SU792072A1 - D.c. contact-free potentiometer - Google Patents

Description

(54) CONTACT-FREE DC POTENTIOMETER

one

The invention relates to the field of electrical measuring equipment and can be used p) and the creation of dc tentiometers.

Known contact potentiometers containing reohord.

The disadvantages of these devices are low accuracy, low reliability and durability.

The closest to the invention in its technical nature is a non-contact DC potentiometer containing a series-connected DC voltage source and a controlled generator, a non-contact induction potentiometer, the first terminals of the field windings and compensation of which are connected to the common bus, and the terminals of the output winding are connected to corresponding inputs of the phase-sensitive rectifier, the output of which is connected to the input of the active filter 2j.

The disadvantage of this potentiometer is low accuracy.

The purpose of the invention is to improve accuracy.

The goal is achieved by the fact that a non-contact DC potentiometer containing a series-connected DC voltage source and a controlled generator, a non-contact induction potentiometer, the first terminals of the excitation windings and

5 compensation of which is connected to the common bus, and the output winding pins are connected to the corresponding inputs of the phase-sensitive rectifier, the output of which is connected to the input of the active filter, equipped with a correction amplifier and a control unit consisting of a series-connected multivibrator, frequency divider and amplifier, outputs which are connected respectively to the control inputs of the controlled generator and phase-sensitive rectifier, and the input to the output of the DC voltage source, while the signal

The input 20 of the correction amplifier is connected to the output of the controlled oscillator, its control input is connected to the second compensation winding, and the output to the second output winding of the contactless induction potentiometer.

Claims (2)

The drawing shows a structural electrical potentiometer circuit. The potentiometer consists of a constant voltage source 1, a controlled oscillator 2, a correction amplifier 3 covered by negative feedback by means of a compensation winding 4, a non-contact induction test meter 5 including a stator magnetic circuit 6 with an excitation winding 7 wound 4 compensation and the output winding 8 and the winding-free rotor 9, as well as from the phase-sensitive rectifier 10, the active filter 11 with an adjustable transmission coefficient and the control unit 12, containing stabilized frequency multivibrator 13, frequency divider 14 and transistor amplifier 15. The contactless DC potentiometer operates as follows. The stabilized voltage of the port current from the source 1 is supplied to the controlled alternating voltage generator 2. Stabilization of the generator signal in frequency and duty ratio is carried out using control unit 12 as follows: the frequency-stable signal from multivibrator 13 is fed to frequency divider 14, which provides two synchronous counter-phase signals with a stable duty cycle. These signals, amplified by the transistor amplifier 15, control the synchronous operation of the generator 2 and the phase-sensitive rectifier 10, which eliminates the appearance of an error of the rectified voltage. The signal from generator 2 is fed to the input of amplifier 3, during which the oscillator is disconnected from an inductive non-contact potentiometer 5 at the operational amplifier having a high input resistance, which eliminates the effect of the latter’s parameters on the accuracy of signal generation. The induction non-contact potentiometer 5 is powered from the output of correction amplifier 3, the compensation winding 4 of potentiometer 5 is permanently coupled to the excitation magnetic flux regardless of the rotation angle of the rotor 9. By switching the compensation winding into negative feedback of the correction amplifier 3, the magnetic flux of the induction non-contact potentiometer is stabilized and the voltage on its output winding 8 when the ambient temperature changes. The output voltage of the induction non-contact Horoi potentiometer is rectified with a phase-sensitive rectifier 10 and filtered with an active filter 11 with an adjustable transmission coefficient. Thus, the device allows synchronizing the generator and phase-sensitive rectifier operation, stabilizing the frequency and duty cycle of the generator pulses, eliminating the influence of the parameters of an inductive non-contact potentiometer on the accuracy of signal generation, thermally stabilizing the output voltage of an inductive non-contact potentiometer. e. significantly improve the accuracy of the entire device. Invention Non-contact DC potentiometer containing a series-connected DC voltage source and a controlled generator, a non-contact induction potentiometer, the first terminals of the excitation windings and compensation of which are connected to the common bus, and the output windings of the output winding are connected to the corresponding inputs of the phase-sensitive rectifier, the output which is connected to the input of the active filter, characterized in that, in order to increase accuracy, it is equipped with a correction amplifier and a control unit An ensemble consisting of a series-connected multivibrator, a frequency divider and an amplifier, the outputs of which are connected respectively to the control inputs of a controlled generator and a phase-sensitive rectifier, and the input to the output of a DC voltage source, while the signal input of the correction amplifier is connected to a vertical input the controlled generator, its control input with the second compensation winding output, and the output with the second output winding of the contactless induction potentiometer. Sources of information taken into account in the examination 1. Belevtsev AG; Potentiometers. Gostekhizdat, M ,, 1962, p. 137-141. 2. USSR author's certificate number 366341, cl. G 01 B 7/02, 1974 (prototype).