SU382104A1 - • COMMUNITY - Google Patents

Description

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The invention relates to analog computing and can be used in simulators and for calculating power functions.

Devices for raising voltage to analog voltages are known, comprising integrators, a null organ, keys and a peak detector in which the input voltage is compared to the linear sweep, and the result of the raising to the power is measured by the voltage of the power sweep and recorded by the peak detector.

The disadvantage of these devices is the increased complexity and low accuracy of operation at high exponents, due to the presence of integrators, the number of which is equal to the exponent.

The purpose of the invention is to simplify the device for walling and increase the accuracy of the calculation.

This goal is achieved by applying a scaling circuit with a scaling factor equal to the exponent whose input is connected to the output of a pulp-organ made according to a single-regenerative circuit.

The drawing shows the block diagram of the proposed device containing integrators / and 2, keys 3 n 4, null-orgai 5, scaling circuit 6, inverter 7 and peak detector 8.

The output of the scaling circuit 6 through the key 4, which sets the initial voltage on

the first integrator is connected to the input of the integrator 1, which forms the voltage of the linear-descending sweep. The slope of this sweep is determined by the difference in and the constant imbalance and exposure,

but it should be raised to a degree. The output of the integrator / through the inverter 7 is connected to a peak detector 8, fixing the result of the exponentiation. At the same time, the integrator output / via key 3 is connected

with the input of the integrator 2, which forms the tension of the linearly-falling sweep. The slope of the sweep of the second integrator is determined by the indicated-h above constant voltage. Key 3 is connected to the zero-body, one

of the inputs of which is connected to the output of integrator 2, and the second to the source of constant voltage. This key sets the initial voltage at the output of the integrator 2 to the output voltage of the integrator /.

At the initial moment of time, the voltage at the outputs of the integrators 1 and 2 is zero, the keys 3 and 4 are closed, the zero-body 5 is in self-oscillation mode, forming pulses

with its own period, which is received at the input of the scaling circuit 6 with a conversion factor equal to the exponent. At the moment of time, which determines the start of work, an impulse appears on the output of the scaling circuit 6, which opens the key 4, 5 and the capacitor of the integrator V is charged before the reference voltage. At this moment, the key 3 is opened, the capacity of the integrator 2 is charged before the output voltage of the integrator 1, the null-organ 5 goes to the standby mode, and a sweep voltage is formed at the outputs of the integrators. The slope of the sweep voltage at the integrator's outlet, e, is determined by the difference of the input and reference voltages, and the steepness of the sweep at the output 15 of the integrator 2 is the reference voltage. At the moment of comparing the output voltage of the integrator 2 with the reference at the output of the nullorgan 5, a pulse appears that opens the key 3, and the impedance of the integrator 2 is charged to a voltage equal to the output voltage of the first integrator, after which form a linear sweep at the output of integrator 2, and the comparison process is repeated. In this case, each time at the moment of comparison, a pulse is formed, arriving at the conversion circuit 6, the pulse from the output of which controls key 4 and repeats the sweep voltage shaping cycle by the first integrator. Subject of the Invention A device for exponentiation comprising a first and a second integrator interconnected via a key, a null organ whose inputs are connected to the output of the second integrator and a source of reference voltage, as well as an inverter and a peak detector connected in series and connected to the output The first integrator, characterized in that, in order to improve the accuracy of work, it contains a scaling circuit and a second key, the scaling circuit input; l is connected to the zero-body output, and the output through the second key Dinen with the entrance of the first integrator.

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