SU1109887A1 - Inductor simulator - Google Patents

Abstract

An inductance simulator with two common bus terminals, containing an n-stage voltage to current converter with balanced inputs, covered by two common negative feedback circuits, and a capacitor -. A local negative feedback circuit of one of the cascades of the p-cascade voltage-current converter.

Description

The invention relates to electrical and radio engineering and can be used in filters made on the basis of inductance simulators.

A well-known inductance simulator 5 with two clamps isolated from a common bus, comprising an / ^ - cascade voltage-to-current converter with symmetrical inputs and a capacitor £ 1]. ^{0

However, the indicated inductance simulator is relatively complex and has a low quality factor of the simulated inductance due to capacitor shunting by resistors connected to its conclusions. ’

Closest to the invention is an inductance simulator with two outputs isolated from the common bus, containing an η-cascade pre-20 voltage-to-current converter with symmetrical inputs, covered by two common negative feedback circuits, and a capacitor connected between the output of one of the ια- cascades kas-25 frame voltage-to-current converter and common bus C21.

However, the known inductance simulator has a relatively low quality factor of the simulated inductance due to capacitor shunting by resistors connected to its terminals.

The purpose of the invention is to increase the quality factor of a simulated inductance.

This goal is achieved by the fact that in the simulator inductance with two isolated from the common -. us pin containing ₄ l θ-stage voltage converter into a current with symmetrical inputs covered by two chains overall negative feedback, and a capacitor, the latter included clutching local nega- ₄₅ negative-feedback of a cascade and -kaskadnogo voltage to current converter.

The drawing shows a principal electrical circuit of the device.

The inductance simulator contains two terminals 1 and 2, isolated from the common bus, an η-cascade voltage-to-current converter 3 with symmetrical inputs, made on operational amplifiers, two resistors 4 and 5, which form the common negative feedback circuit, and a capacitor 6, ' included in the local negative feedback circuit.

The inductance simulator works as follows.

The currents in resistors 4 and 5 are proportional to the voltage at pins 1 and 2 and are phase shifted by 180 °, since there is a voltage inverter on the path to creating current through resistor 4. The indicated currents can be made equal in absolute value by adjusting the resistance value of the resistor at the input of the last stage of the / cascade voltage-to-current converter with symmetrical inputs. If we neglect the leakage of current through the resistors that are connected to pins 1 and 2, and the resistance values of these resistors are much larger than the others, then the current included in terminal 1 will be equal in magnitude to the current output from terminal 2. Thus, conclusions 1 and 2 form a two-terminal, isolated from the common bus, the current of which is proportional to the voltage at its terminals with a proportionality coefficient that is inductive in nature, i.e. on pins 1 and 2, the inductance is simulated with pins isolated from the common bus and with a quality factor equal to the quality factor of capacitor 6, since in this case the shunt device of the resistors connected to the capacitor terminals is reduced due to the operation of the operational amplifier.

Thus, the specified connection of the capacitor with resistors and an operational amplifier led to an increase in the quality factor of the simulated inductance, which distinguishes the proposed device from the known one.

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ShSh ’’ Patent Branch, Uzhgorod, 4, Projectnaya Str.

Claims (1)

Inductance simulator with two outputs isolated from the common bus, containing a p-cascade voltage to current converter with balanced inputs, covered by two common negative feedback circuits, and a capacitor, characterized in that, in order to increase the quality factor of the simulated inductance, the capacitor is connected to the local negative feedback of one of the stages of the η-cascade voltage-to-current converter.