DEP0003672BA - Receiving arrangement for frequency-modulated oscillations - Google Patents

Description

The invention is concerned with a receiving arrangement for frequency-modulated oscillations. To demodulate such vibrations, they are converted into amplitude-modulated vibrations, for example by a modulation converter; by rectifying the amplitude-modulated oscillations obtained, the low-frequency voltage to be supplied to the consumer is then obtained.

The present invention has set itself the task of creating such an arrangement in a simple design with a high degree of efficiency. According to the invention, this object is achieved in that the frequency-modulated oscillations are fed to the grid of a tube operating in a circuit with time-changing undamping, the resonant circuit of which is tuned to a frequency next to the frequency-modulated carrier frequency, and the oscillation voltage of the as a result of the time-changing undamping Amplify the resonant circuit, the latter being influenced in its amplitude as a result of the upward and downward migration of the frequency-modulated oscillations on a flank of the resonance curve of the resonant circuit according to the frequency modulation.

To explain the invention, the figure shows an exemplary embodiment in the form of a receiving circuit which works together with a radio tube containing two electrode systems, hexode HS and triode TS. In this

In the receiving circuit, the incoming frequency-modulated oscillations, which have arisen at the transmission point, e.g. through frequency modulation of a carrier frequency of 84 MHz with a deviation of, for example, +/- 75 kHz, are fed to a circuit I tuned to 84 MHz. The grid 1 of the hexode system HS is connected to this circle, so that an HF amplification of the frequency-modulated oscillations takes place in this system. Via the grid 3 of the hexode system HS, these influence the grid of the triode system TS, which works together with a circuit, the damping of which is changed over time in a manner customary with pendulum feedback receivers, namely the pendulum frequency is due to the dimensioning of R and C (time constants) selected here. 100 kHz. As a result of the undamping, which changes during the time of the pendulum process, the FM oscillations fed to the grid of the triode system TS amplify the oscillation voltage of the oscillating circuit II, namely the latter, since the oscillating circuit II is, for example, at 84.3 MHz, i.e. to a frequency-modulated carrier frequency in addition to the frequency lying frequency is tuned and consequently the frequency-modulated oscillations on a flank of the resonance curve of the oscillating circuit II migrate up and down, influenced in their amplitude according to the frequency modulation. The intensity of these amplitude-modulated oscillations is increased as a result of the time-changing undamping of the circuit working together with the triode system TS, the strength and duration of which is so large that the triode system TS is controlled even when small initial amplitudes occur. In addition, a demodulation takes place through grid rectification in the triode system TS, so that the LF voltage obtained reaches the grid 3 of the hexode system HS and, after LF amplification in this system, is fed to the consumer as an amplified LF voltage NFv.

The arrangement just described, achieved by clever circuitry linking the known pendulum feedback with the known edge control, has a high sensitivity with little effort and a wide reception band corresponding to the frequency deviation. By interposing the high-frequency stage in the HS hexode system between the receiving circuit and the tube circuit according to the invention (TS, RC, II), a decoupling between the antenna and the tube circuit is achieved. A capacitor C (sub) 3 allows the remaining The oscillator voltage emitted by the antenna is compensated so that no neighboring receivers are disturbed. As a result of the simple structure, the receiving arrangement can be used, for example, as an attachment for devices that previously only picked up amplitude-modulated vibrations, or the mixing tube of a superimposition receiver can be switched over to receive frequency-modulated vibrations without additional tube expenditure. As an attachment, the arrangement described can be accommodated in a small box, provided that the tuning elements are kept particularly small, for example the capacitors C (sub) 1 and C (sub) 2 are designed as trimmer capacitors, with the supply voltages between Base socket and base of one or more existing tubes can be removed from the original device.

Claims (7)

1. Receiving arrangement for converting frequency-modulated oscillations into amplitude-modulated oscillations, characterized in that the frequency-modulated oscillations are fed to the grid of a tube operating in a circuit with time-changing undamping, the oscillating circuit of which is tuned to a frequency next to the frequency-modulated carrier frequency, and as a result of the Amplify the resonant circuit, the latter being influenced in its amplitude as a result of the upward and downward migration of the frequency-modulated vibrations on a plank of the resonance curve of the resonant circuit according to the frequency modulation. 2. Receiving arrangement according to claim 1, characterized in that the temporal undamping is determined in the manner of a pendulum feedback receiver by a capacitor and resistor arrangement. 3. Receiving arrangement according to claim 1, characterized in that from the amplitude obtained by means of the tube circuit modulated vibrations by grid rectification in the same tube system the corresponding LF voltage is obtained. 4. Receiving arrangement according to claim 1, characterized in that by using a tube stage (hexode system) which amplifies the frequency-modulated vibrations picked up by the antenna, a decoupling takes place between the tube circuit and the antenna. 5. Receiving arrangement according to claim 1, characterized in that the remaining oscillator voltage still emitted in front of the antenna is compensated by a capacitor and thus no neighboring receiver is disturbed in the practical case. 6. Receiving arrangement according to claim 1, characterized in that a multi-grating tube is used in the tube stage amplifying the frequency-modulated vibrations, the further grating of which the amplitude-modulated vibrations converted in the tube circuit are fed after their demodulation for LF amplification. 7. Receiving arrangement according to claim 6, characterized in that a tube containing a hexode and a triode system is used, from which the grid of the triode system is fed by the frequency-modulated oscillations fed to the one grid of the hexode system according to their RF amplification and the other grid of the hexode system is influenced by the low-frequency voltage obtained from the amplitude-modulated oscillations converted in the tube circuit.