磁盘驱动器
单磁道搜索时间(读/写) |
2 ms |
读取搜索 |
8.9 ms |
平均等待时间 |
4.20 ms |
启动/停止周期 |
50000 |
写入搜索 |
8.9 ms |
硬盘尺寸 |
3.5 " |
驱动器就绪时间 |
12 s |
硬盘容量 |
500 GB |
硬盘转速 |
7200 RPM |
硬盘接口 |
Serial ATA II |
传动装置,缓冲区大小 |
16 MB |
环境条件
非操作性冲击 |
250 G |
非运行性振动 |
20-500 Hz, 4.0G G |
运行性震动 |
20-300 Hz, 0.75G G |
RE3 Enterprise - SATA Hard Drives 500 GB, 1.2 million hours MTBF, 16 MB Cache, 7200 RPM
WD RE2 hard drives are the world’s most reliable server-class SATA drives in the market. With 1.2 million hours MTBF, 5-year limited warranty, 3 Gb/s SATA technology, and best-in-class vibration tolerance, WD RE2 drives offer the best combination of superior reliability, high capacity, and optimum performance for enterprise applications.
Superior reliability
Designed and manufactured to server-class standards to provide best-in-class enterprise reliability in high duty cycle environments. With 1.2 million hours MTBF, these drives have the highest available reliability rating on a high-capacity drive.
Fast
With a next-generation SATA interface, 3 Gb/s data transfer rate, native command queuing (NCQ), and 16 MB cache, these drives deliver optimum performance.
Low power
Active Power Save™ delivers best-in-class seek mode power consumption through an advanced WD firmware which conserves power in active seek modes without degrading performance.
RAID-specific, time-limited error recovery (TLER)
A feature pioneered by WD, significantly reduces drive fallout caused by the extended hard drive error-recovery processes common to desktop drives.
Rotary Acceleration Feed Forward (RAFF™)
Provides best-in-class vibration tolerance by optimizing operation and performance when the drives are used in vibration-prone, multidrive systems such as rack-mounted servers or network storage.
Perpendicular Magnetic Recording (PMR)
WD RE2 drives employ PMR technology to achieve even greater areal density.
Ideal For
Servers, SAN/NAS, scientific computing, life sciences, video surveillance, enterprise backup, document/image management, audio/video media applications, and other demanding write-intensive applications.