SU53125A1 - Radio receiver - Google Patents

Description

The invention relates to a receiver circuit for superregenerative reception.

As is well known, superregenerative reception is obtained when a variable voltage is applied to a grid or anode of a local oscillator from a separate modulating oscillator, which periodically breaks oscillations of a local oscillator.

During one period of oscillation of the modulator, we can consider the local oscillator: with a positive half-wave-like generator of electrical oscillations, with a negative half-wave-like detector, and with some intermediate values of the generated voltage - as a regenerator. From the reception point of view, the regenerative mode can be considered an effective mode. The detector mode of the receiver can be eliminated by decreasing the distance between individual oscillation series, either by increasing the modulation frequency or by increasing the power of the series of these oscillations. It is more difficult to get rid of the generator mode, especially with those modulation methods that have been used so far.

The basic idea of the proposed device is to ensure that by reducing the time of generating the head of the superregenerator, its mode is as close as possible to the ideal regenerative mode.

The receiver circuits according to the invention are depicted in FIG. 1 for receiving ultra-short waves; and FIG. 2-for receiving short and long waves.

FIG. 1, the following designations are given: L — receiving circuit, A-heterodyne lamps. L, - self-induction net loop catchers, C - blocking capacitor, / - high frequency chokes, R-mesh leakage resistance, Z ,, - coupling coil with modulator, A1 - modulator, Sat - blocking capacitor, R - load resistance in the anode circuit of the receiver head (telephone, or the resistance of the connection with further amplification stages). The coupling between the coupling coil L and the modulator is M-variable, which allows the receiver head mode to be changed.

The principle of operation of such a scheme is as follows. Due to the contour induced modulator e. d. in the coil, the equilibrium of the balance circuit of the receiver head is disturbed, since the modulating voltages on the grids of the lamps are always in antiphase. Consequently, oscillations in the circuit L can occur only near the zero value of modulating, its voltages at the ends of the coil Z ,, j and immediately begin to die out as soon as they modulate, its voltage will increase. Thus, in one period of modulating voltage change, there will be two series of excitation of ultrahigh-frequency oscillations in circuit L, which, in comparison with the conventional modulation method, is equivalent to doubling the modulating frequency. With this modulation method, the above task of reducing the receiver head generation time is quite well achieved, since oscillations in circuit L, which occur only near the zero value of the modulating voltage, will have the character of short pulses. By increasing the modulating voltage, it is possible to arbitrarily shorten the duration of individual series of oscillations in circuit L, until the oscillations completely break down. Therefore, by changing the modulating voltage, it is possible to modulate not only the duration of the individual series of oscillation of the circuit L, but also the power of these oscillations. This latter gives us the opportunity to create conditions for the operation of a superregenerative receiver under which a continuous generation mode cannot arise, and the entire operation of the receiver will be characterized by a regenerative regime.

FIG. 2 shows the scheme of the same receiver only for longer waves. Here, the circuit elements are the same, with the exception of Ce feedback capacitors. It is obvious that the similar principle of modulation of the superregenerator can be implemented with any other scheme.

The circuit shown in FIG. 1, tested in operation. Her work is characterized by a significantly higher sensitivity in comparison with other super regenerator circuits, as well as an almost complete absence of supernatural noise in the highest sensitivity mode. It was tested on waves from 4 to 8 m. The modulation frequency varied from 3.10 to 8.10 ° Hz.

The subject matter of the invention.

Claims (4)

1. Radio receiver, characterized by its use for obtaining regenerative and super regenerative modes of pulsed excitation of a local oscillator. 2. The form of the apparatus according to claim 1, characterized in that, for periodic imbalance of the differential local oscillator with the modulator, alternating voltage is applied in antiphases to the grids or anodes of the heterodyne lamps. 3. In the device according to claims. 1 and 2 apply an adjustment of the operating mode by varying the amplitude of the modulating voltage. 4. In the device according to claims. 1 and 2, the application of adjusting the operation mode by changing the frequency of the modulating voltage.