SU773641A1 - Logarithmic function generator - Google Patents

Description

(54) LOGARIFMIC FUNCTIONAL TRANSFORMER The invention relates to a logarithmic voltage converter in a time interval and can be used in analog computers. A logarithmic converter is known, comprising an exponential voltage generator, a comparison unit, a filter i. This device is characterized by a low KIM speed. . The closest in technical essence to the present invention is a logarithmic functional converter containing an exponential voltage generator connected in series, a comparison unit, the output of the comparison unit is the output of a logarithmic functional converter and connected to the first input of the comparator, the output of which is connected to the input of the generator A voltage source 2 is connected to the second input of the comparator. This converter has a low action due to the independence of the conversion cycle on the magnitude of the input signal. The aim of the invention is to increase speed. This goal is achieved by introducing a key element into the converter, the second input of the comparator is connected to another input of the comparison unit, the output of which is connected to the control input of the key element, the third input of the comparison unit is connected to the input of the logarithmic function through the key element. nal converter The drawing shows a functional diagram of the proposed logarithmic converter. The device contains an exponential voltage generator 1, a comparison unit 2, a comparator 3, a key element 4, a reference voltage source 5, an input 6 and an output 7. The logarithmic function converter works as follows .. When the analog voltage is applied to the input of the key element 4 and the reference voltage to the second input of the comparator 3, the comparator unit 2 is set to one, in which the output of the comparator 3 is fixed to a voltage equal to

a positive value of the source 6 of the reference voltage.

At the output of the exponential voltage generator 1, a damaging exponential voltage is formed and is fed to the input of the comparison unit 2. This voltage is compared with a voltage equal to the difference between the input and reference voltages.

At the moment of equality of the indicated voltages, the comparison unit 2 is set to the Zero state, the key element 4 is opened, and the comparator 3 is set to the state at which a voltage equal to the negative value of the voltage of the reference voltage is fixed at its output. The exponential voltage generator 1 begins to compensate. voltage equal to the difference between the input and the reference. When the voltage;: the output at its output becomes less than the negative value of the reference voltage, the comparison unit 2 is set to one, the switching element 4 is closed, and the process is repeated. In this case, at the output of the unit 2 of comparison, rectangular pulses with duration

 4N "n TlnlVsWVon), (1). Where T is the constant of the exponential voltage generator 1; the input voltage and the voltage of the source 5 of the reference voltage.

At the same time, the logarithmic functional converter has a new quality - increased speed.

Claims (2)

Invention Formula A logarithmic function converter containing a series-connected exponential voltage generator, a comparison unit, the output of the comparison unit is the output of a logarithmic function converter and connected to the first input of the comparator, the output of which is connected to the input of the exponential voltage generator, to the second input of the comparator a source of reference voltage is connected , characterized in that, in order to increase the speed, a key element is introduced into it, with the second entrance Arathor connected to another input bloQ AKA comparator, whose output is connected to the control input of the key element, the third input of the comparison unit via a key element connected to the input of the logarithmic converter function. Sources of information taken into account in the examination 1, US Patent No. 3805046, cl. 235-197, published. 1974. 2. Ovchinnikov V. G. and others. Integrating quasi-development of voltage transformer in the time interval. - Instruments and equipment experiment, No. 2, 1976, p. 80-82, fig. 1 (prototype).