High Quality for Inline Water Conductivity Meter - CS6714D Digital Ammonium Nitrogen Ion Sensor – Chunye

Short Description:


Product Detail

Product Tags

Related Video

Feedback (2)

Our primary intention should be to offer our clientele a serious and responsible enterprise relationship, delivering personalized attention to all of them for Conductivity Electrode, Types Of Turbidity Meter, Ph Level Of Water Tester, We will wholeheartedly welcome all clients in the industry both at home and abroad to cooperate hand in hand, and create a bright future together.
High Quality for Inline Water Conductivity Meter - CS6714D Digital Ammonium Nitrogen Ion Sensor – Chunye Detail:

Ion selective electrode is a kind of electrochemical sensor that uses membrane potential to measure the activity or concentration of ions in the solution. When it comes into contact with the solution containing the ions which are to be measured, it will generate contact with the sensor at the interface between its sensitive membrane and the solution. Ion activity is directly related to membrane potential. Ion selective electrodes are also called membrane electrodes. This type of electrode has a special electrode membrane that selectively responds to specific ions. The relationship between the potential of the electrode membrane and the ion content to be measured conforms to the Nernst formula. This type of electrode has the characteristics of good selectivity and short equilibrium time, making it the most commonly used indicator electrode for potential analysis.

CS6714D Ammonium Ion sensor is solid membrane ion selective electrodes, used to test ammonium ions in water, which can be fast, simple, accurate and economical;

The design adopts the principle of single-chip solid ion selective electrode, with high measurement accuracy; 

PTEE large-scale seepage interface, not easy to block, anti-pollution Suitable for wastewater treatment in the semiconductor industry, photovoltaics, metallurgy, etc. and pollution source discharge monitoring;l

High-quality imported single chip, accurate zero point potential without drift ;l

Model No.

CS6714D

Power/Outlet

9~36VDC/RS485 MODBUS

Measuring method

Ion electrode method

Housing material

PP

Size

30mm* 160mm

Waterproof rating

IP68

Measurement range

0~1000mg/L (Customizable)

Resolution

0.1mg/L

Accuracy

±2.5%

Pressure range

≤0.3Mpa

Temperature compensation

NTC10K

Temperature range

0-50℃

Calibration

Sample calibration, standard liquid calibration

Connection methods

4 core cable

Cable length

Standard 10m cable or extend to 100m

Mounting thread

NPT3/4’’

Application

General application, river, lake, drinking water environmental protection, etc.


Product detail pictures:

High Quality for Inline Water Conductivity Meter - CS6714D Digital Ammonium Nitrogen Ion Sensor – Chunye detail pictures


Related Product Guide:

Our pursuit and enterprise goal is to "Always satisfy our customer requirements". We keep on to establish and style and design outstanding top quality goods for both our outdated and new prospects and realize a win-win prospect for our clientele likewise as us for High Quality for Inline Water Conductivity Meter - CS6714D Digital Ammonium Nitrogen Ion Sensor – Chunye , The product will supply to all over the world, such as: panama, Victoria, Slovenia, Our products have won an excellent reputation at each of the related nations. Because the establishment of our firm. we've insisted on our production procedure innovation together with the most recent modern day managing method, attracting a sizable quantity of talents within this industry. We regard the solution good quality as our most vital essence character.
  • The company's products can meet our diverse needs, and the price is cheap, the most important is that the quality is also very nice.
    5 Stars By Griselda from Denmark - 2018.10.31 10:02
    We are a small company that has just started, but we get the company leader's attention and gave us a lot of help. Hope we can make progress together!
    5 Stars By Karl from Florence - 2018.09.29 13:24
    Write your message here and send it to us