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| Applications | Pharmaceutical industry & Pharmaceutical products Chemical industry Railways & Rail Transport Vehicles & Road Traffic Heating/ Air conditioning/ Ventilation Show all Rail vehicle construction Energy Laboratory technology Construction |
| Response time | 5 to 8,000 ms |
| Pressure measurement range | 10 to 1,000 bar |
| Accuracy (±) | 0 to 0.5 % |
Favorites Product comparison | Applications | Medical devices Laboratory technology |
| Accuracy | 3 % |
| Detection range water/ liquid media (l/min) | 500 to 2,000 ml/min |
| Measured medium | Beer Chemically neutral Printing inks Show all Liquids Coolant Conductive liquids Low-viscosity liquids Pharmaceutical Lubricants Water with glycol Human blood Cooling water Conductive, liquid media |
Favorites Product comparison | Applications | Pharmaceutical industry & Pharmaceutical products Chemical industry Laboratory technology |
| Detection range water/ liquid media (l/min) | 0 to 3,000 ml/min |
| Measured medium | Beer Liquids Hygienic applications Show all Conductive liquids Low-viscosity liquids Vegetable oil Pharmaceutical Lubricants Water Water-based media Coolant Liquid media Fruit juices Water with glycol Human blood Glycol solutions Cooling water Process water Water-based liquids Conductive, liquid media |
| Measurement principle | Ultrasound technology |
Favorites Product comparison | Applications | Medical devices Pharmaceutical industry & Pharmaceutical products Chemical industry Laboratory technology |
| Supply voltage | 5 to 30 V DC |
| Hose diameter (internal) | 3.2 to 19 mm |
| Housing material | ABS plastic |
Favorites Product comparison | Applications | Heating/ Air conditioning/ Ventilation Environmental & Energy technology Laboratory technology |
| Operating temperature range | 0 to 50 °C |
| Pressure measurement range | 0.2 to 30 bar |
| Pressure type | Absolute pressure Absolute |
Favorites Product comparison | Applications | Medical devices Heating/ Air conditioning/ Ventilation Electrical industry Mechanical engineering & Plant construction Laboratory technology |
| Pressure measurement range | -5 to 5 mbar |
| Compensated temperature range | -20 to 80 °C |
| Pressure type | Relative pressure Low pressure Differential pressure |
Favorites Product comparison | Applications | Medical devices Laboratory technology |
| Sensor weight, approx. | 0.5 g |
| Dimension (width) | 8.13 mm |
| Dimension (depth) | 480 mm |
Favorites Product comparison | Applications | Electrical industry Mechanical engineering & Plant construction Laboratory technology |
| Measurement range/adjustment range | -1 to 10 bar |
| Pressure type | Relative pressure |
| Measured media | Air Non-aggressive gases |
Favorites Product comparison | Applications | Hospital engineering Heating/ Air conditioning/ Ventilation Electrical industry Laboratory technology |
| Dimension (width) | 1.35 mm |
| Pressure measurement range | -30 to 30 bar |
| Pressure type | Relative pressure Differential pressure |
Favorites Product comparison | Applications | Medical devices Electrical industry Mechanical engineering & Plant construction Laboratory technology |
| Dimension (width) | 1.34 mm |
| Dimension (depth) | 480 mm |
| Pressure measurement range | 5 to 150 psi |
Favorites Product comparison | Applications | Vehicles & Road Traffic Shipbuilding Laboratory technology |
| Pressure measurement range | 0 to 500 psi |
| Sensor type | Pressure transmitter |
| Pressure type | Differential pressure |
Favorites Product comparison
A sensor is an indispensable tool in laboratory technology. Thanks to its ability to detect and measure physical or chemical changes, it enables precise and reliable experiments and analyses. There are different types of sensors that are used in laboratory technology. One example of this is the temperature sensor, which can measure the temperature of a reaction mixture or a medium. This is particularly important as the temperature often has a decisive influence on the results of an experiment. Another important sensor in laboratory technology is the pH sensor. It measures the pH value of a solution and thus provides information about its acidity or alkalinity. This is particularly important for chemical reactions, as the pH value is often a decisive factor for the course of a reaction. The pressure sensor is also an indispensable instrument in laboratory technology. It measures the pressure of a liquid or gas and thus enables the control of pressure ratios in experiments. The use of sensors in laboratory technology has many advantages. They enable precise and accurate measurement of physical and chemical quantities, which leads to reliable results. They also enable automatic data recording, which makes work in the laboratory more efficient. Overall, sensors play a crucial role in laboratory technology, as they enable precise measurement and control of physical and chemical variables.