The Wintec mini-mSATA SATA III (6Gb/s) RoHS Compliant Solid State Drives (SSDs) are constructed with either Toggle or Synchronous MLC or SLC NAND flash memory for high performance and reliability.  The Wintec SSD provides major advantages over the traditional magnetic hard disk drive (HDD) and Asynchronous SSDs.  Faster access time and transfer rate, silent operation and low power consumption, better shock and vibration resistance, and lower total cost of ownership (TCO) make the Wintec SSDs an attractive choice as the next generation storage device.

The Wintec mini-mSATA SATA SSDs offer capacities ranging from 16GB up 512GB (480GB user) using industry standard MLC Toggle NAND flash paired with the SM2246, S9 or S10C controller.  The Wintec mini-mSATA SATA SSD optimizes writes to the flash memory and implements highly intelligent block management, wear leveling and lifetime management schemes to increase overall drive endurance and reliability.

The Wintec mini-mSATA SATA SSD product line offer superior ECC, end-to-end data path protection for reliable data security without compromising performance.

The Wintec mini-mSATA SATA SDDs are optimized for performance, reliability, power and endurance to meet OEM requirements.

Product Family WINTEC mini-mSATA SSD
Series Name S7 S9 S10C
Capacities MLC (GB) 16GB ~ 480GB 30GB ~ 480GB 60GB ~ 480GB
Form Factor (mm) mSATA Half (30 x 26.8) MO-300B
Sequential Read (MB/s)* Up to 420 Up to 450 Up to 540
Sequential Write (MB/s)* Up to 180 Up to 180 Up to 510
Random Read (IOPS)* Up to 25,000 Up to 80,000 Up to 90,000
Random Write (IOPS)* Up to 8,000 Up to 80,000 Up to 80,000
Operating Temperature 0ºC – +70ºC 0ºC – +70ºC 0ºC – +70ºC
-40ºC – +85ºC -40ºC – +85ºC
NAND Flash SLC (Single Level Cell)
MLC (Multi-Level Cell)
Power Consumption*
Active R/W (Watts) 0.92 / 1.82 (Typical) 0.8 / 1.5 (Typical) 1.3 / 2.6 (Typical)
Idle (Watts) 0.23 0.3 0.3
MTBF (Hours) 3,000,000 3,000,000 2,000,000
Certifications RoHS RoHS RoHS
 AES (Optional)
* Performance results may vary based on NAND flash, configuration and platform tested. Performance result above are based on Toshiba 15nm MLC flash test at QD 32.