RU167937U1 - A BRIDGE FOR MEASURING THE PARAMETERS OF A MULTI-ELEMENT ARBITRARY DOUBLE-POLE - Google Patents

Abstract

The utility model relates to measuring equipment, and more specifically to measuring instruments of a bridge type, and can be used to measure the parameters of a multi-element arbitrary two-terminal network. A bridge to measure the parameters of a multi-element (R, L, C) arbitrary two-terminal network, containing a generator, an operational amplifier, an adder, an input which is connected to the output of the operational amplifier, the second adder, according to a utility model, includes an additionally introduced measurement object, which is described by a differential equation, potentiometers, the number of which is equal to the sum of the orders of the right and left sides of the differential equation, integrators, the number of which is n + (n-1) + ... + 1 + m + (m-1) + ... + 1, where m and n are the highest degrees of the right and the left side of the differential equation, as well as a resistor that is connected to the negative feedback circuit of the operational amplifier, the output of which is connected to the adder, to the inverting input of which a measurement object is connected, which is connected to the output of the generator, which in turn is connected through potentiometers and integrators with input rows of the second adder. At the same time, in the first connection there is one potentiometer, in the second connection there is one potentiometer and an integrator cascaded, and in the subsequent connections of the generator output with the second adder there are one potentiometer that are connected to the generator output, and in an amount equal to the connection number cascaded integrators, the last of which is connected to the second adder, and the first is connected to the potentiometer, the output of the second adder is connected to the adder through potentiometers and integrators, which

Description

The utility model relates to measuring equipment, and more specifically to measuring instruments of the bridge type and can be used to measure the parameters of a multi-element arbitrary two-terminal device.

A bridge device is known for measuring the parameters of three-element bipolar devices, containing the first and second operational amplifiers, a resistor is connected to the output of the first, an adjustable resistor is connected to the output of the second, a capacitor, a differential amplifier, a null indicator, a voltage source, and object of measurement. There is an integrator, a differentiator, two keys, a third operational amplifier, an adjustable capacitor, a resistor, an adder, a detector for determining the linearity of the transition voltage, a detector for extracting information about the presence of a linear component, the inputs of two operational amplifiers through resistors are connected to an integrator, a shunted key connected to a rectangular generator pulses, the input of the third operational amplifier through the measurement object is connected to the output of the integrator, in the negative feedback circuit of the third opera of an amplifier, the output of which through a differentiator, shunted by a key, is connected to the first input of the differential amplifier and the detector for determining the linearity of the transient voltage, a resistor and an adjustable capacitor are connected in series, an adjustable resistor is included in the negative feedback circuit of the first operational amplifier, and the outputs of the first and second operating amplifiers through the adder are connected to the second input of the differential amplifier, the output of which is connected to the first input de a tractor for extracting information about the presence of a linear component, the second input of which is connected to the output of the rectangular pulse generator, [a.c. USSR 1762247, IPC G01R 17/10 publ. 09/15/92. BI No. 34 "Bridge device for measuring the parameters of three-element bipolar" by M. M. Zinin].

The disadvantage of this technical solution is its small functionality, in view of the impossibility of measuring the parameters of a multi-element (R, L, C) arbitrary two-terminal device.

A known bridge for measuring the parameters of three-element non-resonant two-terminal circuits, containing a rectangular pulse generator connected through a first adjustable resistor with an inverting input of the first operational amplifier, into the negative feedback circuit of which a capacitor is connected, the output of the first operational amplifier, the non-inverting input of which is connected to a common bus, is connected to the first input of the adder, the second input of which is connected to the output of the second operational amplifier, the non-inverting input of which dinen with a common bus, the negative feedback circuit of which includes terminals for connecting a measured two-terminal device containing a capacitor and a resistor connected in series with a capacitor in parallel, a zero indicator, a second adder, a third adjustable resistor, and a fourth operational amplifier, the non-inverting input of which is connected to a common bus, to the inverting input of which a fourth adjustable resistor is connected, and the output is connected to the first input of the second adder, a capacitor, a resistor, line 3 costs, two keys, a detector for determining the exponential form of voltage, a fifth adjustable resistor, a square-wave generator through a capacitor connected to the inverting input of the third operational amplifier, the output of which is connected to the second input of the second adder, the output of which is connected through the first key to a null indicator and directly with a detector for determining the exponential form of voltage, a square-wave generator through a third adjustable resistor is connected to the inverting input of the WTO of the operational amplifier, with a fourth adjustable resistor connected to the inverting input of the fourth operational amplifier, whose resistor is connected to the negative feedback circuit, the output of the first adder is connected to the third input of the second adder, and the fifth adjustable resistor is connected to the negative feedback circuit of the first operational amplifier , the output of the rectangular pulse generator through the delay line, in parallel with which the second key is turned on, is connected to the first key. [Pat. RF №2034301, IPC G01R 17/10, publ. 04/30/95 54 №12, author Zinin M.M. "A bridge for measuring the parameters of three-element non-resonant two-pole"]

This technical solution is selected by the author as a prototype.

The disadvantage of the prototype is the low functionality, which consists in the absence of measuring parameters of an arbitrary (R, L, C) arbitrary two-terminal device.

The technical result is the expansion of functionality by measuring the parameters of a multi-element (R, L, C) arbitrary two-terminal device.

The technical result is achieved in that in the bridge for measuring the parameters of a multi-element bipolar, containing a generator, an operational amplifier, an adder, the input of which is connected to the output of the operational amplifier, a second adder, potentiometers are additionally introduced, the number of which is equal to the sum of the orders of the right and left parts of the differential equation that describes measurement object, integrators, the number of which is n + (n-1) + ... + 1 + m + (m-1) + ... + 1, where m and n are the highest degrees of the right and left sides of the differential equation, which is about uses a measurement object, a resistor included in the negative feedback circuit of the operational amplifier, the output of which is connected to the adder, to the inverting input of which a measurement object is connected, which is connected to the generator output connected via potentiometers and integrators to the inputs of the second adder, in the first connection there is one potentiometer, in the second connection there is one potentiometer and a cascade connected integrator, in the subsequent connections of the generator output with the second adder there is one sweat to the cytometer, which are connected to the output of the generator, and by the number equal to the connection number, the integrators are cascaded, the last of which are connected to the second adder, and the first is connected to the potentiometer, the output of the second adder is connected to the first adder and through potentiometers and integrators which are cascaded with the inputs of the second adder, in the first connection there is a potentiometer that is connected to the output of the second adder and the input of the second adder, in the second connection there is a potentiometer that is connected to the output of the second adder, which is cascaded with the integrator, the output of which is connected to the input of the second adder, in subsequent connections, one potentiometer and the integrator cascaded, the number of which is equal to the connection number.

The introduction of additional elements and their connection provide the construction of a model of the measurement object, which leads to a bridge with a frequency-independent equilibrium state designed to measure the parameters of a multi-element (R, L, C) arbitrary two-terminal device.

In FIG. 1 shows a schematic diagram of a bridge designed to measure the parameters of a two-terminal multi-element (R, L, C) arbitrary.

The device consists of a rectangular pulse generator 1, a measurement object 2 which is described by a differential equation, an operational amplifier 3, a resistor 4, an adder 5, potentiometers 6, 7, 8, 9, 10, 11, 19, the number of which is m + n, where m and n are the senior degrees of the right and left sides of the differential equation that describes the object of measurement 2, integrators 12, 13, 14, 15, 16, 17, the number of which is equal to the sum n + (n-1) + ... + 1 + m + (m- 1) + ... + 1, and the second adder 18.

The device operates as follows.

The generator 1 supplies rectangular pulses to the measurement object 2, connected to the operational amplifier 3, in the feedback circuit of which a resistor 4 is connected. At the output of the operational amplifier there is a transient and steady-state voltage, which are compensated by the output voltage of the model. Balancing is carried out by adjusting the potentiometers 6, 7, 8, 9, 10, 11, 19 by any known method.

There is a separate readout by the coefficients of the input function of the measured two-terminal 2.

The proposed bridge for measuring the parameters of a multi-element arbitrary two-terminal network with an accuracy class of 1-2% allows to reduce the range of instruments used.

Claims (1)

A bridge for measuring the parameters of a multi-element (R, L, C) arbitrary two-terminal device, comprising a generator, an operational amplifier, an adder, the input of which is connected to the output of the operational amplifier, a second adder, characterized in that an additional measurement object is described, which is described by a differential equation, potentiometers, the number of which is equal to the sum of the orders of the right and left sides of the differential equation, integrators, the number of which is n + (n-1) + ... + 1 + m + (m-1) + ... + 1, where m and n are the highest degrees of the right and left sides different of the fundamental equation, a resistor that is connected to the negative feedback circuit of the operational amplifier, the output of which is connected to the adder, to the inverting input of which a measurement object is connected, which is connected to the output of the generator, which in turn is connected via potentiometers and integrators to the inputs of the second adder, in the first connection there is one potentiometer, in the second connection there is one potentiometer and a cascade-connected integrator; in the subsequent connections of the generator output to the second adder, I have one potentiometer, which are connected to the output of the generator, and the number equal to the connection number, cascaded integrators, the last of which is connected to the second adder, and the first is connected to the potentiometer, the output of the second adder is connected to the adder via potentiometers and integrators, which are cascaded connected to the inputs of the second adder, in the first connection, the potentiometer is connected to the output of the second adder and the input of the second adder, in the second connection, the potentiometer is connected to the output of the second adder and cascaded to an integrator, the output of which is in turn connected to the input of the second adder, and in subsequent connections, the potentiometers are cascaded to integrators, the number of which is equal to the connection number.

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