SU822211A1 - Antilogarithmic converter - Google Patents

Description

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The invention relates to a signal converter electric converter according to the law inverse logarithmic. and can be used in analog computing machines.

An antilogical converter is known, containing a linear voltage generator, a comparison unit, a key element, a frequency multiplier W

However, this device is characterized by low speed.

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Closest to the present invention is an anti-log converter that contains a logarithm, the first pins of the first, second, and third keys are connected to the input, and the first pins of the fourth, fifth, and fifth pins are connected to the output. the sixth keys, the element with a controlled transmission coefficient, the first and second blocks of the pgmti, the first and second amplifiers, the source of reference voltages, the clock pulse generator, the first output of which is connected to the control inputs of the first and fourth keys, the second output is connected to the control inputs of the second and fifth keys, and the third output is connected to the control inputs of the third and sixth keys 2.

This device also has a relatively fast response.

The purpose of the invention is to increase the speed.

This goal is achieved by the fact that the seventh, eighth and ninth keys are entered into the device, and the input

0 anti-log converter through the seventh switch is connected to the input of the element with a control gear ratio, the output of which is connected to the first inputs of the first and second 5 amplifiers, the first output of the voltage source is connected to the input of the element with a controlled transfer coefficient, a control input which is connected

0 with the output of the second memory block, whose input through the ninth switch is connected to the output of the second amplifier, the second output of the fourth key is connected to the second input of the first and second amplifiers via the first memory block, the second output of the fifth key is connected to the third input of the second amplifier , the output of the first amplifier is connected to the second pin of the sixth

0 key, the second pins of the first and second keys are connected to the second and third outputs of the source of reference voltages, respectively, the second output of the third key is the output of the anti-log converter, the control inputs of the eighth and ninth keys are connected to the second output of the clock generator, the third output which is connected to the control input of the seventh key. The drawing shows a functional on the anti-log converter schema. The converter contains keys 19, a logarithmator 10, first and second blocks 11 and 12 of memory, element 13 with controlled transmission coefficient, first and second amplifiers 14 and 15, output signals C, Cj and C at the source outputs of 16 reference voltages 17 clock pulse generator, input and output 18 and 19 of anti-log converter. Antilog converter works as follows. Suppose that all keys 1–9 do not introduce errors into the signal conversion. In the first cycle of operation of the generator 17 clock pulses, keys 1 and 4 and the first output signal of the source of 16 reference voltages are entered through the key 1 to the direct input of the logarithm 10 constructed according to the scheme of a reversible functional converter. The result of the logarithmization of the signal through the key 4 is received, and the first memory block 11, made with fixing the instantaneous values of the signal. In the second cycle of the generator 17 clock pulses, the keys 2,5,8 and 9 are opened. The output signal of the source of reference voltages through the key 2 comes to the direct input of the logarithm 10, the output signal of which through the key 5 is fed to the input of the second amplifier 15. The first the output signal of the source of 16 reference voltages through the switch 8 is fed to the input of the element 13 with a controlled gain. For the second time, the automatic transmission gain control of element 13 also works. The condition is that the algebraic sum of the input signals of the second amplifier 15 "Ixeog Cj + NVlKepg Cj + NbK.c.-o, where K and N is multiplicative and additive is zero; errors of the harmonizer 10 in direct conversion; K., - transfer coefficient of the first memory block 11; К, з is the transmission coefficient of the element 13 with the control transmission coefficient; C.Cj. Cj are the first, second, and third output signals of the source 16 reference voltages. With a single transfer ratio of the first memory block 11, we get the keys 1, 17) in the third clock of the generator 17 clock pulses closed the keys 3,6 and 7, the second memory block 12 is in the storage mode and maintains at the control input of the element 13 with a controlled gain voltage, providing the condition (2). The input signal through the switch 7 is fed to the input of the element 13 with controlled transmission coefficient, the output of which is fed to the input of the first amplifier 14. The result of the logarithm of the signal in the first clock is fed to the other input of the first amplifier 14 from the output of the first memory block 11. The output of the first amplifier 14, equal to the sum of its input signals, is fed to the inverse input of the logarithm 10, the conversion result is outputted through the key 3 and is the output signal. Since the logarithm 10 in the anti-logarithm mode has the conversion function where X and y are the signals at the direct and inverse inputs of the logarithm 10, in this case yK UB vKEog C + N, (4) where the signal at the input 18 of the device taking into account expression (2) has the value the output signal of the anti-log converter II ″ g; ° -c. From this expression, it follows that the result of the transformation does not depend on the additive and multiplicative components of the error of the transformation of the logarithm 10. The proposed anti-log converter, in comparison with the known, has great speed, since it is possible to provide a mode with periodic error correction of the logarithm of the matrix 10, and correction can be significantly less than the time of conversion of the input signal, i.e. to bring the speed to the characteristics of 1m circuits without switching the input signal.

Claims (2)

1. Authors certificate of the USSR 643908, cl. G 06 G 7/24, 1977. 2. USSR author's certificate according to the application No. 2777968 / 18-24, cl. G 06 G 7/24, 05.06.79 (prototype) 18 f