Conductivity (EC)
What is TDS / Conductivity?
Conductivity is an expression of the ability of a solution to conduct electric current. It is expressed as a microsiemen (micro-Siemens per centimeter or µS/cm) or in higher conductivity levels as a millisiemen. Some industries such as water treatment have adopted a measurement expressed as TDS (Total Dissolved Solids). TDS is approximated with conductivity using a multiple factor and is expressed in parts per million (ppm).
How is TDS / Conductivity Measured?
Contacting Conductivity Sensors
Contacting conductivity sensors measure conductivity with two surfaces in contact with the sample. These surfaces can be constructed of graphite, stainless steel, platinum, or similar materials. An AC voltage waveform is sent through one contact of the sensor and passes through the liquid being measured. The second contact surface receives the signal. The resulting measurement determines the conductivity of the water and is displayed on a conductivity instrument which expresses the measurement as microsiemens, millisiemens, or total dissolved solids (ppm).
Conductivity Sensors
Conductivity sensors may have different features that make them more or less suitable for different applications. For example, the conductivity cell constant determines whether a probe is suitable for measurements in solutions with low conductivity (ultra pure) or high conductivity (concentrated). From light duty laboratory style probes to stainless steel boiler conductivity cells, Sensorex has designed our conductivity product range to fit different application needs.
Laboratory
for Benchtop & Sampling Use
Ideal for Laboratory, Environmental, and Light Industrial Use
2 Cell Contacting Conductivity Measurement Principle
Cell Constant K=0.1 or K=1
Submerge in a Tank, Mount in a Pipe, or Use with a Benchtop Meter
70⁰ C Maximum Temperature
Online
for Cooling Tower Applications
Developed for Monitoring TDS in Cooling Towers
2 Cell Contacting Conductivity Measurement Principle
Cell Constant K=1
Detachable Cable Assembly for Quick & Easy Installation
60⁰ C Maximum Temperature
Stainless Steel
for Boiler Applications
Designed for High Temperature, High Pressure Boiler Applications
2 Cell Contacting Conductivity Measurement Principle
Cell Constant K=0.1 or K=1
Industrial Grade 316 Stainless Steel Body with PEEK Insert
200⁰ C Maximum Temperature
Toroidal
for Chemical & Industrial Use
Resists Effects of Coating and Polarization in High TDS Solutions
Toroidal Conductivity Measurement Principle
Range: 0-2000mS
Requires Little to No Cleaning and Maintenance
105⁰ C Maximum Temperature
Custom Conductivity / TDS Sensor Design & Manufacturing
Designing a new water treatment product? We can help. Sensorex specializes in the design and manufacture of custom water analysis sensors for our OEM partners. Collaborate with our expert team of engineers and chemists to design a conductivity sensor that meets the needs of your system. Body size and shape, materials of construction, measurement range, cable length, connector type and other features can be adjusted to fit your application requirements.
Why is TDS / Conductivity Measurement Necessary?
From controlling biocide and scaling in cooling towers and boilers to the water you drink, conductivity plays a part in a multitude of applications across many industries.
Common Applications:
- Monitoring reverse osmosis (RO)
- Chemical concentration monitoring
- Cooling tower & boiler protection
- Environmental monitoring
- Industrial effluent monitoring
- Control of activated sludge process
- Profiling conductive dissolved solids content in water
