Microbalance MYA 2.5Y: Performance and Precision for Ultra-High Accuracy Weighing
The Radwag MYA 2.5Y microbalance is a specialized weighing instrument designed for micro-sample measurement up to 2.1 grams, with an outstanding readability of 1 microgram. Engineered for laboratories requiring strict traceability and high-level accuracy under controlled environmental conditions, this device excels in applications such as formulation, pipette calibration, differential weighing, and density determination.
The Reflex Level System provides fully automated leveling with no manual intervention required, while the internal automatic adjustment ensures continuous measurement accuracy without process disruption. The 10-inch touchscreen display offers intuitive access to a wide array of functions: percent weighing, piece counting, dosing, statistical analysis, pre-packaged goods control, animal weighing, and other essential features for regulated environments such as pharmaceutical or chemical laboratories.
Compliant with OIML Class I standards, the MYA 2.5Y also includes advanced functionalities such as air density correction, ALIBI memory, and full compatibility with GLP procedures. Its broad communication capabilities—Wi-Fi, USB-C, HDMI, RS 232, and Ethernet—enable seamless integration into laboratory information systems. The modern interface also supports optional accessories like a fingerprint reader or receipt printer to enhance the user experience.
With exceptional repeatability of up to 0.41 µg at 5% load, the MYA 2.5Y is indispensable for ultra-precise metrology. Its compact 90 mm weighing chamber is equipped with automatic doors, ensuring clean, safe, and convenient sample handling. The balance is compatible with a full set of standard components, including a glass draft shield, brush, tweezers, and dust cover.
Operational between 10 °C and 40 °C with a maximum humidity variation of ±1%/h, the MYA 2.5Y ensures consistent performance even under slightly fluctuating ambient conditions. It is the ideal solution for applications demanding stability, reliability, and uncompromising precision.
