| Applications | Pharmaceutical industry & Pharmaceutical products Chemical industry Fossil raw materials Glass, Ceramics & Plastics Industry Vehicles & Road Traffic Show all Shipping Smart Factory Electrical industry Mechanical engineering & Plant construction Metal industry Energy Semiconductor industry |
| Rise time (pressure) | 1 to 10 ms |
| Accuracy (±) | 0.15 to 1.5 % |
| Pressure measurement range | -1 to 400 bar |
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| Applications | Medical devices Pharmaceutical industry & Pharmaceutical products Chemical industry Fossil raw materials Paper industry & Pulp industry Show all Shipping Smart Factory Electrical industry Mechanical engineering & Plant construction Metal industry Energy Semiconductor industry |
| Response time | 5 to 8,000 ms |
| Pressure measurement range | 0 to 600 bar |
| Accuracy (±) | 0 to 0.5 % |
| Applications | Medical devices Pharmaceutical industry & Pharmaceutical products Chemical industry Glass, Ceramics & Plastics Industry Paper industry & Pulp industry Show all Shipping Smart Factory Electrical industry Mechanical engineering & Plant construction Metal industry Waste management Energy Semiconductor industry |
| Pressure measurement range | 0 to 100 bar |
| Accuracy (±) | 0 to 0.5 % |
| Measured media | Aggressive media Brake fluid Media containing solids Show all Refrigerant Corrosive media Paste-like media Acid Seawater Oils Non-aggressive media Water Salt water Wastewater Semifluid media Liquids Highly viscous liquids Rubber Non-corrosive liquids Coolant Contaminated media |
| Applications | Railways & Rail Transport Vehicles & Road Traffic Shipping Electrical industry Environmental monitoring / Environmental observation |
| Measurement accuracy | 2 % |
| Measuring range wind speed | 0 to 75 m/s |
| Measurement process | Ultrasonics |
| Applications | Medical devices Vehicles & Road Traffic Aerospace & Aviation Shipping Mechanical engineering & Plant construction Show all Metal industry Energy Semiconductor industry |
| Rise time (pressure) | 1 ms |
| Static pressure, max. | 100 bar |
| Accuracy (±) | 0.1 to 0.5 % |
| Applications | Pharmaceutical industry & Pharmaceutical products Chemical industry Fossil raw materials Glass, Ceramics & Plastics Industry Paper industry & Pulp industry Show all Vehicles & Road Traffic Shipping Heating/ Air conditioning/ Ventilation Fisheries & Aquaculture Smart Factory Electrical industry Mechanical engineering & Plant construction Metal industry Energy Semiconductor industry |
| Static pressure, max. | 1,000 bar |
| Scanning rate | 500 to 1,000 Hz |
| Reaction time | 2 ms |
| Applications | Shipping Electrical industry Mechanical engineering & Plant construction Metal industry Semiconductor industry |
| Rise time (pressure) | 2 ms |
| Pressure measurement range | 0 to 750 MPa |
| Diaphragm material | Ceramic |
| Applications | Shipping Electrical industry Mechanical engineering & Plant construction Metal industry Semiconductor industry |
| Rise time (pressure) | 2 ms |
| Pressure measurement range | 0 to 600 bar |
| Diaphragm material | Stainless steel |
| Applications | Vehicles & Road Traffic Shipping Mechanical engineering & Plant construction Metal industry Semiconductor industry |
| Accuracy (±) | 0.25 to 0.5 % |
| Pressure measurement range | -1 to 600 bar |
| Diaphragm material | Stainless steel |
| Applications | Shipping Mechanical engineering & Plant construction Metal industry Semiconductor industry |
| Accuracy (±) | 0.5 % |
| Pressure measurement range | 0 to 600 bar |
| Diaphragm material | Ceramic |
| Applications | Shipping |
| Accuracy (±) | 0.1 to 0.25 % |
| Pressure measurement range | 0 to 600 bar |
| Measured media | Paste-like media Fuels Oils Show all Water Semifluid media |
| Applications | Shipping |
| Medium temperature range | -25 to 125 °C |
| Protection class/protection class of electr. connection | IP67 |
| Number of wires | 2 |
| Applications | Shipping |
| Filling level | 0.4 to 200 mH2O |
| Accuracy (%) | 0.25 to 0.35 % |
| Air pressure measurement range | 0 to 20 bar |
| Applications | Shipping |
| Accuracy (%) | 0.35 % |
| Air pressure measurement range | 0 to 20 bar |
| Additional measurement possibilities | Filling level |
| Applications | Shipping |
| Accuracy (%) | 0.1 to 0.2 % |
| Air pressure measurement range | 0 to 20 bar |
| Medium temperature range/process temperature | -25 to 85 °C |
| Applications | Shipping |
| Rotation rate measurement range (±) | 10 to 400 °/s |
| Acceleration measurement range | 2 to 30 g |
| Sensitivity (Acceleration) | 90 to 1,350 mV/g |
| Applications | Shipping Energy |
| Sensor weight, approx. | 25 g |
| Dimension (width) | 48 mm |
| Dimension (height) | 24 mm |
| Applications | Shipping Energy |
| Sensor weight, approx. | 128 g |
| Dimension (width) | 65 mm |
| Dimension (height) | 60 mm |
| Applications | Shipping Energy |
| Sensor weight, approx. | 128 g |
| Dimension (width) | 65 mm |
| Dimension (height) | 60 mm |
| Applications | Railways & Rail Transport Vehicles & Road Traffic Aerospace & Aviation Shipping |
| Gyro angular random walk (ARW) | 0.06 °/√hr |
| Gyro Bias Stability | 0.8 °/hr |
| Acceleration measurement range | 4 to 10 g |
Modern sensor technology plays a crucial role in shipping, as it helps to improve the safety and efficiency of ships. A sensor is an electronic device that measures physical or chemical properties and converts them into an electronic signal. Various sensors are used in shipping to record important information such as position, speed, pressure, temperature and humidity. A GPS sensor, for example, enables ships to determine their exact position at sea, which is essential for navigation. Another important sensor in shipping is the speed sensor, which measures the speed of the ship relative to the surrounding water. This is crucial for calculating fuel consumption and optimizing speed to save time and money, and pressure sensors are used to monitor the water level and pressure in the tanks to prevent overfilling or leakage. Temperature sensors, in turn, help to monitor engine temperature and detect overheating to prevent damage to the ship's engines, and the use of sensors in shipping has also contributed to the development of autonomous ships. By using sensors to detect obstacles and avoid collisions, ships can navigate autonomously and reduce human influence, and overall, sensors play a crucial role in shipping by providing important data that helps improve the safety, efficiency and performance of ships. The possibilities for monitoring and controlling the ship's systems are being further expanded through the continuous development of sensor technology.