An sata msata SSD is a type of solid-state drive (SSD) that complies with the Serial ATA (SATA) International Organization’s mSATA interface specification. Sata msata SSDs are made for use with portable, power-constrained devices like laptops, tablets, and netbooks. They have a smaller form factor than regular SSDs. M.2 SSDs are gradually taking the place of sata msata SSDs, despite the fact that they are still present in some older laptops and devices. Commercial items including digital signage, point-of-sale systems, retail kiosks, and multifunctional printers still use the sata msata SSD flash storage device.
About the size of a business card is a sata msata SSD. Small form factor, reduced power consumption compared to regular SSDs, resistance to shock and vibration, and quick startup and shutdown times are some benefits of Sata msata SSDs. An sata msata SSD can handle up to 6 gigabits per second (Gbps).
An sata msata is an internal solid-state drive that measures 50.8 mm x 29.85 mm x 4.85 mm and was created with lightweight design in mind. It can support drives with speeds between 1.5 and 6 Gbps, and it is compatible with all three SATA interface specification revisions.
What is the purpose of sata msata
Sata Msata SSDs were designed to be used in applications where their compact form factor would be advantageous, such as in very thin notebooks. In order to speed up access to data and applications that are often accessed, sata Msata devices can also function as cache drives.
Device examples for data msata
Despite being often swapped out for M.2 SSDs, mSATA SSDs are still used in the following devices: devices such as laptops, tablets, phone conference systems, GPS units, automated medical equipment, drive caches, electronic smartboards, and electronic patient records systems.
Which functionalities are there in sata Msata? MSATA SSDs offer the subsequent functions:
- Quickness: It is possible to write and read at up to 304 Mbps and 551 Mbps, respectively. The maximum bandwidth for MSATAs is 6 Gbps.
- Ability: The standard storage size options for mSATA SSDs are 8 GB to 512 GB, but they can even go as high as 1 TB, which is equivalent to some modern storage devices.
- dependability: MSATA SSDs have a 1.5–2 million hour lifespan and are generally regarded as reliable data storage options. These SSDs’ protective cases additionally increase their tolerance to external vibration and stress.
What makes mSATA different from SATA?
2009 saw the beginning of the small interface connector’s development by the SATA International Organisation (SATA-IO). As part of SATA revision 3.1, the mSATA specification was released in 2011. The following vendors helped shape the mSATA specification: Dell EMC, HPE, Lenovo, Samsung, SanDisk, Toshiba, and STec Inc., a Western Digital business that was purchased by HGST in 2013. The specification was once known as mini-SATA by SATA-IO, however the organisation eventually adopted the term mSATA. In order to facilitate use with a variety of applications, the mSATA specification specifies how to translate SATA signals onto a Peripheral Component Interconnect Express (PCIe) mini-card connector.
Similar to sata msata transfers data between a host computer and a target storage device using the Advanced Technology Attachment (ATA) command set. A SATA SSD and a mSATA SSD differ primarily in their connector and physical size. In comparison to a 2.5-inch mSATA SSD, a SATA is thicker. An sata Msata SSD usually offers less storage capacity than a SATA SSD due to its smaller physical factor. Their write and read rates are comparable, though.
How is mSATA tested?
Software applications enable users to evaluate mSATA SSDs. These tools can identify whether an SSD is defective and will report a pass or fail result. The majority of health check programs are capable of analysing power usage, file transfer speeds, read and write speeds (both sequential and random), and overall performance. It is best to read the testing software’s description before downloading, though, as not all test tools have these features and not all test tools can test every SSD. Samsung M.2 and sata Msata SSDs, for instance, are tested using Samsung Magician Software. Through performance benchmarks, diagnostic scans, performance optimisation, and overprovisioning, it can assist users in managing, monitoring, and safeguarding data.
Conclusion
A solid-state drive (SSD) that conforms to the mSATA interface specification of the Serial ATA (SATA) International Organisation is known as a mSATA SSD. mSATA SSDs are designed to be used with portable, low-power devices, such as netbooks, tablets, and laptops. Compared to standard SSDs, their form factor is smaller. mSATA SSDs are increasingly being replaced by M.2 SSDs, even if some older laptops and devices still use them. The sata Msata SSD flash storage device is still used in commercial products such multifunction printers, retail kiosks, digital signage, and point-of-sale systems.
FAQ’s
Q. What makes an M.2 SSD different from a mSATA SSD?
High-performance storage technologies like M.2 SSDs and mSATA SSDs are made to work with compact devices like notebooks and tablet computers. 2013 saw the release of the M.2 form factor, which came about two years after the mSATA specification. M.2 was created to replace the mSATA data format. The M.2 specification was developed by the PCI Special Interest Group coalition of technology providers.
Among the variations between sata Msata and M.2 SSDs are the following:
- 2 SSDs support both SATA and PCIe interfaces, whereas MSATA SSDs exclusively use the SATA interface.
- Unlike mSATA SSDs, which come in a single size, the more recent M.2 form factor comes in a variety of sizes. There are also mSATA SSDs in half-size. They have read and write speeds of up to 152 MBps and 64 MBps, respectively, and measure 30.1 mm by 26.8 mm.
- Because an M.2 SSD can transfer data at a pace higher than the 6 Gbps that a mSATA SSD can, it is faster. Up to four PCIe lanes can be supported by a PCIe-based M.2 SSD at a maximum per-lane rate of 1 Gbps.
- Performance is additionally improved by two SSDs. They are compatible with non-volatile memory express, or NVMe, which can reduce latency and increase performance compared to devices that rely on the Small Computer System Interface (ATA) command set.
Q. What makes tiny PCIe different from mSATA?
Both a micro PCIe card (mPCIe) and a mSATA SSD can physically fit into the same mPCIe slot on the motherboard. They are comparable in size and appearance. However, it is possible to confuse the two due to their similar size and form factor. Wireless adapters, solid-state device storage, and other performance enhancers for laptops and mobile devices can be connected to MPCI-e cards. Each serial link in PCIe, a point-to-point technology, includes a lane—a complete duplex pair of differential signals. While mPCIe only provides one lane, PCIe supports up to 32 lanes.
