SU1197129A1 - Device for reception of frequency-shift keyed signals - Google Patents

Abstract

A DEVICE FOR RECEPTION OF FREQUENCY-MANIPULATED SIGNALS containing serially connected amplifier-limiter, first modulo two adder, first element I. And first counter, filling pulse generator, one output of which is connected to another input of first element I, and also a memory block A decisive unit and a synchronous signal generation unit, characterized in that, in order to improve noise immunity from impulse noise, the first inverter, the second inverter connected in series, the second element are introduced into it And, the delay unit, the second modulo two, the third element And, the second counter, an additional deciding unit and the third modulo two, and the fourth element And, the output of the amplifier-limiter connected to the inputs of the unit for generating synchronous signals, the second inverter and the first input of the fourth element And, the second input of which is connected to the first output of the forming / synchronous signal unit connected through the first inverter to another input of the second element And, the output of the fourth element And is connected to another input from the second adder - modulo two, second. The swarm output of the synchronous signal generation unit is connected to another input of the first adder modulo two, the output of the first counter is connected via a memory block to the input of the decision block, the output of which is connected to another input of the third modulo-two adder, another output generator of the pulse generator is connected to another input of the third element I.

Description

The invention relates to radio engineering and can be used in the transmission of data by the method of frequency manipulation over radio channels, mainly in the processing of low and carrier frequencies. The purpose of the invention is to improve the noise immunity from impulse noise. The drawing shows a structural electrical circuit of the proposed device. A device for receiving frequency-manipulated signals comprises amplifier-limiter 1., the first sum of module 2 modulo two, block 3 of generating synchronous signals, first element 4, first counter 5, block 6 of memory, decisive block 7, filling pulse generator 8, fourth the element And 9, the second inverter 10, the second element And 11, the first inverter 12 block 13 delay, the second adder. 14 modulo two, the third element And 15, the second counter 16, an additional decisive block 17, the third adder 18 modulo two. The device works as follows. The input mixture of the frequency-manipulated signal with the manipulation index is 0.5, the pressing and spinning frequencies of which are respectively 21Г / Т and Т / Т, and the noise is fed to the input of the amplifier-limiter 1, where it is converted into a sequence of square impulses that adder 2 is modulo-two input, to the second input of which rectangular reference pulses from block 3 are given. Result: t total. it is filled with the counting pulses of the generator 8 from the element 4, which is calculated over a time from half the previous clock interval to half the subsequent clock interval in the counter .5. The counting state is memorized in memory block 6 and read by decision block 7 at the next clock moment. Constantly, the signal from the output of the amplifier limiter 1 goes to the element AND 9 and through the inverter 10 to the element 11, which also receives the reference signal from the block 3, which is also directly inverted in the inverter 12. The signal from the output of the element 11 is delayed by equal to half of the clock interval in the delay block 13 (shift register), and then summed modulo the output signal of the AND 9 element in the adder 14, the output of which is a sequence of pulses characterizing the moments of input signal mismatch 14 modulo two, i.e. a sequence of pulses that carry information about the nature of interference in the form of spurious (due to noise) emissions in the input mixture of a frequency-controlled signal with an uninterrupted phase and noise, leading to an error in reception. This sequence of pulses is filled with counting pulses of the generator 8 of pulses of filling in the element 15 and is counted during the time interval by the counter 16, i.e. estimated duration of spurious emissions, which is characteristic of interference. When the decision threshold is exceeded, an additional decision block 17 results in a unit signal, signaling the critical duration of the spurious due to noise emissions, i.e. error while receiving data signal. Error elimination occurs in the modulator 18, to one input of which a data signal is received from the main channel from the output of the decision block 7, and on the other - the signal of the additional decision block 17. If there is a unit at the output of the Additional decision block 17, i.e. in the presence of an error in reception, the corresponding signal from the output of the decision block 7 is inverted and the correct symbol is recorded at the output of the device for receiving signals with frequency shift keying. ,

Claims (1)

DEVICE FOR RECEIVING FREQUENCY-MANIPULATED SIGNALS, containing serially connected amplifier-limiter, the first adder modulo two, the first element And and the first counter, the pulse generator fill, one output of which is connected to the other input of the first element And, as well as a memory unit, a decision unit and a block for generating synchronous signals, characterized in that, in order to increase the noise immunity from impulse noise, the first inverter, the second inverter, the second element And, the block And are connected in series costs, the second adder modulo two, the third element And, the second counter, an additional deciding unit and the third adder modulo two, as well as the fourth element And, and the output of the amplifier-limiter connected to the inputs of the synchronous signal generation unit, the second inverter and the first input of the fourth element And, the second input of which is connected to the first output of the block forming / synchronous signals connected through the first inverter to another input of the second element And, the output of the fourth element And is connected to another input q of the second sum modulo two tori, secondly. The swarm output of the synchronous signal generation unit is connected to another input of the first adder modulo two, the output of the first counter through a memory unit is connected to the input of the deciding unit, the output of which is connected to the other input of the third adder modulo two, the other output of the fill pulse generator is connected to another the input of the third element I. > f