Are you experiencing issues such as temperature fluctuations, low energy efficiency, complex structure, or high maintenance costs in the design and operation of Climate (humidity) Chambers? /Incubator? While traditional compressor-based refrigeration systems meet basic requirements, they still have limitations in high-precision temperature control, rapid response, and long-term stability. How can your equipment achieve ±0.1°C ultra-high precision while improving energy efficiency and simplifying the system?
Poor temperature control accuracy: Traditional compressor-based systems suffer from slow response and large fluctuations (±1°C or more), compromising precision experiments.
High energy consumption: Frequent compressor cycling leads to excessive power usage, driving up long-term operational costs.
Complex maintenance: Refrigerant leaks, compressor vibrations, and mechanical failures increase service expenses.
Limited environmental adaptability: Cooling efficiency drops sharply in high ambient temperatures, while humidity stability remains challenging.
Designed to address critical industry challenges, our AA-220-24 Peltier assembly delivers unmatched accuracy, efficiency, and reliability:
Ultra-Precise Temperature Control for Competitive Advantage
Utilizes Peltier (TEC) technology for direct current-driven heating/cooling, achieving ±0. 1°C stability—ideal for semiconductor, pharmaceutical, and high-end testing applications.
Optimized temperature uniformity (≤0. 5°C variation) eliminates hot/cold spots, ensuring consistent test results.
Higher Energy Efficiency, Lower Operating Costs
Up to 90% more energy-efficient* than compressor systems during steady-state operation (*based on small-chamber testing under moderate ambient conditions).
No refrigerant losses or compressor inrush currents, reducing long-term power consumption.
Compact & Maintenance-Friendly Design
Modular integration simplifies installation into chamber airflow systems, saving space.
Solid-state operation with no moving parts—zero vibration, low noise, and minimal failure risks.
Broad Temperature adjust range
Rapid temperature transitions (-5°C to +70°C) for demanding test cycles.
Optional liquid cooling support ensures stable performance in high-temperature/high-humidity environments.
High Reliability
The AA-220-24 has undergone rigorous reliability testing, successfully enduring 0°C↔70°C thermal cycling for over 500, 000 cycles, ensuring long-term stability and durability in continuous operation. Whether for laboratory precision testing, pharmaceutical storage, or semiconductor aging tests, this module provides a more accurate and energy-efficient temperature control solution for constant climate chambers.
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