DE1001344B - Circuit for the automatic stabilization of the oscillation frequency of an oscillator - Google Patents

Description

Circuits are known in which the oscillation frequency of an oscillator is automatically stabilized in accordance with a comparison oscillation supplied to the circuit when the frequency of the comparison oscillation is sufficiently close to the oscillator frequency. By presetting its tuning, the oscillation frequency of the oscillator can roughly be set to a selected one of a plurality of predefined oscillation frequencies, preferably from the harmonic spectrum of a normal oscillation, whereupon a device for automatic retuning control takes over the fine adjustment of the oscillator frequency to match the predefined comparison frequency. The retuning device provided for this purpose can, for example, be an amplifier tube connected as a reactance, connected to the frequency-determining oscillation circuit of the oscillator, controlled by a control voltage and, if necessary, to extend the setting range beyond the area covered by the reactance tube, additionally a mechanical adjustment device for one of the oscillator tuning-determining devices Elements, for example an electric motor fed by the high-voltage network, contain. The control voltage mentioned is derived from the frequency difference between the oscillator frequency and the specified frequency by means of a special control voltage generator and consists of an alternating voltage of a corresponding frequency or, if the frequency difference disappears, a direct voltage dependent on the phase position of the compared oscillations. This control voltage is suitable for using the retuning device to bring the oscillator frequency into agreement with the fixed frequency selected by the presetting of the oscillator tuning. Such an arrangement is described in French patent specification 971872. The scheme of operation of such an arrangement is shown in Fig. 1 in block form. 1 with a normal frequency generator is referred to, which generates a predetermined fundamental frequency and has a pulse-like waveform, so that its harmonic spectrum extends up to very high harmonics. The vibration spectrum it delivers is denoted _{by mf n.} 2 with a freely tunable oscillator is referred to, the oscillation frequency / _{0 can be selected} with the aid of a variable capacitor adjustable by the handle 3 within an extended frequency range. The oscillation spectrum mf _n and the oscillator frequency / ₀ are fed to the mixer 6, in which all the difference frequencies between the individual spectrum circuits for the automatic stabilization of the oscillation frequency of an oscillator

Applicant:

Telefunken G.m.b.H., Berlin NW 87, Sickingenstr. 71

Horst Mielke, Berlin-Lichterfelde, has been named as the inventor

frequencies and the respective oscillator frequency f _{0 are} formed. Of these difference frequencies

ao those are amplified and filtered out in the amplifier 7 with a low-pass effect, the amount of which is less than half the distance between two spectrum components. In this way, for the generation of the control voltage, of the difference frequencies generated in the mixer 6, only that comes into effect which comes from the spectrum frequency closest to the respective oscillator frequency f _0. With this difference frequency, the oscillator 2 is frequency-modulated by the control voltage U _r via the control loop with the amplifier 7, the rectifier 8 and the reactance tube 5. When the frequency / _{0 of} the oscillator 2, as a result of this frequency modulation , passes through the value nf _n to which its frequency is to be set, the value in the.

Mixing stage 6 formed difference frequency zero, and there remains a control DC voltage dependent on the phase position of the two oscillations fed to the mixer stage, which holds the oscillator 2 at the desired stabilization frequency nf _n.

The circuit described above according to FIG. 1 and its mode of operation is known; owns the circuit however, it also has a significant flaw. When an arrangement according to FIG. 1 is used in practice it is shown that stable detent points for the oscillator 2 are not only due to the spectrum components of the normal frequency generator are given, but that such locking points are also available for frequencies which correspond to the arithmetic mean between two spectrum components.

At such frequencies the difference frequency of the oscillator frequency / ₀ with the lower adjacent spectrum component is equal to the difference frequency of this oscillator frequency with the upper adjacent spectrum component. The statement

609 767 / Ϊ0Ο

shows that also causes the spectrum frequencies generated in the mixer stage itself. The effect of differential oscillations of the same frequency from that of such a synchronization process will be described with reference to the lower and upper spectrum components in relation to one another in FIG. 3. Let nf _n those spectrum lie in antiphase so that they cancel each other out. frequency to which the oscillator 2 is set. This fact has the consequence that in the one shown in FIG. With (n + 1) f _n the next higher spectra represented control system is called the alternating voltage center frequency in the frequency scale f . With component of the control voltage U ₁ . not only in the case of the af is the capture range of the electronic control stabilization in accordance with one of the aai spectrum components becomes zero with the aid of the reactance tube 5, but is also interpreted for. In the middle between the two mentioned, the mentioned intermediate values of the frequency, at which io spectrum frequencies lies the frequency (n + ¹ U), the differential oscillations generated by two adjacent spectrum components at which pseudo-synchronization avoided each other cancel out. shall be. It is assumed that the frequency / ₀ This explains the tendency of the arrangement, even in the case of the oscillator 2, at the moment of switching on, corresponds to such intermediate values to form a kind of pseudo-synchro value X. Accordingly, it does not lie within the range of synchronization, which is firstly undesirable 15 of the capture range in which the electronic control and, secondly, also not the same quality of the frequency, can bring about synchronization. Therefore, like synchronization, the additional effect of the tuning motor 4 with the spectrum frequencies itself is required, which is set in motion via the switch 9 ″.

It should be mentioned that it is through the German patent It is assumed that the direction of rotation of the motor font 933 638 is known, the possibility of 20 or the detuning synchronization caused by the motor on the frequency intermediate values direction with respect to f ₀ so lies that the Fretechnisch can be used, one of the Fig. 1 sequence of the oscillator 2 is used in the indicated arrow arrangement. If, however, a direction changes, ie if the desired synchronization runs away from the interim values, the synchronization frequency runs away. While this is to be avoided, additional devices are required in the mixer 6, the difference frequency, which allow the equality of the setting criteria formed between nf " and the instantaneous value of f _Q for the case of synchronization and f _Q via the control loop with this difference on a spectrum frequency and the case of the frequency frequency modulated. The oscillator 2 generates synchronization on an intermediate frequency , ie a frequency band B, which is to be raised in the direction of the. The inventor is concerned with this task. According to the invention, this problem is solved. In the middle position, i.e. at the frequency, the control voltage would give an auxiliary AC voltage (»+ Va) /«, the AC voltage component of the frequency and amplitude selected in this way above the control voltage U _{1 is} equal to zero, so that it is also superimposed that an automatic stabilization of the Oscil- frequency modulation of the oscillator 2 by this lator frequency on one of the arithmetic mean 35 AC voltage component stops. However, the frequency between two adjacent predetermined oscillator 2 is now avoided by the frequency corresponding to the auxiliary frequencies. AC voltage · U _z frequency-modulated, so that the mode of operation of a circuit formed according to the invention as in an arrangement according to FIG. 2 of the drawing discussed. 40 supply each other; the oscillator is rather also in the speaking parts of FIGS. 1 and 2 are provided with the same middle position, a frequency band B of end reference numerals. As in FIG. 1, the width of this frequency band is reduced, so that the frequency band mixing stage 6, the difference frequencies from the normal frequency spectrum nf _{n of} the normal frequency generator 1 formed from the normal frequency spectrum nf, do not completely cancel out with those and the freely selectable ones Frequency f _{0 of} the oscillator 2 45 formed with the spectrum component (n + 1) f " formed. Be provided with the low-pass effect. If the AC amplifier 7 and the rectifier 8 are also at this point, the component of U ₁ arrives. still has a minimum, so has control voltage U ₁ on the reactance tube 5 and now no longer synchronize a zero point, in this way chronicles the oscillator 2 with a and before the control system is able to select the motor 4 by its pre-tuning To switch off the spectrum 50, this has already been coordinated via component. In addition to the arrangement according to Fig. 1, the dangerous point moved away,
the tuning motor 4 is still provided in Fig. 2, The tuning by the motor is now always running

in the indicated way to a spin still in the wrong direction and is located capacitor within the frequency-determining between the frequencies (n + V2) / "and (n + 1) /". The resonant circuit of the oscillator 2 acts in order to introduce the same frequency / ₀ into the capture range of the control system, the direction of rotation now moves the same way. Once this has happened, the motorized path is back again. You get to the already operated via the contact 9 "switched off. Such a written way again with the help of the auxiliary change · Combinations of an electronic frequency control 60 voltage U ₂ over the dangerous intermediate point with a mechanically driven frequency control and is now moving in the right direction is known, the additional use of the desired frequency _n nf at this time, the motor drive unit in Fig 2, therefore, does not form the difference frequency formed of nf "and f ₀ is constantly subject of the invention is smaller, so that they schiließlich below the Grenzin... The application of the invention is in Fig. 2 the 65 frequency of the high-pass filter 10 is so that it is no longer allowed to pass through the control voltage U _r via the dta contact 9 '. If this is superimposed on the alternating voltage Uz . This measure is the case, If the rectifier 11 does not have the effect that the control arrangement is now no longer supply current for the relay 9 more is supplied, and the more working contact 9 'of the relay 9 is opened. As a result, but only a synchronization to the 70 is the auxiliary AC voltage U _z , which at the

Stabilization process to the desired spectrum frequency would only interfere, switched off in time. At the same time, the motor 4, the effect of which is no longer required, can also be switched off. This can even be brought about by a second contact of the same relay 9, which also switches the auxiliary AC voltage U ₂ on and off. The frequency / _{0 of} the oscillator 2 is now within the capture range of the reactance tube circuit and is synchronized by this in the known manner already described in connection with FIG. 1 in accordance with the desired spectrum frequency nf _n.

In Fig. 2 is the device which switches off the auxiliary AC voltage when the frequency difference between the oscillator frequency and a selected predetermined spectrum frequency below has dropped a predetermined minimum value, combined with the switching device, which the mechanical adjustment device (the motor 4) when reaching a sufficient approximation of the vote at the desired predetermined frequency out of service. This makes it possible with only an electrical high-pass filter 10 and a rectifier 11 and a contact relay 9 get along. It is of course just as possible to keep these facilities separate from one another, especially then, if desired, the switching operation for the auxiliary AC voltage at a different value the difference frequency than switching the motor on and off.

Claims (4)

Patent claims. 1.Circuit for the automatic stabilization of the oscillation frequency of an oscillator in accordance with a frequency selected by presetting its tuning from a plurality of predetermined oscillation frequencies, preferably from the harmonic spectrum of a normal oscillation, by means of a retuning device to be controlled by a control voltage and a control voltage generator that generates the control voltage from derives the frequency difference between the oscillator frequency and the specified frequency and supplies a corresponding alternating voltage or, if the frequency difference disappears, a direct voltage dependent on the phase position of the compared oscillations, characterized in that the control voltage (U ₁ ) is an auxiliary alternating voltage (U _z ) of selected frequency and amplitude is superimposed so that an automatic stabilization of the oscillator frequency on one of the arithmetic mean between two one another he adjacent predetermined frequencies corresponding frequency is avoided. 2. Circuit according to claim 1, characterized by a device (9, 9 ') which the auxiliary AC voltage switches off when the frequency difference between the oscillator frequency and a selected predetermined frequency falls below has dropped a predetermined minimum value. 3. Circuit according to claims 1 and 2, characterized in that one by mixing the oscillator oscillation with one of the specified oscillations, the one mentioned Vibration containing difference frequency via an electrical high-pass filter (10) and preferably a rectifier (11) is fed to a switching device, for example a contact relay (9) is, which switches on the auxiliary AC voltage via a normally open contact (9 '). 4. A circuit according to claim 3, characterized in that the same or a synchronous with it working further switching device also a mechanical belonging to the retuning device Adjusting device for one of the elements determining the oscillator tuning, preferably an electric motor (4) fed by the power supply system in motion. 1 sheet of drawings © 609 767/300 1.57