SU873395A1 - Device for forming pulses - Google Patents

Description

(54) DEVICE FOR THE FORMATION OF PULSES

Claims (2)

The invention relates to a pulse technique, mainly to the formation of pulses. A generator of normalized pulses is known, consisting of a circuit with one stable state, connected to a key of a reference frequency generator, a trigger with a counting input, a coincidence circuit, a counter AND a decoder, and the reference frequency generator is connected to one of the inputs of a coincident circuit |, the other input of which is connected to the output of the circuit with one steady state and the installation input of the pulse number counter, which is connected to the electronic key 1 via the decoder. The disadvantage of this device is Accurate depth and low pulse shaping, since the fronts of the shaping pulses are associated with the moments of coincidence of the pulses of the SPEED frequency, which are not connected with each other, therefore, the duration of the generated pulses can differ from one another by 1 - 2 pulse durations of the reference frequency, which sharply reduces the metrological parameters of the device as a whole, and this prevents its use in precision measuring instruments, for example, in high-end analog frequency meters precision, frequency-voltage (current) converters. Closest to the present invention is a device for delaying rectangular and wires, which contains a reference frequency generator ,. valves, CB circuit, fororushl trigger, reversible counter, zero, differentiating circuit, pulse-edge delay circuit (2}. This device provides output pulses with a delay varying in {wide limits, and the duration of the output pulses repeats the duration of the input pulses the accuracy of the reference frequency generator. However, the accuracy of the formation of the iShuli in this device depends on the timing of the signals of the input Ashuls and the reference frequency generator, then it introduces an element of randomness, The differentiation circuit, which greatly reduces the noise immunity of the system, makes it difficult to apply it under industrial operation conditions. The aim of the invention is to improve the noise immunity and reliability of the device while simultaneously receiving output pulses with a stable duration over a wide range of input frequency variations. because the device for forming pulses, containing a reference frequency generator, the output of which is connected to the inputs of the first and second Pieces whose outputs through the third and fourth valves are connected respectively to the summing and subtracting inputs of a reversible counter, the output of which is connected to the zero decoder, a trigger, the overflow decoder and the duration switch are entered, the counting input of the trigger is connected to the input pulse source, the trigger outputs are connected to the gential inputs of the first and second valves, the inputs of the overflow decoder and the switching of duration bodies are connected to the outputs of the reversible counter, the output of the deashfrator Completion is connected to the potential input of the third valve, the output of the zero decoder is connected to the potential input of the fourth; valve. FIG. 1 schematically shows a block diagram of the device; in fig. 2 cyclogram of the device. The device contains a reference frequency generator 1, a trigger 2, gates 3-6, a reversible counter 7, an overflow decoder 8, a zero decoder 9 and a duration switch 10. The operation of the device is barely blowing. Before the arrival of the 2nd impulse pulse, trigger 2 is in state O maintaining the permissive potential at the input of the valve 5, which facilitates the arrival of pulses from generator 1 to the subtracting input of the reversible counter 7 until it is completely cleared, after which the inhibitory potential is applied from the output of the 9 to the input of the valve 6, and the further flow of pulses into the reversible counter 7 is stopped. After the arrival of the 2 ″. Pulse, three ger 2 passes to the state, stopping the inhibitory potential at the input of the valve 5 and allowing the potential at the entrance of the valve 3, which transmits pulses from the generator 1 to the summing input of the reversing counter 7 until it is completely filled which, from the output of the overflow decoder 8, the inhibitory potential is applied to the input of the valve 4. After the (2p + 1) -th pulse arrives, the trigger 2 overturns and clears counter 7 again. During the forward and reverse periods of the counter 7, exits forms with pulse sequence. Using the duration switch 10, it is possible from the pulse sequences from the discharge outputs of counter 7 to select the required pulse by duration, not using the arrival time of the first and gray impulses, from the incoming input of the counter 7 for kg each counting period. For example, using the disjunction of sequences from the second and third outputs of counter 7 shown in the sequence diagram, the output of switch 10 is a pulse of a strictly constant duration of 6 Te, where Tj is the period of the generator pulses. Thus, each input pulse of arbitrary duration corresponds to an output pulse of calibrated duration. The presence of such a device allows to obtain high quality frequency conversion to voltage or current in analog frequency meters of high accuracy class. The invention is a device for generating pulses, containing a reference frequency generator, the output of which is connected to input 1 "w of the first and second valves, whose outputs through the third and fourth valves are connected respectively to the summing and subtracting inputs of a reversible counter, the output of which is connected to the decoder, zero, trigger , characterized in that, in order to improve the noise immunity and reliability of the device, while simultaneously receiving output pulses with a stable duration over a wide measuring range In the input frequency, an overflow decoder and a duration switch are entered into it, the counting trigger input is connected to the input pulse source, the trigger outputs are connected to potential inputs of the first and second valves. connected to the potential input of the third valve, the output of the zero decoder is connected to the potential input of the fourth valve. Sources of information taken into account in the examination 1. The author's certificate of the USSR 271566, cl. H 03 K 5/13, 03/27/69. 2. Avto {eskoe certificate of the USSR 453790, cl. H 03 K 5/13, 11.07.73. f ten