New Wonderful HDD,The World Smallest Hard Drive but high DATA Capacity is 10TB
Although the current memory and storage of choice for tablets is Flash memory, the A*STAR, Data Storage Institute (DSI) believes that moving forward, thin hybrid drives would provide a good alternative to Flash memory due to the scaling and performance limitations of Flash memory. Additionally, hybrid drives could potentially lessen power consumption, reduce costs and increase storage capacity. Currently, the thinnest hard disk drive in the market for a 2.5 inch form factor is about 7 mm. However, in order to break into the media tablet market, the ideal thickness of a hard disk drive should be 5 mm or less.
Researchers at DSI aim to produce a hard disk drive thin enough to fit into a tablet, taking the thickness of the current iPad2 (which is at 0.34 inch or 8.8 mm) as the benchmark target. The DSI also proposed a hybrid architecture in order to mitigate the issues of portability, reliability of data, and power consumption. Compared to Flash or solid state drives (SSD), hybrid drives can provide a larger storage capacity, and performances at a significantly lower cost; whilst compared to hard disk drives, hybrid drives can reduce power consumption by about 30%.
Although the current memory and storage of choice for tablets is Flash memory, the A*STAR, Data Storage Institute (DSI) believes that moving forward, thin hybrid drives would provide a good alternative to Flash memory due to the scaling and performance limitations of Flash memory. Additionally, hybrid drives could potentially lessen power consumption, reduce costs and increase storage capacity. Currently, the thinnest hard disk drive in the market for a 2.5 inch form factor is about 7 mm. However, in order to break into the media tablet market, the ideal thickness of a hard disk drive should be 5 mm or less.
Researchers at DSI aim to produce a hard disk drive thin enough to fit into a tablet, taking the thickness of the current iPad2 (which is at 0.34 inch or 8.8 mm) as the benchmark target. The DSI also proposed a hybrid architecture in order to mitigate the issues of portability, reliability of data, and power consumption. Compared to Flash or solid state drives (SSD), hybrid drives can provide a larger storage capacity, and performances at a significantly lower cost; whilst compared to hard disk drives, hybrid drives can reduce power consumption by about 30%.
Overall thickness of the first prototype of DSI’s thin hybrid hard disk drive is 5mm.
One of the main challenges faced in scaling down the thickness of a hard disk drive is the ability to scale the thickness of the current spindle motor while maintaining the motor performance such as the non-repeatable run-out (NRRO). DSI has designed an axial field motor (the current motor is based on a radial field design) that is 4 mm thick, and can spin at 5400/7200 revolutions per minute (rpm). The axial field design eliminates cogging torque and unbalanced magnetic pull that in turn helps to reduce friction loss of the bearing, vibration and acoustic noise. This novel and slim spindle motor will be demonstrated in DSI’s thin drive with a 5 mm thickness.