DE1083877B - Overlay receiver in which the amplitude of the oscillator vibrations is regulated - Google Patents

Description

GERMAN

The invention relates to an improvement with regard to the regulation of overlay receivers for ultra-short wave ranges, especially for image receivers. The working conditions of the high-frequency input stages kept constant, while regulation only takes place in the mixer stage. In the field of volume control in radio receivers with intermediate frequency generation it is known to add the oscillations of the oscillator to the received voltage in such an amplitude-dependent manner regulate that the amplitude product of both oscillations remains almost constant. This allows Almost constant Zwisohenfrequenzamplituden can be achieved, whereby also approximately constant Low frequency amplitudes can be generated regardless of fluctuations occurring in the wirelessly transmitted signals.

At the transition to the ultra-short wave ranges, as is well known, those when regulating VHF tubes turn out to be Occurring frequency changes of the connected resonant circuits extremely disturbing, as is well known in these areas the resonant circuit capacities and the tube capacities are very small exercise a significant influence.

Such phenomena cause the high-frequency transmission curve in the ultra-short wave region to become Meaning noticeable distortion affects what z. B. for televisions leads to intolerable interference, where especially in the so-called band III (200 MHz range) due to the influence of the automatic control process in the cited sense, both mismatches with an inevitably associated decrease in input voltages, as well as reflections in the antenna input points of the receiver occur, which then affects the antenna transit times blurred - or so-called reflex images appear on the screen.

The problems that arise here essentially result from the following points: 1. The input resistance of the high-frequency pre-stage and thus the adaptation of the receiver to the antenna is significantly changed by the control voltage. In the VHF range, this applies both to radio receivers and, in an increasingly disruptive manner, to television receivers. All of these devices are operated with matched antennas (dipoles) and feed cables with a specific wave impedance (e.g. ribbon cable with 240 ohms). Such a change in the input resistance then leads, especially in the case of antenna cables several meters in length, to the interference reflections already cited on the antenna cable.
2. Next is through a control, z. B. with overlay receiver,

where the amplitude
the oscillator oscillations is controlled

Applicant:

SABA

Black Forest apparatus construction institute

August Schwer Sons G.m.b.H.,

Villingen (Black Forest)

Dr. rer. nat. Hansrichard Schulz, Villingen (Schwarzw.), Has been named as the inventor

Television receivers changed the transmission characteristic of the picture IF amplifier, so that afterwards the picture quality is very different depending on whether strong or weak incident transmission energies are present. In order to reduce this disadvantage, current negative feedback is used throughout, which in turn means that a considerable part of the gain of these stages is lost.
In any case, there are currently many difficulties in at least partially eliminating the mismatches or antenna reflections that occur due to the control control outlined at the beginning, which, however, requires a great deal of effort for the practical circuit design, which inevitably results in very critical setting values of the various circuits. In order to be able to cope approximately with these difficulties, z. B. proposed to neutralize the tube capacitances (grid anode) in the input stage, which again complicates the setting of such neutralization must be observed so that no disturbing feedback can occur. Furthermore, the bandwidth of the pre-circuit is to be increased by a negative feedback in order to prevent a change in the input conductance at the channel boundaries that occurs due to automatic control, but this naturally results in very critical setting data. A division for local or long-distance reception could then be made by providing appropriate attenuation for the reception of nearby transmitters, which then reduced the control voltages and

009 547/282

3 4

Risk of reflection on the antenna cables with it ~; IF stages automatically regulated, while the oscillating

can bring. Likewise, the regulating gate could also not be regulated.

voltage are divided accordingly, so that in the scheme of Fig. 2 is also in bewiederum for high field strengths, the attenuation obtained from the received signal, as is known in advance are seen. Finally, 5 control voltage can only be used to control the oscillator, the antenna line itself tune to the amplitude of the mixer used while all Adjustments for certain tube operating points to other amplifier stages only with fixed grids, voltages are operated, i.e. without automatic ones

The options listed only show a regulation as indicated by the arrow directions.
Part, but prove only too well what difficulties io For a television receiver, a circuit is to be described on the basis of the previously used gain control Fig. 3, on which the occur as a function of the input signal when the inventive concept is applied. The circuit has an automatic control for regulating HF inputs, a common cascode input stage with the output mixer and the following IF stages tube systems 1 and 2, then the mixing continues. 15 tube 3 with oscillator 4 and then a three-

A heterodyne receiver according to the invention has a stage intermediate frequency amplifier with the tubes 5 is now indicated for the elimination of the indicated 6 and 7. The tube difficulties that are usually still used in that the auxiliary oscillation stages are omitted, since they are essential do not influence the superposition with the received vibrations in the innovation. In itself known a separate mixing tube not as known the 20 way is now the z. B. on the so-called Videover fundamental but a higher harmonic stronger (see Fig. 2) via a control voltage regulator Fundamental oscillation of the amplitude-controlled generator system of a tube obtained from the control-span oscillator is used. voltage - each depending on the input span.

In a manner known per se, only the voltage -, denoted by --U _v, is fed to the control grid of the oscillator amplitude with a control voltage itself. All other tubes are controlled while the other amplifier stages. systems, on the other hand, do not have any automatic, regular grid pre-tensioning. As a result, there is voltage, but the possibilities are kept constant at fixed bias voltages and for the entire amplitude interval of the antenna voltages in accordance with the most favorable operating point of each tube system. As an example cited backward regulation by controlling the oscillator 30 for the cascode / 2 (e.g. type PCC 84) a grating amplitude alone is given. All amplifier bias values -1.2 V, for the mixing system 3 tubes and mixing tubes can then be set with fixed (e.g. PCF 82) -6 V, and for the IF tubes grid voltage values are occupied by the cathode resistors R _{5, which are favorable in each case} operated ₁ Before operating points \ Verden R ₆ and R, so that the post-generated voltages which an automatic gain control for avoiding counter-parts themselves 35 is not coupling respectively with capacitors C _5, C ₆ and C ₇ up to the fields of short waves are bridged. This will allow you to kick in the ZF part. Pass-through characteristic of the picture IF amplifier at

When the proposal is carried out, different amplitudes of the input signal are no longer changed to the extent known per se for frequency setting and, at the same time, use is made of the use of the device for a mixture of no more detuning of the cascode stage, instead of using the fundamental wave of the oscillator for a mixture . The fixed bias voltages GV ₁ and GV ₂ are higher harmonics (harmonics). With the basic principle, in a manner known per se, a non-wave can be controlled in the extreme case of a control range of the Am stage controlled by the input signal, for example the amplitude of 1: 100. However, there must usually be at least three decimal divisions with appropriate filter elements in the grid circle of the line output stage via a voltage of the receiver technology. This means that decades can be mastered. In the case of the invention, once the mixer is in the most favorable position, use is made of the fact that it is operated at the operating point, and on the other hand, the harmonic used in the oscillator is a precise setting of each television band in the channel selector with the most favorable adaptation through the amplitude rectification on the anode channel selector to the current grid voltage characteristic of the oscillator tube 50 antenna cable with z. B. 240 ohms, which is formed for the purpose of veraus the fundamental wave. If, for example, interfering reflections are avoided, the amplitude of the fundamental wave (1st harmonic) is no longer disturbed.

varies by a factor of 10, the 2nd harmonic leads The control voltage - U _v for the oscillator ampli-

a variation by a factor of 100 through, the tube 4 is via series resistors and

The essence of the invention is based on 55 filter elements R ₁ , C _x and R ₂ , C ₂ as well as grid discharge resistors known exemplary embodiments for control circuits, R _{3 was} fed to the control grid 8 of the tube 4. (Fig. 1 and 2), then specifically for the purpose of image reception for the purpose of direct control of the oscillator amplitude, amplifier technology is described with reference to FIG. parallel to R ₃ a pipe section, z. B. Diode 9, an-It shows ordered, whose cathode, with the base of the

Fig. 1 is a block diagram of the previous scheme connected to all 60 grid discharge resistors B ₃ , simultaneously

High-frequency stages, is connected to ground via C _{2 in} terms of high-frequency. the

Fig. 2 in a block diagram, the principle of a tube 4 works in a so-called Colpitts circuit

sole oscillator control and (capacitive three-point circuit) by means of the condenser

3 shows an example of a circuit according to the invention. Sators C ₃ and C ₄ , the anode resonant circuit

In FIG. 1, the previously all 65 special design is schematically obtained as follows. It shows

common usual amplifier control shown, z. B. for itself namely that a particularly effective amplification

a television receiver, depending on the respective sensitivity control of the oscillator 4 occurs when

catch signal. According to the arrows drawn for mixing, not the fundamental oscillation of the oscillator

are seen from the entrance, z. B. HF Vorver- tors is used. Rather, leave the oscillator

stronger stage and the 70 behind the mixer stage vibrate on the fundamental wave and

regulated high frequency a higher harmonic of the fundamental oscillation. While using the Fundamental oscillation of the oscillator only achieves a regulation of the amplitude over 2 powers of ten when using a harmonic, e.g. B. the second already 4 powers of ten.

The anode resonant circuit of the tube 4 consists of the _{resonant circuit formed from C 8} and L ₁ , which is tuned to a harmonic of the oscillator fundamental. It works together with the resonant circuit _{CJL 2} , which is tuned to the fundamental wave of the oscillator. The coils are arranged in such a way that the desired harmonic is preferably coupled to the grid circuit L ₃ ZC ₁₀ , which at the same time receives the amplified received oscillation for additive mixing from the anode circuit LJC _{11 of} the high-frequency pre-stage with the tube systems 1/2. The intermediate frequency is formed from both oscillations in a known manner, the automatic regulation being carried out in a manner known per se by regulating the oscillator amplitude. In practical testing of a circuit according to FIG. 3, this regulation has proven itself extremely well even for high input voltages of a few 100 mV. So far, with constant oscillator amplitude and rectification on the grating of the mixing tube, these have led to modulation distortions as soon as the image carrier amplitude has reached the order of magnitude of the oscillator amplitude on the grating of the mixing tube 3. In the case of a circuit according to FIG. 3, however, the conditions are more favorable, because with high antenna voltages the downregulated oscillator amplitude is only a few mV at the grating of the mixer tube. The image carrier amplitude is then considerably greater than the oscillator amplitude. The IF oscillation resulting from the additive mixing takes over the amplitude modulation of the picture carrier without distortion as long as the controlled section of the characteristic curve can still be viewed as a quadratic function of the control grid voltage of the mixing tube 3. This is the case up to about 5 V ₆ ^ HF amplitude at the control grid, since the mixing tube 3 is operated with a fixed bias voltage GV ₂ of −6 V, as previously indicated, for example. Assuming a 20-fold gain of the cascode level 1/2, an antenna voltage of up to about 25OmV ₆ ^ is obtained. No modulation distortion in the mixer yet. However, this is practically sufficient for most cases; If the antenna voltage is even higher (e.g. directly under a transmitter), an attenuator can then be installed in the antenna input.

It should be emphasized that this, especially for the VHF area, z. B. in the 200 MHz range, The greatest detuning of the oscillator was kept well below 1 per thousand over the entire control range can be. In addition, there is the great advantage of an automatically controlled oscillator amplitude (because the Oscillator amplitude is significantly reduced) that the dreaded interference radiation is complete is avoided because the oscillator oscillation is a subharmonic of that required for the mixing process HF oscillation is.

Claims (3)

Patent claims: 1. Superposition receiver, in which the amplitude of the oscillator vibrations for the purpose of gain control is regulated as a function of the amplitude of the received high-frequency voltage, characterized in that as an auxiliary oscillation to superimpose the received vibrations in a separate mixer tube higher harmonics of the fundamental oscillation of the oscillator with its amplitude is used will. 2. heterodyne receiver according to claim 1, characterized in that only the oscillator amplitude is automatically regulated and that the remaining amplifier stages fixed grid bias voltages obtain. 3. heterodyne receiver according to claim 2 for television sets, characterized in that the fixed bias voltages for the high-frequency input stage (e.g. cascode 1/2) and for the Mixing stage (3) over a voltage division with filter elements the grid circle of the line output stage can be taken while the bias voltages for the intermediate frequency tubes (5, 6, 7) with the help can be obtained from over-blocked cathode resistors. Considered publications:
German Patent No. 659 199;
Austrian Patent No. 142 040;
French Patent No. 872,308;
Radio techn. Monthly Bulletins, September 1939, p. 258. 1 sheet of drawings ® 009 547/282 6.