DE860369C - Circuit for demodulating frequency-modulated high-frequency oscillations - Google Patents

Description

-Circuit for demodulating frequency-modulated high-frequency oscillations The patent 851 968 relates to a circuit for demodulating frequency-modulated high-frequency oscillations, which has a network for converting frequency modulation into amplitude modulation, and protects a circuit in which two different output terminals of this network according to HF voltages. . Separate rectification are brought to one another in such a way that the low-frequency voltages resulting from the frequency modulation are amplified and those resulting from amplitude modulation are reduced. The effect of these two HF voltages on one another can take place within a multi-lattice tube with at least two lattices, on which these voltages are rectified. lie under phase reversal of the one.

The two HF voltages that are used in the case of frequency-modulated high frequency or intermediate frequency are amplitude modulated in phase opposition, control as a result of the Phase reversal of the one the anode current of the 1VIehrgitterröhre in the same direction, so that a high sensitivity of the circuit is obtained. In the case of interference voltages that are mostly express themselves in an amplitude modulation of the HF or IF, are the two HF voltages at the output of the network, however, amplitude modulated in phase, so that their control effects on the bars of the Tubes are opposite to each other and are facing each other compensate if the setting is correct. In one embodiment of the main patent a hexode is used for this, 'and the two HF voltages are under rectification fed to their two control grids.

According to a further development of the one under protection in the main patent The idea of the invention is one of two different output terminals of the network extracted HF voltages rectified at the control grid of a multi-grid tube, z. B. pentode, while the other after rectification and phase reversal the screen grid this tube is fed. If a hexode is used, the phase is reversed Voltage fed to their two screen grids. The supply of tension from the Anode of the phase inversion tube, e.g. B. a triode, to the screen grid of the multi-grid tube takes place expediently by a galvanic connection, and for the anode of the phase reversal tube and the screen grid (s) of the multi-grid tube is advantageously a common one Resistance of adjustable size provided. This circuit enables its use of triode-hexode systems housed in a common glass flask which the grid of the triode system used for phase inversion within the Glass flask is connected to the second control grid of the hexode system. Further some resistors and capacitors can be saved with this circuit.

The invention and related details are illustrated in FIG. i and 2 explained for example.

Fig. I shows a demodulator circuit with a pentode triode i and a network made up of the tuned to the unmodulated intermediate frequency Oscillation circuits 2 and 3 and the coil q. consists. The one between the top clamp of the oscillating circuit 3 and mass occurring amplitude-modulated IF voltage reaches the under grid rectification by means of capacitor 5 and resistor 6 first control grid of the hexode system of the tube i. The frequency-modulated input voltage Amplitude-modulated IF voltage in phase opposition to this voltage on the network between the lower end of the oscillation circuit 2 and ground is under grid rectification fed through capacitor 7 and resistor 8 to the grid of the triode system of the tube i. The anode of this system is galvanically connected to the screen grid of the pentode system Connection, and the gain in the triode system can be achieved by means of the variable resistance y can be set so that in the case of an intermediate frequency that is amplitude-modulated by interference the control effects of the control grid and screen grid of the pentode system are mutually exclusive lift. So that no IF voltages occur on the triode anode and on the screen grid a small capacitor is provided. The anode resistor i i- The low frequency occurring in the hexode system is tapped off via the capacitor 12. The capacitor 13 is used to suppress the intermediate frequency at the LF output.

Fig. 2 shows a similarly constructed circuit with a triode-Hexode'i4. The anode of the triode system is connected to both screen grids of the hexode system. The connection between the triode grid and the second, located inside the tube The control grid of the hexode system does not affect the function of the circuit disadvantageous.

As' in-depth investigations have shown, has the described Circuit in addition to high sensitivity and good interference voltage suppression one straight demodulation curve, so that even with large degrees of modulation, d. H. large frequency swings, a very low distortion factor results.

Claims (2)

PATENT CLAIMS: i @. Circuit for demodulating frequency-modulated high-frequency oscillations with a network for converting frequency modulation into amplitude modulation according to patent 851 968, characterized in that HF voltages taken from two different output terminals of this network. B. a pentode, while the other is fed to the screen grid of this tube after rectification and phase reversal. 2. Circuit according to claim i, characterized in that that in the case of a hexode, the phase-reversed voltage is fed to both screen grids will. 3 .. Circuit according to claim i or z, characterized by a galvanic Connection between the anode of the phase reversal tube, e.g. B. Triode, and screen grid the multigrid tube. q .. Circuit according to Claim 3, characterized in that for the anode of the phase reversal tube and the screen grid (s) of the multi-grid tube a common resistor of adjustable size is provided.