| 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 |
Waste management
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| Applications | Fisheries & Aquaculture Waste management |
| Temperature resolution | 0.1 °C |
| Resolution | 1 µS/cm |
| Temperature measurement range | 0 to 60 °C |
| Applications | Vehicles & Road Traffic Forestry Waste management Environmental monitoring / Environmental observation Construction |
| Signal output | 4…20 mA |
| Interfaces/protocols | RS-485 USB Modbus RTU Show all ASCII protocol SDI-12 SDI12 |
| Switching output | Reed contact Puls output |
| Applications | Chemical industry Fossil raw materials Glass, Ceramics & Plastics Industry Vehicles & Road Traffic Heating/ Air conditioning/ Ventilation Show all Smart Factory Electrical industry Mechanical engineering & Plant construction Metal industry Waste management Energy Semiconductor industry |
| Static pressure, max. | 700 bar |
| Scanning rate | 250 to 1,000 Hz |
| Pressure measurement range | -1 to 700 bar |
| Applications | Fisheries & Aquaculture Waste management |
| Resolution | 0.01 mg/l |
| Temperature resolution | 0.01 °C |
| Measurement range (dissolved oxygen) | 0 to 20 mg/l |
| Applications | Medical devices Mechanical engineering & Plant construction Metal industry Waste management Energy Semiconductor industry |
| Accuracy (±) | 0.1 to 0.5 % |
| Pressure measurement range | -1 to 40 bar |
| Diaphragm material | Stainless steel 1.4435 |
| Applications | Mechanical engineering & Plant construction Metal industry Waste management Energy Semiconductor industry |
| Accuracy (±) | 0.1 to 0.5 % |
| Pressure measurement range | -1 to 40 bar |
| Diaphragm material | Stainless steel 1.4435 |
| Applications | Medical devices Mechanical engineering & Plant construction Metal industry Waste management Energy Semiconductor industry |
| Medium temperature range | -40 to 125 °C |
| Protection class/protection class of electr. connection | IP 68 IP65 IP67 |
| Number of wires | 2 |
| Applications | Waste management |
| Interfaces | Ethernet |
| Protection class | IP 65 |
| Inspection of/material | Bulk materials Piece goods |
| Applications | Mechanical engineering & Plant construction Waste management |
| Accuracy (%) | 0.25 % |
| Measurement range from... to | -1 to 600 bar |
| Measurement rate | 5 Hz |
| Applications | Mechanical engineering & Plant construction Waste management |
| Accuracy (%) | 0.5 % |
| Measurement range from... to | 0 to 250 bar |
| Measurement rate | 1 Hz |
| Applications | Waste management |
| Switching voltage, max. | 1,000 V |
| Switching current, max. | 2 A |
| Switching output | Relay |
| Applications | Waste management |
| Breaking load (% of nominal load) | 150 % |
| Input resistance | 750 Ω |
| Limit load (% of nominal load) | 120 % |
| Applications | Waste management |
| Breaking load (% of nominal load) | 250 % |
| Input resistance | 400 Ω |
| Limit load (% of nominal load) | 120 % |
| Applications | Electrical industry Mechanical engineering & Plant construction Metal industry Waste management Semiconductor industry |
| Breaking load (% of nominal load) | 300 % |
| Input resistance | 1,100 Ω |
| Limit load (% of nominal load) | 200 % |
| Applications | Smart Factory Smart Farming Electrical industry Mechanical engineering & Plant construction Metal industry Show all Waste management Semiconductor industry |
| Breaking load (% of nominal load) | 300 % |
| Input resistance | 1,100 Ω |
| Limit load (% of nominal load) | 200 % |
| Applications | Smart Factory Smart Farming Electrical industry Mechanical engineering & Plant construction Metal industry Show all Waste management Semiconductor industry |
| Breaking load (% of nominal load) | 300 % |
| Input resistance | 1,100 Ω |
| Limit load (% of nominal load) | 200 % |
| Applications | Mechanical engineering & Plant construction Metal industry Waste management Semiconductor industry |
| Switching frequency max. | 10 to 50 Hz |
| Switching current, ohmic load | 125 mA |
| Signal output | 4…20 mA |
| Applications | Mechanical engineering & Plant construction Metal industry Waste management Semiconductor industry |
| Switching frequency max. | 10 Hz |
| Switching current, ohmic load | 70 to 125 mA |
| Signal output | 0…10 V 4…20 mA |
| Applications | Mechanical engineering & Plant construction Metal industry Waste management Semiconductor industry |
| Switching frequency max. | 10 to 50 Hz |
| Switching current, ohmic load | 70 to 125 mA |
| Signal output | 0…10 V 4…20 mA |
The applications of sensors in waste management offer numerous advantages for the efficiency and sustainability of this sector. Sensors can be used in various areas to optimize the waste process and save resources, one example being waste garbage can monitoring. By using sensors on the garbage cans, fill levels can be recorded automatically. This enables more efficient planning of waste collection, as the garbage can is only emptied when it is actually full. This avoids unnecessary emptying and saves journeys, which in turn leads to a reduction in CO2 emissions. another area of application is the sorting of waste. Sensors can be used here to identify and separate different materials. This facilitates the recycling processes and increases the quality of the recycled material. This means that valuable resources can be recovered and the environmental impact reduced at the same time, and sensors can also be used in composting. They help to monitor the moisture content and temperature of the compost. This can improve the quality of the compost and prevent the formation of unpleasant odors or harmful gases. overall, the applications of sensors in waste management offer great potential for making the waste process more efficient and sustainable. The use of sensors can conserve resources and reduce the environmental impact. It will be exciting to see how this technology develops and what new applications will emerge.