SU881628A1 - Electrostatic field pickup - Google Patents

Description

(54) ELECTROSTATIC FIELD SENSOR The invention relates to a radio measuring technique. The electrostatic field sensor is known, which contains a sensitive electrode connected to the registration unit, an inductance coil connected to an alternating voltage generator. However, the known sensor does not provide high accuracy of measurements. The purpose of the invention is to improve the accuracy of measurements. The goal is achieved in that an electrostatic field sensor containing a sensing electrode connected to a recording unit, an inductor connected to an alternating voltage generator, a second inductor inserted coaxially with the first and connected to an alternating voltage generator, and a sensitive electrode located at an angle of 3-10 ° to the axis of the inductors. The drawing shows a functional diagram of the sensor. The electrostatic field sensor contains a sensing electrode 1 connected to a recording unit (not shown), an inductor 2 connected to an alternating voltage generator 3 and an inductor 4 located coaxially with the inductor and connected to an alternating voltage generator 3. This sensitive electrode 1 is located under the fragile 3-1 to the axis of the coils 2 and 4 of the inductance. The sensor works as follows. The coils 2 and 4 of the inductance, connected to the generator 3, generating a sinusoidal voltage with a frequency of 1OO Hz, create magnetic fluxes that also vary in a sinusoidal manner with a frequency of 10 Hz. Since the windings of inductance coils 2 and 4 are connected according to, the magnetic fluxes created by them add up, due to which a magnetic backside is created along the axis between coils 2 and 4, the amplitude of which varies sinusoidally. This field is made of ferromagnetic material I, caused its fixed part to oscillate with a double frequency of 2OO Hz.

When the sensor is placed and the electrostatic field measured is, a variable electrical signal is induced on the vibrating part of the sensing electrode 1. The frequency of the electrical signal is equal to the frequency of vibration of the sensing electrode 1, i.e. 2OO Hz, and the amplitude is proportional to the intensity F of the electrostatic field. From the sensing electrode 1, an electrical signal is applied to the load 5.

The magnetic system, consisting of coils 2 and 4 and the sensing electrode 1, has the least resistance when the movable part of the sensing electrode 1 is along the axis of the coils 2 and 4. At the same time, the amplitude of the vibrations of the movable part of the sensing electrode 1 is limited and the effect of destabilizing factors is reduced , for example, from the MOE of environmental tech- nique and supply voltages, by this amplitude. .

In this connection, the measurement accuracy of the sensor, as compared with the known, is increased 6-10 times.

Claims (1)

Invention Formula An electrostatic field sensor containing a sensing electrode connected to the recording unit, an inductance coil connected to an alternating voltage generator, is also wicked off and, in order to improve measurement accuracy, a second inductance coil is additionally inserted coaxially with the first and connected to alternating voltage generator as well The sensing electrode is located at an angle of 3–10 ° to the axis of the inductor. Sources of information taken into account in the examination 1. USSR author's certificate No. 90151, CL (5 01 R 29/12, 1949 (prototype).