SU677065A1 - Angular-modulated signal selector - Google Patents

Description

The invention relates to radio engineering and can be used in radio engineering installations for various applications. The angular modulated signal selector is known, which contains an adder and a deviation subtraction unit made in the form of serially connected frequency shift block, delay element and frequency converter, another input of which is connected to the input of the frequency offset block, the module block being connected to the second input of the deviation subtractor frequency shift. However, the known selector has insufficient selectivity when receiving signals modulated in frequency and phase. The purpose of the invention is to increase the selectivity. To do this, in the angle selector signal selector, which contains an adder and a deviation subtraction unit, made in the form of a series-connected frequency shift unit, a delay element, and a frequency converter, another KOTOipo input is connected to the frequency shift unit's input, and the second input of the deviation subtractor is connected a shift frequency modulation unit, to the output of a deviation subtraction unit, N additional subtraction deviation units are connected in series, between the output of each deviation subtraction unit and the corresponding input m adder connected in series Tel various angular and modulation unit with an adjustable transmission coefficient. The drawing shows a structural electrical circuit of the attached device foot. The signal selector with angular modulation contains an adder /, a block 2 of modulation of the shift frequency, L + l discriminators 3 angular modulation, blocks 4 with an adjustable transfer coefficient - and N + 1 blocks 5 of the deviation subtraction, each of which consists of block 6 frequency shift, element 7 of the zde | rzhki and frequency converter 8. The device works as follows. The input signal, modulated in frequency OR phase, is fed to the input of frequency shift block 6, where the spectrum of the input signal is transferred by an amount. The delayed copy of the frequency-shifted signal is compared in the frequency converter with the input signal. The frequency of the transformed signal is determined both by the frequency of the shift σ and the difference between the values of the scientific research institute of the instantaneous frequency 6i () of the received signal taken at the moments

at time t (t - watsch delay in element 7). In other words, the instantaneous frequency of the pre-phased signal L with accuracy to a constant value is determined by aaipaiMerpa.MH by the signal modulation angle and the delay time T in element 7.

Distinguish 5.th head of the modulation of the tunings to the frequency of co, therefore at its output a voltage is generated that is proportional to the indicated frequency difference fii (t). In block 4 with an adjustable transmission coefficient, the resulting voltage is multiplied by the number KI (positive. Or negative), which is ensured (with the required value and sign of feedback). The converted signal with the carrier frequency from the second unit 6, where the frequency shift occurs. On the value of co. A cd frequency signal after a delay (in the cell element 7) is fed to the second block 8, at the output of which the oscillating frequency from the variable component 8y is formed, (i ); last highlighted the modulator 3 of the angle modulation. Thus, in the adder 1, the oscillations are added from the outputs of the splitters 3 of the angular modulation with weights determined by the numbers rq. 0: 2, ..., a, entered in the blocks 4 with the adjustable, transmission coefficient. The signal in nepeOiM block 6 of the frequency shift is modulated by the resulting oscillation from the output of the adder /.

The proposed device makes it possible to selectively vary the frequency modulation of the angular modulation. Consequently, it can be used as a selective device in the transmission paths of frequency-modulated (FM) and phase-modulated (FM) signals, as well as in the receiving equipment. In this case, the formation of such a frequency characteristic is provided, the length of which the dependence of the deviation (or modulation depth) on the frequency of the module has a multi-pinch structure in the range of frequencies used, close to a periodic one. This means that for signals whose frequency of angular modulation lies within the lobes of the transparency band, there is a greater frequency deviation (or modulation index) at the output of the device than signals whose frequency of modulation is between the specified devices. The possibility of selectively receiving or transmitting signals, depending on the frequency of their angular modulation, is enhanced by the fact that the frequency response of the device may have lobes with different steepness. They may, nagfimer, have a form close to the shape of the characteristics of a single resonant contour, a band or more complex form. The required frequency response or a predetermined degree of selectivity is provided by both selecting feedback coefficients and selecting the required number of closed feedback loops. Obtaining high selectivity naturally requires more closed loops.

Using the proposed selector, a new type of selection is carried out, to which both continuous and pulsed FM and FL1 signals can be subjected. The selector gives the greatest effect in the processing of pulsed signals, since in this case the lobes of the frequency response are used. With sufficient broadbanding, entering the device by removing the amplitude envelope distortion of the selectable signals can be made quite small. Consequently, the device not only preserves the type of modulation during transmission, but also ensures that the amplitude envelope of the FM and FM signals is preserved. In the receive mode, a selective demodulation of the signal is performed, also with the envelope of the amplitude.

Due to this property, select and transmit and receive FM and FM signals are maintained while maintaining high resolution in range, which (it is important, for example, for Pulse systems, as well as for systems with a low level of interchannel interference, with temporary and combined frequency and time) signal multiplexing in radio and telemetry.

The device can be implemented both in analog and digital form.

Claims (1)

1. USSR author's certificate number 436448, cl. And 04 B 7/08, 1972.