SU699665A2 - Pulse selector - Google Patents

Claims (2)

The invention relates to means for measuring time intervals and is intended to isolate pulsed sequences with a predetermined pulse repetition period. The invention may find wide application in communication encryption tools as well as in various fields of technology associated with impulse processes. Known pulse selector for the main author. St. No. 545076, containing a coincidence unit, connected to the input of the selector by one input through a differentiating stage and an inverter, and another input through a serially connected delay device consisting of a controllable valve, a clock generator and a non-reverse serial pulse counter and a gate generator, and The selector input is connected to the installation inputs of a sequential counter through a block for selecting the initial state of the counter. However, the known selector does not provide measurement of the pulse following period, and in addition, it does not allow to select pulse sequences with a predetermined following period. The purpose of the invention is the selection of pulse sequences with a predetermined follow-up period. This is achieved by the fact that a pulse selector containing a controllable gate, a clock pulse generator, a counter, a counter initial state selection unit, an inverter, a first differentiating circuit, a form of a gating pulse, a coincidence block, a counting trigger inserted between the selector input and a controlled valve, the second differentiating circuit and the pulse sequence selection unit, to the first input of which, through the second differentiating circuit, is connected to the output of the counting trigger, to the second input A selector input and, to the third input, the output of a match block. FIG. 1 given a structured electrical pulse selector circuit; in fig. 2 - time diagram of his work. The pulse selector contains a coincidence unit 1, a differentiating circuit 2, an inverter 3, a controlled valve 4. a generator of contact pulses 5, a serial counter 6, a gate generator 7 of gating pulses, a block 8 for selecting the initial state of a sequential counter, a counting trigger 9, a differentiating circuit 10, a pulse sequence extraction unit 11, the coincidence unit 1 being connected to the output of the counting flip-flop 9 by one input via differentiating circuit 2 and inverter 3, and the other input through sequentially connected driver 7 gating pulses, a serial counter 6, a controlled valve 4 connected to a clock pulse generator, the output of the counting trigger 9 through the initial state selection block 8 is connected to the setup inputs of the serial counter 6, and in addition the first input of the pulse sequence extraction unit 11 connected through a differentiating circuit 10 to the output of the counting trigger 9, the second to the input of the selector, and the third to the output of block 1, coincidence. The pulse sequence extraction unit 11 can consist of triggers 12, 13, 14 on the elements of matches 15 and 16, elements OR 17, 18 19, differentiating circuit 20 and inverters 21, 22, and the output of the matching unit is connected to the first input of element 19 OR 1 through a chain of successively connected coincidence element 15, trigger 12, element. OR 17, in addition, the output of coincidence element 15 is connected to the second input of the OR element 17 and through an inverter 21 to another installation input of the trigger 12, to the second input of the OR element 19 connected to the output of block 1 coincidence neither through a chain of successively connected coincidence element 16, trigger 14, element OR 15, differentiation circuit 20 and trigger 13, the output of coincidence element 16 is connected to the second input of OR element 18 and through inverter 22 to another adjusting input of trigger 14 16 and 15 are connected to the input of the selector, and the other installation input of the trigger 13 is connected to the output of the counting trigger 9. through the differentiating circuit 10. The selector works as follows. The pulse sequence at the input CBJieKTOpa is converted by the counting trigger 9 into a sequence of pulses whose duration is equal to the following pulse sequence of the input pulses. the input pulse arrives at the counter’s initial state selection block 8. At the output of this block, a pulse appears the leading edge of the input pulse. With this pulse, the counter 6 is reset. When the counter 6 is filled, a pulse appears at its output, which is fed to the gate driver 7. The gate pulse former 7 is the decoder cell of one of the consecutive counter states and therefore, at its output, a strobe pulse forms, the duration of which is equal to the period of the clock generator. When the gating pulse and the pulse corresponding to the trailing edge of the pulse of the converted pulse sequence formed by the inverter 3 and the differentiating circuit 2 coincide, a pulse appears at the output of the matching unit 1, the duration of which is determined by the constant differentiating circuit 2. When the initial state of the counter 6 changes, the gating pulse moves with time, which makes it possible to record different pulse periods. Thus, the inputs from the pulse sequence extraction unit 11 receive signals from the output of the matching unit 1, the signal from the output of the differentiating circuit 10 and the input signal. The selection of the pulse sequence, taking into account the specific performance of block 11, is as follows. From the output of block 1, the pulse through element 17 OR goes to the setup input of trigger 12 and sets it in the inverse state in which it is held until there is a setting potential on this input of trigger 12 that comes from the output of coincidence element 15 through the element OR 17 only if at one input of the element 15 coincidence of the resolving potential from the inverse output of the trigger 12, and on the other - the input impulse,: ca. After the end of the input pulse, the trigger 12 through the inverter 21 is reset, which allows you to select a portion of the pulses of the input pulse sequence (see Fig. 2). In addition, the pulse from the output of the coincidence unit 1 is fed to the setup input of the trigger 13, which is set to the inverse state, and the trigger 13 is set to the initial state by a pulse from the differentiating circuit 10, which differentiates the leading edge of the pulse of the transformed pulse sequence. A pulse from the differentiating circuit 20, which differentiates the voltage drop when the flip-flop 13 is set to the initial state, through the OR 18 element arrives at the setup input of the flip-flop 14 and sets it in the inverse state, in which it is held until the trigger is present the establishing potential, which comes from the output of the element 16 coincidence, through the element OR 18 only if there is at one input of the element 16 a coincidence of the resolving potential from the reverse output of the trigger 14, and at the other input is the input pulse, after the end of which the trigger 14 through the inverter 22 is set to the initial state, which allows to separate part of the pulses of the input pulse sequence (see Fig. 2), which are fed to the input of the combining element OR 19, to another input A dedicated portion of the input pulse sequence is allocated by the matching element 15. At the output of the element OR 19, which is the output of block 11, is the selection of a pulse sequence with a specified follow-up period, excluding the first period. The selection of the counting trigger, the second differentiating circuit, and the pulse sequence selection unit greatly expands the functionality and application area of the selector, namely, it allows the selection of the desired signal against a background of a random stream of pulses. Claims of the invention Pulse selector according to ggs. her. No. 545076, characterized in that, in order to isolate pulse sequences with a predetermined follow-up period, a counting trigger is inserted into it, connected between the selector input and the control valve, the second differentiating circuit and the pulse sequence extraction block, to the first input of which through the second differential circuit the circuit is connected to the output of the counting trigger, to the second input is the input of the selector, and to the third input is the output of the matching block. -1 rm ppppplllg igi 1-P. IDL Jl l to to L I Q P P A