Endress+Hauser Memosens technology has revolutionized liquid analysis by converting the measured value to a digital signal and transfering it inductively to the transmitter, ensuring increased availability of the measuring point and trouble-free processes.
With Memosens 2.0, liquid analysis becomes future-proof and ready for Industrial Internet of Things (IIoT). This new technology is available for pH/ORP, conductivity and dissolved oxygen sensors, and will be extended to the complete sensor portfolio for liquid.
Memosens 2.0 sensors store numerous relevant data points such as operating hours, minimum and maximum temperatures and measured values, calibration histories and load matrices. This data can be used and processed for comprehensive analysis and more precise process management. The sensors also provide a basis for predictive maintenance strategies with Endress+Hauser’s Heartbeat Technology and enhanced IIoT services via the Netilion ecosystem.
Memosens 2.0 combines cutting-edge technology with practicability. Because the sensors are equipped with highly integrated electronics they can be calibrated and adjusted under lab conditions that are favorable for the operator and stable for precise results.
Replacing sensors in the field is a simple process thanks to the lockable bayonet connector and automatic sensor identification by the transmitter. This reduces process downtime and stand-by hours of analysis experts.
Non-contact digital data transmission eliminates the effects of moisture, corrosion and salt bridges with alert messaging if the signal transmission is disturbed. Galvanic isolation ensures interference-free measurement and EMC safety.
Memosens 2.0 offers error-free flexibility for measuring points in hazardous areas, since all Memosens 2.0 Ex sensors can be connected to all Endress+Hauser transmitters with the respective approvals.
Memosens sensors are proven in use in all industries and is backwards-compatible and can easily be integrated into existing systems, taking the next step towards a future-proof liquid analysis.
