NVMe SATA SSD Enclosure Type-C USB3.1 M.2 SSD Case Gen2 10Gbps External Hard Drive Aluminum Alloy Dual-Protocol for M.2 2230 SSD
Feature:
1. M.2 2230 Compatibility: This hard drive enclosure is designed for M.2 2230 specification drives, providing a convenient external storage solution. It supports the perfect match for your M.2 solid-state drives.
2. Durable Aluminum Alloy: Constructed with high-quality aluminum alloy material, this SSD enclosure offers excellent heat dissipation and durability. It effectively protects your hard drive while ensuring optimal cooling performance.
3. Compact Size: With dimensions of 53x29x10.5mm, this M.2 SSD case is compact and portable, making it easy to carry and store. Enjoy the convenience of having your valuable data accessible wherever you go.
4. Plug-and-Play: This external hard drive supports plug-and-play functionality, eliminating the need for additional driver installations. It has broad compatibility, making it suitable for most operating systems such as Windows, Mac, Linux, and more.
5. Additional Information: Supports NVMe/SATA Protocols – This hard disk adapter card is compatible with both NVMe and SATA protocol solid-state drives, allowing you to choose the appropriate drive type based on your specific needs. Type-C USB 3.1 Gen2 10Gbps Interface – Equipped with a Type-C USB 3.1 Gen2 10Gbps interface, this enclosure ensures high-speed data transfer and stable connectivity for an enhanced user experience.
Specification:
Origin: Mainland China
Model Number: SSD Enclosure
Material: Aluminum Alloy
Product Model: M.2 2230
Size: 53x29x10.5mm/2.09×1.14×0.41inch
Support Hard Drive Size: 2230
Plug and play compatibility
Suitable for M.2 SSD, support Windows/Mac/Linux and other most of the world’s operating systems.
Support NVMe/SATA two protocols SSD, flexible to cope with different situations.
Note:
Due to the different monitor and light effect, the actual color of the item might be slightly different from the color showed on the pictures. Thank you!
Please allow 1-2cm measuring deviation due to manual measurement.