For those seeking efficient cooling and style in their setup, the Jonsbo CR1400 EVO is a compact, quiet, and powerful air cooler solution designed for modern processors and compatible with various platforms. Equipped with ARGB, it combines thermal performance and impressive visuals, making it ideal for gaming setups and workstations.
Main Features • Versatile Compatibility: Supports Intel (LGA 1700, 1200, 1151, 1150, 1156) and AMD (AM4, AM5) sockets. • High Thermal Efficiency: 180W TDP, ideal for mid-range and high-end processors. • Optimized Heatpipes: 4 direct contact heatpipes, providing rapid heat dissipation. • Silent Fan: Operates with very low noise (maximum 25dBA), maintaining a quiet environment. • Customizable ARGB Lighting: ARGB LEDs compatible with 5V-3PIN controllers, allowing synchronization with other RGB components in the setup. • Compact and Efficient: 92mm fan with adjustable speed from 800 to 2200 RPM, offering constant airflow and excellent performance in a small space.
Technical Specifications
Model: Jonsbo CR1400 EVO
Fan Size: 92mm
Fan Speed: 800~2200RPM
Airflow: High efficiency for maintaining low temperatures even under load.
Connection: 4-PIN PWM and 5V-3PIN for ARGB
Material: Aluminum fins and copper heatpipes.
Maximum Noise: Only 25dBA
Useful life: 50,000 hours
Product Dimensions: Compact, ideal for smaller cases.
Package Contents • 1x Jonsbo CR1400 EVO Aircooler • 1x 92mm ARGB fan already installed • 1x Universal mounting kit for Intel and AMD • Installation manual
Design Highlights The Jonsbo CR1400 EVO combines the efficiency of a tower cooler with the visual appeal of its vibrant ARGB lighting, elevating your setup in both performance and style.
Care and Usage Tips
Clean the fins and fan regularly with compressed air to prevent dust buildup.
Do not apply alcohol directly to the cooler. To clean, use a soft cloth with a small amount of alcohol and allow to air dry in a well-ventilated area before use.
With the CR1400 EVO , you ensure efficient and silent cooling to keep your processor at the ideal temperature, even during high-performance moments.
