The GC2522 rounds out the GC255 series of compact gaming cabinets, offering the same proven structural design and component compatibility in a distinct visual form. Like its siblings in the series, it is constructed from 0.35mm SPCC steel, providing a solid chassis that comfortably handles the rigours of assembly and extended use.
Dimensionally, the GC2522 measures 265?165?340mm (product size) with a structure size of 255?165?340mm. This compact footprint makes it suitable for desk builds, media centre setups, or any environment where a smaller PC form factor is preferred. The cabinet supports Micro-ATX motherboards up to 244?225mm and Mini-ITX boards, giving builders a generous choice of platforms.
Internally, the GC2522 supports CPU coolers up to 150mm tall, compatible with the majority of air-cooling solutions. Discrete GPUs up to 250mm in length are accommodated, covering most 1080p and entry-level 1440p cards. The ATX power supply mounts at the top of the chassis, maintaining a clear zone around the GPU and motherboard.
The storage configuration provides one 3.5-inch HDD bay and one 2.5-inch SSD bay for versatile storage combinations. Four rear expansion slots offer room for a graphics card plus additional PCIe devices, such as sound cards or Wi-Fi adapters.
The cooling infrastructure includes a rear 80mm fan position and a left-side 120mm fan position, enabling an effective intake-exhaust airflow cycle. This setup keeps CPU and GPU temperatures manageable under sustained loads, making the cabinet suitable for both gaming and productivity workloads.
Front panel connectivity is provided by 2? USB 2.0 ports and a combined Audio/Mic jack ? functional, straightforward, and compatible with a wide range of peripherals.
At 1.2kg net weight, the GC2522 is lightweight and easy to move or reposition. The 380?197?305mm K=A shipping carton ensures safe delivery to the end user.
The GC2522 is a solid choice for compact PC builders looking for a reliable cabinet with consistent build quality, practical cooling options, and essential connectivity ? without any unnecessary complexity.
