SU987809A1 - Pulse monitoring device - Google Patents

Description

(54) DEVICE FOR PULSE CONTROL

one

The invention relates to a pulse technique and is intended to control the temporal position of the pulses.

A device for detecting a loss of a pulse, containing two delay lines, two triggers, two AND elements, an OR element, a counter and a decoder, determines the pulse of a pulse and the presence of spurious pulses in a controlled sequence, and also generates a CKD signal at the output upon reaching a given distortion probability. controlled pulses f l3

The disadvantage of this device is complexity, since the reference and clock sequences are used for control.

The closest to 1

is a device for controlling NMg pulses, containing an operational amplifier, the first input of which is connected through a capacitor to the common piping, the second input is connected to the output of a resistor divider connected in parallel to the busbars of the power supply and the input. connected via a reset to a parallel input of a key connected in parallel to one resistor of the splitter tf connected to the common bus through a diode f2J.

The disadvantage of the known device is that, with no l / h, it isn’t enough pulses to pass on (there is a gap between the number of missed pulses and chiolo).

The purpose of the invention is the expansion of functionality.

Claims (2)

This goal is achieved by the fact that in the device for charger pulses, containing an operational device, the first input is (koahx) along the waveform. A capacitor is connected to the common busbar, a second input is connected to the output of a resistor divider connected in parallel with the power source, and the output is connected via a resistor to the control input of a switch connected to one resistor. Shvtegtel and the connected control input to the common bus through a diode, two pulse shapers, a waiting multivibrator, a BANNER element, two OR elements are introduced, and the output of the operational amplifier is connected through sequentially connected the first driver of the pulses, the waiting multiplier and the second 11 pulse generator. input the first element. OR, the output of which is connected to the first input of the one imitational amplifier, and the first input of the first element OR is connected to the input signal bus and the forbidding input of the element that inverted, the outputs of shapers are connected to inputs of the second OR gate whose output is connected to the inverted input element V.YHOD podkl5rchen which the bus output signals. FIG. 1 shows the CTi device circuit; in fig. 2 - time diagram of the device. The device for controlling pulses contains an operational amplifier 1, the first input of which is connected directly to the output of the first element OR 2 and through a capacitor 3 to the common bus, the second input is connected through a resistor divider made on resistors 4-6 ,. The power supply buses are E, E, and the output is connected via a resistor 7 to the control input of the key 8. The first element OR 2 is executed on the transistor 9 connected to the thickness of the input signals, while the resistor is turned on to the collector circuit of the transistor 9. torus 11. The output of the operational amplifier is connected to the input of the first driver of 12 pulses, and the output of the second driver of 13 pulses and the input of the standby 1X) multivibrator 14 are connected to the input BTOpoiX of the element OR 15, the output connected to the input of the element BANNER 16, the output of which is connected 17 output signals fishing The base transistor 9 is connected to the inputs of the first element OR 2 through resistors 18 and 19. The pulses of the controlled sequence (plot a) open the transistor 9 of the element OR 2 for a time fc which is chosen so as to discharge the capacitor 3, the constant charge dcr. C is chosen so that the voltage across the capacitor U c during the pulse period Tj is less than the pickup voltage U of the comparator on the operational amplifier 1, as determined by the casing on the resistors 4-6 (plot). If there is no pulse skip, then the output of the ampl < l has a negative saturation voltage with which the switch 8 is locked. When the pulse is passed, the capacitor charges to the level. When the voltages at the inputs of the amplifier are equal, the switch 8 of the shunt resistor 6 starts to unlock. This leads to a decrease in the voltage on the inverting input of the amplifier, the output voltage of which increases abruptly to a positive saturation voltage. Positive feedback acting through the resistor 7 and. Key B provides a high steepness of the output voltage drop (plot -c) to the driver 12, which generates a positive impulse that triggers the waiting multivibrator 14 (plot Z). The duration of the output pulse of the multivibrator is chosen to be T .. - hLo 1 where l. I is the time for which the capacitor is. is charged from the Uc level to the Ug level (plot e} - For a given front of this pulse, the shaper 13 generates a pulse (plot e) arriving at the second input of the element OR 2. Resistors 11, 18 and 19 and the transistor 9 form a resistor-transistor two-input element IL1., Which is closed when there are no pulses on both inputs. For the second pass of the input pulse, transistor 9 opens with a pulse through resistor 18, capacitor 3 is discharged through transistor 9. If only one input pulse is passed, then the pulses I’m meshing at both inputs of an OR element. Thus, with a group pass, the capacitor is discharged through transistor 9 at the times when the even missed pulses were to arrive. B. The time points when the odd missed pulses were to go, the capacitor would charge. the pulse of the multivibrator must be less than the instability of the period of the monitored pulses. To determine the number of missed pulses And the output pulses of the formers 12 and 13 are fed to the inputs of the elements and OR 15, the output of which pulses are generated whose number UT1-n, and if - even and one odd if tn- (epyuryZh). To eliminate one extra pulse at odd and odd, the pulses from the OR output are passed through the BAN 16 element to the prohibitory input of which they are injected. When the coincidence of the first input pulse after the skip with the output pulse of the imaging unit 13, the BANNER element blocks it (,). To increase the reliability of blocking, the duration of the input pulses fc ,. must be longer than the duration; pulse generator 13. Pulses from the output of the OR element, which do not coincide with the input pulses, are passed to the output of the device. When the input pulses stop flowing or are absent after the power is turned on, the control device generates pulses from the frequency. When receiving controlled pulses, the generation mode stops, since the first input pulse discharges the capacitor, and the subsequent ones synchronize the process of discharge and charge, and the voltage across the capacitor does not reach the trigger threshold Ug and the pulses not output devices. Thus, the introduction of a multivibrator, the elements OR and BANCH in the device for controlling the form-petipates of the multivibrator, allows you to determine the number of alternate pulses in a controlled sequence ,. Claims Device for controlling pulses,. containing an operational amplifier, the first input of which is connected via a capacitor to the common bus, the second one, the input connected to the output of the resistor divides In a connected bus control input to a common bus through a diode, characterized in that, in order to extend the functionality, two pulse shapers, a waiting multivibrator, an ELECTOR BAN, va OR gate, the output op prnch rashkmn Nogo amplifier is connected via WFFL & the first pulse generator, the waiting multivibrator and the second pulse generator, are connected to the second input of the first element OR, the output is connected to the first input of the operational amplifier and the first input of the first element OR is connected to the input signal of the BANNER element, while the outputs The drivers are connected to the inputs of the second OR element, the output of which is connected to the input of the BANNER element, the output of which is connected to the bus of the output signals. Sources of information accepted in attendees during the examination 1. USSR author's certificate No. 515271, class, N OZ K 5/19, 24.12,74. 2. USSR author's certificate number 744957, cl. N OZ K 5/19, 07.12.78. ig.1 WITH h 5