Our Neomeris Select high temperature conductivity cells are suitable in a wide range of high performance applications with high temperatures and pressures.To meet these demanding technical requirements, our sensors are manufactured from 316 stainless steel with PEEK elements and feature a one-piece cell design suitable for high pressure conditions.  The conductivity cells are available with different cell constants (0.1/cm and 1.0/cm) and temperature sensors (PT100 and PT1000) and are designed for a specific pressure-temperature range. Certain model types also allow you to choose between a short and long thread, depending on the installation situation.Our 1/2" inch Select LF stainless steel conductivity cell is a general purpose sensor that can be used in a variety of standard applications such as in cooling towers or water treatment plants, etc. and is easy to install. In contrast, our Select HTLF Ultra high performance conductivity cell is the top of the range model. This conductivity sensor is specially designed for boiler applications where it is permanently integrated in the boiler. Via our selection menu you can easily choose the right conductivity sensor for your application. Please contact us if you have any questions.

Our Neomeris Select high temperature conductivity cells are suitable in a wide range of high performance applications with high temperatures and pressures.To meet these demanding technical requirements, our sensors are manufactured from 316 stainless steel with PEEK elements and feature a one-piece cell design suitable for high pressure conditions.  The conductivity cells are available with different cell constants (0.1/cm and 1.0/cm) and temperature sensors (PT100 and PT1000) and are designed for a specific pressure-temperature range. Certain model types also allow you to choose between a short and long thread, depending on the installation situation.Our 1/2" inch Select LF stainless steel conductivity cell is a general purpose sensor that can be used in a variety of standard applications such as in cooling towers or water treatment plants, etc. and is easy to install. In contrast, our Select HTLF Ultra high performance conductivity cell is the top of the range model. This conductivity sensor is specially designed for boiler applications where it is permanently integrated in the boiler. Via our selection menu you can easily choose the right conductivity sensor for your application. Please contact us if you have any questions.

Our Neomeris Select high temperature conductivity cells are suitable in a wide range of high performance applications with high temperatures and pressures.To meet these demanding technical requirements, our sensors are manufactured from 316 stainless steel with PEEK elements and feature a one-piece cell design suitable for high pressure conditions.  The conductivity cells are available with different cell constants (0.1/cm and 1.0/cm) and temperature sensors (PT100 and PT1000) and are designed for a specific pressure-temperature range. Certain model types also allow you to choose between a short and long thread, depending on the installation situation.Our 1/2" inch Select LF stainless steel conductivity cell is a general purpose sensor that can be used in a variety of standard applications such as in cooling towers or water treatment plants, etc. and is easy to install. In contrast, our Select HTLF Ultra high performance conductivity cell is the top of the range model. This conductivity sensor is specially designed for boiler applications where it is permanently integrated in the boiler. Via our selection menu you can easily choose the right conductivity sensor for your application. Please contact us if you have any questions.

Analogue and digital communication for more process visibility• Modbus or 4-20 mA sensor output available• Configuration and calibration can be done using web based software Corrosion, Coating and Fouling Resistant• Noryl body has a wide solvent tolerance and temperature stability to 105°C (used with flow cell 80°C, with integrated 4-20mA output or Modbus 70°C) Mounting• Can be installed in line using the specific flow cell or submersed via the 3/4" MNPT thread Wide Measurement Range• Can measure conductivity from 0 – 2.000.000 μS (0 - 2 S)

Technical data:Measuring range: 1-2.000 µS/cmCell constant: 0,10 cmConnection: PVC union nut Rp 1 ¼''Max. temperature: 40°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 10-20.000 µS/cmCell constant: 1 cmConnection: PVC union nut Rp 1 ¼''Max. temperature: 40°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 5-10.000 µS/cmCell constant: 0,5 cmConnection: PVC union nut Rp 1 ¼''Max. temperature: 40°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 0,1-200 µS/cmCell constant: 0,01 cmConnection: External thread R ¾''Max. temperature: 130°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 1-2.000 µS/cmCell constant: 0,1 cmConnection: External thread R ¾''Max. temperature: 130°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 5-10.000 µS/cmCell constant: 0,5 cmConnection: External thread R ¾'Max. temperature: 130°CMeasuring resistor: withoutMaterial: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? For the simple measurement of conductivity in stable water applications. When is a probe without a temperature sensor appropriate? When the temperature is constant or is measured separately. What is the advantage of not having a temperature sensor? Less technology, simpler design and lower costs. For which applications is this probe particularly suitable? For simple systems without significant temperature fluctuations. Is the probe low-maintenance? Yes, its simple design makes it particularly easy to maintain. Can I replace the probe easily? Yes, it can be installed and replaced quickly. Who is this probe the right choice for? For users looking for a simple and reliable solution.

Technical data:Measuring range: 1-2.000 µS/cmCell constant: 0,1 cmConnection: PVC union nut Rp 1 ¼''Max. temperature: 40°CMeasuring resistor: PT 100Material: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? To measure the conductivity of water and similar liquids. Why is a temperature sensor built in? It ensures more accurate measurement results through automatic temperature compensation. What applications is the probe suitable for? For water treatment, industry and process monitoring. Is the probe robust enough for continuous operation? Yes, the stainless steel housing makes it durable and resilient. Can the probe also be used under pressure? Yes, it is suitable for use under pressure. Is installation complicated? No, it can be easily fitted via the connection.

Technical data:Measuring range: 5-10.000 µS/cmCell constant: 0,5 cmConnection: PVC union nut Rp 1 ¼''Max. temperature: 40°CMeasuring resistor: PT 100Material: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? To measure the conductivity of water and similar liquids. Why is a temperature sensor built in? It ensures more accurate measurement results through automatic temperature compensation. What applications is the probe suitable for? For water treatment, industry and process monitoring. Is the probe robust enough for continuous operation? Yes, the stainless steel housing makes it durable and resilient. Can the probe also be used under pressure? Yes, it is suitable for use under pressure. Is installation complicated? No, it can be easily fitted via the connection.

Technical data:Measuring range: 0,1-200 µS/cmCell constant: 0,01 cmConnection: External thread R ¾'Max. temperature: 130°CMeasuring resistor: PT 100Material: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? To measure the conductivity of water and similar liquids. Why is a temperature sensor built in? It ensures more accurate measurement results through automatic temperature compensation. What applications is the probe suitable for? For water treatment, industry and process monitoring. Is the probe robust enough for continuous operation? Yes, the stainless steel housing makes it durable and resilient. Can the probe also be used under pressure? Yes, it is suitable for use under pressure. Is installation complicated? No, it can be easily fitted via the connection.

Technical data:Measuring range: 1-2.000 µS/cmCell constant: 0,1 cmConnection: External thread R ¾''Max. temperature: 130°CMeasuring resistor: PT 100Material: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? To measure the conductivity of water and similar liquids. Why is a temperature sensor built in? It ensures more accurate measurement results through automatic temperature compensation. What applications is the probe suitable for? For water treatment, industry and process monitoring. Is the probe robust enough for continuous operation? Yes, the stainless steel housing makes it durable and resilient. Can the probe also be used under pressure? Yes, it is suitable for use under pressure. Is installation complicated? No, it can be easily fitted via the connection.

Technical data:Measuring range: 5-10.000 µS/cmCell constant: 0,5 cmConnection: External thread R ¾''Max. temperature: 130°CMeasuring resistor: PT 100Material: Stainless steelMax. Pressure: up to 6x10⁵ PA (6 bar) Frequently Asked Questions What is the conductivity probe used for? To measure the conductivity of water and similar liquids. Why is a temperature sensor built in? It ensures more accurate measurement results through automatic temperature compensation. What applications is the probe suitable for? For water treatment, industry and process monitoring. Is the probe robust enough for continuous operation? Yes, the stainless steel housing makes it durable and resilient. Can the probe also be used under pressure? Yes, it is suitable for use under pressure. Is installation complicated? No, it can be easily fitted via the connection.