SU1569953A1 - Impedance simulator - Google Patents

Abstract

This invention relates to a measurement technique and can be used in active filters. The aim of the invention is to expand the range of simulated impedances and reduce the loss resistance. The impedance simulator contains operational amplifiers (OA) 1 and 2, resistors 3 - 7. The impedance simulator allows you to simulate input resistances that are inductive, capacitive and active. The nature of the input impedance depends on which resistors are located in the feedback circuits of the OA 1 and 2. In case the resistances of the resistors 3, 5, 6 and 7 are active, and the capacitor is used as the resistor 4, then the input resistance The impedance simulator will be inductive. In case resistances of resistors 3, 4, 6 and 7 are active and resistor 5 is capacitive, then the input resistance of the simulator will have a capacitive character. The quality factor of the impedance simulator is determined only by the frequency properties of the op amps 1 and 2 and the presence of parasitic capacitances. Resistor 3 does not affect the quality of the simulated inductance. 1 il.

Description

The invention relates to measuring equipment and can be used in active filters to simulate the inductance of a capacitance and negative resistance.

The purpose of the invention is the expansion of the range of simulated impedances and reduction of loss resistance.

The drawing shows a circuit diagram of an impedance simulator.

The impedance simulator contains the first 1 and second 2 operational amplifiers, the first - fifth resistors 3-7.

The impedance simulator works as follows.

The second operational amplifier with feedback circuits represents 20 ‘does not affect the quality factor of the simulated inductance ^

To simulate the capacitive input resistance, it is necessary to select the first 3, second 4, fourth 6 and fifth 7 resistors purely active, and the third resistor 5 capacitive, then ’C ^ RyR-f / R ^ Rg. ......

By varying the values of the values of the active resistors, you can get the effect of multiplying the input capacitance C _₽x .

For example, for R ₃ ? T R _y = Rg = R _T = 100 kOhm, Z4 = 1 / pC ^ = I μF> 5 Lbx »C ₄ R ⁴ = ΙΟ ⁴ Γη, and for R _s « R ₇ = kR ₆ = kR *, to C _6X = k “C _s , and for k = 100, C _s = 0.01. μF, C _6X = 100 μF.

The use of the proposed simulator 20 impedance in active filter simulator negative resistance equal to:

Z7

Ζ _α = - Ζ ₄

It is assumed that the operational amplifiers are used dos tatochno high gain, then the input impedance simulator simulated impedance is given by ^Ζ δχ ζ _{6 4} · ζ

The impedance simulator allows you to simulate input impedances that are inductive, capacitive ?: bone and active.

max allows the use of ratings of a significantly smaller value.

Claims (1)

The claims 25 The impedance simulator ^ containing the first and second operational amplifiers, the first, second and third resistors, the output of the first operational amplifier30 is the first input of the impedance simulator, the second input of which is the first output of the first resistor, the second output of which is connected to a common 35 bus, between the outputs The first and second operational amplifiers, including the nature of the input impedance, simulated by the impedance simulator, depend on which resistors will be in the reverse circuits. ligatures of the first 1 and second 2 operational amplifiers. So, if as the resistance of the first 3, third 5, fourth 6 and fifth 7 resistors, we choose purely active resistors, and use a capacitor as the second resistor 4, then the input resistance of the impedance simulator is purely inductive and equal R? · Rj? · Rt_ _ Λβχ ~ H ’ The quality factor of the impedance simulator is determined only by the frequency properties of the used | operational amplifiers and the presence of parasitic capacitors, the first resistors are connected in series to the second and third resistors, the connection point of which is connected to the inverting input of the second operational amplifier, characterized in that, in order to expand the range of simulated impedances and reduce loss resistance, the fourth and fifth resistors are introduced , the first terminal of the fourth resistor is connected to a common bus, and the second terminal is connected to the first terminal of the fifth resistor and with the non-inverting input of the second opera ion amplifier whose output is connected to the second terminal of the fifth resistor, the second terminal of the first resistor connected to the inverting input of the first operational amplifier, the inverting input of which is connected to the inverting input of the second operational amplifier.