SU809643A1 - Device for receiving signals with combined frequency and relative phase manipulation - Google Patents

Description

The invention relates to communication and can be used in discrete information transmission systems in the presence of a Doppler shift of the signal frequency. *

A device for receiving signals with combined frequency and relative phase shift keying, comprising a band-pass filter, the output of which is connected to the input of the frequency detector 0 and the first input of the first multiplier, the outputs of which are connected respectively through the first manipulation filter and the first narrow-band filter with the input of the first driver 15 pulses and the first input of the second multiplier, the output of which through the second manipulation filter is connected to the input of the second pulse shaper, while the output is not Vågå narrow- 20 <bandpass filter connected to the input of delay element whose output for prison Connectivity to the second input of the second multiplier [1].

However, the known device does not provide * * "it prints the reception of signals in channels with Doppler frequency shift.

The purpose of the invention is the ability to receive signals in channels with Doppler frequency shift. thirty

This goal is achieved by the fact that the device includes a frequency doubler, a delay unit, additional multipliers and a series-connected adder, a second narrow-band filter and a frequency divider, the output of which is connected to the second input of the first multiplier, the first input of which is connected to the input of the frequency doubler, the output of which connected to the first inputs of additional multipliers and to the input of the delay unit, the outputs of which are connected to the second inputs of additional multipliers, the outputs of which are connected to the inputs with mmatora.

The drawing shows a structural electrical diagram of the proposed device.

The device comprises a band-pass filter 1, a first multiplier 2, a frequency detector 3, a first manipulation filter 4, a first pulse shaper 5, a frequency doubler 6, a second multiplier 7, additional multipliers 8, the first and second narrow-band filters / 9 and 10, respectively, the divider 1 ' 1 frequency, adder 12, delay unit 13, second manipulation filter 14, second pulse generator and delay element 16. The device operates as follows.

The received signal is fed to the input of the bandpass filter 1, the passband of which is selected taking into account ³ Doppler frequency shift.

Further signal processing is carried out separately. In frequency detector 3, frequency detection _{7 is} performed; the detected signal is filtered in the first manipulation filter 4 and fed to the first driver 5. The binary sequence from its output, transmitted using carrier frequency manipulation, ³ is sent to the information receiver (not shown).

In the doubler 6, the relative phase manipulation is removed. The signal with> doubler 6 is supplied simultaneously -20 but to block 13 with m outputs such that the delay between the signals at two adjacent outputs is equal to the pulse duration, and to the first inputs of additional multipliers 8, to the 25 second inputs of which signals come from the corresponding outputs of the block

thirteen.

As a result, at the inputs of the additional multipliers 8 at any interval 0-T may be present at the same time or the signals of the same frequency (twice the frequency 'Pushing' 2nd) _and or doubled frequency 'wrung' 2w ₀₎ ilisignaly different frequencies (in one. - .a on the other - 2 <® ₀ ). in the first case, among the multiplication products there is no component at the frequency dda = 2 | ω _Η - <ω ₀ | > in the second such component exists and is allocated by the second narrow-band filter 10.

If we choose the number of outputs (taps) of the block. 13 w such that at least one polarity reversal of binary characters transmitted in the mode of total or total manipulation occurs (i.e., switching from frequency to frequency or vice versa), then at any time at the output of at least one of the additional multipliers 8, a ', therefore, at the outputs of the adder 12 and the second narrow-band filter 10 there will be a voltage with a frequency of AGU.

From the output of the second narrow-band filter 10, the signal with frequency is fed to a divider 11, in which the frequency is divided by 4, as a result of which the second voltage input receives the voltage reference at the second input, at the output 60 of the first pen-switch 2, regardless of the frequency manipulation among the products of multiplication there is always a signal with iobio-fa manipulation at a constant frequency of 65

c) n + &> o, which is allocated by the first narrow-band filter 9 and arrives at the phase demodulator formed by the second multiplier 7, element 16 and the second manipulation filter 14. The binary sequence from its output through the second shaper 15 goes to the information receiver.

Since the reference oscillation supplied to the second input of the first multiplier 2 is formed directly from the received signal, i.e. the frequencies of all components at its output remain unchanged in the presence of a Doppler frequency shift, and the phase relations in the signal, as is known, do not change at all in the presence of the Doppler effect, then it is completely compensated.

The proposed device provides the ability to receive signals with combined frequency and relatively phase-shift keying in channels with the Doppler effect.

Claims (1)

ny filter 14, the second driver 15 pulses and the element 16 delay. The device works as follows. The received signal arrives at the input of the band-pass filter 1, the bandwidth of which is selected taking into account the Doppler frequency shift. Further signal processing is performed separately. In the frequency detector 3, the detected signal is frequency-detected. The detected signal is filtered in the first manipulation filter 4 and fed to the first shaper 5. The binary sequence from its output, transmitted using frequency carrier manipulation, arrives to the recipient of information (not shown). In doubler b, the relative phase manipulation is removed. Simulator C1 doubler 6 is supplied simultaneously to block 13 with m outputs such that the delay between the signals at two adjacent outputs is equal to the pulse duration, and to the first inputs of additional multipliers 8, to the second inputs of which the signals from the corresponding outputs of block 13 arrive. . As a result, at the inputs of additional multipliers 8, at any O-T interval, signals of the same frequency can be present simultaneously. (double frequency Press 2W (or double press Spread 2cs) g), or signals of different frequencies (on one - 2uJ, .a on the other - 2%). In the first case, among the products of multiplication, there is no component at frequency A (H 2 | W | 4-Sho1; in the second, such a component is also distinguished with a second narrow-band filter 10. If you choose the number of outputs (taps) of the block. 13 hectares such so that at least one polarity change of binary symbols transmitted in frequency manipulation mode (i.e., switching from frequency 000 to frequency 01) c or vice versa occurs at the time interval m T, then at any time at the output of at least one of the additional multipliers 8, and consequently, at the outputs the sum Ora 12 and second narrowband filter 10 will have a voltage of 4bU). From the output of the second narrowband filter ja 10, the signal with frequency arrives at divider 11, in which the frequency is divided by 4, with the result that the second input of the first commutator 2 receives the reference voltage with frequency -. . Irrespective of the frequency manipulation, among the multiplication products, there is always a signal with relative phase manipulation at a constant frequency, which is extracted by the first narrowband filter 9 and delivered to the phase demodulator formed by the second multiplier 7 , the element 16 and the second manipulation filter 14. The binary sequence from its output through the second driver 15 arrives to the recipient of the information. Since the reference oscillation supplied to the second input of the first multiplier 2 is formed directly from the received signal, i.e. the frequencies of all components at its output remain unchanged when the Doppler frequency shift is present, and the phase relations in the signal, as is well known, do not change at all in the presence of the Doppler effect, then its full compensation occurs. The proposed device provides the ability to receive signals with a combined frequency and relatively phase-shift keying in channels with the Doppler effect. Apparatus of the Invention A device for receiving signals with a combined frequency and relatively phase manipulation, comprising a band-pass filter whose output is connected to the input of the frequency detector and the first input of the first multiplier, whose outputs are connected via the first manipulation filter and the first narrow-band filter with the input, respectively. the first pulse shaper and the first input of the second multiplier, the output of which through the second manipulation filter is connected to the input of the second pulse shaper, with The output of the first narrowband filter is connected to the input of the delay element, the output of which is connected to the second input of the first multiplier, characterized in that, in order to enable reception of signals in channels with Doppler frequency shift, a frequency doubler, delay block, additional multipliers and serially connected are introduced an adder, a second narrow-cut filter and a frequency divider, the output of which is connected to the second input of the first multiplier, the first input of which is connected to the input of the frequency doubler Whose output is connected to first inputs of multipliers and further to the input of delay unit whose outputs are connected to second inputs additional peremnozhnteley whose outputs are connected to inputs of the adder. Sources of information taken into account in the examination 1. USSR author's certificate 677128, cl. H 04 L 27/18, 1978 (pro-, totip).