SARTORIUS MODEL MCE36201S – 2S00-0

Features

Cubis MCE36201S-2S00-0 Electronic High-Capacity Presicion Balance with user interface MCE with large, high-contrast liquid-crystal display, weighing capacity 36200 g, readabilty 100 mg.

The New Generation of Modular Premium Laboratory Balances

For scientists in R&D and analytical laboratories needing the most reliable lab weighing results, the Cubis® II from Sartorius is a completely configurable, high performance portfolio of balance hardware and software that will align with your unique demands and compliance requirements to maximize operational efficiency and experimental outcomes.

All modules of the Cubis® II balance were designed for an intuitive operation, further aided by intelligent diagnostic systems. These design elements guarantee a higher degree of repeatability for different workflows while lowering the probability of human error during measurement.

Trusted Results The Cubis® II balance offers several advantages over other lab balances:

• Leading Performance: the Cubis® II balance offers best-in-class performance, including high-capacity and high readability, regardless of sample type
• Error-free Operations: Ensure a high level of trust and transparency by using Cubis® II’s functionality to assess relevant factors during data acquisition.
• Full End-to-End Data Integrity: Ensure your data is reliable and cannot be manipulated with Cubis® II’s user management function and LIMS connectivity.
• Reliable Support: Our lab weighing team provides expert support to help ensure your success, even when making very specific and/or unique requests.

The modular weighing system Cubis® II can be individually configured from different components. The combinability of the display unit, weighing module, draft shield, software packages for various applications and functions and a comprehensive range of accessories allows the individual adaptation of the Cubis® II balance to all weighing tasks. The Cubis® II range of premium laboratory balances with a maximum load between 2.1 g and 70 kg and a readability between 0.1 ìg to 1 g provide the ideal model for every application.