Conductivity is a measure of a medium’s ability to conduct an electrical current. It is influenced by the number of free ions (like salts, acids and bases) in the medium as well as the temperature of the medium. The more free ions, the higher the conductivity. Typically, a conductivity sensor consists of two metal plates that come in contact with the medium. A voltage is applied across the two electrodes creating a current in the medium. The positively charged ions (cations) move to the negatively charged electrode while the negatively charged ions (anions) move to the positively charged electrode. The more free ions in the medium, the higher the current flow and therefore, the higher the conductivity.
SI units of measure for conductivity is Siemens per meter (S/m) and the derivations -- µS/cm (one millionth of a S/cm) and mS/cm (one thousandth of a S/cm). The chart below provides conductivity values for a few common fluids.
There are two types of conductivity measurement technologies – galvanic and inductive. The choice of which to use depends on the fluid conductivity, the corrosiveness of the liquid and the amount of suspended solids.
ifm's galvanic conductivity sensor has two metal electrodes, like other contacting conductivity sensors.
The difference with our design is that the sensor housing and surrounding metal pipe serves as one electrode and the metallic sensor tip is the second electrode. When a voltage is applied, a current flows from the tip through the medium to the housing.
An inductive conductivity sensor consists of two wire-wound metal coils encased in a plastic body (ifm products use PEEK). One coil, the transmission coil, induces a voltage in the medium, which, in turn causes an alternating current. This current induces a voltage in the second or receiving coil, which is proportional to the conductivity of the medium.
Inductive conductivity measurement has several benefits:
Temperature has a significant influence on media conductivity – approximately 1 – 5% per °C. All conductivity sensors include a built-in temperature sensor to compensate the measurement as media temperature changes.
Cord grips and terminal chambers are sources of ingress. This is often a weak point for instruments installed in washdown environments. The LDL family reduces failures by providing an all-in-one transmitter rated IP68 / IP69K. It consists of a one-piece stainless steel housing and machined PEEK measuring tip with no terminal chambers or cable cord grips.
All LDL conductivity units come factory calibrated and ready to use out-of-the-box. Factory Calibration Certificates can be downloaded at no cost from our website with the sensor serial number.
Using IO-Link, the sensors can also be field calibrated against a standard or reference solution using the Calibration Gain (CGA) parameter.