SU397937A1 - In PTB - Google Patents

Description

one

Devices are known for simulating the active and inductive resistances of power transmission lines, containing operational amplifiers, resistors and capacitors.

The proposed device is characterized in that it contains a high-frequency stabilized alternating voltage generator, a transformer, a rectifier, a filter and an emitter follower, the output of the generator through the connected Transformer, rectifier and filter is connected to the Eitani emitter follower and in series connected. input and output operational amplifiers, a scale unit is connected between the zero potential bus and the device input, the KOTOpiOro output is connected to the output address A torus with a potentiometer connected to W, I: not a zero potential, with the emitter follower output connected to the output of the output operational amplifier via a condenser p, and the output of the potentiometer from the output terminal of the output pen: н tionalno wooi.i: the bodies through a resistor. This allows you to simplify the device and improve the accuracy of the model.

The device shown in the drawing.

The circuit contains a high-frequency stabilized; alternating voltage generator with a square wave /, transformer 2, rectifier 3, filters 4, operational amplifiers 5, 6, EM-utter follower 7, pins 8–11 tum: blera, measuring resistors, switch / 5, fixed resistors 16-20, capacitor 21, potentiometer 22, input terminals 23, 24, terminals 25, 26 for connecting a control device, a scale unit 27.

A high-frequency, stabilized, alternating-voltage alternating-voltage generator 1 with a square wave feeds a series of electronic circuits of a network model simulating resistance, connected in series with

inductance. Isolating transformers 2 are connected to the generator, the secondary windings of which through the rectifier 3 are connected to the smoothing filters 4. The rectified and smoothed voltage is applied to the operational amplifiers 5, 5 and the emitter follower 7. The common power supply buses of the amplifiers and the emitter follower are nominally marked on the drawing “+ And“ -. The model line is connected to the AC circuit through the terminals 23 and 24 and the contacts S and 9 of the toggle switch. The switch has two positions: when the clocks are closed to 1 pins 8 and 9, the line model is connected to the AC network, when contacts 10 and 11 are closed, it is

connected to the control device (on

drawing not shown) to measure its parameters.

Measuring resistors 12, switched by switch / 5, as well as resistors 13 and 14, are connected to the input clamp 23 via pin 8. Resistors 12 and switch 15 are used to select the range of variation of the artificial inductance of the model. In parallel with the resistor. 12, a variable resistor 13 and a constant resistor 14 are included. The first one is designed to smoothly adjust the artificial inductance of the circuit and preserve the quality factor of the circuit. Resistors 12-14 and switch 15 form a scale unit 27. The output of the emitter replicator 7 is connected to its output, and output resistor points 5 are summed through resistors 22 and 20. A resistor 17 is installed in the feedback circuit of the input inverting operational amplifier 6. the input of the amplifier b through the resistor 16 is given a signal of the clamp 23.

The output of amplifier 6 through a resistor 18, the output of the emitter follower 7 through a capacitor 21 is connected to the input of a powerful output operational amplifier 5 in a circuit, and the feedback of which is set to a resistor 19. The output of amplifier 5 is connected to terminals 24 through contacts 9.

Consider the operation of the circuit with disconnected circuits of capacitor 21 at point d and resistor 20 at point c.

Under the action of the current flowing through the measuring resistors between the points a and o, a voltage arises which is fed through the resistor 16 to the input inverting amplifier 5 and from its output through the resistor 18 enters the input of the amplifier 5. The resistors are chosen so that Rn Ris 18 “At the same time, the voltage between the points about b is equal to the voltage between the points it is, and the voltage between points a and 6 is exactly zero. The considered circuit allows to obtain a voltage proportional to the current, and to compensate for this voltage. When the capacitor 21 is closed at point d, an additional voltage appears at the output of amplifier 5, which is proportional to the derivative of the current flowing through the measuring resistors, and the proportionality factor

depends on the equivalent resistance between points a and o, & also from the capacitor capacitance 27. This voltage can be smoothly controlled by the resistor 13. The additional voltage simulates different voltages on the inductance coil without loss. The connection of the resistor 20 at the point c makes it possible to obtain at the output of the amplifier 5 a voltage component proportional to the current. When the position of the non-switch 15 changes, the inductance range of the simulated line changes, the potentiometer 13 smoothly imitates the inductance of the simulated line, and the potentiometer 22 adjusts the quality factor.

Present Invention

A device for simulating active and inductive resistances of power lines, containing operational amplifiers, sweaters, capacitors, and resistors, characterized in that, in order to simplify the circuit and improve the accuracy of research, it contains a high-frequency stabilized alternating voltage generator, a main unit, a transformer, rectifier with filters and emitter follower., generator output through series-connected transformer and rectifier with

.filters are connected to the emitter repeater and the input, output and operational amplifiers connected in series, and the scale unit is connected to the input of the emitter but repeater and potentiometer,

connected to the bus of zero potential, and the output of the em. repeater is connected to the input of the output operational amplifier via a capacitor, and the output of the potentiometer - to the input of the output | 0 one operational amplifier through the resistor: p.