SU1629876A1 - Inductive sensor - Google Patents

Abstract

The invention relates to a measurement technique, in particular, to converters of non-electric measured parameters into electric. The purpose of the invention is to improve measurement accuracy by increasing the sensitivity of an inductive sensor. The sensor includes a voltage generator 1, a balanced resistor 2, a basic inductance 3, two output terminals 4 and 5, measuring unit 6 and negative 2 impedance of inductance 7, containing an operational amplifier 8, two resistors 9 10 and variable inductance II voltage generator 1 first the output across the balance resistor 2 is connected to the first output of the main inductance 3 and the first output terminal 4 the second output of the voltage generator 1 is connected to the second output terminal 5, the common output of the operational amplifier 8, the first output of the non-belt inductance II and is a common sensor bus the unit (5 is connected to the output terminals, the second output of the main inductance is the 3rd non-inverting input of the amplifier 8 and the first output of the first resistor 9, the second output of which is connected to the first output of the second resistor 10 output amplifier 8 second terminal of the second resistor 10 is connected to the inverting input of amplifier 8 and the second terminal of the variable inductance II yl S 1 s /

Description

05 N3

F 00

J

about

The invention relates to a measurement technique, in particular, to converters of non-electric measured parameters into electrical parameters.

The aim of the invention is to improve the measurement accuracy by increasing the sensitivity of the inductive sensor.

The drawing shows a schematic diagram of an inductive sensor.

The sensor contains a voltage generator 1, a balanced resistor 2, a main inductance 3, output terminals 4 and 5, a measuring unit 6, and a negative inductance 7 containing an operational amplifier (OU) 8, the first 9 and second 10 resistors, and a variable inductance 11.

The voltage generator 1 is connected by the first output through the balanced resistor 2 to the first output of the main inductance 3 and the output terminal 4, the second output of the voltage generator 1 is connected to the output terminal 5, the common output of the OA 8, the first output of the variable inductance 1 1 and is a common bus sensor. The measuring unit 6 is connected to the output terminals 4 and 5. The second output of the main inductance 3 is connected to the non-inverting input of the shelter 8 and the first lead of the resistor 9 whose second output is connected to the first lead of the resistor 10 and the output of the shelter 8, the second lead of the resistor 10 is connected to the inverting input of the shelter 8 and the second output of the variable inductance 11.

The sensor works as follows.

The balance resistor 2 and the main inductance 3 with a negative impedance 7 of the inductance form a voltage divider from which the output signal is output through the output terminals 4 and 5 to the measuring unit 6.

Impedance at the input terminals of the negative resistance converter loaded with inductance,

Equal °

where Rg is the resistance of the resistor 9;

# 10 is the resistance of the resistor 10.

The primary inductance 3 is partially compensated by the negative impedance of the inductance 11 (negative impedance converter loaded with inductance), as a result of which the sensitivity of the inductive sensor increases. Set the value of the negative impedance-inductance 11, choosing this impedance from considerations of the required sensitivity of the transformation.

This can be shown as follows. For the prototype, the voltage taken from the output terminals 4 and 5 is

U (1)

- pr-f,

where Ur is the voltage of the voltage generator 1;

Zx is the impedance of the converter on the main inductance 3;

Zf - balanced impedance.

For a converter with negative inductance impedance, this voltage is

Ur (Zx-Z

Uai

(2)

ЈЈ

where Zotflf is the negative impedance of the impedance. From expressions (1) and (2), we can derive formulas for the slope of the transformation

to 4M q Zf / o

Ka dzrUr (Zs + zxY- (3)

to -du-nZs d

KoMr-dZx Ur & + Zx-Z0) (4)

Dividing (4) by (3), we obtain the formula for increasing the steepness compared to the prototype:

2

 (ZS + ZJ

CRC

ZS + ZX-Z0 P)

0

five

0

i.e., with the use of a negative inductance impedance, the conversion steepness (sensitivity) increases, and, consequently, an increase in the accuracy of measurement of non-electric parameters occurs.

Claims (1)

Invention Formula An inductive sensor comprising a voltage generator, the first output of which is connected to the first output of the balanced resistor, and the second to the first output terminal, the second output of the balanced resistor is connected to the first output of the main inductance and the second output terminal, and the output terminals are different By the fact that, in order to increase the accuracy due to the increase in sensitivity, negative inductance impedance is introduced into it, containing an operational amplifier, first and second resistors and variable the inductance, the first output of the first resistor is connected to the second output of the main inductance and the non-inverting input of the operational amplifier, the second output of the first resistor is connected to the first output of the second resistor and the output of the operational amplifier, the second output of the second resistor is connected to the inverting input of the operational amplifier and the first output of the variable inductance, and the second output of the variable inductance is connected to the second output of the voltage generator and the common output of the operational amplifier.