SU884094A1 - Pulse train generator - Google Patents

Description

(54) PULSE SERIES GENERATOR

The invention relates to a pulse technique, more precisely to a series of pulse generators, and can be used in various automation and computing devices. Devices for forming a series of pulses are known, which comprise a continuous generator of a continuous sequence of pulses and a system for linking pulses to a control signal of a temporary gate fl. However, the time gate scheme is co. Holds the trigger chip, which complicates the device. In addition, the device does not provide the formation of two series of pulses, which is necessary, for example, to control double shift registers; it cannot reliably generate one output pulse in response to a short input (one-shot mode), for example, to control the shift register to start -stop mode. The indicated drawbacks of the device are due to the fact that, during the operation, an indefinite delay of the pulses of a separate unsynchronized generator with respect to the control signal places the place. The closest technical solution to the invention is a device containing an AND-NES element and a delay circuit connected between the output on one of the inputs of the NAND element, the other input of which is connected to the source of control signals. The device contains the minimum number of elements, since it lacks the scheme of temporary gate 2. However, the device has the following drawbacks. The last impulse of the series is not formed integer in duration, since the generation stops immediately, as soon as the control input receives a signal corresponding to a logical O. For the same reason, the device cannot operate in the single-pulse mode, it is sensitive to impulse noise on the control signal. the entrance. the operating conditions of subsequent devices, for example dynamic shift registers, for which the duration of a clock pulse must be not less than a certain value, may be violated. Sensitivity to interference reduces the reliability of the device, and its limited functionality prevents it from being used as a unified node. The purpose of the invention is to form a whole number of pulses, reduce the influence of interference and expand the functionality of the generator. The goal is achieved by the fact that a pulse train containing an NAND element and a delay element that is connected between the output and into the pulse generator. one of the inputs of the NAND element, the second NAND element, is entered, one input is connected to the source of control signals, the other is connected to the output of the first NAND element, and the code is connected to the Other input of the first NAND element. In FIG. 1 shows a functional diagram of the proposed generator; FIG. 2 - diagrams of signals (a,) c to d) at the corresponding inputs and outputs of the device (impulse noise shown by dashed lines) The generator contains two AND 1 and 2 elements, delay 3 element. The input 4 of element 1 is connected to the control source signals (not shown), the other input of element 1 is connected to the output 5 of element 2. The output from element 1 is connected to one of the inputs of element 2, between the other input, which is connected to the output of the delay element 3. Output 5 of element 2 and the output from element 3 is generator numbers. The generator works in two modes. The first mode of generation of a series of pulses, i.e., two or more pulses, the second one-shot mode, i.e. the mode of forming one pulse of a certain duration in response to an input pulse. The first mode is carried out when the duration of the control signal exceeds 2 X, where C is the duration of the output pulses, determined by the parameters of element 3. The second mode is carried out when the duration of the input pulse lies within O - 2 C. The operating mode of the generator determines. the duration of the input signals. The names of the Control signal and the Input impulse are equivalent, but each of them corresponds more closely to the first or second of these modes. The generator works as follows. In the initial state, when the logical input 1 signal is sent to the control input 4, the logical output signal 0 is output from the element 1, blocking the feedback action performed by the element 3, the logical output 1 is also present at the outputs of the elements 2 and 3. A logical 1 signal appears at the control input of the logic O at the output of element 1. This signal does not interfere with the action of the specified feedback, and elements 2 and 3 switch to the generation mode. In this case, the pulses at the output of element 3 lag half the period with respect to the pulses at the output of element 2. The generation process continues for as long as the logical input is acted upon by a logical O signal. formed, i.e., at the output of element 2, the logical O signal is still stored, then the latch formed by the ring circuit of elements 1 and 2 will not work. The latch will work only when the last impulse of the series is fully formed, i.e., the output of element 3 is Wits 1. If the control signal terminates after the post-final pulse is fully formed, the latch triggers immediately pulse series at the output of element 3. Since the generation does not stop, if the action of the control signal ends in the gap between the fronts of the output pulse of element 2, it is possible to operate the generator in one-shot mode. The effect of impulse noise with signal levels corresponding to logical 1 and duration less than tr is considerably weakened, since in the generation mode either at the input of element 1 or at the input of element 2 there are blocking signals of logic O received respectively from the outputs of element 2 or element 3. Thus, the introduction of an additional IS-NOT element allows the formation of an ICh1-one series pulse by an integer in duration, reduces the effect of 58840 interference and extends the functionality of the generator, which provides possibility of its application in many devices of automation and computer engineering as uniform timing device.

Claims (2)

1. USSR author's certificate number 514423, cl. H 03 K 3/64, 1976, 2.Prnbsfy and experimental technique, M., Science, 1978, No. 2, p. 99 (prototype). ffe.f fug. g 94 influences interference and expansion of functional functions, the second IS-NOT element is added to it, one input is connected to a source of typing signals, the other is connected to the output of the first IS-NOT element, and the output is connected to another input of the first AND- element NOT,