DE1073042B - Frequency control arrangement based on the principle of current inflow angle control, preferably for the m and dm range of television receivers - Google Patents

Description

GERMAN

The invention relates to automatically controlled, remotely controlled or with direct voltage controlled frequency control arrangements according to the Principle of the flow angle control with the help of diodes, preferably for the m and dm range of Television receivers.

In the case of receiving devices that are operated in the range of the dm waves, there are essentially two reasons for the need for automatic reconciliation. Once this is supposed to Wandering of the oscillator frequency can be compensated for by heating or voltage fluctuations, on the other hand, the setting accuracy is certain, especially with continuous coordination guaranteed. The last argument is particularly true for television receivers operating in the frequency domain can be operated from 470 MHz.

For this purpose it is known to represent controllable reactances by means of tubes which are connected in a feedback circuit are operated and where through suitable networks z. B. the tension between Anode and cathode differ in phase by 90 ° compared to the voltage between grid and cathode and the tube becomes effective as a reactance, its size by changing the operating voltages can be influenced.

It is also known to obtain a controllable capacitance as controllable reactance in such a way that a fixed capacitor is used, which is only switched on temporarily or partially within a period is, wherein a rectifier or a diode or directional conductor is used as a switching element, so that the current conduction angle and thus the effective capacity required in each case are controlled in a simple manner can be.

Finally, it is also known to use such a method of current conduction angle control for frequency regulation or sharp tuning of television receivers, possibly in conjunction with a Remote control to apply.

For such arrangements there are technically feasible solutions for automatic coordination up to Carry out frequencies of 250 MHz, i.e. in a range in which resonant circuits were still concentrated Switching elements can be built.

However, the described principle hits in the dm range with continuous tuning of a larger one Frequency range on difficulties, since the special form of training in this area Resonant circuits forces to place the reactance circuit as parallel as possible to the tube capacitance to have a coupling in the voltage belly or current node.

But you can practically only up to with the supply line

Frequency control arrangement

according to the principle

the current conduction angle control,

preferably for the m and dm range

of television receivers

Applicant:
Standard electrical system Lorenz

Corporation,

Stuttgart-Zuffenhausen,

Hellmuth-Hirth-Str. 42

Dipl.-Ing. Armin Rappold, Neuenbürg (Würti),

and Hans Hein, Pforzheim,
have been named as inventors

go to the tube socket, and here the voltage bulge is not yet sufficient for this frequency range educated.

The invention eliminates this disadvantage and creates an arrangement in which the reactances in ideal Way directly parallel to the tube capacities. It is characterized by the fact that for the Arrangement required, capacitively coupled to the system serving to generate vibrations Diode is built into the oscillator tube with at least one electrode of the diode system connected to the corresponding electrode of the oscillator system is capacitively coupled within the tubular bulb.

In pursuit of the concept of the invention, apart from the connections for the Oscillator system only requires one additional connection for the reactance system.

The invention is explained in more detail with reference to the drawing, which represents exemplary embodiments:
1 shows schematically the principle of a circuit arrangement known per se for sharpening with the aid of the method of current conduction angle control;

2 and 3 show embodiments according to the invention, and

Fig. 4 and show details.

In Fig. 1 a circuit known per se is shown. This contains the oscillator, 1 with the tube V ₁ (in which only the anode necessary for understanding

909 70W331

is shown), and the oscillator circuit 2, which has the inductance 3 and the capacitance C ₄ and z. B. can be operated in three-point circuit. The reactance circuit 5 consists of the two fixed capacitors C ₁ and C ₂ , which can be connected in parallel to the capacitance C _{4 of} the oscillator circuit 2 with the aid of the diode V ₆ , the anode of which is denoted by A _1. Via the throttle 7 and a potentiometer R ₁ , the charge of the capacitor arrangement can

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derived and the time constant R ₁ C varied. With the help of a remote control potentiometer that can be connected at 8 and 9, remote control fine-tuning is still possible.

The operation of such an arrangement is easy to understand if one realizes that, depending on the current flowing through the diode V ₆ , the current also flows through the series-connected capacitors C ₁ and C ₂ and thus more or less capacitance according to the current flow is switched in parallel to the capacitance C ₄ . In the one limit case, the diode V _{6 is} blocked with the aid of the bias voltage, so that C ₁ and C ₂ are practically switched off with respect to C ₄ , while in the other limit case - with full conductivity of the diode F ₆ - the capacitance C ₄ in full size are connected in parallel. For example, if the oscillator frequency deviates in the direction of high frequencies and this results in a higher amplitude (corresponding to the position of the intermediate frequency in relation to the characteristics of the IF filter) than would correspond to the exact tuning. B. delivered by the video detector and possibly supplied by amplification of the diode V ₆ , this would become conductive in a corresponding manner and the reactance circuit would become effective by adding capacitance (by current flow angle control) and performing fine-tuning or automatic sharpening.

For the reasons stated above, this circuit is only for automatic voting Up to frequencies of 250 MHz or up to TV band I to III can be implemented. She is against it high frequencies unsatisfactory.

According to the invention, the reactance arrangement, that is to say the part 5 shown in FIG. 1, is now in the Built-in oscillator tube. It is known, per se, for the purpose of regulation, triode systems and diode systems to be installed in a tubular flask, but the invention is a matter of the reactance arrangement, d. That is, the diode system, including the capacities, is quite specific for the frequency control or current flow angle control of suitable dimensioning as a special system in the Include tube.

According to the embodiment of Fig. 2, the structure of the tube V _{1S is made} such that the arrangement symbolized as the left system in the figure represents the oscillator triode with anode A led out , while the anode led out represents the reactance diode, both of which are provided by the control or ballast capacitance C _{3 (which corresponds to the capacitance C 1} or C ₂ shown in FIG. 1), are connected within the tube. K can represent a common cathode or, in the case of separate cathodes, the cathode belonging to the triode system, while in the latter case K ₁ represents the cathode belonging to the diode system. C ₂ can also be a capacitance connected between the two cathodes K and K _{1 if necessary.}

Fig. 3 shows an embodiment according to which a common anode connection is also provided, while the capacitance C and an inductance L, the latter also included in the bulb, lie between the cathodes and have a connection led out. Of course, the two cathodes can also be connected accordingly in an analogous manner instead.

Finally, FIG. 4 shows a special design for the built-in capacitances against the anode or Cathode or grid arranged as a special metal sheet in the tube.

FIG. 5 indicates a structural solution for the arrangement according to FIG. The cathode, which is concentrically surrounded by the grid G and the anode A , is represented by K. The sheet .S * surrounds _{the cathode concentrically at ^ 1} and thus represents the diode anode. Towards the top, it widens and encompasses the anode in the part with diameter S ₂ , so that it also has the necessary capacitance against the anode of the oscillator tube forms.

Even if the invention is particularly advantageous in the m and dm range, it goes without saying also valid for lower frequency ranges, i.e. also from MHz. There is also the possibility of application not only in the television reception area, but of course also in other control circuits, z. B. for audio broadcasting or commercial receivers.

Claims (8)

PATENT CLAIMS: 1. Automatically controlled, remote controlled or DC voltage controlled frequency control arrangement according to the principle of current conduction angle control with the aid of diodes, preferably for the m or dm range of television receivers, characterized in that the for the arrangement required, capacitively coupled to the system serving to generate vibrations Diode built into the oscillator tube, with at least one electrode of the Diode system to the corresponding electrode of the oscillator system inside the tube bulb is capacitively coupled. 2. Arrangement according to claim 1, characterized in that that from the tube except for the lead out connections for the oscillator system only one further connection for the reactance system is brought out. 3. Arrangement according to one of the preceding claims, characterized in that the coupling capacitive as a fixed capacitance between the anode of the oscillator system and the anode of the Diode system is built in. 4. Arrangement according to one of the preceding claims, characterized in that between the control grid of the oscillator system and the cathode of the diode system an interlocking or Separating capacitor is installed. 5. Arrangement according to one of the preceding claims, characterized in that the anode of the oscillator system and the anode of the reactance or diode system, preferably within of the tube and the capacitive coupling of the diode system between the Cathode is provided. 6. Arrangement according to claim 1, characterized in that the coupling of the reactance systems to the anode and / or cathode of the oscillator system formed by a metal sheet is. 7. Arrangement according to claim 6, characterized in that the metal sheet is both the Cathode (diode cathode) as well as the anode of the Surrounds the oscillator tube concentrically and at the same time forms the required (n) capacitance (s). 8. Arrangement according to one of the preceding claims, characterized in that the with The oscillator system coupled to the reactance system built into the tube is a triode system. 1 sheet of drawings © 909 709/331 1.60