Products
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CS3523 Conductivity Sensor Designed for Ultra-Pure Water
Suitable for low conductivity applications in the semiconductor, power, water and pharmaceutical industries, these sensors are compact and easy to use.The meter can be installed in several ways, one of which is through the compression gland, which is a simple and effective method of direct insertion into the process pipeline.The sensor is made from a combination of FDA-approved fluid receiving materials.This makes them ideal for monitoring pure water systems for the preparation of injectable solutions and similar applications.In this application, the sanitary crimping method is used for installation. -
CS3632 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water.Measuring specific conductivity of aqueous solutions is becoming increasingly important for determining impurities in water.The measurement accuracy is greatly affected by temperature variation, polarization of the contact electrode surface, cable capacitance, etc.Twinno has designed a variety of sophisticated sensors and meters that can handle these measurements even in extreme conditions.Suitable for low conductivity applications in the semiconductor, power, water and pharmaceutical industries, these sensors are compact and easy to use.The meter can be installed in several ways, one of which is through the compression gland, which is a simple and effective method of direct insertion into the process pipeline. -
CS3732 Conductivity Sensor
onductivity electrode is a fundamental sensor designed to measure the ability of an aqueous solution to conduct electrical current, which directly correlates with its total concentration of dissolved ions. This key parameter is essential for assessing water purity, controlling chemical processes, and monitoring environmental compliance across industries like pharmaceuticals, power generation, food and beverage, and wastewater treatment.
The core of the electrode is a measurement cell containing at least two conductive elements. When an alternating current is applied, the ions in the solution complete the circuit between these elements. The resulting conductance is measured and, along with the cell's geometric constant (cell constant, K), is used to calculate conductivity. Modern electrodes are almost always integrated with a temperature sensor (typically a Pt100 or Pt1000 RTD) for automatic compensation, as conductivity is highly temperature-dependent. Common designs include two-pole cells for general use and four-pole (or four-electrode) cells, which use separate current and voltage rings to minimize polarization effects and extend measurement range, especially in high-conductivity applications. -
CS3733 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS3742 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS3743 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS3852 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS3853 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS3953 Conductivity Sensor
Designed for Pure, Boiler Feed water, Power Plant, Condensate Water. -
CS7862D Digital Suspended Solids (Sludge concentration) Sensor with Automatic Cleaning
The principle of the Suspended Solids (Sludge concentration) is based on the combined infrared absorption and scattered light method. The ISO7027 method can be used to continuously and accurately determine the sludge concentration. According to ISO7027 infrared double-scattering light technology is not affected by chromaticity to determine the sludge concentration value. The self-cleaning function can be selected according to the use environment. Stable data, reliable performance; built-in self-diagnosis function to ensure accurate data; simple installation and calibration. -
CS1778 pH electrode
Designed for flue gas desulfurization environment
The working conditions of the desulfurization industry are more complicated. The common ones include liquid alkali desulfurization (adding NaOH solution in the circulating liquid), flake alkali desulfurization (putting quicklime into the pool to generate lime slurry, which will also release more heat), double alkali method (quick lime And NaOH solution). -
CS1701 pH Sensor
Designed for common water quality.
Double salt bridge design, double layer seepage interface, resistant to medium reverse seepage.
The ceramic pore parameter electrode oozes out of the interface and is not easy to be blocked, which is suitable for monitoring of common water quality environmental media.
High-strength glass bulb design, the glass appearance is stronger.
The electrode adopts low noise cable, the signal output is farther and more stable
Large sensing bulbs increase the ability to sense hydrogen ions, and perform well in common water quality environment media. -
CS1700 pH Sensor
Designed for common water quality.
Double salt bridge design, double layer seepage interface, resistant to medium reverse seepage.
The ceramic pore parameter electrode oozes out of the interface and is not easy to be blocked, which is suitable for monitoring of common water quality environmental media.
High-strength glass bulb design, the glass appearance is stronger.
The electrode adopts low noise cable, the signal output is farther and more stable
Large sensing bulbs increase the ability to sense hydrogen ions, and perform well in common water quality environment media. -
CS1545 pH Sensor
Designed for High temperature and biological fermentation process.
CS1545 pH electrode adopts the most advanced solid dielectric in the world and large-area PTFE liquid junction. Not easy to block, easy to maintain. The long-distance reference diffusion path greatly prolongs the service life of the electrode in harsh environments. With built-in temperature sensor (Pt100, Pt1000, etc. can be selected according to user requirements) and wide temperature range, it can be used in explosion-proof areas. -
CS1745 pH electrode
Designed for High temperature and biological fermentation process.
CS1745 pH electrode adopts the most advanced solid dielectric in the world and large-area PTFE liquid junction. Not easy to block, easy to maintain. The long-distance reference diffusion path greatly prolongs the service life of the electrode in harsh environments. With built-in temperature sensor (Pt100, Pt1000, etc. can be selected according to user requirements) and wide temperature range, it can be used in explosion-proof areas.