Contacting Conductivity Sensor/Probe for Water, 0~2000μs/cm

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$314.55

Buy a good price contacting conductivity sensor/probe for water. A contacting conductivity sensor/probe can detect the conductivity of aqueous solution, NPT 1/2 or NPT 3/4 thread installation is optional. The measurement range is 0~2000μs/cm, the temperature range is 0℃~60℃, built-in temperature probe, temperature compensation can be performed, suitable for power plants, water treatment industry, etc.

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SKU: ATO-CS-1.0

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Delivery date: 6-12 days

Overview

Contacting conductivity sensor can measure the conductivity value in water in real time, and has a wide range of applications. The sensing surface material of the contacting electrical conductivity sensor/probe for water adopts a double-cylinder structure of titanium alloy, which can resist the corrosion of most liquids. Low-noise cable directly leads out, 0~2000μs/cm measurement range, real-time response and accurate data. It is an ideal device for measuring water conductivity.

Specifications

Model	ATO-CS-1.0
Electrode Constant	k=1.0
Measurement Range	0μs/cm~2000μs/cm
Temperature Range	0℃~60℃
Accuracy	±1%F.S.
Power Supply	AC 90V~260V
Thermistor	NTC10K
Withstand Voltage	<0.6MPa
Sensing Surface Material	Double cylinder structure titanium alloy
Housing Material	316L, titanium alloy, platinum
Thread	NPT 1/2 or NPT 3/4 thread installation is optional
Connection	Low-noise cable direct lead-out
Installation Method	Immersion type, flow type, pipeline type, etc.
Application Range	Power plants, water treatment industry, etc.
Cable	Standard 5m

Features

High accuracy, good stability, accurate measurement results, fast and stable response.
The contacting conductivity sensor/probe for water adopts a double cylinder structure and is made of titanium alloy.
The anti-penetration conductive surface is resistant to all liquids except fluorinated acid, and is anti-pollution and anti-interference.
The contacting conductivity transmitter has a built-in temperature probe for temperature compensation.

Installation

Application

Tips: Contacting conductivity sensor vs. inductive conductivity sensor

1. Contacting conductivity sensor

Principle: Directly contact the liquid through two or more electrodes (usually platinum or graphite), measure the current generated in the liquid after applying voltage, and calculate the conductivity.
Advantage: High accuracy, especially suitable for measuring low conductivity (such as pure water). Fast response, stable data, simple structure and relatively low cost.
Disadvantage: The electrode is easily contaminated or scaled and needs to be cleaned regularly. It is not suitable for corrosive or high-concentration solutions, has a limited life, and requires good maintenance to maintain measurement accuracy for a long time.

2. Inductive conductivity sensor

Principle: Using the principle of electromagnetic induction, there are two coils inside the sensor (one transmitting coil and one receiving coil). When the conductive liquid passes through the sensor, the electromagnetic field induces a current in the liquid, which is then detected by the receiving coil and converted into conductivity.
Advantage: Non-contact measurement, no electrode contamination or corrosion problems, suitable for measuring high-concentration, highly polluted, highly corrosive liquids (such as acid and alkali solutions), almost maintenance-free, long service life, can be used for continuous online monitoring, strong anti-interference ability.
Disadvantage: Not suitable for low conductivity liquids (such as ultrapure water), high cost, and usually larger in size than contact sensors.

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