DMA 501 – Precision, efficiency and control at the heart of your measurements
The DMA 501 from Anton Paar is a digital density meter designed to facilitate density measurement in a wide range of applications, from laboratory quality control and production verification to on-site sample analysis. This model stands out for its compact size, ease of use and consistent results, even under difficult measurement conditions.
Equipped with a 7-inch touchscreen that can be used with gloves, the DMA 501 ensures smooth navigation and quick access to essential parameters. It is capable of analysing a variety of samples, including those that are pasty, inhomogeneous or contain particles, with a minimum sample volume of approximately 1 mL. This small sample size saves material while ensuring fast and reliable results.
The U-View™ system allows the user to view the inside of the measuring tube directly during analysis, making it easy to detect bubbles or incorrect filling. The FillingCheck™ function automatically analyses the quality of the filling, eliminating human error and increasing process reliability.
Fully compliant with ISO 15212-1 standards and pharmacopoeias such as USP <841> and Ph. Eur. 2.2.5, the DMA 501 meets the most stringent regulatory requirements. It provides stable and reproducible results with an accuracy of 0.001 g/cm³, making it an indispensable tool for demanding professionals.
Thanks to its modern interfaces (USB, Ethernet, RS232), the DMA 501 can be integrated into a digital environment immediately. It also provides access to a wide variety of output parameters, including density, bulk density, alcohol and sugar/extract tables, and API functions.
The DMA 501 is designed to adapt to real-world conditions. Robust, compact and intelligent, it embodies the perfect balance between measurement performance, ease of use and everyday efficiency.
Thanks to its consistent accuracy and field-proven design, the DMA 501 is a must-have tool for any professional looking to improve measurement reliability while optimising time and resources.
