Cougar MX440 Mesh RGB Mid Tower Cabinet – CGR-56C1B-MESH-RGB
Powerful Airflow Mid Tower with Sturdy and Solid Style
MX440 Mesh RGB’s design has continued COUGAR’s iconic sturdy and solid style. With included three RGB fans and a mesh front panel, it combines excellent air flow performance and great lighting view. Besides, it has wide and powerful interior spaces, which allows you to have hardware expandability, high cooling performance, and abundant storage space.
Strength, Sturdy, and Superior Airflow
MX440 Mesh RGB’s front panel features bold lines and rugged structures. It is the chassis that brings the new concept of strength and sturdy to the gaming world. Moreover, the mesh front panel provides superior airflow and keeps your advanced components safe from overheating.
Incredible RGB Lighting
MX440 Mesh RGB comes with 3 RGB fans. You are freely to control several amazing lighting effects that we have preset for you with the dedicated RGB button.
Massive Tempered Glass Left Panel
With the full-length PSU cover hides cables and a massive tempered glass left panel presents a clean and tidy build, you can easily build a pro-level system.
Wider but More Compact and Powerful
MX440 Mesh RGB’s 215mm width allows much larger interior space with better cooling performance and cable management. However, its compact exterior dimension takes up less desktop space. MX440 Mesh RGB can surely fit a full-sized ATX Motherboard, 320mm-length Graphic card, four 2.5” SSDs, and two 3.5” HDDs, which allow you to achieve the extreme operation and abundant storage space.
Sufficient for Multiple USB Devices
The top panel is equipped with two USB 3.0 ports and one USB 2.0 ports, let you easily connect multiple peripheral devices and accessory charging. Not only optimize your processing experiences, but also keep all USB devices without limitations.
Strong Cooling Performance
MX440 Mesh RGB’s interior space supports up to 170mm height CPU air cooler, a 360mm water cooling radiator, and high-end cooling components. It helps you to protect critical components from overheating.