solidata sata ssd crator-s › wp-content › uploads › 2016 › 06 › re… · s2 sata ii s3...
TRANSCRIPT
I6 Series
Datasheet
Industrial Grade
2.5” SATA III MLC SSD
I6 Series
RD-S325MMN-M01T5
Ver.: A1
Mar, 2016
NOTE: RECADATA RESERVES THE RIGHT TO CHANGE PRODUCTS, INFORMATION AND
SPECIFICATIONS WITHOUT NOTICE. ALL PRODUCT SPECIFICATIONS ARE PROVIDED
FOR REFERENCE ONLY. THIS DOCUMENT AND ALL INFORMATION DISCUSSED HEREIN
REMAIN THE SOLE AND EXCLUSIVE PROPERTY OF RECADATA. NO LICENSE OF ANY
PATENT, COPYRIGHT, MASK WORK, TRADEMARK OR ANY OTHER INTELLECTUAL
PROPERTY RIGHT IS GRANTED BY ONE PARTY TO THE OTHER PARTY UNDER THIS
DOCUMENT, BY IMPLICATION, ESTOPPELS OR OTHER-WISE.
I6 Series
Datasheet
2
I6 Series –Industrial Grade 2.5” SATAIII
MLC SSD 128GB to 1TB
1. Feature Summary
Form Factor: 2.5 inch SATA III SSD
Size : 100.2x69.85x9.0 mm( or 100.2x69.85x7.0 mm)
Weight:76g
Capacity(GB): 128GB to 1TB
Flash Type: MLC Nand Flash
Sequential Read/Write (MB/S) :530/450(Max)
4KB Random IOPS Read/Write @QD32: 70K/77K(Max)
Support S.M.A.R.T, NCQ, Windows Trim Command
Power Management
Voltage : 5V±5%
Power (Active/Idle) :5W/0.5W
Environmental
Vibration: 1500G/0.5ms
Shock: 20G(10 ~2000 HZ)
Humidity :5% ~ 95% (non- condensable)
Working Temp.: -40℃ to +85℃
Storage Temp.: -55℃ to +95℃
Reliability
MTBF: 2,000,000 Hours
Data Retention: 5 Years
TBW(1TB): 2,360TB
Key Features
Large capacity up to 1TB
Power Fail Protection
Fast Secure Erase optional(SW/HW triggered )
Physical Destruction optional
AES256 Encryption optional
I6 Series
Datasheet
3
2. Contents
1 Feature Summary....................................................................................................... 2
2 Contents ...................................................................................................................... 3
3 Order Information...................................................................................................... 5
3.1 Part Number Decoder .................................................................................... 5
3.2 Current Standard Part Number ..................................................................... 6
3.3 Offered OEM Options ..................................................................................... 7
4. Product Specification ....................................................................................................... 7
4.1Physical Dimensions ........................................................................................ 8
4.2Interface ........................................................................................................... 8
4.3Capacity ........................................................................................................... 9
4.4Performance .................................................................................................... 9
4.5Environmental Specification ......................................................................... 10
4.5.1 Temperature .............................................................................................. 10
4.5.2 Shock .......................................................................................................... 10
4.5.3 Vibration .................................................................................................... 10
4.5.4 Humidity .................................................................................................... 10
4.6 Reliability....................................................................................................... 11
4.6.1 MTBF .......................................................................................................... 11
4.6.2 ECC (Error Correction Code) ...................................................................... 11
4.6.3 Data Retention ........................................................................................... 11
4.6.4 Power Fail Protection ................................................................................ 12
4.7 Endurance ..................................................................................................... 12
4.7.1 TBW (Total Bytes Written) .......................................................................... 12
4.7.2 Write Endurance ........................................................................................ 13
4.7.3 Wear-leveling ............................................................................................. 13
I6 Series
Datasheet
4
4.8 Secure Erase ................................................................................................. 13
5. Electric Specification ....................................................................................................... 15
5.1 Pin Descriptions ............................................................................................ 15
5.1.1 Pin Assignment .................................................................................................. 15
5.2 Electrical Characteristics ..................................................................................... 16
5.2.1 Absolute Maximum Rating .............................................................................. 16
5.2.2Power Supply Operation Conditions .............................................................. 16
5.2.3 Power Consumption ......................................................................................... 16
6. ATA Command Description........................................................................................... 17
6.1 ATA Command Set ................................................................................................ 17
6.2 SMART Feature Set ............................................................................................... 19
6.3 SMART Attributes .......................................................................................................... 20
7. Revision History ............................................................................................................... 21
I6 Series
Datasheet
5
3. Order Information
3.1 Part Number Decoder
RD – S3 18 M I N – N 032 5
9. Sequential Read rate
8. Un-format Capacity
7. External SDRAM
6. Function Feature
5. Operation Temperature
4. Flash Type
3. Dimension
2. Interface
1. Manufacturer
Number Character Description
1 RD RECADATA Storage Technology Co.,Ltd.
2
S2 SATA II
S3 SATA III
P0 PATA
U2 USB 2.0
U3 USB 3.0
P2 PCI-e 2.0
P3 PCI-e 3.0
D0 SD
3
18 1.8inch
25 2.5inch
01 Micro SATA
02 MO297 (Half-slim)
03 CF Card
04 DOM
05 CFast
06 PCI-e
07 6U VPX
08 3U VPX
I6 Series
Datasheet
6
09 SD
50 m-SATA 50mm
4
M MLC
S SLC
T TLC
5
M -40~85℃
I -20~70℃
C 0~70℃
E -55~125℃
6 N Normal Function (Standard Function)
D Security Erase Function
7 M External SDRAM
N No external SDRAM
8
016 16GB
032 32GB
064 64GB
128 128GB
256 256GB
512 512GB
01T 1TB
02T 2TB
9
0 <100MB/s
1 ≥100MB/s
2 ≥200MB/s
3 ≥300MB/s
4 ≥400MB/s
5 ≥500MB/s
Table 1 Product numbering scheme
3.2 Current Standard Part Number
The RECADATA I6 Series MLC SSD standard Part Numbers are listed below:
Table2 Part Number List
Capacity Part Number
128GB RD-S325MMN-M1285
256GB RD-S325MMN-M2565
512GB RD-S325MMN-M5125
1TB RD-S325MMN-M01T5
I6 Series
Datasheet
7
3.3 Offered OEM Options
Customer Specified Drive ID (Strings) Option
Preload Services (also drive images with any file system) Option
Physical Destruction Option
Fast Secure Erse By ATA Command or Jumper Option
AES256 Encryption Option
4. Product Specification
The RECADATA I6 Series Industrial Grade 2.5 SATA III MLC SSD is designed as a rugged
SSD and extremely reliable storage solution in harsh environments ,for demanding
applications like High-end embedded system, Aviation/UAV video capture system,
Rugged Computer, Ship borne/Marine, Radar Systems and other Defense/Military
Special Equipment etc. It can provide a much larger capacity up to1TB and extreme
SATA III Performance up to 530/450 MB/S(MAX) sequential read/write speed and
70,000/77,000(MAX) IOPS with 4KB random access.
Special features such as NCQ, TRIM, Overvoltage and short-circuit protection and
Power Fail protection enable higher & consistent sequential and random
performance while providing the high level of reliability required in industrial
applications. They use the most reliable SLC or MLC (5,000 write cycles) NAND Flash
available on the market today and comprise a large number of features such as Fast
Secure erase, AES Encryption and Physical Destruction methods as well as support
for S.M.A.R.T based on life time monitoring tool that allows users to have full control
of mission critical data reliably at any given time.
I6 Series
Datasheet
8
4.1Physical Dimensions
Table3 Physical Dimensions and Weight
Parameter Value
Length 100.2+0.2 mm
width 69.85+0.2 mm
height 9.0+0.2 mm
Figure1 I6 Series Physical Dimensions
4.2Interface
The interface of RECADATA I6 Series complies with the standard Serial ATA version
3.1:
1. Host Transfer Rate is 6.0Gb/s
2. PIO mode 0,1,2,3,4
3. DMA mode 0,1,2
4. UDMA mode 0,1,2,3,4,5,6
I6 Series
Datasheet
9
4.3Capacity
Table 4 Capacity Specification
Capacity Total Byte(User) Max LBA
128GB 126,701,535,232 247,463,936
256GB 253,403,070,464 494,927,872
512GB 506,806,140,928 989,855,744
1TB 1,013,612,281,856 1,979,711,488
4.4Performance
Table 5 Maximum Transfer speed
Data Transfer SSD Volume Max Read Max Write Unit
Sequential
Rate
128GB 522 325
MB/S
256GB 522 325
512GB 530 450
1TB 530 450
Notes:
1. Test Environments: Intel I5-3470 CPU Dual Core, B75 Motherboard, 4GB
DDR3 RAM, Windows 7 Pro SP1
2. Benchmarking program: CrystalDiskMark V3.0.1
Table 6 Maximum Random IOPS
Data Transfer SSD Volume Max Read Max Write
IOPS
Random Rate
128GB 70K 75K
256GB 70K 73K
512GB 70K 73K
1TB 70K 77K
Notes:
1. Test Environments: Intel I5-3470 CPU Dual Core, B75 Motherboard, 4GB
DDR3 RAM, Windows 7 Pro SP1
2. Benchmarking program: CrystalDiskMark V3.0.1
I6 Series
Datasheet
10
4.5Environmental Specification
4.5.1 Temperature
Table 7 Temperature
Parameter Value Unit
Operating -40 to 85 ℃
Non-operating -55 to 95 ℃
Notes:
1. Test environment: High/low Temperature testing chamber at RECADATA
2. Operating Test Duration: 4 hours at every temperature(-40℃,+85℃)
3. Test Items: Cold-start at -40℃ and Burn-in-test at +85℃
4.5.2 Shock
Table 8 Shock Specifications
Parameter Acceleration Force Unit
Operating 1500 G
Notes:
1. Test pluse shape: half sin
2. Test duration: 0.5ms
4.5.3 Vibration
Table 9 Vibration Specifications
Parameter Acceleration Force Unit
Operating 20 peak G
Notes:
1. 20~20 KHZ Vibration
4.5.4 Humidity
I6 Series
Datasheet
11
Table 10 Humidity Specifications
Parameter Acceleration Force Unit
Operating 5 to 95 %
Notes:
1. Test duration: 24hours
2. Test methods: Samples not all products are selected to be tested.
3. Test environments: at the third party
4.6 Reliability
4.6.1 MTBF
Table 11 MTBF Specifications
Parameter Value (Hours)
MTBF 2,000,000
4.6.2 ECC (Error Correction Code)
Table 12 ECC
ECC Value (bits)
BCH ECC 66 bits in 1024bytes
4.6.3 Data Retention
Table 13 Data Retention
Data Retention Value (years)
Data Retention @ 25℃ 5 years
I6 Series
Datasheet
12
4.6.4 Power Fail Protection
The RECADATA I6 Series SSD is specially designed with industrial-grade Tantalum
Capacitors Array and the power-off detection circuit based, to ensure that all data will
be written back to the NAND from DDR in case of any sudden power-off in extreme
environments.
4.7 Endurance
4.7.1 TBW (Total Bytes Written)
The RECADATA I6 Series MLC SSD is provided with 2 years warranty for common
application except abuse data input. The lifetime also depends on the TBW based
on SSD capacity.
TBW=𝐒𝐒𝐃 𝐜𝐚𝐩𝐚𝐜𝐢𝐭𝐲∗𝟎.𝟗𝟐∗𝐅𝐥𝐚𝐬𝐡 𝐰𝐫𝐢𝐭𝐞 𝐜𝐲𝐜𝐥𝐞∗Endurance improvement ratio
1000∗Risk ratio
Note:
(1) The Flash write cycles is referred as the flash datasheet and based on recycling
mechanism or data protection mechanism;
(2) The Endurance improvement ratio is referred as the write cycles improvement
through ECC algorithm;
(3) The Risk ratio is referred as the risk ratio the SSD manufacturer can accept
within lifespan. Normally it is 2 in SSD industry standards;
α: SSD total capacity
β: Flash average writing times, RECADATA MLC NAND FLASH Write times is 5000.
The details can be referred to in flash datasheet.
γ: Data amplification ratio, the less it is, the more the lifespan of SSD is. Rana-M’s
ratio is 0.3.
δ:The data input volume every day.
Table 14 TBW
Capacity TBW
128 177
256 354
512 1180
1TB 2360
δγ
βα
*
*lifespan
I6 Series
Datasheet
13
4.7.2 Write Endurance
Table 15 Endurance
Endurance Value (bits)
Write Eudurance@100G
write/day
10 years(256GB)
Read Endurance unlimited
4.7.3 Wear-leveling
RECADATA’s all SSD products support both dynamic and static wear-leveling.
These two algorithms guarantee all type of flash memory at same level of
erase cycles to improve lifetime limitation of NAND based storage.
4.8 Secure Erase
Generally, The RECADATA I6 Series Industrial Grade 2.5 SATA III MLC SSD provides
two types of destruction methods: Fast Secure Erase (by software) and Physical
Destruction (by hardware) Different users prefer different modes according to the
applications requirements.
1. Fast Secure Erase
1) ATA Command Trigger:
The Secure Erase function can also be trigger by Host ATA Command directly.
2) Jumper (2Pin short) Trigger:
a) Connect the RECADATA SSD with power supply, the external LED light is “OFF”;
b) Press down the destruction button, the external LED light turns “ON”, the
self-destruction function is triggered if the pressing LED time is longer than 3
seconds ,But it will resume status “a)” if the pressing LED time is less than 3
seconds.
I6 Series
Datasheet
14
c) When the self-destruction starts, The external LED light turns “twinkling” until
the destruction process is completed, and it will execute destruction command
continuously until the user data is totally destroyed if any power fail during the
destruction period and the SSD is powered up again;
d) Once the Fast Secure Erase process is totally completed, The External LED
light turns “OFF”
Note:
a) Power (supply) is the only key to trigger secure erase process; SATA Signal is
not related in this Jumper trigger mode.
b) Destroy the data stored on the Flash memory and all data in the SSD is erased,
however the SSD can be used again after initialization.
3) Physical Destruction
A momentary higher voltage is produced by the onboard circuit to destroy the
flash storage medium .The SSD can’t be used again if the hardware is destroyed;
Note:
1:The higher voltage is required +28V while the Power Consumption is no less
than 200W.
2:The SSD will become burned hot with smoke during the physical destruction
period, please don’t touch it.
I6 Series
Datasheet
15
5. Electric Specification
5.1 Pin Descriptions
5.1.1 Pin Assignment
Figure2 Pin Locations
Table 16 SATA interface Pin assignment
Pin Name Description Pin Name Description
S1 GND 2nd mate P5 GND 2nd mate
S2 A+ Differential signal pair A
From physical layer
electronics
P6 GND 2nd mate
S3 A- P7 V5 5v power, pre-charge, 2nd
mate
S4 GND 2nd mate P8 V5 5v power
S5 B- Differential signal pair B
From physical layer
electronics
P9 V5 5v power
S6 B+ P10 GND 2nd mate
S7 GND 2nd mate P11 DAS Device activity signal (not
used)
P1 V28
Physical Destroy Voltage
Input
P12 GND 1st mate
P2 V28 P13 SEO Security Erase Indicator
Output
P3 V28 P14 SEI Security Erase Trigger Input
P4 GND 1st mate P15 V12 12v power (not used)
I6 Series
Datasheet
16
5.2 Electrical Characteristics
5.2.1 Absolute Maximum Rating
Table 17 Absolute maximum rating
Parameter Symbol Condition Min Max Unit
Storage temperature TSGT -55 95 ℃
Input Power Voltage VIN -0.3 6.5 V
5.2.2Power Supply Operation Conditions
Table 18 recommended power supply operation conditions
Parameter Symbol Condition Min Max Unit
Input Power Voltage VIN 4.75 5.25 V
5.2.3 Power Consumption
Recommended DC operation voltage: 4.75~5.25V
Table 19 power consumption
Parameter Typical Unit
Idle 0.65 W
4KB sample data
Sequential read 0.80 W
Sequential write 1.2 W
Random read 0.85 W
Random write 1.8 W
512KB sample data
Sequential read 0.75 W
Sequential write 0.8 W
Random read 0.8 W
Random write 1.7 W
Note: 1.The power consumption can differ depending on the disk capacity and
the type of flash memory being used.
2. Test sample: I6 Series 256GB 2.5” SATAIII MLC SSD
3. Supply voltage: 5.0V
I6 Series
Datasheet
17
6. ATA Command Description
6.1 ATA Command Set
Table 21 ATA commands list
Command Code(Hex) Protocol
General Feature Set
Execute Device Diagnostic 90h Execute device diagnostic
Flush Cache E7h Non-data
Identify Device ECh PIO data-in
Initialize Drive Parameter 91h Non-data
Read DMA C8h DMA
Read Log Ext 2Fh PIO data-in
Read Multiple C4h PIO data-in
Read Sector(s) 20h PIO data-in
Read Verify Sector(s) 40h or 41h Non-data
Set Feature Efh Non-data
Set Multiple Mode C6h Non-data
Write DMA Cah DMA
Write Multiple C5h PIO data-in
Write Sector(s) 30h PIO data-out
NOP 00h Non-data
Read Buffer E4h PIO data-in
Writer Buffer E8h PIO data-out
Power Management Feature Set
Check Power Mode E5h or 98h Non-data
Idle E3h or 97h Non-data
Idle Immediate E1h or 95h Non-data
Sleep E6h or 99h Non-data
Standby E2h or 96h Non-data
Standby Immediate E0h or 94h Non-data
Security Mode Feature Set
Security Set Password F1h PIO data-out
Security Unlock F2h PIO data-out
Security Erase Prepare F3h Non-data
I6 Series
Datasheet
18
Security Erase Unit F4h PIO data-out
Security Freeze Lock F5h Non-data
Security Disable Password F6h PIO data-out
SMART Feature Set
SMART Disable Operations B0h Non-data
SMART Enable/Disable Auto-save B0h Non-data
SMART Enable Operations B0h Non-data
SMART Execute OFF-LINE Immediate B0h Non-data
SMART Read Log B0h PIO data-in
SMART Read Threshold B0h PIO data-in
SMART Read Data B0h PIO data-in
SMART Return Status B0h Non-data
SMART Save Attribute Values B0h Non-data
SMART Write Log B0h PIO data-out
Host Protected Area Feature Set
Read Native Max Address F8h Non-data
Set Max Address F9h Non-data
Set Max Set Password F9h PIO data-out
Set Max Lock F9h Non-data
Set Max Freeze Lock F9h Non-data
Set Max Unlock F9h PIO data-out
48-bit Address Feature Set
Flush Cache Ext Eah Non-data
Read Sector(s) Ext 24h PIO data-in
Read DMA Ext 25h DMA
Read Multiple 29h PIO data-in
Read Native Max Address Ext 27h Non-data
Read Verity Sector(s) Ext 42h Non-data
Set Max Address Ext 37h Non-data
Write DMA Ext 35h DMA
Write Multiple Ext 39h PIO data-out
Write Sector(s) Ext 34h PIO data-out
NCQ Feature Set
Read FPDMA Queued 60h DMA Queued
Write FPDMA Queued 61h DMA Queued
Others
Data Set Management 06h DMA
Seek 70h Non-data
I6 Series
Datasheet
19
6.2 SMART Feature Set
The SSD controller supports the SMART command set and defines some
vendor-specific data to report spare/bad block numbers in each memory
management unit. Table 22: SMART Feature Register Values
Value Command Value Command
D0h Read Data D5h Read Log
D1h Read Attribute Threshold D6h Write Log
D2h Enable/Disable Autosave D8h Enable SMART Operations
D3h Save Attribute Values D9h Disable SMART Operations
D4h Execute OFF-LINE Immediate DAh Return Status
If the reserved size is below the threshold, the status can be read from the Cylinder
Register using the Return Status command (DAh).
The following 512bytes make up the SMART data structure. Users can obtain the
data using the “Read Data” command (D0h).
Table 23 SMART data structure
Byte F / V Description
0-1 X Revision code
2-361 X Vendor specific
362 V Off-line data collection status
363 X Self-test execution status byte
364-365 V Total time in seconds to complete off-line data collection activity
366 X Vendor specific
367 F Off-line data collection capability
368-369 F SMART capability
370 F
Error logging capability
7-1 Reserved
0 1=Device error logging supported
371 X Vendor specific
372 F Short self-test routine recommended polling time(in minutes)
373 F Extended self-test routine recommended polling time (in minutes)
374 F Conveyance Self-test routine recommended polling time (in
minutes)
375-385 R Reserved
386-395 F Firmware version / data code
396-399 F Vendor specific
400-408 F Reserved
I6 Series
Datasheet
20
409-415 X Vendor specific
416-417 F Reserved
418-419 V Number of spare block
420 F Reserved
421-422 V Average erase count
423 F Reserved
424-425 V Max erase count
426 F Reserved
427-428 V Min erase count
429-510 X Vendor specific
511 V Data structure checksum
Notes:
1. F=content (byte) is fixed and does not change.
2. V=content (byte) is variable and may change depending on the state of
the device or the commands executed by the device.
3. X=contents (byte) is vendor specific ad may be fixed or variable.
4. R=content (byte) is reserved and shall be zero.
6.3 SMART Attributes
The following table defines the vendor specific data in byte 2 to 381 of the 512-byte
SMART data.
Table 24SMART Attribute
Attribute
ID(hex) Raw Attribute Value Attribute Name
01 MSB 00 00 00 00 00 Read error rate
05 LSB MSB 00 00 00 00 Reallocated sectors count
09 LSB MSB 00 00 Reserved
0C LSB MSB 00 00 Power cycle count
A0 LSB MSB 00 00 Uncorrectable sector count when
read/write
A1 LSB MSB 00 00 00 00 Number of valid spare block
A2 LSB MSB 00 00 00 00 Number of cache data block
A3 LSB MSB 00 00 00 00 Number of initial invalid block
A4 LSB MSB 00 00 Total erase count
A5 LSB MSB 00 00 Maximum erase count
A6 LSB MSB 00 00 Minimum erase count
A7 LSB MSB 00 00 Average erase count
C0 LSB MSB 00 00 Power-off retract count
I6 Series
Datasheet
21
C2 MSB 00 00 00 00 00 Controller temperature
C3 LSB MSB 00 00 Hardware ECC recovered
C4 LSB MSB 00 00 Reallocation event count
C7 LSB MSB 00 00 00 00 Ultra DMA CRC error count
F1 LSB MSB 00 00 Total LBAs written (each write unit = 32MB)
F2 LSB MSB 00 00 Total LBAs Read (each read unit = 32MB)
7. Revision History
Table24 Document Revision History
Date Revision Description
Dec.,2014 A0 Official Release
Mar.,2016 A1 Update Datasheet Format