SU1346993A1 - Device for measuring electrical conduction of liquid - Google Patents

Abstract

The invention relates to analytical instrumentation, in particular, to means of hydrO (physical measurements. The aim of the invention is to improve the accuracy of measurements. Measuring the conductivity of the test liquid is carried out by a contactless conductometer sensor containing an excitation winding connected to a generator and a measuring winding connected through an amplifier with A third additional winding is inserted into the device, connected through an adjustable resistance to the output of the amplifier It.The additional winding is included in such a way as to compensate for the active losses introduced into the fluid connection of the measuring winding, i.e. connected via adjustable resistance to the output of the amplifier 1 pc 00 4 сг с СО ОО

Description

one

The invention relates to analytical instrumentation, in particular to means of hydrophysical measurements, and can be used in oceanology to study the electrophysical properties of seawater, as well as in the metrological assurance of conductometric measurements.

The aim of the invention is to improve the measurement accuracy.

The drawing shows a block diagram of a device for measuring the electrical conductivity of a liquid.

The device contains a generator of 1 sinusoidal oscillations, an amplifier 2 and a non-contact conductometric sensor 3 containing excitation winding A, measuring 5 and additional 6 windings connected via coil 7 of the test liquid, adjustable resistance 8 and recorder 9, Generator output 1 is connected to the winding 4 excitations of the contactless conductometric sensor 3, the measuring winding 5 is connected to the input of the amplifier 2, the output of which is connected to the recorder 9 and through an adjustable resistance 8 is connected to one to ntsom auxiliary winding 6, the other end of which is connected to the neutral bus device.

The device works as follows.

The winding 4 of the conductometric sensor 3, energized from the generator 1, excites an emf in the vital coil 7, causing current to flow in the fluid. The value of this current depends on the value of the specific conductivity (VEC) of the liquid and causes the appearance of a signal in the measuring winding 5, From the output

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amplifier 2 through the resistance 8 into the winding 6 receives a compensation signal in coil 7 of the liquid. The winding 6 creates a magnetic flux, which in phase is opposite to the magnetic flux created by the current of the liquid coil 7, and must exceed its amplitude. This leads to the fact that winding 6

Q introduces a negative resistance to the circuit of the liquid coil 7; The magnitude of the resistance 8 is chosen from the condition of equality of the introduced resistances of the additional 6 and the measuring 5

5 windings, but with the difference of the latter in sign, In this case, the joint interaction of windings 5 and 6 does not have any effect on the value of the current in the fluid connection 7 and the display 20 or the recorder 9 is proportional to the CEC of the liquid.

Claims (1)

Invention Formula 25 A device for measuring the electrical conductivity of a fluid, consisting of a sinusoidal oscillator, an amplifier, to the output of which a recorder is connected, and a non-contact 30 conductometric sensor, comprising an excitation winding and a measuring winding connected through a coil of the test liquid, and the excitation winding is connected to the generator output, and the measuring winding is connected to the input of the amplifier, which differs in that, in order to improve accuracy, the conductivity sensor is provided with an additional Coy associated with the wrap test fluid, one end of which is connected to the device bus zero and the other through adjustable resistance connected to yyhodu amplifier. 35 40