The Kern Analytical Balance offers precise weighing with a maximum capacity of 210g and a readability of 0.1mg (0.0001g). Designed for laboratory accuracy, it features external calibration for reliable and traceable measurements. Ideal for scientific research, quality control, and pharmaceutical applications requiring high precision, this model also delivers an optimised price-performance ratio, making it a practical choice for laboratories, universities, and schools.
Product Features
- Maximum capacity: 210g
- Readability: 0.1mg (0.0001g)
- External calibration for high accuracy and traceability
- Compact and durable design suited for laboratory use
- Large glass draft shield with 3 sliding doors for easy access—ideal for weighing large, light samples (e.g., polystyrene, tissue, plastic parts)
- Wired display device can be positioned separately to avoid heat transfer and improve ergonomics
- Ergonomically optimised keypad for both left- and right-handed users
- Percentage determination function: store a target value (100%) and calculate deviations
- Adjusting program CAL with external test weights (available at additional cost)
- Clear backlit display for easy result reading
- Optional DAkkS Calibration/Verification certificate available on request
Benefits
- High precision measurements for demanding analytical tasks
- Traceable calibration ensures compliance with industry standards
- Draft shield reduces weighing errors caused by air currents
- Flexible, ergonomic setup supports user comfort and accuracy
- Optimised price-performance ratio suitable for educational and professional labs
- Reliable and durable construction for long-term use
Why Choose the Kern Analytical Balance?
With its high readability and external calibration option, the Kern Analytical Balance is ideal for laboratories that demand accuracy and consistency. Enhanced by ergonomic design features, percentage determination, and a large draft shield, it provides reliable, traceable results essential for research, quality assurance, and advanced teaching environments.
