SU1038939A1 - Logarithmic converter - Google Patents

Abstract

LOGARIFFIC TRANSMITTER containing a km-pulse generator, the output of which is connected to the formation input of the control unit, the control input of which is connected to the input of the converter, and the output connected to the input of the frequency divider, the input of the counter connected to the output of the switch, the information inputs of which are connected to the outputs a frequency divider, the output of the first pulse driver is connected to the input of the driver of the commutator code, the output of which is connected to the control input of the switch, characterized in that To increase the conversion accuracy, a second pulse driver, a counter code generator and a counting driver with a controlled conversion factor are entered into it, the information input of which is connected to the switch output, the counter output is under (L K1iochen to the input of the first pulse driver through serially connected second pulse shaper and the counter code generator to the control input of the counter with control 1M conversion factor, the output of which is connected to the output of the converter. oo oo with so with

Description

The invention relates to an experimental technique and may be used by the OLS of the transarithmic transformation in the measurement and recording of long-term decaying processes. A device for calculating logarithms of numbers is known, which contains two counters, a switch, a register, a trigger AND-NOT elements, AND elements and an element, or OR Cl. A disadvantage of this device is the low accuracy of the calculation of the logarithmic function; The closest to the proposed one is a logarithmic time converter, the conversion equation of which has the vicos eo (| - () BN, (1) where t is the time for the mastering} B is the constant of the converter and N is the total number of output pulses from the moment -t 0 containing a frequency divider, a switch, a counter no. To a control unit. In addition, the device contains a decoder, and the control unit consists of a single vibrator and AND and OR C2 elements. since it systematically fixes the integer part of the logarithm, and in the time interval of the fractional: part it performs a linear transformation. As a result, the absolute methodical conversion error in the time intervals corresponding to the fractional part of the logarithm (, jt) i is determined in UShars, the amount of fma is relative. l .-. (g, a- f cn "is, for example, at AND 20.084 at 0 40.169 and with c 10b, 239. Coagulatively maximum methodical error with a logarithmable value (L %), discount rate from by wearing. 4 ° / o (), (), is 5.66%, 20.89% and 46.17%. The purpose of the invention is to improve the accuracy of the logarithmic transformation. The goal is achieved by the fact that in a logarithmic converter contains a pulse generator, the output of which is connected to the information, control unit, the control input of which is connected to. The converter is connected, and the output is connected to the input of the frequency divider, the input of the C4etw switch is connected to the output of the switch, the information inputs of which are coupled to the outputs of the frequency splitter, the output of the first driver impulse is connected to the input of the switch code generator, the output of which is connected to the switch control input , a second pulse shaper, a counter code driver and a counter with a controlled conversion factor are entered, the information input of which is connected to the switch output, the output of the counter is adapted to the code the first driver through the second pulse driver, and the counter code driver, to the control input of the counter with a controlled conversion factor, the output of which is connected to the output of the converter. The drawing shows a block diagram of the logarithmic P15deformed. Logari ({a "1st converter contains 1 pulses generator control unit 2, frequency divider 3, switch 4, counter 5, first pulse generator 6, switch code generator 7, built-in pulse generator 8, counter code generator 9, the conversion factor. The first pulse shaper 6 can, for example, be performed in the same number of the counter and two NAND units 2. The second pulse shaper 8 can be performed, for example, in, de and the NAND element 2, Exit counter 10 with controlled coe The recalculation factor is you, the logarithmic converter running. The logarithmic converter works as follows. On the leading edge of the input pulse (the duration of which is analogue of the logarithmic value, control unit 2 sets the converter to the initial state and at time point -t Q, corresponding to the beginning of the first conversion cycle, permits the passage of generator 1 pulses to the input of a 3 frequency divider, from the outputs of which is a set of frequencies with ratios a, where m is the number of outputs and the frequency divider 3 is supplied to kommutatora4 inputs. Ishotsk shorts of the switch coder and switch 9 of the counter generator determine, respectively, passing through the switch 4 of the first, highest frequency, and the state of the counter 10, at which its conversion factor is 2.Q. From the output of switch 4, they go to the input of counter 5, from which the pulses of a lower frequency arrive at the inputs of the first shaper b and the second shaper of 8 pulses. The first pulse shaper 6 generates a counting pulse at the input that separates the time interval 0 ao from the logarithms (c (during which the second driver forms 8 pulses at times I о (n-1; where В is 0.1, 2, 3... (H generates pulses, partitioning the time interval a (o (- 1) into p p. Fractions). These pulses cause successive changes in the state of the generator 9 of the counter code, causing the conversion factors of the counter 10 to be set equal to n + c ( -1 ×, .. o P ,. n (Vt) (o--) (o (1) At the time of the transfer of the counter 9 of the counter code to The cue corresponding to b "n, the counting pulse of the integer part of the logarithm sets the shaper 9 and the counter 5 to the initial state, and simultaneously, through the switch code shaper 7, switches the frequency 2 to the switch 4 output. Then the device operation cycles are repeated, as a result successive changes in the state of the switch 4, in the time interval with "/ o" the conversion factor takes the values p () (a-). ° (.) Equalizing the conversion of devices at a pulse generator frequency of 1 is: where Nf is the total number of pulses per l, the output of the logarithmic generator during the logarithm ±; A is the time between the leading edge of the input pulse — an analogue of a logable quantity and the beginning of logarithm. A is the base of the logarithms by which vertex i is normalized. f is the frequency at the output of the counter 10 with the right recalculation coefficient, given by the percentage of the variable interval (a - 1 for, 4 is the current methodical change, no. On the falling edge of the input pulse, the control unit 2 prohibits the passage of the pulses from the generator 1 to What is the frequency divider 3. In this process the logarithmic conversion of the time interval of the analogue of the logarithmic value is completed. "i In the case of presentation of the logarithm & my value by a sequence of time intervals, its logarithmic When the theoretical accuracy of the recalculation coefficients is observed, the maximum absolute metric error of the transformation in the time interval corresponding to the fractional part of the logarithm, defined in units of the logarithm by the relation TZ i) en (i.) / moix gnoi for example, for p 10, with "2 corresponds to O, OO163, with a 4, O, 00620, and with 0 10 0, O2224. Accordingly, the maximum relative methodological error in a logarithmable value, determined by the ratio (3), is 0.113%, 0.856% and 4.992%. With respect to the prototype, the logarithmic converter allows to reduce the methodological absolute noj resolution in LogoAm units at about 1 to 51 times, at "4 to 27 times and at" 10 to 12 times.

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Claims (1)

A LOGARITHMIC CONVERTER containing a pulse generator, the output of which is connected to the information input of the control unit, the control input of which is connected to the input of the converter, and the output is connected to the input of the frequency healer, the counter input is connected to the output of the switch, the information inputs of which are connected to the outputs of the frequency healer, output the first pulse shaper is connected to the input of the switch code shaper, the output of which is connected to the control input of the switch, characterized in that, with a boost circuit conversion accuracy, a second pulse shaper, a shaper * of the counter code and a counter with a controlled conversion factor are introduced into it, the information input of which is connected to the output of the switch, the output of the counter is connected to the input of the first pulse shaper through the second pulse shaper and the shaper of the counter code connected in series to the control the counter input with a controlled conversion factor, the output of which is connected to the converter output. o <e SU ,,. yuz 00 SS 05 ς ©>