SU860296A1 - Device for forming pulse sequences - Google Patents

Description

(54) DEVICE FOR THE FORMATION OF PULSE STATE-EFFICIENCY

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The invention relates to a pulse technique and can be used in radar and sonar when measuring the coordinates of objects, as well as in communication systems.

A device is known that contains a generator of counting pulses, the output of which is connected via a two-input coincidence element to the input of a working counter, the outputs of all bits of which are connected to the corresponding inputs of a comparator, the second inputs of which connect the outputs of similar bits of a control counter, and the output of a comparator connected via a key controlled by the error signal to the control input to the whole counter, as well as to the first trigger input, to the second p: p whose input is fed by a delayed imp ls, a single trigger output is connected to the second input of the coincidence circuit.

A disadvantage of the known device is the ability to form only single delayed pulses or a periodic sequence of single delayed pulses.

The purpose of the invention is to control delays between pulse sequences,

The goal is achieved by that in the device for forming an im10pulse sequence, a generator .e is a generator of calculating imp: impulses, the output of which is connected to the first inputs of the coincidence element, a comparator unit, the first and second groups

Claims (1)

The IS inputs of which are connected respectively to the bit outputs of the first and second pulse counters, the input of the first pulse counter is connected to the output of the key, whose input is connected to the output of the comparator unit, the inverter, the OR element, two clock generators and two generators of discrete power and 5Iryl sequences with the output of the first of which is connected to the discharge inputs of the second pulse counter via the first clock generator, the output of the second generator is discrete x pulse sequences via series connected second clock generator and an inverter connected to the first input. An additional element of coincidence, the second input of which is connected to the output of the generator of counted pulses, the input of the second pulse counter and the input of the first generator of discrete pulse sequences, while the input of the second generator of discrete pulse sequences is connected through the OR element to the output of the basic and additional elements of coincidence, and the second input of the main matching element is connected to the input of the klych. The drawing shows a functional diagram of the device. The device contains a generator of 1 counted pulses, counters 2 and 3; pulses, unit 4 comparisons, key 5, elements 6 and 7, match, inverter 8, element 9, 9, formari 1. teli 10 and .11 clock pulses, generators 12 and 13 of discrete pulse sequences, error signal bus 14, output buses 15 and 16 not delayed and delayed sequences. The device for forming pulse sequences works in the following way 01 dim. In counter 2, in a known manner, prior to the start of work, a certain number K is written, specifically ycTanaBjmBaeMyK) the delay block per cycle of generator 1. The counting pulse from which enters generator 12, counter 3 and through element 7 of coincidence and element OR 9 , To the input of generator 13, which stops at the moment when you start fixing the initial phase of the formed discrete sequence, impulses occur as inverter 8 inverts this pulse, locks element 7 and shunts generator 13. Thus, the device automatically prepared for work. As soon as the impulse corresponding to the initial 4 phase of the non-delayed sequence occurs at the output of the imaging unit 10, it arrives at the zero-setting inputs of the counter 3, which, starting from this moment, produces the summation of the counting pulses at its input until the counters 3 and 2 does not coincide, which is fixed by means of the comparison block 4, the signal from the output of which opens element 6, and through the element OR 9. on the generator 13 one clock pulse arrives. The generator 13 exits the initial state. The potential at the output of the imaging unit 11 for fixing the initial phase of the sequence disappears, element 7 is opened, and steps are continuously fed to the input of the clock cycles of the generator 13. The generator 13 forms a pulse sequence delayed by K clock cycles. From the output of the key 5, a pulse is fed to the input of the counter 2 to add (or subtract) if there is a potential on the bus 14. Thus, it is easy to adjust the delay. This device has self-control and the ability to automatically restore the specified delay pg. le accidental failure. Let a discrete sequence be formed having a period of N ticks. Via ele. ment 7 to the generator 13 receives N-1 clock pulses. At the moment when the generator 13 passes through the initial state, the element 7 is locked and the generator 1. (It will be able to get out of this state only if the permitting impulse comes from the comparison unit 4, which opens element 6, If allowing the impulse is not received at that moment, then the generator 13 stops and the process of setting a predetermined delay automatically repeats. In this generator, it is also possible to obtain delays of a periodic discrete sequence of any structure, for example Let at the moment of switching on the device in the counter 2 the number 7- is written, and the triggers of the generators 12 and 13 turn out to be in random states 1000 and 0110, respectively. The mute state of the counter 3 is also arbitrary, for example 2. Consider the process of establishing the specified delay of seven clock cycles. As soon as the clock generator generator 12 and 13 and counter 3 begin synchronous operation at the output of the generator 1 of the counting pulses, the clock generator enters the generator 13 through the coincidence element 7. On the quarter stroke at the output of the generator 13 there will be a symbol conventionally taken as the beginning of the sequence. The corresponding clock pulse for Wits at the output of the former 11 initial phase. Through the inverter 8, this pulse closes the coincidence element 7 and thus stops the access of the clock cycles to the generator 13, it stops. On the fifth clock cycle, counter 3, which began the summation of counting pulses, counts up to seven. Since the number 7 is recorded in the counter 2, a pulse appears at the output of the comparison block 4, which opens the coincidence element 6 and transmits one clock pulse to the generator 13. The generator 13 leaves the state corresponding to the beginning of the generated sequence, and the coincidence element 7 is again opened to the clock pulses. A parasitic start of the generator 13 occurs, which works for one period synchronously with the generator 12 with a relative delay of four cycles. On the ninth clock cycle, the clock pulse removed from the driver 10, the counts 3 is set to zero. After seven clock cycles at the sixteenth clock cycle, he again calculates to seven, and at the output of comparator unit 4, a pulse arises that opens element 6 of coincidence for one clock cycle, but since element 7 of coincidences is open at that time, this pulse does not change anything. The sixteenth clock cycle passes to the generator 13 immediately through two channels — through the elec- tures of the 6th and 7th coincidences. On the nineteenth clock cycle, the generator 13, having completed one period of operation, is clearly in the state corresponding to the conditional start of the sequence. By using the 7 to 8 elements and the former 11, the clock access is stopped, and the generator 13 is stopped. On the twenty-third clock cycle of the generator 12, the counter 3 is set to zero, and after seven clock cycles on the 31st clock cycle, at the output of the comparison unit 4, a pulse appears, which jiepea element 6 of the matches starts the generator 13.. 966; Per generators 12 and 13 operate with a specified delay of seven cycles. Moreover, 14 cycles (in the general case, M-1 cycles, where M is the period of the generated sequence) are transmitted to generator 13 through the element 7 of coincidences, and one cycle through the element 6 of matches. If the delay of the sequence corresponds to a given one, then this pulse fills a pause in one cycle, the generator 13 operates continuously without stopping. If the pulse is shifted with respect to the pause, then the generator 13 stops and the set delay cycle is automatically repeated. The initial states of counter 3 and generators 13 are chosen so that the transition process is maximal, i.e. to illustrate setting a predetermined delay in case of an accidental failure. During normal operation of the device, the synchronous start of the generator 13 and the change in the record of the number in the counter 2, performed by the key 5, ensures the minimum duration of the transient process of setting the specified delay - just one clock cycle. The device is invariant to the structure of the delayed sequence being formed and to the number of its code features and forms delayed multilevel or multiphase or multiphase discrete sequences with a long period of arbitrary periodicity and structure, provides a constant self-control of the delay and automatic recovery of a given delay at random failures, adjusts delays. Claims An apparatus for generating pulse sequences, comprising a counting pulse generator, the output of which is connected to the first input of a match element, a comparison unit, the first and second groups of inputs of which are connected respectively to a bit 1M of the first and second pulse counters, the input of the first pulse counter is connected with an output of a key, the input of which is connected to the output of the comparator unit, characterized in that, in order to control the delay between the pulse sequences, An inverter element, an OR element, two sync pulse generators and two discrete pulse generators, the output of the first of which through the first sync pulse generator is connected to the bit inputs of the second pulse pulse generator, and the second digit generator of discrete pulse sequences through the sequentially connected second sync pulse generator, are entered. the inverter is connected to the first input of an additional coincidence element, the second input of which is connected to Exit generator countable pulses to the input of the second pulse counter and the input of the first pulse pattern generator discrete When this input of the second digital oscillator pulse sequences is connected via an OR gate to outputs of the main and additional elements coincidence and the second the input of the main match element is connected to the key input. Sources of information taken into account in the examination 1. USSR author's certificate No. 457158, cl. H 03 H 9/30, 1972.