SU847264A1 - Time discriminator - Google Patents

Description

I

The invention relates to automation and is intended for use as a sensitive element (element of comparison) of time interval meters.

Known temporal discriminator that uses the amplitude information in the received signals, containing the amplitude envelope detector receiving signals, to the output of which is connected the clamp of the characteristic point of the envelope 1.

The disadvantage of the known discriminator is low noise immunity due to the suppression of the signal by the noise in the amplitude detector.

The closest in technical essence is a temporal discriminator containing a source of reference impulses, a source with radio signals, an amplifier-limiter, the output of which is connected to the first input of the first element AND and through the element NOT to the first input of the second element And, trigger, first and the second w of which inputs are connected respectively with the first inputs of the third and fourth elements I, the second inputs of which are connected to the source of read pulses fZj.

The disadvantage of this discriminator is that, in the case of discrimination, radio pulses with a long-range envelope (approximately 500 carrier periods, in a known device the envelope duration is 20 carrier periods) and a carrier period (60 times the length of the period existing in the known device) it is almost impossible to provide a large time delay of radio pulses with the required accuracy.

The purpose of the invention is the rubbing of the area of application of the discriminator.

Claims (2)

This goal is achieved by those. that the first and second sources of reference gates are entered into the time discriminator. 38, the first and second elements OR, the fifth, sixth, seventh and eighth elements are AND, the first inputs of the fifth and sixth elements AND are connected to the output of the first element AND, the first inputs of the seventh and eighth elements AND to the output of the second element AND, the second inputs the fifth and seventh And elements — with the first source of the supporting strobe, the second inputs of the sixth and eighth And elements — with the second source of the supporting strobe, the outputs of the fifth and eighth And elements, respectively, are connected to the first and second inputs of the first element OR, the sixth and seventh outputs element And with the first and second inputs of the second element OR, and the outputs of the first and second elements OR with the first and second inputs of the trigger, the input of the amplifier-limiter is connected to the source of signal and pulses, and the second inputs of the first and second elements I to the HCTO4jdiKy reference impulses owls FIG. functional scheme of the proposed temporary discriminator; Figure 2 shows the time diagrams of the operation of the discriminator. The device contains the source 1 of the signal pulses, the amplifier-limiter 2, the element NOT 3, the first and second elements AND 4, 5 the source 6 reference pulses, the third and fourth elements And 7, 8, the fifth and sixth elements And 9, 10, the first and the second source NIKI 11 and 12 support gates, the first and second elements OR 13, 14, trigger 15, seventh and eighth elements AND 6, 17, source 18 read pulses, signal pulse 59 with interference at the output of source 1, square wave 20 at the output the amplifier limiter 2, the reference pulses 21, formed from the meander at the output of the source 6 reference gates 22 and 23, respectively, at the outputs of the first and second sources of reference gates 11 and 12, pulses 24 and 25 - at the outputs of the first and second elements OR 13, 14 (at the first and second inputs of the trigger 15). The time discriminator works as follows. The sequence of signal pulses 19 from source 1 is fed to the input of amplifier 2, the square wave 20 from the output of which is fed to the input of the first element AND 4 and through the element NOT 3 to the input of the second element AND 5. Ie source 6 of the reference pulses to the first and second elements AND 4 , 5, reference pulses 21 are generated, formed by the IE of a meander in quadrature with a carrier of pulses. Figure 2 shows a variant where the signal level exceeds the noise level. In this case, at the time of exposure to noise, the number of pulses at the outputs of the first and second elements I 4, 5 is, on average, the same, and during the signal, pulses appear at the output of one of the elements of the first 4 or second 5 (for figure 2, the output of the first element I4). Selected using the fifth, sixth, seventh and eighth elements And 9,10,16 and 17, supporting gate 22 from the first source 11 and supporting gate 23 from the second source 12, pulses through the first and second elements 13, 14, 14 are fed to the first and the second inputs of trigger I5 (pulses 24 and 25) in such a way that, during the noise action, the number of pulses on both inputs of trigger 15 is on average the same, during the coincidence time of the signal and reference gate 22 pulses appear on the first input of trigger 15 ( 24 of FIG. 2), and during the coincidence time of the signal and reference o strobe 23 - at the second input of the trigger 15 (pulse 25). If the reference gates (pulses 22 and 23) are shifted to the right relative to pulse 19, then the number of pulses 24 at the first input of the trigger 15 exceeds the number of pulses 25 at its second) OM input and, accordingly, the trigger I5 ensures the passage of read pulses from the source 18 selected by the reference gates 22 and 23, mainly through the third element And 7. If the reference gates 22 and 23 are shifted to the left relative to pulse 19, then the preferential presence of pulses at the output of the fourth element And 8 is provided. The output pulses are a time discriminator They are fed to the control circuit of the tracking system (Fig.), which provides for the displacement of the reference gates 22 and 23, respectively, to the left or to the right with respect to the pulse 19. The present invention has a wider range of application than the known devices. The invention The time discriminator containing the source of reference pulses, the source of signal pulses, the amplifier-limiter, the output of which is connected to the first input of the first element AND and through the element NOT to the first input of the second element I, trigger, the first and second devices of which are connected respectively to the first inputs of the third and fourth elements And, the second inputs of which are connected to the source of read pulses, which is characterized by the fact that, in order to expand the field of application of the discriminator, it contains the first and The second sources are 1x strobe opors, the first and second elements OR, the fifth sixth, seventh and eighth elements And, the first inputs of the fifth and sixth elements And are connected to the gateway of the first element And, the first inputs of the seventh and eighth elements And - with the output of the second And, the second inputs of the fifth And seventh And elements - with the first | {reference gate source, the second 46 bHodes of the sixth and eighth elements And with the second source of the reference gate, the outputs of the fifth and eighth And elements are respectively connected with the first and second inputs of the first element Or exit the sixth and seventh AND elements — with the first and second inputs of the second OR element, and the first and second OR outputs — with the first and second trigger inputs, the input of the limiter amplifier connected to the source of signal pulses, and the second inputs of the first and second elements to the source of reference pulses. Sources of information taken into account in the examination 1. Search, envelopment and measurement of signal parameters in radio navigation systems. Ed. Yu.M. Kaearino to you., Soviet Radio, 1975, p. 129 2. Receive RNS Laurent S TDL-eOIA. Instructions of the company Teleclyne Sts, 1975, Translation 9 2076 MRP USSR (prototype). Pz GSHL-LLL-Guy GLLLL., 1c “I I I I I I I I I I I I I ,,