Built for 24/7 reliability
The 3.5-inch N300 NAS Hard Drive offers unprecedented reliability for NAS and other high-performance storage systems. It is optimized to meet the reliability, endurance, performance and scalability requirements of 24-hour x 7-day high-capacity storage for personal, home office and small business use. The N300 is available in capacities of up to 18 TB.
Features:
- 3.5“ SATA Hard Drive
- 7,200 rpm
- 512 MB (18 | 16 | 14 TB) buffer, 256 MB (12 | 10 | 8 | 6 | 4 TB) buffer
- Toshiba Stable Platter Technology
- High reliability and enhanced real-time performance
- High-endurance design
- 3-year warranty
| 18 | 16 | 14 | 12 | 10 | 8 | 6 | 4 | TB | TB | TB | TB | TB | TB | TB | TB | | Use for:
- NAS and Multimedia Server
- Desktop RAID and Server
- Private Cloud Storage
- Small Business Server and Storage
More information |
Reliable always-on operation NAS systems in small businesses or creative environments often need to be accessed by several users, at different locations, simultaneously. Therefore today's NAS drives must deliver high data transfer rates and simultaneous upload and download 24 hours a day, 7 days a week. |
High durability and heat prevention Use of high-endurance components is one of the reasons that the N300 series offers better durability than other conventional hard disk drives. At the same time, automatic adjustment of seek speed to reduce heat during high-temperature operation further improves endurance in demanding situations. |
High speed for multi-drive environment High performance and fast read speed is made possible under high data access loads from multiple users thanks to 512 or 256 MB data buffer. This makes the drive suitable for small businesses and creative professionals looking for solutions to handle high data volumes using multi-RAID NAS environments. |
Optimised cache allocation Toshiba’s Dynamic Cache Technology, a self-contained cache algorithm with on-board buffer management, optimizes how the cache is allocated during read/write to provide the high-level performance demanded by real-time domains. |
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