DE939639C - Circuit arrangement for suppressing undesired harmonic frequencies - Google Patents

Description

Circuit arrangement for suppressing unwanted harmonics Frequencies In devices, which alternately transmit and receive wireless Signals on different frequencies are used and only one variable frequency oscillator have, it is necessary that its frequency on the one hand to form the intermediate frequency with the reception frequency and on the other hand to form the transmission frequency with the Frequency of another oscillator is mixed. There is now a risk that higher harmonic frequencies of this further oscillator in the vicinity or on the Transmission frequency drop. If the device is to work in a large frequency range, this disadvantage cannot be avoided.

The invention now makes it possible to remedy this. She concerns a circuit arrangement for suppressing undesired harmonic frequencies in circuits which contain at least one oscillator. It is characterized by that the screen grid of the pentode is connected to the resonant circuit of the oscillator is and that the anode of the P.entode with an on the undesired harmonic frequency tuned resonant circuit is connected, which one with respect to the one in the oscillator output contained unwanted harmonic oscillation shifted by 18o ° in phase Voltage is taken and fed to the named output.

The figure shows an embodiment of the invention.

P represents a pentode, to the grid of which a quartz crystal tuned to the frequency f is connected. CS, o represents the capacitance between the screen grid and the control grid and R the grid leakage resistance. The screen grid, to which the output A of the arrangement is connected, is supplied with the supply voltage -I- via the resonant circuit K i, which is tuned to the frequency f of the crystal. Another resonant circuit K2 is connected on the one hand to the anode and on the other hand via the capacitance C to the screen grid of the pentode. This circle is tuned to the undesired harmonic frequency n f of the circle K i. The supply voltage -I- is fed to a tap on the coil.

The arrangement works as follows: The by the pentode P, the Resonant circuit K i, the quartz Q and resistor R is formed oscillator arrangement known. The screen grid serves as the output electrode for the resonant circuit K i. The quartz oscillates via the capacitance CS, G between the screen grid and the grid stimulated. The grid bleeder resistor R is used in a known manner to secure the DC potential of the grid. -The oscillator voltage coming from the screen grid is removed also occurs at the anode of the tube. The one attached there Resonant circuit K2- is tuned to that harmonic to the frequency of the circuit K i, which should be suppressed. Because at the two ends of the coil a vibrating Circle the voltages are shifted in phase by 180 ° and the coil of the resonant circuit K2 with its tap is connected to the AC current .. Ground, the two ends can .swing against mass. The end connected to the anode leads in the phase the same potential as the screen grid. The circle K? - is now derived from the one at the anode Occurring undesired harmony stimulated to vibrations. At the point of this Circle on which the voltage of the vibrations compared to the anode and screen grid is shifted in phase by 180 °, this voltage is removed and over the Capacitor C fed to the screen grid circuit.

If a mixer is connected to the output of the oscillator, so ; it is not sufficient to avoid undesired harmonics in the mixed product; that this harmonic is not included in the output of the oscillator. Through the Non-linearity of the mixer stage, the frequency mentioned is formed again there.

If you now consider the amplitude of the supplied to the output of the oscillator Voltage makes the unwanted frequency greater than the amplitude of the contained therein Voltage, so is the unwanted frequency in the resulting oscillator voltage contained, but shifted by 180 ° in phase compared to that due to distortion ,emerging. With this component in opposite phase, that in the mixer stage is not is lost, the voltage generated there is compensated for the undesired frequency, so that the mixed product no longer has the relevant frequency.

In those cases where the oscillator output has no non-linear switching parts is supplied to its determination, one is expediently the supplied voltage choose the same size as the undesired voltage contained in the oscillator output; so that the latter is just being compensated. - -The correct amplitude of the dem The voltage supplied to the oscillator output can be set, for example, by man: the oscillating circuit K2 operates a little beside its resonance and by detuning, z. B. with a variable inductance or capacitance, the amplitude to the desired Brings value.

With this arrangement, voltage differences of 80 db can be achieved between wanted and unwanted frequencies compared to 15 db without compensation.

Claims (4)

PATENT CLAIMS: i. Circuit arrangement for suppressing undesired harmonic frequencies in circuits with an oscillator containing a pentode, characterized in that the.: Screen grid of the pentode with the resonant circuit of the oscillator-connected and that the. Anode the fentode with one on the undesired harmonic frequency tuned resonant circuit connected. is, which one related to the undesired harmonic oscillation contained in the oscillator output by 18 ° Taken voltage shifted in phase and fed to said output will. 2. circuit arrangement according to claim i, characterized in that the voice coil the resonant circuit tuned to the harmonic frequency has a tap, which is due to a potential resting with respect to the oscillator oscillations. 3.- Circuit arrangement according to claim r, characterized in that the voltage the unwanted harmonic frequency fed to the oscillator output becomes larger than that contained in it. 4. Circuit arrangement according to claim i, the output of which is fed to a mixing tube,. characterized in that the supplied voltage is greater than that contained in the output.