SU435464A1 - THERMAL TRANSMITTER RESISTANCE CONVERTER INTO ELECTRIC SIGNAL FREQUENCY - Google Patents

Description

one

A strain gauge resistance transducer into an electrical signal frequency belongs to the field of instrumentation and can be used in auto control systems, telemetry, in devices for ejecting machines and stands, etc., -.

The known transducers of the resistance of the strain gauge to the frequency or period of sinusoidal oscillations with a nomop amplifier covered by several feedback circuits containing a measuring bridge and a measuring amplifier do not have sufficient sensitivity.

The tension sensor's resistance to voltage transducer eliminates this drawback by providing an active voltage divider connecting the output of the measuring amplifier with the capacity of the frequency-dependent quadrupole in the feedback circuit whose resistor is serially connected to another output of the measuring amplifier.

Circuit converter resistance ten-. Zodatchika to the frequency of the electrical signal is shown on the drawing.

Amplifier 1, covered by a frequency-dependent quadrupole circuit and feedback with nonlinear inertia 2, forms a linear oscillatory system, which through a matching amplifier 3 feeds

; : 2

strain gauges 4. In the drawing, the same no-kaz on the equivalent parasitic capacitance Co of the connecting strain gages, conducted to one of the arms of the strain gauge 4.

The measuring diagonal of the measuring bridge 4 is connected to the input of measuring amplifier 5 with a phase-inverted output stage, the outputs of which are connected in series with resistor 2 and through an active voltage divider consisting of resistors Ra and. capacity Cz frequency-dependent quadrupole.

In the balance of the tensometer 4, the generator frequency is determined by the parameters of the frequency dependent quadrupole RiR2CiCz. The generator frequency is controlled by the voltage unbalance of the tension bridge 4, which is preamplified by measuring amplifier 5 with phase inverted output stage and then fed to the input of amplifier 1 via two feedback circuits through the elements of the frequency-dependent quadrupole — resistor 2 and capacitance Cz and active voltage divider - resistors Rs and R. The introduction of feedback circuits and an active voltage divider contribute to an increase in circuit sensitivity. The voltages of the feedback circuits Uz and Ui in the frequency range of the generator are in antiphase

relative to each other, and their ratio is mo1. (f / a) 1i

muzzles as -. Condition - - - and selection

relations between the parameters of the frequency-dependent quadrupole such that allow for linear transformation

-5L J. fi A L + a 3 s, L 1 V c, L

resistance of the strain gauge to the frequency in a wide range of frequency deviation, automatic compensation of the influence of the parasitic parameters of the strain gauge on the frequency deviation caused by 6M1COSTY asymmetry From the connecting wires of the strain gauges and the constant attenuation coefficient of the frequency-dependent quadrupole throughout the range of resistance of the strain gauge. This indicates the absence of parasitic amplitude modulation.

ripeAMet invent

Transducer of the sunroot strain gauge into the frequency of the electric signal, containing interconnected 1 C-generator with a frequency-dependent quadrupole

in the feedback circuit, a measuring bridge with a resistance sensor and a measuring amplifier with an output phase-inverse cascade, characterized in that, in order to increase the sensor sensitivity, it is equipped with an active voltage divider connecting the output of the amplifier with a frequency-dependent quadrupole In feedback loop, the resistor of which is serially connected to another output of the measuring amplifier.