DE851967C - Circuit with an oscillator and means for automatic frequency correction - Google Patents

Description

Circuit with an oscillator and means for automatic frequency correction In patent 8o8 961 a circuit arrangement with an oscillator is described, with means for automatic frequency correction of the generated by the oscillator Vibrations as a function of a DC and AC voltage containing Control voltage is provided, the frequency correction means via a control voltage channel is fed. The control voltage channel is set up in such a way that the ratio the transfer factors for control DC and control AC voltages with each other equal and together decreasing voltage amplitudes increases.

The circuit arrangement according to the '80896i patent has the advantage that the influence of interfering AC voltages occurring in the control voltage channel on the stability of the oscillator, which could become noticeable as a disturbance, is significantly limited will. According to the embodiment specified in patent 8o8,961. is the control voltage channel split into two branches to achieve the desired effect, one for DC voltages is blocked and two oppositely connected, biased Contains diodes that hold back control alternating voltages of smaller amplitude. AC voltages of greater amplitude overcome the threshold voltage of the diodes and are continued almost unimpaired.

In the embodiment according to the patent 8o8961 is on use thought of diodes with thermionic cathodes. In practice it has now been found that sometimes annoying when using diodes indirectly heated by alternating current Ripple voltages are introduced into the control voltage channel.

This disadvantage could be caused by using rectifier cells cold cathode can be avoided; however, these have one with the present Circuit arrangement undesirable high internal resistance.

The present invention aims to provide a modification of the circuit arrangement of the kind indicated in patent 8o8,961, in which the disadvantages mentioned be avoided. .

According to the invention, the control voltage channel contains one for control DC voltages blocked shunt impedance detected by a detector circuit with at least one positive biased rectifier tong is formed.

In the figure, a circuit arrangement is shown, which in large Trains correspond to those according to the patent 8o8,961 and in the case of the main patent corresponding parts are shown in block form for the sake of simplicity. A Pulse generator 8 supplies a pulse-shaped voltage, and with the aid of a, higher harmonic frequency of the same should be the frequency of a high frequency oscillator Z are stabilized. For this purpose, the output voltages of the pulse generator 8 and the high-frequency oscillator Z a phase detector formed by a mixer 9 fed. The output voltage of the phase detector is via a specially set up Control voltage channel parallel to the frequency-determining circuit of the high-frequency oscillator Z laid reactance tube 12 is supplied.

The control voltage channel contains not only a low-pass filter with a series resistor 26 and a shunt capacitor 27, but also a shunt impedance connected to the connection point of the series resistor 26 and the capacitor 27. This shunt impedance consists of the series connection of a capacitor 28 and four rectifier cells 29 and 30 connected in opposing pairs. The anode of the cell pair 29 and the cathode of the cell pair 30 are directly connected to a connection terminal of the capacitor 28. The other ends of the cell pairs 29 and 30 are connected to one another via the series connection of a resistor 31 and a bias battery 32 bridged by a capacitor 33.

The cell pairs 29 and 30, the resistor 31 and the capacitor 33 constitute a detector circuit positively biased by the bias battery 32. For alternating voltages of low amplitude, the aforementioned detector circuit forms one relatively low resistance. However, as soon as the detector circuit AC voltages are supplied, the amplitude of which exceeds the bias voltage of the battery 32, rectification occurs, which results in an output DC voltage counteracting the bias voltage affects. The latter brings about such a shift in the operating point of the detector circuit with the fact that this with somewhat considerable alternating voltage amplitude during the Most of the AC voltage circuits are blocked. As a result, behaves the transverse impedance looks like a relatively large resistance.

The transverse impedance is blocked for direct voltages, in the present case Fall of capacitor 28. The transfer factor of the control voltage channel for DC voltages is therefore not influenced by the transverse impedance. On the other hand, alternating voltages low amplitude due to the relatively low transverse resistance poorly transmitted in contrast to alternating voltages, a relatively large amplitude. That Ratio of the transmission factors of the control voltage channel for control DC and Control alternating voltages therefore change in the circuit arrangement shown in the desired way. By suitable selection of the series resistor 26 and the cross capacitor 27 with regard to the minimum transverse impedance, a particularly large additional Attenuation achieved in the control voltage channel for alternating voltages with low amplitude compared to that for alternating voltages with a large amplitude.

Claims (2)

PATENT CLAIMS: Z. Circuit arrangement with an oscillator, the with means for automatic frequency correction of the oscillations generated by the oscillator as a function of a control voltage containing direct and alternating voltages is provided, the frequency correction means via a control voltage channel is supplied, the ratio of the transmission factors of the control voltage channel for control DC and control AC voltages with mutually equal, decreasing Stress amplitudes increases, according to the patent 8o8961, characterized in that the control voltage channel contains a transverse impedance that is blocked for control DC voltages, that of a detector circuit with at least one positively biased rectifier cell is formed. 2. Circuit arrangement according to claim Z, characterized in that the detector circuit from the series connection of a capacitor and two opposing connected rectifier cells, the anode of the first rectifier cell and the cathode of the second rectifier cell to the same terminal of the mentioned capacitor are connected, while the cathode of the first rectifier cell and the anode of the second rectifier cell via that of a second capacitor bridged series connection of a resistor and a positive bias battery are connected.