second input (8) of which is applied, by means of a circuit (4) for the extraction of the image carrier, the image carrier FI extracted from the output signal of the amplifier FI (2). 3. Circuit arrangement for a television receiver for video signals with positive and negative modulation according to any one of the preceding claims, characterized in that, in the case of video signals with negative modulation, a first switch (23) connects the output (3) of the IF amplifier (2) at the input (6) of the mean value detector (7). 4. Circuit arrangement for a television receiver for video signals with positive and negative modulation according to claim 1 or 2, characterized in that the output (3) of the IF amplifier (2) is connected to the input d another average value detector (42) and a second switch (41), in the case of negative modulation video signals, connects the output of this medium value detector (42) to the input of the amplifier ( 47). 5. Circuit arrangement for a television receiver for video signals with positive and negative modulation according to claims 2 and 3, characterized in that in front of the first input (6) of the multiplier (7) is installed the first switch (23) which, in the case of positive modulation video signals, connects the output of the limiter (5), and in the case of negative modulation video signals, connects the output (3) of the IF amplifier (2) to the first input (6) of the multiplier (7) and that in front of the second input (8) of the multiplier (7) is installed a third switch (21) which, in the case of video signals with positive modulation, connects the output of the circuit (4) for the extraction of the image carrier and, in the case of video signals with negative modulation, connects the output (3) of the IF amplifier (2) to the second input (8) of the multiplier (7).