Rebel Series PCIe Gen4 x4 M.2 2280 SSD
Rebel Series is equipped with the new generation transmission interface PCIe Gen4 x4, which complies with NVMe 1.4 standard and has excellent reading and writing performance. It is suitable for desktops and laptops, giving PCIe4.0 users higher value and performance. Rebel Series provides up to 7,000/ 6,400MB/s read/write speed (depending on capacity), low power consumption and low thermal energy help optimize system performance and provide the best performance without sacrificing performance. Compact M.2 2280 (11x80mm) design not only saves space, but also offers storage capacities up to 1TB, making Rebel Series an ideal performance choice for ultra-thin notebooks, small form factor (SFF) systems and DIY motherboards.Gen 4x4 NVMe PCIe Performance
Master intensive applications with speeds up to 7,000/6,400B/s1 read/write. 2x Faster than PCIe 3.0
7000
B/s1 read
Energy Efficient
Up to 40% less power consumption than DRAMcache-enabled PCIe Gen 4 SSDs2
40
%
Compatible with PS5
Compatible with PC5 for your ultimate gaming experience
Sleek heatsink design to cool down your system
High quality heatsink design to lower the temperature of your device to ensure high level performance
Versatile for all-around application
Compact M.2 design fits easily into small form factor (SFF) systems, desktops and laptop PCs.
5 Year Warranty
Game without trouble
5
Year Warranty
Specification
Capacity | 512GB / 1TB / 2TB |
Physical dimension | M.2 2280 |
NAND Flash | 3D NAND |
Interface | PCIe Gen 4 x4 |
Sequential read speed (maximum) | 7,000MB/s* |
Sequential write speed (maximum) | 512GB : 3,900MB/s* 1TB : 6,000MB/s* 2TB : 6,400MB/s* |
Operating temperature | 0°C - 70°C |
Storage temperature | -40°C - 85°C |
Shock@ Operating | 1500G / 0.5ms |
MTBF | 1,500,000 hours |
* This product is compatible with the latest Intel and AMD platforms, and requires a motherboard that supports the PCIe 4.0 standard to achieve its performance. This product is backward compatible with PCIe 3.0. The actual speed will vary depending on the platform software and hardware conditions.
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