Communications

SATA 3.0 slim SSDs meet industrial mobility demands

18th March 2014
Jacqueline Regnier
0

Aiming at industrial computers driven by the mobility trend, Apacer launches two ultra slim SSDs: JEDEC MO-297-compliant SFD 18S6 and MO-300-compliant mSATA A1. These small SSDs are equipped with SATA 3.0 high-speed transmission interface, low power consumption, durability and high performance. They can be applied to medical tablet PCs, bedside healthcare systems, mobile on-board units and data communication system devices.

Adopting SATA 3.0 high-speed transmission interface and equipped with Toggle NAND Flash chips, Apacer SFD 18S6 and mSATA A1 SSDs boast the maximum sequential read/write speed of 470/470MB/s and IOPs up to 70K, with excellent booting performance and highly reliable SLC solution. They are surely capable of supporting the operation in stringent environment, like industry-level wide-temperature (from -40 to +85°C) operation. To balance performance with cost, the cost-effective MLC solution is another option for application, with a maximum sequential read/write speed of 475/430MB/s and IOPs up to 65K, both of which are available in capacities up to 256GB.

In regard to data safety, these products both feature the 40 bit ECC (Error Correcting Code) function and support the Apacer SSDWidget real-time SSD monitoring software, boosting thus the product reliability and stability. In addition, the products can be customised to meet the coating need for IP57 certified water-proof and dust-proof, qualified as the best storage options with stable performances.

Commenting on power consumption: “Industrial mobility devices shall deliver strong endurance to satisfy the portability requirement. As a result, the product design shall be based on the power saving of all components,” suggested Jeff Lin, Senior Director, Embedded Business Unit, Apacer. "These two products adopt solutions with new process technology, so the power consumption during idle mode is significantly reduced by more than 50%, compared with their predecessor. Supporting DEVSLP (Device Sleep) signalling protocol, they can enter the low power state while in standby, effectively saving power."

Featured products

Upcoming Events

No events found.
Newsletter
Latest global electronics news
© Copyright 2024 Electronic Specifier