Skip to content Skip to navigation menu

Cubis® II Balances

The New Generation of Modular Premium Laboratory Balances

   

Choose your product

Narrow your results

Filter by product attributes

Products (6)

Cubis® II Microbalances
Cubis® II Microbalances
Item no.: CUBIS_II_MICRO
Brand
Cubis® II
Balance Type
Micro balance
Maximum Weighing Capacity
2.1 g – 10.1 g
Readability
0.0001 mg – 0.001 mg
Cubis® II High-Capacity Balances
Cubis® II High-Capacity Balances
Item no.: CUBIS_II_HIGH_CAPACITY
Brand
Cubis® II
Balance Type
High capacity balance
Maximum Weighing Capacity
11200 g – 70200 g
Readability
100 mg – 1000 mg
Cubis® II Precision Balances
Cubis® II Precision Balances
Item no.: CUBIS_II_PRECISION
Brand
Cubis® II
Balance Type
Precision balance
Maximum Weighing Capacity
320 g – 70200 g
Readability
1 mg – 1000 mg
Cubis® II Analytical Balances
Cubis® II Analytical Balances
Item no.: CUBIS_II_ANALYTICAL
Brand
Cubis® II
Balance Type
Analytical balance
Maximum Weighing Capacity
120 g – 520 g
Readability
0.01 mg – 0.1 mg
Cubis® II Ultra-Micro Balances
Cubis® II Ultra-Micro Balances
Item no.: CUBIS_II_ULTRA-MICRO
Brand
Cubis® II
Balance Type
Ultra-micro balance
Maximum Weighing Capacity
2.1 g
Readability
0.0001 mg
Cubis® II Semi-Micro Balances
Cubis® II Semi-Micro Balances
Item no.: CUBIS_II_SEMI-MICRO
Brand
Cubis® II
Balance Type
Semi-micro balance
Maximum Weighing Capacity
120 g - 225 g
Readability
8.2 mg
Results per page: | |

For scientists in R&D and analytical laboratories needing the most reliable lab weighing results, the Sartorius Cubis® II 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 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.