SU48609A1 - Superheterodyne Radio - Google Patents

Description

Quite common receivers with variable selectivity have the disadvantage that they require manual adjustment. Just as it was done with volume control, bandwidth adjustment can be automated.

A superheterodyne radio receiver is now proposed, in which the automation of the adjustment of selectivity occurs by changing an ad hoc communication by shifting the operating point. For this, a mixing pentohydride, the feedback circuit of which is inductively and capacitively coupled to the detector circuit, is connected to a second detector, which gives an offset to the amplifying lamps.

The radio circuit with automatic adjustment of selectivity, according to the invention, is shown in FIG. 1 and 2 of the attached drawing. As you can see, this is a superheterodyne without high frequency amplification, where all the lamps are of the type I am burning. Automatic adjustment of selectivity is achieved simultaneously with automatic adjustment of volume and consists in moving the operating point on the lamp characteristic. With strong signals simultaneously with a decrease in the gain, this causes an expansion of the frequency band.

The process of adjusting the selectivity is as follows. A feedback coil is connected to the anode circuit of the mixing lamp, which is an Inductively-capacitively associated with the tuning loop of the detector part of the pentagride (Fig. 1). Such a combination gives the regenerative independence of frequency and, with appropriately chosen values of La and C, the connection between the anode circuit of the lamp and the tuning loop is approximately the same (inductively capacitive coupling in the regenerator is patented by Loftin-White in the USA). The link itself is chosen so that in the absence of a signal (shorted antenna terminals - ground) it is almost on the threshold of generation.

In the presence of a signal, the second detector of the receiver applies a bias voltage of a certain value to the grids of the amplifying and mixing lamps, for this is necessary to automatically adjust the volume. Here, the operating point on the characteristic of the pentagrid will move slightly to the left. With a stronger signal, the point will move even more in the area with less

the steepness, while, in addition to reducing the gain in the amplifying lamps, will reduce the feedback effect and, as a result, expanding the passband, which with weak signals was narrow due to the regenerative effect of the L-coil and capacitor C.2. The stronger the arrival of a signal, the smaller the slope and the wider the bandwidth. The constant band at the intermediate frequency does not harm the case, since the bandwidth of the input circuit, we fully guarantee cross-modulation; The overall selectivity at bandwidth at an intermediate frequency of width 9 kts is quite sufficient.

This radio receiver circuit has a number of advantages, namely: a) it provides automatic bandwidth control; 5) requires. one loop at the receiver input; c) due to the amplifying effect of the feedback, it requires a smaller number of cascades at the intermediate frequency and absolutely does not require prior amplification; d) the range of automatic volume control is greatly expanded due to the influence of feedback.

By complicating the circuit, it is possible to achieve automatic adjustment of the selectivity at the intermediate frequency (Fig. 2). Here, at the intermediate frequency, semi-tuned transformers are used, giving peak resonance curves. In order to avoid cutting off the upper modulation frequencies, they are somewhat upset, which gives a general resonance curve of the entire intermediate frequency amplifier, similar to

silytel with bandpass filters. The width of the total bandwidth is chosen so that it is no more than 1-2 kc.

The feedback is carried out in a purely capacitive way — small capacitors C. With strong signals, a decrease in the slope due to automatic volume control causes (just as in Pentagrid) the expansion of each peak, the resonance of the intermediate frequency transformers and as a result, the spreading of the total bandwidth.

In both schemes of the radio receiver, the peak-like curve of the resonance of the contour of the first detector fills the gap between the humps of the two-peaked resonance curve of the amplifier and the weft frequency.

The subject matter of the invention.

Claims (2)

1. Super heterodyne radio receiver with variable-krutizny lamps, characterized in that to automatically adjust the selectivity by changing the feedback by shifting the operating point, the mixing pentagrid, whose feedback circuit is connected injectively and capacitively according to Loftin-Whitet and the detector circuit of the pentagride, with the second, which gives the offset to the amplifying lamps, the detector so as to receive an offset from it. 2. The form of the radio receiver according to claim 1, characterized in that the transformers of communication with peaked curves are used to change the bandwidth of the intermediate frequency resonance, the feedback connection being capacitive. Fig Phi