| BENCHTOP CO₂ Resistant Shaker The ZWY-304C Benchtop CO₂ Resistant Shaking Incubator integrates advanced magnetic drive technology with a FOC vector control system, delivering exceptional stability, low energy consumption, and excellent durability under harsh environment conditions. Its compact footprint combined with powerful performance makes it an ideal solution for biological research, pharmaceutical development, and multi-scenario laboratory applications requiring reliable orbital shaking under demanding environments. Magnetic Direct Drive System Equipped with a high-torque magnetic driver, the system operates at low power consumption (18W), with smooth motion, low noise, and minimal vibration. Extremely low heat emission poses no risk the stable temperature control inside the incubator. Compared with traditional belt-driven mechanisms, the maintenance-free design significantly enhances long-term reliability and service life while eliminating belt wear and particulate contamination. 
Adjustable Shaking Orbit 10-level orbit diameter adjustment (3–50 mm) allows flexible configuration to accommodate different vessel sizes and experimental requirements, enabling both gentle mixing and vigorous shaking within a single platform. Maximum loading weight up to 7.5kg. 
Dual Intelligent Control Modes ▶ Fixed-Value Mode: Quickly set speed and time with intuitive operation. ▶ Program Mode: Supports multi-step programs (up to 9 segments), enabling complex experimental workflows while also covering routine culture applications. High-Precision Speed Regulation Speed range 20–350 rpm, accuracy up to ±1 rpm. Excellent uniformity and repeatability are maintained at both low and high speeds, ensuring reliable experimental results. High-Durability Structural Design Constructed with high-performance materials suitable for long-term operation in extreme environments 37°C, CO₂ 20%, up to 95%RH; such as CO2 incubators and artificial climate chambers. 
Handheld Intelligent Controller Independent handheld controller enables remote operation without opening the incubator door, minimizing environmental fluctuations. The intuitive interface provides real-time parameter visibility and simple, efficient operation. 
Safety & Intelligent Protection System 
Dual Protection: Stall & Overspeed Alarm Independent handheld controller enables remote operation without opening the incubator door, minimizing environmental fluctuations. The intuitive interface provides real-time parameter visibility and simple, efficient operation. Power-Failure Memory & Auto-Recovery Automatically resumes previous operating status after power restoration, preventing experimental interruption and improving workflow continuity. Parameter Lock & Anti-Misoperation Critical parameters can be password-protected to prevent accidental modification, ideal for shared laboratory environments. Selectable Motor Rotation Direction Supports forward and reverse rotation to accommodate various vessels and experimental needs. 
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