In order to operate at -40~85℃, BIWIN sorts particles by the wide temperature range before patching to ensure the consistency of the products. The finished products are sorted in wide temperature range to ensure that each piece can work in extreme conditions.
For some high-intensity vibration environments, BIWIN provides IC bottom filling technology to improve the reliability under the condition of high pressure and high vibration.
For some confidential application environments, data on the hard disk drive should be destroyed thoroughly at a particular moment. BIWIN provides physical destruction technology, which uses high voltage and strong current to destroy each Flash controller one by one.
Compared with software encryption, hardware AES encryption provides better data protection and efficiency for the applications that process more sensitive data or need to improve the data security.
Write-protection prevents unauthorized data from being written in to the hard disk through hard ware switches/pins or client software instructions.
Ensure that data is averagely written to each block of the Flash device, and avoids product damage or data loss resulting from frequent wear leveling. Therefore, the global wear leveling technology can improve the durability and stability of Flash products.
The tri-proof paint coating scheme is an ideal choice for SSD modules, which provides safe protection for components on the device. Conformal coating ensures product reliability by coating printed circuit boards, thus serving the waterproof, dustproof and moisture resistant functions.
Two or three firmware versions are backed up in different Flash locations. When one of the firmware versions is damaged , the system will automatically recognize and start the backup firmware, thereby greatly improving the stability and security of the hard disk drive.
MLC flash architecture is used to simulate the performance and durability of industrial SLC flash memory, so that pSLC becomes an ideal alternative solution for mission - critical embedded or industrial applications.
BIWIN makes special firmware adjustment for write-intensive storage requirements, such as video monitoring, streaming media, graphic workstation and other applications, to ensure the large file writing is not stalled and to ensure the best performance of the hard disk.
SSD junk data recovery mechanism first organizes and optimizes the scattered space in Flash in the non-write or read state and takes an additional blank block as a buffer to play an important role in improving the durability and performance of SSD.
BIWIN thermal sensor is designed to be used with S.M.A.R.T. to monitor the temperature changes of storage products; in combination with the intelligent temperature control technology, the host can be informed to start the protection mechanism through the temperature changes.
Anti-Vulcanization technology refers to anti-sulfuration of parts on the module whose functions can be affected when sulfurized, to ensure the normal operation of the module. It is mostly used in the high temperature, high humidity and high pollution environments and other environments with high sulfur gas concentration.
When the data is written, the verification code is generated and written into the flash memory together with the user data. When the data is read, the verification code is used to verify whether the user data is complete and whether there are errors in the transmission and storage process among components in SSD, so as to improve data reliability.