ONLINE INDUCTIVE CONDUCTIVITY ELECTRODE
The advantage of the common electrode type is the price, but the defect of its "polarization" is too obvious. When a current passes through the electrode, an oxidation or reduction reaction occurs, thereby changing the composition of the solution near the electrode, causing a "polarization" phenomenon, resulting in crystallized scale on the surface of the electrode. If not cleaned in time, it will cause serious errors in conductance measurement, even Damaged, the service life is not satisfactory. Even with the high-frequency alternating current measurement, it only reduces the above-mentioned polarization phenomenon. In order to maintain measurement accuracy, it must be cleaned and calibrated regularly. Every time the sensor is cleaned or replaced, it must be shut down and interrupted, which affects efficiency. Therefore, most foreign equipment uses stepless sensors.
BOQU Instrument developed the new generation DDG-GY series inductive conductivity sensor overcomes many difficulties of the existing sensor, and integrates the signal processing line into an embedded integrated circuit ASIC with MCU, which has all the functions of conductivity measurement and digitization. This allows the sensor to be pre-calibrated before shipment and the calibration value is permanently stored in the probe.The working life can be over 10 years.
|Product||DDG-GY ONLINE INDUCTIVE CONDUCTIVITY ELECTRODE|
Maximum pressure (bar)
Electrode body materials
Max working temperature
0~2ms/cm 0 ~ 10ms/cm, 0 ~ 20ms/cm, 0 ~ 200ms/cm, 0 ~ 2000ms/cm
0~10% HCL,0~10% NaOH ,25~40%NaoH,0~15%NHO3,0~30%H2SO4,92~99%H2SO4
Accuracy (cell constant)
±(+25 us to measure the value of 0.5%)
Flow-through, pipeline, Buried
Pipe threads 1 ½ or ¾ NPT
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