Other features
Total storage capacity |
400 GB |
Weight & dimensions
Tape length |
680 m |
Tape size |
12.65 mm |
Tape thickness |
8 µm |
Performance
Compressed capacity |
800 GB |
LTO Ultrium 3 Tape
Maxell's LTO Ultrium tape takes advantage of exclusive technology to pack high 400GB/800GB capacity in a very compact cartridge. This tape not only holds data - it holds more of the promise of next-generation storage media.
Maxell’s new LTO Ultrium 3 features NeoSMART technology. Maxell's NeoSMART (Super Maximum-capacity Advanced Reliability Tape) technology integrates seven leading-edge technologies essential to the future expansion from Gigabyte to Terabyte storage capacities. NeoSMART technologies consist of: Ultra thin coating, advanced dispersion, fine metal particles, high performance cartridge, high precision servo tracking, superior calendaring and highly-precise slitting. Each of these technologies has been developed and perfected by Maxell through years of research and experience developing and manufacturing advanced tape media.
Key features:
- Stores up to 400GB of Data (800GB Compressed)
- High transfer rate: 40-80MB/sec (80-160GB Compressed)
- New ultra-fine ceramic armor metal particles with high coercivity and superior remanence improving long-term magnetic stability for archival applications.
- Highly accurate servo writing technologies employed by Maxell ensure stable servo characteristics and superior tracking reliability thereby preventing the occurrence of off-track and data loss.
- Improved cartridge durability due to Maxell’s high precision moulding and spot welding around cartridge openings, ensuring outstanding shock resistance during shipping and handling
- Superior physical properties inherent in Maxell tape allow reliability of over one million passes.
- High-performance dual binder system that consists of two specialized binders.
- Extremely smooth, high-rigidity PEN basefilm to ensure smooth magnetic surface and low noise levels for high-density data recording.
- Advanced calendaring technology producing an extremely smooth, ultra-thin, sub-micron magnetic layer, creating extremely high output and enhanced stability for signal reading and writing.