SE2-F: Extreme Precision for Medical Applications
The Sartorius SE2-F is an ultra-microbalance specially designed for applications where precision must be unmatched. With a readability of 0.1 µg and a maximum capacity of 2.1 g, it stands out for its ability to measure minute deposits on laboratory filters. This performance is particularly essential in medical, pharmaceutical and environmental control environments, where compliance with ISO and USP regulations is mandatory. Thanks to this resolution, it enables laboratories to detect and quantify particulate residues with critical accuracy for biomedical research, contaminant assessment or manufacturing process monitoring.
Dedicated Filter Weighing Design
The SE2-F is designed for weighing filters up to 90 mm in diameter, with a low-profile stainless steel draft shield that minimises electrostatic interference. This technical detail ensures enhanced stability when handling extremely sensitive samples. The standard 50 mm weighing pan can be replaced with 75 or 90 mm options, offering flexibility for different analysis protocols. The weighing chamber is opened by a simple-to-use rotating lid, suitable for both right-handed and left-handed users. This ergonomic design reduces the risk of handling errors while ensuring repeatable measurements, even under intensive working conditions.
Reliability, Ergonomics and Compliance
Equipped with the isoCAL function, the SE2-F ensures automatic calibration and adjustment, triggered by temperature variation or at programmed intervals. This system guarantees reliable and reproducible results, integrated into quality management procedures that comply with ISO/GLP standards. Its average stabilisation time of only 10 seconds saves valuable time in laboratory workflows. The user interface, with a backlit graphic display and ergonomic keys, makes operation intuitive and safe. Thanks to its RS-232C communication port, it can be easily integrated into computerised systems, facilitating traceability and electronic documentation of critical data.
