SU468366A1 - Periodic Pulse Selection - Google Patents

Description

(54) The selector of periodic pulsed sequences corresponded to a double maximum period of the interval of the desired sequences. The detection and measurement of the desired period is related in time to the moment of the appearance of the signal at the middle tap / register 1. At this moment, register 1 is given a rapid shift from the generator to drift. Wi G sdv.2 of 5 with a frequency where P. is the number of bits of register 1, and in this case, in the second half of register 1, the shift direction is reversed and thus both halves are shifted towards the middle cell. In order to regenerate information in register 1, a shift in both halves is carried out in a ring through Switch -7 and the pulses of fast shift are fed by a packet, the number of pulses in which is equal to the number of bits in half of register 1. Thus, at the end of the rapid shift of information in register 1 is restored. During the fast shift process, the moments of coincidence of signals are recorded in two cells of register 1, taken symmetrically relative to the average over the distance i corresponding to the minimum boundary from the interval of possible values. In the case of a periodic sequence, one of the pulses of which is recorded, on average, is de regist | a 1, two adjacent pulses will be located symmetrically but with a counter shift coincide in scheme 3. By counting the number of shifts in the counter of shifts 4 preceding the moment of coincidence N, the period of the detected sequence TO NS TO J D® can be determined. In one fast-shift cycle, several such matches can be found — in cases where the average cell contains a pulse of a sequence with a small period (then each half of register 1 will contain more than two periods of such a sequence), or in the case of false coincidences of pulses me. stitching sequences. In this case, the fact of imposing a false sequence can be detected on the basis of the failure of the periods recorded by the counter 4, for which a logical analysis of the от counts in the control device is performed. No false sequences were detected by the control device 6, the measurement result is compared with the program in the control device 6 and, if appropriate, is converted, forming a new shift frequency of register 1 that matches the period of the detected sequence. The sequence selection program is set by device 6 as an interval of values of the periods intended for the selection. As a result of the execution of these operations, the sequence is captured by the selector, and at the output of the coincidence circuit 2, a fast-decreasing flow of pulses is obtained, and after one — dowh — —selections from the sequence in register 1 — one selected sequence remains. If a false sequence is detected, or the detected period does not match the program, the measurement is reset and the selector continues to work (register shift 1 at the same rate) until a new pulse appears in the middle cell of register 1, then above . The fast shift cycle takes place in a time shorter than the main shift period, and the current recording of information in register 3 is thus not violated. In the selection mode (after acquisition), the accuracy of fixing time intervals in register 1 is at least doubled, since the total length of the register in this mode corresponds to one period of the selectable sequence. , in this mode can be accordingly reduced. For this, in the selection mode at the last bits of register 1 used to form the strobe, a static refinement is made in the strobe position device 6 and its corresponding narrowing to two to three gradations of register 1. for some time with the corresponding expansion of the strobe linearly in time. A sign that the sequence is turned off is a lack of information in the exposed gate. If a decision is made to search for a new sequence, the tracking mode is reset by the command from device 6, the matching circuit 2 opens, the shift frequency of register 1 is set in the search mode f cng.i- and the information is recorded in register 1, after What is described in the above detection logic and measurement is repeated.

Subject invention

A periodic pulse sequence selector that contains a delay line executed on the shifting: throat, and an input matching circuit, characterized in that, in order to increase the speed of the selector when selecting a sequence with an unknown period, the ycTw control relay, generator and counter are entered into it shifts, key, second matching scheme, with the control device connected

with the input matching circuit, the output of which is connected to the shift register input, the middle tap of which is connected via a control device to the generator 5, the output of which is connected to the control inputs of the shifting register, the output of the first half of the shift register is connected to the shift register input via a key , the output of which is connected via the key through the key in the input of the second half of the mentioned offset register, and two symmetrical with respect to the Middle offset of the shift register are connected to the inputs second coincidence circuit

5 the output of which is connected to the control unit and the shift counter, the output of the cohort is also connected to the control unit.

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