APSDM001G42AN-CTW Datasheet APSDM004G42AN-CTW, APSDM008G42AN-CT, APSDM001G42AN-CT | P7-P9

SATA-Disk Module 5A

APSDMxxxG42AN-CTX

4. Product Specifications

4.1 Capacity

Capacity specifications of SDM5A are available as shown in Table 4-1. It lists the specific capacity and

the default numbers of heads, sectors and cylinders for each product line.

Table 4-1 Capacity Specifications

Capacity

Total bytes*

Cylinders

Heads

Sectors

Max LBA

1 GB

1,011,032,064

1959

1,974,672

2 GB

2,011,226,112

3897

3,928,176

4 GB

4,011,614,208

7773

7,835,184

8 GB

8,012,390,400

15,525

15,649,200

16 GB

16,013,942,784

16,383

31,277,232

32 GB

32,017,047,552

16,383

62,533,296

*Display of total bytes varies from file systems, which means not all of the bytes can be used for storage.

**Notes: 1 GB = 1,000,000,000 bytes; 1 sector = 512 bytes.

LBA count addressed in the table above indicates total user storage capacity and will remain the same throughout the lifespan of the

device. However, the total usable capacity of the SSD is most likely to be less than the total physical capacity because a small portion

of the capacity is reserved for device maintenance usages.

4.2 Performance

Performance of SDM5A is listed below in Table 4-2.

Table 4-2 Performance

Capacity

Performance

1 GB

2 GB

4 GB

Sustained read (MB/s)

Sustained write (MB/s)

105

Note: Results may differ from various flash configurations or host system setting.

SATA-Disk Module 5A

APSDMxxxG42AN-CTX

4.3 Environmental Specifications

Environmental specifications of SDM5A product family follow the MIL-STD-810 standards as shown in

Table 4-3.

Table 4-3 Environmental Specifications

Item

Specifications

Operating temp.

0°C to 70°C (Standard); -40°C to 85°C (Extended)

Non-operating temp.

-40°C to 100°C

Operating vibration

20~2,000(Hz), 7.69 (Grms), random wave, X, Y, Z axis

Non-operating vibration

10~2,000(Hz), 15(G), sine wave, X, Y, Z axis

Operating shock

50(G), 11(ms), half-sine wave

Non-operating shock

1,500(G), 0.5(ms), half-sine wave

4.4 Mean Time Between Failures (MTBF)

Mean Time Between Failures (MTBF) is predicted based on reliability data for the individual components

in SDM5A. The prediction result for SDM5A is more than 2,000,000 hours.

Note: The MTBF is predicated and calculated based on “Telcordia Technologies Special Report, SR-332, Issue 2” method.

4.5 Certification and Compliance

SDM5A complies with the following standards:

z CE

z FCC

z RoHS Recast

z MIL-STD-810

SATA-Disk Module 5A

APSDMxxxG42AN-CTX

5. Flash Management

5.1 Error Correction/Detection

SDM5A implements a hardware ECC scheme, based on the BCH algorithm. It can detect and correct up

to 40 bits error in 1K bytes.

5.2 Bad Block Management

Current production technology is unable to guarantee total reliability of NAND flash memory array. When

a flash memory device leaves factory, it comes with a minimal number of initial bad blocks during

production or out-of-factory as there is no currently known technology that produce flash chips free of bad

blocks. In addition, bad blocks may develop during program/erase cycles. When host performs

program/erase command on a block, bad block may appear in Status Register. Since bad blocks are

inevitable, the solution is to keep them in control. Apacer flash devices are programmed with ECC, block

mapping technique and S.M.A.R.T to reduce invalidity or error. Once bad blocks are detected, data in

those blocks will be transferred to free blocks and error will be corrected by designated algorithms.

5.3 Wear Leveling

Flash memory devices differ from Hard Disk Drives (HDDs) in terms of how blocks are utilized. For HDDs,

when a change is made to stored data, like erase or update, the controller mechanism on HDDs will

perform overwrites on blocks. Unlike HDDs, flash blocks cannot be overwritten and each P/E cycle wears

down the lifespan of blocks gradually. Repeatedly program/erase cycles performed on the same memory

cells will eventually cause some blocks to age faster than others. This would bring flash storages to their

end of service term sooner. Wear leveling is an important mechanism that level out the wearing of blocks

so that the wearing-down of blocks can be almost evenly distributed. This will increase the lifespan of

SSDs. Commonly used wear leveling types are Static and Dynamic.

5.4 Power Failure Management

Power Failure Management plays a crucial role when experiencing unstable power supply. Power

disruption may occur when users are storing data into the SSD. In this urgent situation, the controller

would run multiple write-to-flash cycles to store the metadata for later block rebuilding. This urgent

operation requires about several milliseconds to get it done. At the next power up, the firmware will

perform a status tracking to retrieve the mapping table and resume previously programmed NAND blocks

to check if there is any incompleteness of transmission.

5.5 ATA Secure Erase

ATA Secure Erase is an ATA disk purging command currently embedded in most of the storage drives.

Defined in ATA specifications, (ATA) Secure Erase is part of Security Feature Set that allows storage

drives to erase all user data areas. The erase process usually runs on the firmware level as most of the

ATA-based storage media currently in the market are built-in with this command. ATA Secure Erase can

securely wipe out the user data in the drive and protects it from malicious attack.

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APSDM001G42AN-CTW

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Manufacturer:

Apacer

Description:

Solid State Drives - SSD SATA3 Disk Module 22-Pin/180 Degree SLC 1GB Standard Speed Extended Temp

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New from this manufacturer.

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APSDM001G42AN-CTW

APSDM001G42AN-CTW

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