Samsung 4TB T9 Portable SSD USB3.2 (Black)
- Up to 16000Mb/s*data transfer speed
- 4TB Storage Capacity
- Robust reliability
- Mac & PC compatible
- Blazing-fast transfer speeds
PRODUCT OVERVIEW
The Samsung Portable SSD T9 is a portable solid-state drive offers a generous 4TB of storage capacity making it ideal for storing and transporting large files documents photos and videos. With its sleek and durable design the SSD T9 is both stylish and reliable ensuring your data is safe during travel. It features fast data transfer speeds thanks to its USB 3.1 Gen 2 interface allowing you to transfer files quickly and efficiently.
KEY FEATURES:
BLAZING-FAST TRANSFER SPEEDS
Enhance workflow efficiency with T9 boasting sequential read/write speeds of up to 2000MB/s1 through its USB 3.2 Gen 2x2 interface.
FAR-REACHING COMPATIBILITY
T9 is compatible with Windows macOS Android phones and tablets gaming consoles 12K cameras and more2.
ROBUST RELIABILITY
Rest assured. T9 offers up to 3 metres drop resistance3 and is backed by a 5-year limited warranty
TIME SAVED WORKFLOW BOOSTED
With USB 3.2 Gen 2x2 interface and utilising NVMe™ protocol the T9 can transfer a 2GB file in approximately 1 second achieving sequential read/write speeds of up to 2000MB/s5. Save the loading time and get more done with a compact device that helps speeds up your workflow and productivity.
SAMSUNG MAGICIAN SOFTWARE
Unlock the full power of T9 with Samsung Magician software - a user-friendly suite of optimisation tools that help ensure the best portable SSD performance. Protect valuable data monitor drive health and get the latest firmware updates.
1. To reach maximum sequential read/write speeds of up to 2000MB/s respectively the host device and connection cables must support USB 3.2 Gen 2x2 and the UASP mode must be enabled. Based on internal test results conducted under controlled conditions.
2. Compatibility with host devices may vary. Some operating systems may require T9 reformatting. T9 is backward compatible with USB 3.2 USB 3.1 USB 3.0 and USB 2.0.
3. Based on an internal free fall shock test conducted under controlled conditions.