SU109141A1 - Devices with exponential characteristics - Google Patents

Description

The subject of the invention is a cascade of anode detector of an amplifier amplifier (high, intermediate or low frequency), used in radio receivers with low-frequency selection (radio telegraph, radio telemechanical and others). Such cascades allow to obtain an increase in the level of a weak signal at the output and improve the signal-to-noise ratio for the case when there is an obstacle at the cascade input, OTj is lost, and the frequency signal is much higher than the useful signal.

The operation of the described cascades is based on the use of lamps with an exponential dependence of the anode cable on the control voltage and its grid. It is known from theory that when two signals are applied (strong and weak) to the cascade input (anode detector or amplifier), whose lamp operates on the exponential part of the anode-grid characteristic, it is possible to obtain a relative increase in the weak signal at the output of such a cascade . In practical devices, in order for the signal-to-noise ratio to be reasonably good, it is necessary to use lamps having the steepest exponential characteristic possible. The best in this regard are 6Q4 lamps; 6П1П; 6B8S; 6A2P (in pentode compound); GU-50 and others. The cascade efficiency will also depend on how wide the exponential portion of the lamp characteristic is, since it is necessary that for all possible variations in the amplitude of the interfering and useful signals, the resulting voltage on the grid of the lamp does not extend beyond this region.

In order to expand the working range of the device and provide the most stable mode, the offset is automatically changed so that the operating point does not leave the exponential part of the characteristic even with sufficiently large values of the voltage amplitude in the input voltage. This is achieved by applying 10914

The second (auxiliary) channel, which consists of an amplifying stage, producing a stronger interfering signal, and an off-line detector, with which the rectified voltage (envelope) of this signal is fed with a negative polarity to the input of the electrical device.

The noise-resistant detector circuit is shown in FIG. 1. Kaial / has an amplifier cascade tuned to an intermediate frequency but the main (weak) signal, and an active anode detector for the Lampe JIz (6A2P) detector, in the anode of which a narrow-band low-frequency filter 1 is turned on (main signal). Channel // has a gain cascade tuned to the intermediate frequency by an interfering signal, and a diode (linear) detector, on the anode of which the delayed voltage is applied from battery B (1 -1.5 0). With small interfering signals, the detector is locked and the voltage on the Lch lamp grid is only received from the battery g: large signal-numbers unlock the bottom, and the voltage drops on the resistance, which, folding with the battery voltage B, will shift the working voltage lamp point L.

The described robust detector circuit can provide a gain: with respect to signal-to-noise, at a voltage of 25 g 26 db.

An exponential amplifier circuit made in the same way gives even better results. To reduce the level of nanoparticles, it is recommended to perform a push-pull combo of its frequency frequencies, since this reduces signal distortion due to mutual matching of even harmonics. The maximum signal voltage of the auxiliary cable from the auxiliary drip must be provided by the grid of the two-stage cascade lamps in phase.

Subject invention

Devices with exponential characteristics (anode detector or amplifier of high, intermediate or low frequencies in low-frequency selection devices), made on a lamina with an exponential dependence of the anode current on the control grid voltage, are different in that with the aim of improving the ratio of sial-1 noise in a narrowband filter or in an intermediate frequency filter, in conditions where the strong interfering signal differs in frequency from the useful one, an auxiliary channel is used, which extracts rectified e is the voltage of the interfering signal, which shifts the working point on the lamp characteristic in antiphase with the change of the envelope of the interfering signal.