SU1308002A1 - Electrochemical liquid analyzer - Google Patents

Abstract

The invention relates to the field of analytical instrumentation. The aim of the invention is to reduce the analyzer adjustment time. The analyzer contains a measuring channel consisting of an electrode system, an amplifier and an analog-digital converter with double integration, and a channel for introducing a temperature correction. When adjusting the temperature correction channel, the temperature sensor of the analyzer is connected via a functional converter to the input of the reference signal of the analog-to-digital converter of double integration; 1 ill.

Description

The invention relates to an analytical technique, namely, electrochemical liquid analyzers, which are mean to determine the ion-toro composition of liquid media, and can be used to solve a wide class of problems in the chemical industry, nuclear energy and other fields.

The aim of the invention is to reduce the analyzer adjustment time.

 The drawing shows a block diagram of an electrochemical fluid analyzer. ,15

The analyzer contains a measuring cell; 1 with the analyzed fluid, the electrode of which is immersed 2; and thermosensitive element 3 Electrode system plug-in. , 20 is connected to the input of amplifier 4, the output of which is connected to the input of the analog-to-digital converter (ADC) 5 of the double integration ... Thermal sensing element-3 is connected to the 25th input of the function converter: 6, the output of which is connected to the input the reference voltage of the ADC 5.

 The analyzer works as follows 55 times.

 Electrode system 2 generates an emf proportional to the concentration-, (or y.kti}) of analysis of IX ions in the liquid. This EMF is fed to the input of the amplifier 4, after amplification it supplies -. 35 seconds to the input of the ADC 5 dual integration. The output voltage in the AIJJI is converted to a digital signal and fed to external devices or reproduced in digital form. At 40, the temperature of the analyzed fluid changes according to a certain law, the electromotive force of the electrode system 2 changes.

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The electrical parameter of thermosensitive resistance is also given, for example, its resistance. A change in the given parameter at the input of the functional converter 6 leads to a corresponding change in the voltage at its output, and consequently, at the input of the reference voltage of the ADC. In this case, the decay rate of the output voltage of the integrator of the A / D converter changes, and, consequently, the time of the reverse T1 integration of the A / D converter, which is. its informational X1 nature,

The transformation function is chosen in such a way that the temperature-voltage dependence at the output of the functional converter .6 repeats. a similar dependence of the electromotive force of the electromodular system. This is achieved and the dependence of the inverse integration time, i.e. the output signal of the ADC from the temperature of the analyzed liquid. Since the range of values of the reference voltage of the ADC 5 is limited, rationing is required. signal arriving at. this input, which is carried out by the functional converter. . . .

Claims (1)

Invention Formula An electrochemical fluid analyzer, containing a measuring cell with an electrode system and a temperature-sensitive element, is connected to an amplifier system, the output of which is connected to the input of an analog-digital converter of double integration, which is reduce time and the voltage at the input of the ADC 5, as well as 45 mash, those {sensing element And the rate of increase of the output voltage of the ADC integrator during direct integration. Simultaneously with a change in the temperature of the fluid and a change 0 5 50 ) The electrical parameter of thermosensitive resistance is also given, for example, its resistance. A change in the given parameter at the input of the functional converter 6 leads to a corresponding change in the voltage at its output, and consequently, at the input of the reference voltage of the ADC. In this case, the decay rate of the output voltage of the ADC integrator changes, and consequently, the time of the reverse integration of the ADC, which is. .. its informational X1 nature, The conversion function is selected in such a way that the temperature dependence of the output voltage of the functional converter .6 repeats. a similar dependence of the electromotive force of the electrode system. This is achieved and the dependence of the inverse integration time, i.e. the output signal of the ADC from the temperature of the analyzed liquid. Since the range of values of the reference voltage of the ADC 5 is limited, rationing is required. signal arriving at. this input, which is carried out by the functional converter. . . . Invention Formula An electrochemical fluid analyzer, containing a measuring cell with an electrode system and a temperature-sensitive element, is connected to an amplifier system, the output of which is connected to the input of an analog-to-digital converter of double integration, so that reduction of time. analyzer adjustments, that is the {photosensitive element through a functional converter, it is connected to the reference input of the analog-to-digital double integration converter.