SU588637A1 - Frequency-time coded radiosignal receiver - Google Patents

Description

(54) DEVICE FOR RECEPTION OF RADIO SIGNALS WITH TIME-FREQUENCY CODING

The invention relates to radio engineering and is intended to receive radio signals with time-frequency coding, for example, of the type of time-frequency matrips (CTM). A device for receiving radio signals with time-frequency coding is known, comprising a series-connected preselector, a mixer, an intermediate frequency amplifier, a decoder, an And element, a demodulator and a distribution line, the outputs of which are connected via keys to the inputs of a discretely tunable local oscillator, and the latter is connected to another inlet mixer. However, the known device does not allow to track the received radio signal with a sufficient degree of accuracy, since the omission of one of the CMs of received radio signals (or one elementary signal of the matrix) leads to the omission of all the other CMMs up to the very end of the heterodyne tuning cycle. The purpose of the invention is to increase the accuracy of tracking the received radio signal. To do this, the proposed device for receiving radio signals with time-frequency coding between the output of the AND element and the input of the distribution line is introduced in series with the multi-branch delay line and the OR element, and the delay time of the crank section of the multi-branch delay line is equal to the period of code-tracking in the common frequency band received radio signals with time-frequency coding. The drawing shows a structural electrical circuit of the device. A device for receiving radio signals with time-frequency coding contains serially connected selector 1, mixer 2, amplifier 3, intermediate frequency, decoder 4, element 5, demodulator 6, distribution line 7, the outputs of which are connected via switches 8 to the inputs of the discretely tunable heterodyne 9, and the output of the latter is connected to another input of the mixer 2, in addition, between the output of the element 5 and the input of the distribution line 7 there are serially connected multi-tap delay lines 10 and an IL element I. The device operates as follows. The preselector 1 receives the radio signals of all the radio frequency bands of the transmitter emitting the CFM alternately in one of the radio frequency bands A / of the general bN group of non-overlapping bands. From the output of preselector 1, the signals are fed to the input of mixer 2, to the second input of which the frequencies of discretely tunable local oscillator 9 arrive. Each received CWM receives its frequency pedestal in mixer 2, i.e. mixer 2 and tunable day oscillator 9 serve to convert all signals matrices in the signals of the matrix occupying a certain and constant frequency bands. From the output of the mixer 2, the signals of this matrix are fed to the input of the amplifier 3, the intermediate frequency, and then decoded by the decoder 4, which is assembled according to a typical scheme. The pulses obtained as a result of deciphering the CHEM from the outputs of the decoder 415 arrive at the inputs of the element 5, and the frequency of occurrences of pulses at the output of this element is equal to the frequency of the information pulse of the transmitter. The pulses from the output of the element b and b come to the input of the demodulator 6, and are also used to automatically rebuild the local oscillator 9. When skipping at least one of the received radio pulses, and hence the CWM, im 25 pulses corresponding to this matrix, the output element and 5 will not occur. However, the synchronization of rebuilding the local oscillators of the receiver and transmitter is not disturbed, since the previous pulse from the output of the AND element, which is located in the high-water delay line 10, acts through the OR element AND on the distribution line 7, as a result of which the local oscillator 9 is tuned to the required frequency. If not one but several radio pulses of one matrix are passed through, then the reorganization of the proposed device also occurs, since for triggering 40 of the element And b, simultaneous presence of pulses is required at all inputs This unit, however immaterial how many inputs of AND gate 5 are no pulses at one or neskolkih.45 4 The required number of taps of delay line Yu and accordingly the number of inputs of the OR gate 11 is determined by the number of possible consecutive passes matrices time-frequency coding. The probabilities of skipping three or more matrices of the series are very small, since the third and higher probability levels of skipping one matrix are determined, and consequently, it is sufficient that the delay line 10 contains only three to four taps. The impulse at the output of the element OR AND (i.e. at the input of the distribution line 7) takes place in all cases if a pulse acts at least on one of the inputs of this element. Thus, in the proposed device, the accuracy of tracking the received radio signal is increased. rh g ,, „„ Formula and Rectifier Device for receiving radio signals with time-frequency coding, containing serially connected preselector, mixer, intermediate frequency amplifier, decoder, And element and demodulator, as well as distribution line The outputs of which are connected via keys to the inputs of a discretely tunable local oscillator, the output of which is connected to another input of the mixer, characterized in that, in order to increase the accuracy of tracking the received radio signal, between the output of the And element and the input The distribution line has a serially connected multi-branch delay line and an OR element, and the delay time of each section of the multi-branch delay line is equal to the follow-up period of code groups in the total frequency band of received radio signals with time-frequency coding. Sources of information taken into account during the examination 1. Copyright certificate USSR № 486569, cl. H 04 L 16/00, 1971.