Modern shaking incubators typically adopt PID microcomputer intelligent control systems, which monitor and regulate internal temperature and shaking frequency in real time. For instance, at a constant temperature of 37°C, temperature uniformity can be maintained within ±0.5°C, and shaking frequency accuracy can reach ±1 rpm, providing a stable environment for microbial growth.
In addition, devices equipped with data storage and query functions can record up to one year of historical data and support USB export. Researchers can review real-time or historical curves to trace anomalies or optimize experimental conditions.
For long-duration experiments, the design of the cooling system is particularly important. Technologies such as frost-free operation and frequency conversion control ensure stable performance even at low temperatures like 4°C, preventing ice blockage and improving operational efficiency.
In daily laboratory management, features such as multi-level user authority, door-open protection, and over-temperature alarms help reduce operational risks and ensure safety.
With the advancement of laboratory digitalization, shaking incubators equipped with RS485 interfaces or mobile APP remote monitoring functions are becoming increasingly popular among research institutions.Our products are fully equipped with all the functions described above.
