SU542349A1 - Adaptive coherent multi-frequency signal processing device - Google Patents

Description

one

This invention relates to radio.

A device for receiving binary signals in parallel channels is known, comprising in each channel a channel separation unit, a demodulator, a fidelity meter, a decoding unit, an output unit, and a multiplier, for example, a switched circuit. Voltage 1.

Such a device, designed for coherent processing of multi-frequency signals, is not sufficiently high noise immunity.

Closest to the proposed adaptive device for coherent processing of multi-frequency signals containing TL identical channels, each of which includes serially connected input filter, limiter, first multiplier, narrow-band measurement filter, second multiplier, the other input of which is connected to the output of the limiter, and output from one of the adders whose output, which is the output of the device, is connected through a limiter to the second inputs of the first multipliers, the inputs

the input filters are enclosed and are the input of the device .2}.

However, such a device is characterized by a decrease in noise immunity due to a decrease in the speed of manipulation and the frequency-time arrangement of the station interference, since with these changes in the received signal, the passbands of the input filters remain constant and are not consistent with the signal and besides.

The purpose of the invention is to improve the noise immunity of the device.

For this, B is an adaptive device for coherent processing of multi-frequency signals containing TP of identical kanacs, each of which includes serially connected input filter, limiter, first multiplier, narrowband measuring filter, second multiplier, the other input of which is connected to the output of the limiter and the output with one of the adders whose output, which is the output of the device, is connected through a limiter to the second inputs of the first multipliers, and the inputs of the input filters are combined in The input of the device, the transducers and the manipulation frequency analyzer are introduced, and the outputs of the narrow-gauge measuring filters are connected via transducers to the second inputs of the input filters, the third inputs of which are connected to the second inputs of the input filters, the third inputs of which are connected via the frequency analyzer with the output of the device.

Active filters with electronic bandwidth tuning were applied as input filters.

In addition, the manipulation frequency analyzer is designed as a series-connected detector, a pulse duration selector, a solver, and a memorization device of the decision made.

FIG. 1 shows a structural electrical circuit of an adaptive coherent processing device for multi-frequency signals; in fig. 2 is a structural electrical circuit of a frequency analyzer of manipulation included in the device.

Adaptive device for coherent processing of multi-frequency signals contains m identical channels, each of which includes serially connected input filter 1, limiter 2, first multiplier 3, narrowband measuring filter 4 second multiplier 5, the other input of which is connected to the output of limiter 2, and the output with one of the inputs of the adder 6. The output of the adder, which is the output of the device, is connected through the limiter 7 with the second inputs of the multipliers 3, and the inputs of the filters 1 are combined and are the input of the device properties. The outputs of the narrowband measuring filters 4 are connected via transducers 8 to the second inputs of filters 1, the third inputs of which are connected to the output of the device through the frequency analyzer 9. Active filters with electronic bandwidth tuning were applied as input filters.

The frequency analyzer of the manipulation 9 is made in the form of a series-connected detector 10, a pulse duration selector 11, a resolver 12 and a memory of the decision 13 made.

During operation of the device, the bandwidth control signals of the input filters 1 are generated at the outputs of the converters 8 and the frequency analyzer 9. The analyzer 9 changes the bandwidth.

filters 1 is discrete, setting one of the fixed 1,; x values from the matching of the band pass to the spectrum of the useful signal in the channel and taking into account the maximum instability of the napnjvjeTpoE radio link. Transducer 8 smoothly changes the passband of filter 1 in proportion to the voltage level at the output of narrowband measuring filter 4, which is determined by the ratio: signal noise in a given channel. Thus, a positive and negative feedback in filters 1 establishes an optimal bandwidth, adapted to the frequency of manipulation and the level of station interference, which is significantly increased. noises noise immunity of the device.

The decision on one of the fixed frequencies of manipulation appears at the output of the solving device 12 of the manipulation frequency analyzer 9 in the case when at its input the number of coincidences of pulses of the minimum duration for a given manipulation frequency is not less than the specified one. In the case of short-term signal drops (for example, fading), the decision on the value of the frequency of manipulation is saved by the memory of the decision made 13 for a time equal to anpi-: or the maximum efficiency of the fyedig,

As input filters I, active fi lters with electronic bandwidth adjustment were used. The pyruguide filter elements for the smooth tuning of the band of the pass - :: - ani are the paletransistors of the IEG / -; - - - - 1 linking matching cells in the feedback circuits of the filter 1 under the influence of the control voltages from the transducer 8. The bandwidth controls discretely the manipulation frequency analyzer 9 by switching resistors in the input FCL feedback - pa 1,

The use of new elements of the transducers 8 and the analyzer of the part-manipulation 9 - allows to significantly increase the noise immunity of the device due to its alignment with the received signal and the nature of station interference.

Claims (2)

1. Adaptive device for coherent processing of multi-frequency signals, containing TP identical channels; each of which includes in series an input filter, a limiter, a first multiplier, a narrow-band meter (g) filter, a second multiply., the other of which is coeaiiHei; with you.;. to the Chiepe, and the exit from the ODM: -; ; k7. x I; YHO matora, output Kc TOptn -:.;. -:: .-:.;:.,:.; devices, cedi1e 1 tku / O-h oipar; ; 1: tel with rymi inputs nepbbix porel: ;; x :: t. hh; -. and inputs of input filters o6beii :: i. h Yugl Yugs entrance gadget, about tl to Ch and yu iii; H home e with the fact that, with the aim of higher::; 1: education resistance. 13 have been entered; watep and anal1: mash frequency of the magnetization, in particular, the outputs are narrow-band) -; 1X mzl: tnyh filters through conversions;: 71 dinene from so: or5lh: and with the rods, third input through the frequency torus; : r edpn6: ,, - l uch; triest--. 2, Arrange :; - :: CHO P 1; I L i e e C teh, active filters with electronic rearrangement of the pass band3 are used as rl.tr. Ustrostbo according to .. 1. differs with those; that the frequency analyzer:; hh1;: | street; 1 is made in the form of a series-connected detector., Selector of the duration of the pulse number, the resolver: h. and devices; memorization of the decision made; Sources of information taken at the time of the examination: 1.-USSR Copyright Certificate V 458102, H 04 and 1/02, 1973. 2. Koc iii4ecKi x radio links of information transmission systems. Ed. Teplo kova I.M. .ch ... Holy Hour, 1975, p. 197. ig. one U2.2