SU748864A1 - Stroboscopic a-d converter - Google Patents

Description

TSShASHUAI, the analog input is connected to the synchronizer input, the first output of the reversing generator is etu net and the second input of the registration unit, the second output is connected to VHID | Shy & neivat equal to that of the divider; iepea voltage the first OR element is connected to the input of the blocking signal generator and the first input of the second OR element, the output of which is connected to the control input of the code register, and Torah input connected to the output regystraiii block, a third input coupled to an output pulse of the key element and the input signals of the divider, the first input pulse .klyuchevogo element is connected to the output of the lock signal output time delay element connected to the output of the comparator. The drawing shows a structural electrical circuit device. The device diagram contains a measurement yuYyU 1, linear analog key element 2, synchronizer 3, generator 4 sawtooth voltage, comparator 5, step voltage generator, divider 7 number of signals, measuring comparators 8, resistive equal equal step divider 9, element Y and - NOT, element 11 OR, reversible generator, ....., 1 o - - - 12 step tension with tires 13 and 14 reverse, code bus 15 and ana 14 nftnonrn 1gpplly;; And "to the den bus 16, register 17 codes, element 18 OR, element 19 of the temporary loan, formator yo s gnalaVlok Rovkov, yMpulsn1y key member 21, the registration unit 22. The device works as follows. .-. In the initial state, the inertial analog key element 2 is closed, the pulse key 21 is open. The output voltage of the Generator b is zero, the 8 output voltage of the cross-section generator 12 is equal to the conditional lower limit. , -; Measured in Comparators 8, peiipsivny generator 12 and resistive is equal to the step divider 9

Claims (2)

64 pairs Coding of discrete values of input magnitude, which are transmitted through a linear analog key element 2 to the inputs of the comparators 8 The number of divider stages is chosen in accordance with the required number of quantization levels, and the value of a single SBiaHfa is determined based on the permissible conversion error 12 In this case, the input value range is divided into a number of conditional limits, which differ from each other. In accordance with the conditional limits, the levels of the output voltage of the reversible gene & rator 12 are set. Synchronizer 3, generator 4 sawtooth, comparator 5 and generator 6 in combination with input signals to the device form a grid of strobe pulses each. . of which time is shifted relative to the neighboring by an amount equivalent to the imary time sampling of the input signal. The sampling rate is set by selecting the parameters of the sawtooth voltage of the generator 4 and the magnitude of the voltage levels of the ator gene. B. When the output voltage of the generator 6 is changed, the moment of equality of this voltage with the sawtooth voltage of generator 4 fixed by the comparator 5, with the voltage / voltage & strobe impediments are formed, with which the linear analog key -f aaa lujTJBbjH KEY ATT f ntfi - element 2 again aapyravt; For - “V - Wl. nfvmif ,, - ,,. A time slot between synchronizer signals and strobing pulses on the key element 2 imprints a part of the input, the discrete value of which is detected by the measurement comparators 8 at the time of the strobe pulse output. held in the element 19 of the strobimpulu, the redirection through the key element 1 in the block 22 of the regattachs takes place x census, in the block 22 of the registration. From the beginning of the census code cycle, the Registration 22 tree changes the value of its signal, is supplied to one of the control inputs of the linear analog key element 2, which prevents its trapping when the signal is transferred to the device for the whole census time. With the end of the census cycle, the indicated signal of block 22 again takes on the value at which the action of linear linear amplification of element 2 is resolved and when the same sypnage is changed through element 18 OR register 17 is reset to the zero state. . .If the input value exceeds the settable conditional limit, then the measuring comparator 8, connected .JK to the output of the reversible generator 12, triggers, and if the input value becomes less than the low-order code unit, none of the 8 IBw comparators will work. STfeWsHT 10 AND-NOT gives a single signal. In both cases, the reversal generator 12 switches and a voltage appears at its output in accordance with the new conditional limit of the input quantity. As the output value exceeds the established conditional limit, the coding result may be distorted, then at any switch of the reversible generator 12 by the signal of element 11 OR, the shaper 20 of the blocking signal of the pulsed key element 21 is triggered. Due to the delay of the strobe pulse in the element 19, the key element 21 is locked until a strobe pulse appears on its inlet. nal lock shaper 2O lasts until completion of the current strobe yuysa on vhodo ShgochevOgo switching element 21 and generator 12. Reversing Simultaneously with starting the signal shaper 20 OR element 11 through the second OR element 18, register 17 is reset code nulevoepop.ozhenie. Topics | “-Sfe ife4TT; fs; The transmission of the distorted code to the registration unit 22, as well as the impact of the strobe pulse on the start-up circuit of henoretor 6 through divider 7. Invention A stroboscopic analog-to-digital converter containing a bjack register, the first input of which is connected to the output of the register of the code one clamp to a common bus device, measuring comparators, the first inputs of which are interconnected in parallel, the second inputs of measuring comparators are connected to the corresponding A resistive equal-stage divider stage exists, and the outputs are connected to the registrar inputs, differing from t & l, which, in order to increase the coding accuracy of repetitive signals in the wide range of their level and frequency spectrum, serially connected synchronizer and sawtooth generator and comparator , a successively connected divider of the number of signals and a step voltage generator, a linear analogue key element, a synchronizer, an element H-NOT, a reversible genfator with a step atogo voltage series-connected time-delay element and a switching key element, the two elements. OR, the blocking signal shaper, with the output of the step voltage generator connected to the pulse input xp of the comparator, the output of the linear analog key element connected to the first inputs of the measuring comparators, and the control inputs connected to the outputs of the synchronizer, comparator and register register, and the analog input connected to the synchronizer input, the first output of the reversible step voltage generator is connected to the second input of the registration unit, the second output is connected to the cutting input g tkshogo ravnostupenchatogo divider having a first input connected to the output of the comparator at the input of the measuring ravnostupenchatogo resistive divider and a second input through NAND s.oedinen with vhodom .izmeritelnogo comparator circuit of the last stage ravnostupenchatogO resistive divider. The first and second inputs of a stepwise voltage reversible generator are connected through the first OR to the input of the blocking signal generator and the first input of the second OR element, the output of which is connected to the control input of the code register, and the second input is connected to the output of the perHCiv radio, the third input connected to the output of the pulse key element and the input of the divider number of signals, the first input of the pulse key element is connected to the output of the blocking signal generator, and the input of the time delay element is connected to Exit comparator. Sources of information taken into account during the examination 1. Volgin L. I. Measuring converters of alternating voltage to a voltage. M., Soviet Radio, 1977, 2. Galushkin, AI and others. Prompt processing of experimental information. M., Energie, 1972, p. 34-37, fig. 111.