【Optek conductivity sensor Optek ACF60-35
Conductivity sensor is a kind of measurement equipment widely used in industry, environmental protection, water treatment and other fields, which is mainly used to measure the conductivity value of liquids. Conductivity refers to the ability of ions in a liquid to conduct electricity, and is an important indicator for evaluating water quality, controlling chemical reaction processes, and monitoring environmental pollution. Conductivity sensors have become indispensable measurement tools in modern industry due to their high accuracy, fast response and stability.
The Optek ACF60 ACS60 features a six-electrode design with 4 electric field electrodes and 2 measuring electrodes. The unique design of the four electric field electrodes around the two potential electrodes ensures reliable and precise measurements. At the same time, the sensor's susceptibility to dirt and polarization phenomena is greatly reduced. By connecting the ACF60 ACS60 conductivity sensor to the C800 C8000 multifunction controller, it is possible to measure conductivity over a wide dynamic range with just one sensor. The measuring range is as low as 0-10 s cm and as high as 0-850 ms cm.
The working principle of conductivity sensors is based on Ohm's law, which calculates the conductivity value by measuring the magnitude of the current in a liquid. The inside of the sensor usually contains two electrodes, and when liquid flows through the electrodes, an electric current is formed. The magnitude of the current is related to the concentration of ions in the liquid and the mobility of the ions, thus reflecting the conductivity of the liquid. By measuring this current value and calculating it based on known parameters, the conductivity value of the liquid is obtained.
In practice, conductivity sensors have a wide range of applications. In industrial production, conductivity sensors can be used to monitor and control chemical reaction processes to ensure product quality and production safety. In the field of environmental protection, conductivity sensors can be used to monitor the degree of water pollution, evaluate the water quality status, and provide data support for environmental protection. In the field of water treatment, conductivity sensors can be used to monitor the water purification process and ensure that the water quality is up to standard.
In addition to the above application areas, conductivity sensors can also be used in medicine, food, agriculture and other fields. In the pharmaceutical field, conductivity sensors can be used to monitor water quality and solution concentration during the production of pharmaceuticals to ensure drug quality and safety. In the food sector, conductivity sensors can be used to monitor the effectiveness of cleaning and disinfection during food production to ensure food safety. In agriculture, conductivity sensors can be used to monitor the conductivity of soil and irrigation water, providing a scientific basis for agricultural production.
There are a variety of factors to consider when selecting and using conductivity sensors. First of all, it is necessary to select the appropriate sensor model and specification according to the actual application scenario. Different sensors have different measuring ranges, accuracy and stability, and need to be selected according to actual needs. Secondly, you need to pay attention to the installation and use of the sensor. Factors such as where the sensor is mounted, how it is installed, and the environment in which it is used can all affect the accuracy of the measurement results. Therefore, when installing and using sensors, the relevant operating specifications and technical requirements need to be followed.
In addition, regular maintenance and calibration of the sensor is required to ensure its long-term stable operation and measurement accuracy. The maintenance and calibration of the sensor includes steps such as cleaning the electrodes, checking the circuit connections, calibrating the measured values, etc. With regular maintenance and calibration, the service life of the sensor can be extended, the measurement accuracy can be improved, and the practical application can be better supported.
In conclusion, conductivity sensors, as an important measurement device, have a wide range of applications in various fields. By understanding how they work, how to use them, and how to choose how to use them, conductivity sensors can be better applied and better supported for practical applications. With the continuous development of science and technology, conductivity sensors will be used in more fields, bringing more convenience and benefits to human production and life.
Conductivity sensor ACF60 ACS60
Optek's six-electrode design reduces the sensor's sensitivity to dirt and polarization.
Large measuring range: from 0-10 s cm and up to 0-850 ms cm
The PT1000 temperature sensor is integrated.
No O-rings or epoxy resins used - suitable for use where CIP SIP requirements are required.
Temperature measurement. ACF60 The ACS60 has a PT1000 temperature sensor on the top, which can quickly respond to temperature changes in the medium in order to compensate, and the temperature value can also be displayed on the C8000 screen.
Hygienic design.
For ultra-cleanliness, the six electrodes are sealed on top of the sensor made of PEEK (FDA (USP Class VI) certified) without the use of O-rings or epoxy resins. After being installed on the flow cell, there is no obstruction to the flow of the medium, and the standing flow rate of the medium and the static shear force of the fluid are very low. The ACF60 ACS60 sensor is suitable for use in CIP SIP applications.
Optek conductivity sensor Optek ACF60-35
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