CFast 630
SQFlash
CFast 630
CFast 630
Datasheet
(SQF-S10xx-xG-S9x)
Specifications subject to change without notice, contact your sales representatives for the most update information.
REV 1.0
Page 1 of 25
Apr. 01, 2016
SQFlash
CFast 630
CONTENTS
1. Overview ............................................................................................ 4
2. Features ............................................................................................. 5
3. Specification Table ............................................................................ 6
4. General Description .......................................................................... 8
5. Pin Assignment and Description ................................................... 10
5.1 CFast Interface Pin Assignments (Signal Segment) ...................................................... 10
5.2 CFast Interface Pin Assignments (Power Segment) ..................................................... 10
6. Identify Device Data ........................................................................ 11
7. ATA Command Set .......................................................................... 15
8. System Power Consumption ......................................................... 21
8.1 Supply Voltage .............................................................................................................. 21
8.2 Power Consumption ...................................................................................................... 21
Physical Dimension ............................................................................ 22
Appendix: Part Number Table ........................................................... 23
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SQFlash
CFast 630
Revision History
Rev.
Date
History
st
0.1
2014/4/3
1.
1 draft
0.2
2014/6/4
1.
Update performance data
0.3
2015/12/18
1.
Correct ECC number on P.8
0.4
2016/3/28
1.
Add 256G MLC, 128G Ultra MLC
1.0
2016/4/1
1.
MLC / UMLC Update to 15nm
Advantech reserves the right to make changes without further notice to any products or data herein to improve reliability, function, or
design. Information furnished by Advantech is believed to be accurate and reliable. However, Advantech does not assure any liability
arising out of the application or use of this information, nor the application or use of any product or circuit described herein, neither
does it convey any license under its patent rights nor the rights of others.
Copyright © 1983-2010 Advantech Co., Ltd. All rights reserved.
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SQFlash
CFast 630
1.
Overview
Advantech SQFlash CFast
TM
combines the advantages of flash disk technology with the Serial ATA III interface,
TM
which electrically complies with the Serial ATA International Organization Standard. CFast , consisting of a
SATA-based 7-pin standard interface for data segment and 17-pin for power and controller segment, is designed to
operate at a maximum operating frequency of 300MHz with 40MHz external crystal. SQFlash CFast
TM
comes with a
wide range of capacities from 1GB to 64GB for SLC, and 4GB to up to 128GB for MLC, and delivers the read / write
performance up to 500MB/s and 150MB/s, respectively based on Toshiba 24nm toggle SLC Flash IC. Given the
features of the low power consumption, small form factor, and high shock-resistance, CFast
TM
are deemed to be
widely adopted storage device for embedded solutions, and will be an attractive solution to replace the conventional
[PATA-interfaced] CompactFlash card in industrial applications.
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SQFlash
CFast 630
2.

Features
Standard SATA interface
–
Support SATA 1.5 Gbps, 3.0 Gbps, and 6.0 Gbps interface
–
SATA Revision 3.0 compliant
–
Power management supported

Operating Voltage:3.3V

Support 72 bit ECC correct per 1K Byte data

TRIM、AHCI supported

Temperature Ranges
–
Commercial Temperature
● 0℃ to 70℃ for operating
● -40℃ to 85℃ for storage
–
Industrial Temperature
● -40℃ to 85℃ for operating
● -40℃ to 85℃ for storage

Mechanical Specification
–
Shock:1,500G / 0.5ms
–
Vibration:20G / 80~2,000Hz

Humidty
–

Humidity:5% ~ 95% under 55℃
Endurance : > 2,000,000 program/erase cycles
–
This is a test result of the whole SQFlash drive. The test is to keep writing a fixed logical block address (LBA)
and see if any bad blocks occur after 2M cycles. With wear-levelling mechanism, although the disk was kept
writing the same LBA but the physical block changes per block writing. So this test also proves that
wear-leveling is really working, or the block would be wearout after its designated life cycles.

Data Retention
–
10 years

Acquired RoHS、WHQL、CE、FCC Certificate

Acoustic:0 dB

Dimension:42.8 mm x 36.4 mm x 3.3 mm
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SQFlash
CFast 630
3.

Specification Table
Performance
Sequential Performance (MB/sec)
SLC
Ultra
MLC
MLC
Read
Write
1 GB
33.83
2 GB
67.44
4 GB
Random Performance (IOPS @4K)
Read
Write
21.16
6,994
2,533
41.19
13,652
4,531
68.66
52.41
12,608
8,837
8 GB
286.40
86.94
40,832
18,468
16 GB
523.00
153.00
36,608
27,392
32 GB
503.70
148.00
41,779
27,238
64 GB
509.50
152.20
36,762
27,418
2 GB
121.90
57.17
64,444
12,025
4 GB
243.70
113.50
44,514
21,069
8 GB
321.50
185.00
39,105
29,754
16 GB
260.80
157.90
36,018
28,428
32 GB
523.40
187.30
44,434
25,054
64 GB
523.90
193.20
40,700
24,094
128 GB
526.40
179.50
40,820
24,084
4 GB
119.40
56.74
64,586
10,409
8 GB
236.90
113.10
45,339
20,926
16 GB
302.70
178.40
44,867
27,601
32 GB
250.70
151.40
42,784
24,905
64 GB
511.30
185.30
45,903
27,637
128 GB
506.60
193.60
33,821
23,900
256 GB
506.20
187.50
33,787
23,551
* All performance above are tested with AHCI mode.
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SQFlash
CFast 630

Endurance
According to JEDEC subcommittee JC-64.8, the actual endurance of flash storage can be presented by
Terabyte Write (TBW), which is measured by NAND Flash physical endurance, Wear-leveling Efficiency
(WLE) and Write Amplification Factor (WAF) of specific capacities with following formula.
TBW = [(NAND Flash Physical Endurance) x Capacity x WLE] / WAF


TBW of sequential writing
WLE
WAF
1 GB
0.9130
2 GB
TBW
SLC
Ultra MLC
MLC
1.1013
80
--
--
0.9130
1.1017
161
32
--
4 GB
0.9130
1.1025
323
64
9
8 GB
0.9120
1.1026
646
129
19
16 GB
0.9120
1.1031
1291
258
38
32 GB
0.9120
1.1029
2584
516
77
64 GB
0.9110
1.1039
5157
1031
154
128 GB
0.9110
1.1039
--
2060
309
256 GB
0.9100
1.1041
--
--
600
TBW of random writing
WLE
WAF
1 GB
0.9130
2 GB
TBW
SLC
Ultra MLC
MLC
1.2176
73
--
--
0.9130
1.2837
138
27
--
4 GB
0.9130
1.3034
273
54
8
8 GB
0.9120
1.3278
536
107
16
16 GB
0.9120
2.2323
638
127
19
32 GB
0.9120
2.3535
1210
242
36
64 GB
0.9110
2.4396
2333
466
70
128 GB
0.9110
2.3141
--
980
147
256 GB
0.9100
2.2614
--
--
290
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SQFlash
CFast 630
4.

General Description
Advanced NAND Flash Controller
TM
Advantech SQFlash CFast includes Bad Block Management Algorithm, Wear Leveling Algorithm and Error
Detection / Correction Code (EDC/ECC) Algorithm.

Bad Block Management
Bad blocks are blocks that contain one or more invalid bits of which the reliability is not guaranteed. Bad
blocks may be representing when flash is shipped and may developed during life time of the device.
TM
Advantech SQFlash CFast implement an efficient bad block management algorithm to detect the factory
produced bad blocks and manages any bad blocks that may develop over the life time of the device. This
process is completely transparent to the user, user will not aware of the existence of the bad blocks during
operation.

Wear Leveling
NAND Type flash have individually erasable blocks, each of which can be put through a finite number of
erase cycles before becoming unreliable. It means after certain cycles for any given block, errors can be
occurred in a much higher rate compared with typical situation. Unfortunately, in the most of cases, the flash
media will not been used evenly. For certain area, like file system, the data gets updated much frequently
than other area. Flash media will rapidly wear out in place without any rotation.
Wear leveling attempts to work around these limitations by arranging data so that erasures and re-writes are
distributed evenly across the full medium. In this way, no single sector prematurely fails due to a high
concentration of program/erase cycles.
TM
Advantech SQFlash CFast provides advanced wear leveling algorithm, which can efficiently spread out the
flash usage through the whole flash media area. By implement both dynamic and static wear leveling
algorithms, the life expectancy of the flash media can be improved significantly.

Error Detection / Correction
TM
Advantech SQFlash CFast utilizes BCH ECC Algorithm which offers one of the most powerful ECC
algorithms in the industry. This algorithm can support 72 bit ECC correct per 1K Byte data.

Sophisticate Product Management Systems
Since industrial application require much more reliable devices compare with consumer product, a more
sophisticated product management system become necessary for industrial customer requirement. The key
to providing reliable devices is product traceability and failure analysis system. By implement such systems
end customer can expect much more reliable product.
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SQFlash
CFast 630

Block Diagram

LBA、Cylinders、Heads、Sectors value
Density
1 GB
2 GB
4 GB
8 GB
16 GB
32 GB
64 GB
128 GB
256 GB
LBA
1,974,672
3,928,176
7,835,184
15,649,200
31,277,232
62,533,296
125,045,424
250,069,680
500,118,192
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REV 1.0
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SQFlash
CFast 630
5.
Pin Assignment and Description
5.1 CFast Interface Pin Assignments (Signal Segment)
Pin #
S1
S2
S3
S4
S5
S6
S7
Pin Def.
GND
A+
AGND
BB+
GND
Description
Host Transmitter
Differential Signal Pair
Host Receiver
Differential Signal Pair
Mate Sequence
st
1
nd
2
nd
2
st
1
nd
2
nd
2
st
1
5.2 CFast Interface Pin Assignments (Power Segment)
Pin #
P1
P2
P3
P4
P5
P6
P7
P8
P9
P10
P11
P12
P13
P14
P15
P16
P17
Pin Def.
CDI
GND
DEVSLP
TBD
TBD
TBD
GND
LED1
LED2
IO1
IO2
IFDet (GND)
PWR
PWR
PGND
PGND
CDO
Function
Card Detect in
DevSleep State Enable (optional)
LED Output
LED Output
Reserved Input/Output
Reserved Input/Output
Card output, connect to PGND on card
Device Power (3.3V)
Device Power (3.3V)
Device Ground
Device Ground
Card Detect Out
Mate Sequence
rd
3
st
1
nd
2
nd
2
nd
2
nd
2
st
1
nd
2
nd
2
nd
2
nd
2
nd
2
nd
2
nd
2
st
1
st
1
rd
3
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REV 1.0
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Apr. 01, 2016
SQFlash
CFast 630
6.
Identify Device Data
The Identity Device Data enables Host to receive parameter information from the device. The parameter
words in the buffer have the arrangement and meanings defined in below table. All reserve bits or words
are zero
Word
Address
Default
Value
0
0400h
1
*1
2
C837h
Specific configuration
3
0010h
Obsolete – Number of logical heads (16)
4-5
0000h
Retired
6
003Fh
Obsolete – Number of logical sectors per logical track (63)
7-8
0000h
Reserved for assignment by the Compact Flash Association
9
0000h
Retired
10-19
ASCII
Serial number (20 ASCII characters)
20-21
0000h
Retired
22
0000h
Obsolete
23-26
ASCII
Firmware revision (8 ASCII characters)
27-46
ASCII
Model number (40 ASCII characters)
47
8010h
READ/WRITE MULTIPLE commands function
48
4000h
Trusted Computing feature set options (not support)
49
2F00h
Capabilities
50
4000h
Capabilities
51-52
0000h
Obsolete
53
0007h
Words 88 and 70:64 valid
54
*1
55
0010h
Obsolete – Number of logical heads (16)
56
003Fh
Obsolete – Number of logical sectors per track (63)
57-58
*2
59
0110h
60-61
*3
62
0000h
Obsolete
63
0407h
Multi-word DMA modes supported/selected
64
0003h
PIO modes supported
65
0078h
Minimum Multiword DMA transfer cycle time per word
66
0078h
Manufacturer’s recommended Multiword DMA transfer cycle time
67
0078h
Minimum PIO transfer cycle time without flow control
68
0078h
Minimum PIO transfer cycle time with IORDY flow control
Data Field Type Information
General configuration
Obsolete – Number of logical cylinders
Obsolete – Number of logical cylinders
Obsolete – Current capacity in sectors
Number of sectors transferred per interrupt on MULTIPLE commands
Maximum number of sector (28bit LBA mode)
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Apr. 01, 2016
SQFlash
CFast 630
69
0100h
Additional Supported (support download microcode DMA)
70
0000h
Reserved
71-74
0000h
Reserved for the IDENTIFY PACKET DEVICE command
75
001Fh
Queue depth (NCQ)
76
670eh
Serial SATA capabilities
77
0084h
Reserved for future Serial ATA definition
78
014Ch
Serial ATA features supported
79
0040h
Serial ATA features enabled
80
01F8h
Major Version Number
81
0000h
Minor Version Number
82
346Bh
Command set supported
83
7D09h
Command set supported
84
6063h
Command set/feature supported extension
85
3469h
Command set/feature enabled
86
BC01h
Command set/feature enabled
87
6063h
Command set/feature default
88
003Fh
Ultra DMA Modes
89
001Eh
Time required for security erase unit completion
90
001Eh
Time required for Enhanced security erase completion
91
0000h
Current advanced power management value
92
FFFEh
Master Password Revision Code
93
0000h
Hardware reset result. The contents of the bits (12:0) of this word shall
change only during the execution of s hardware reset.
94
0000h
Vendor’s recommended and actual acoustic management value
95
0000h
Stream Minimum Request Size
96
0000h
Streaming Transfer Time – DMA
97
0000h
Streaming Access Latency – DMA and PIO
98-99
0000h
Streaming Performance Granularity
100-103
*4
104
0000h
Streaming Transfer Time – PIO
105
0008h
Maximum number of 512-byte blocks per DATA SET MANAGEMENT
command
106
4000h
Physical sector size / Logical sector size
107
0000h
Inter-seek delay for ISO-7779 acoustic testing in microseconds
108-111
0000h
Unique ID
112-116
0000h
Reserved
117-118
0000h
Words per logical Sector
119
4014h
Supported settings
Maximum user LBA for 48 bit Address feature set
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SQFlash
CFast 630
120
4014h
Command set/Feature Enabled/Supported
121-126
0000h
Reserved
127
0000h
Removable Media Status Notification feature set support
128
0021h
Security status
129-140
0000h
Vendor specific
141
0001h
Vendor specific
142-159
0000h
Vendor specific
160
0000h
Compact Flash Association (CFA) power mode 1
161-167
0000h
Reserved for assignment by the CFA
168
0005h
Device Nominal Form Factor
169
0001h
DATA SET MANAGEMENT command is supported
170-173
0000h
Additional Product Identifier
174-175
0000h
Reserve
176-205
0000h
Current media serial number
206
0000h
SCT Command Transport
207-208
0000h
Reserved
209
4000h
Alignment of logical blocks within a physical block
210-211
0000h
Write-Read-Verify Sector Count Mode 3 (not support)
212-213
0000h
Write-Read-Verify Sector Count Mode 2 (not support)
214-216
0000h
NV Cache relate (not support)
217
0001h
Non-rotating media device
218
0000h
Reserved
219
0000h
NV Cache relate (not support)
220
0000h
Write read verify feature set current mode
221
0000h
Reserved
222
107Fh
Transport major version number
223
0000h
Transport minor version number
224-229
0000h
Reserved
230-233
0000h
Extend number of user addressable sectors
234
0001h
Minimum number of 512-byte data blocks per DOWNLOAD
MICROCODE command for mode 03h
235
0080h
Maximum number of 512-byte data blocks per DOWNLOAD
MICROCODE command for mode 03h
236-254
0000h
Reserved
255
XXA5h
XX is variable
Integrity word (Checksum and Signature)
Capacity (GB)
*1 (Word 1 / 54)
*2 (Word 57 - 58)
*3 (Word 60 - 61)
*4 (Word 100 – 103)
1
2
4
8
7A7h
F39h
1E5Dh
3CA5h
1E2190h
3BF070h
778E30h
EEC9B0h
1E2190h
3BF070h
778E30h
EEC9B0h
1E2190h
3BF070h
778E30h
EEC9B0h
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Apr. 01, 2016
SQFlash
CFast 630
16
32
64
3FFFh
3FFFh
3FFFh
FBFC10h
FBFC10h
FBFC10h
1DD40B0h
3BA2EB0h
7740AB0h
1DD40B0h
3BA2EB0h
7740AB0h
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SQFlash
CFast 630
7.
ATA Command Set
[Command Set List]
Op-Code
06h
10h-1Fh
20h
21h
24h
25h
27h
29h
2Fh
30h
31h
34h
35h
37h
39h
3Dh
3Fh
40h
41h
42h
60h
61h
70h
90h
91h
92h
B0h
C4h
C5h
C6h
C8h
C9h
CAh
CBh
CEh
E0h
E1h
E2h
E3h
E4h
E5h
E6h
E7h
E8h
EAh
ECh
EFh
F1h
Command Description
Data Set Management
Recalibrate
Read Sectors
Read Sectors without Retry
Read Sectors EXT
Read DMA EXT
Read Native Max Address EXT
Read Multiple EXT
Read Log EXT
Write Sectors
Write Sectors without Retry
Write Sectors EXT
Write DMA EXT
Set Native Max Address EXT
Write Multiple EXT
Write DMA FUA EXT
Write Long EXT
Read Verify Sectors
Read Verify Sectors without Retry
Read Verify Sectors EXT
Read FPDMA Queued
Write FPDMA Queued
Seek
Execute Device Diagnostic
Initialize Device Parameters
Download Microcode
SMART
Read Multiple
Write Multiple
Set Multiple Mode
Read DMA
Read DMA without Retry
Write DMA
Write DMA without Retry
Write Multiple FUA EXT
Standby Immediate
Idle Immediate
Standby
Idle
Read Buffer
Check Power Mode
Sleep
Flush Cache
Write Buffer
Flush Cache EXT
Identify Device
Set Features
Security Set Password
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SQFlash
CFast 630
F2h
F3h
F4h
F5h
F6h
F8h
F9h
Security Unlock
Security Erase Prepare
Security Erase Unit
Security Freeze Lock
Security Disable Password
Read Native Max Address
Set Max Address
[Command Set Descriptions]
1. CHECK POWER MODE (code: E5h);
This command allow host to determine the current power mode of the device.
2. DOWNLOAD MICROCODE (code: 92h);
This command enable the host to alter the device’s microcode. The data transferred using the
DOWNLOAD MICROCODE command is vendor specific.
All transfers shall be an integer multiple of the sector size. The size of the data transfer is determined by
the content of the LBA Low register and the Sector Count register.
This allows transfer sizes from 0 bytes to 33,553,920 bytes, in 512bytes increments.
3. EXECUTE DEVICE DIAGNOSTIC (code: 90h);
This command performs the internal diagnostic tests implemented by the module.
4. FLUSH CACHE (code: E7h);
This command used by the host to request the device to flush the write cache.
5. FLUSH CACHE EXT (code: EAh);
This command is used by the host to request the device to flush the write cache. If there is data in the
write cache, that data shall be written to the media.
6. IDENTIFY DEVICE (code: ECh);
The IDENTIFY DEVICE command enables the host to receive parameter information from the module.
7. IDLE (code: 97h or E3h);
This command allows the host to place the module in the IDLE mode and also set the Standby timer.
INTRQ may be asserted even through the module may not have fully transitioned to IDLE mode. If the
Sector Count register is non-”0”, then the Standby timer shall be enabled. The value in the Sector Count
register shall be used to determine the time programmed into the Standby timer. If the Sector Count
register is “0” then the Standby timer is disabled.
8. IDLE IMMEDIATE (code: E1h);
This command causes the module to set BSY, enter the Idle (Read) mode, clear BSY and generate an
interrupt.
9. INITIALIZE DEVICE PARAMETERS (code: 91h);
This command enables the host to set the number of sectors per track and the number of heads per
cylinder.
10. NOP (code: 00h);
If this command is issued, the module respond with command aborted.
11. READ BUFFER (code: E4h);
This command enables the host to read the current contents of the module's sector buffer.
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SQFlash
CFast 630
12. READ DMA (code: C8h or C9h);
This command reads from “1” to “256” sectors as specified in the Sector Count register using the DMA
data transfer protocol. A sector count of “0” requests “256” sectors transfer. The transfer begins at the
sector specified in the Sector Number register.
13. READ DMA Ext (code: 25h);
This command allows the host to read data using the DMA data transfer protocol.
14. READ MULTIPLE (code: C4h);
This command performs similarly to the READ SECTORS command. Interrupts are not generated on
each sector, but on the transfer of a block which contains the number of sector per block is defined by the
content of word 59 in the IDENTIFY DEVICE response.
15. READ MULTIPLE EXT (code: 29h);
This command performs similarly to the READ SECTORS command. The number of sectors per block is
defined by a successful SET MULTIPLE command. If no successful SET MULTIPLE command has been
issued, the block is defined by the device’s default value for number of sectors per block as defined in bits
(7:0) in word 47 in the IDENTIFY DEVICE information.
16. READ NATIVE MAX ADDRESS (code: F8h);
This command returns the native maximum address. The native maximum address is the highest address
accepted by the device in the factory default condition.
17. READ NATIVE MAX ADDRESS EXT (code: 27h);
This command returns the native maximum address.
18. READ SECTOR(S) (code: 20h or 21h);
This command reads from “1” to “256” sectors as specified in the Sector Count register. A sector count of
“0” requests “256” sectors transfer. The transfer begins at the sector specified in the Sector Number
register.
19. READ SECTOR(S) EXT (code: 24h);
This command reads from “1” to “65536” sectors as specified in the Sector Count register. A sector count
of “0” requests “65536” sectors transfer. The transfer begins at the sector specified in the Sector Number
register.
20. READ VERIFY SECTOR(S) (code: 40h or 41h);
This command is identical to the READ SECTORS command, except that DRQ is never set and no data is
transferred to the host.
21. READ VERIFY SECTOR(S) EXT (code: 42h);
This command is identical to the READ SECTORS command, except that DRQ is never set and no data is
transferred to the host.
22. RECALIBRATE (code: 1Xh);
This command return value is select address mode by the host request.
23. SECURITY DISABLE PASSWORD (code: F6h);
This command transfers 512 bytes of data from the host. Table defines the content of this information. If
the password selected by word 0 match the password previously saved by the device, the device shall
disable the Lock mode. This command shall not change the Master password. The Master password shall
be reactivated when a User password is set.
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24. SECURITY ERASE PREPARE (code: F3h);
This command shall be issued immediately before the SECURITY ERASE UNIT command to enable
device eraseing and unlocking.
25. SECURITY ERASE UNIT (code: F4h);
This command transfer 512 bytes of data from the host. Table## defines the content of this information. If
the password does not match the password previously saved by the device, the device shall reject the
command with command aborted.
The SECURITY ERASE PREPARE command shall be completed immediately prior to the SECURITY
ERASE UNIT command.
26. SECURITY FREEZE LOCK (code: F5h);
This command shall set the device to frozen mode. After command completion any other commands that
update the device Lock mode shall be command aborted. Frozen shall be disabled by power-off or
hardware reset.
If SECURITY FREEZE LOCK is issued when the drive is in frozen mode, the drive executes the command
and remains in frozen mode.
27. SECURITY SET PASSWORD (code: F1h);
This command transfer 512 bytes of data from the host. Table defines the content of this information. The
data transferred controls the function of this command. Table defines the interaction of the identifier and
security level bits.
28. SECURITY UNLOCK (code: F2h);
This command transfer 512 bytes of data from the host. Table (as Disable Password) defines the content
of this information.
If the Identifier bit is set to Master and the device is in high security level, then the password supplied shall
be compared with the stored Master password. If the device is in maximum security level then the unlock
shall be rejected.
If the identifier bit is set to user then the device shall compare the supplied password with the stored User
password.
If the password compare fails then the device shall return command aborted to the host and decrements
the unlock counter. This counter shall be initially set to five and shall be decremented for each password
mismatch when SECURITY UNLOCK is issued and the device is locked. When this counter reachs zero
then SECURITY UNLOCK and SECURITY ERASE UNIT command shall be aborted unitl a power-on or a
hardware reset.
29. SEEK (code: 7Xh);
This command performs address range check.
30. SET MAX ADDRESS (code: F9h);
After successful command completion, all read and write access attempts to address greater than
specified by the successful SET MAX ADDRESS command shall be rejected with an IDNF error.
IDENTIFY DEVICE response words (61:60) shall reflect the maximum address set with this command.
31. SET MAX ADDRESS EXT (code: 37h);
After successful command completion, all read and write access attempts to address greater than
specified by the successful SET MAX ADDRESS command shall be rejected with an IDNF error.
IDENTIFY DEVICE response words (61:60) shall reflect the maximum address set with this command.
32. SET FEATURE (code: EFh);
This command is used by the host to establish parameters that affect the execution of certain device
features.
33. SET MULTIPLE MODE (code: C6h);
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This command enables the device to perform READ and Write Multiple operations and establishes the
block count for these commands.
34. SLEEP (code: 99h or E6h);
This command causes the module to set BSY, enter the Sleep mode, clear BSY and generate an interrupt.
35. SMART READ DATA (code: B0h with Feature register value of D0h);
This command returns the Device SMART data structure to the host.
36. SMART ENABLE/DISABLE AUTO SAVE (code: B0h with Feature register value of D2h);
This command enables and disables the optional attribute autosave feature of the device.
37. SMART EXECUTE OFF_LINE (code: B0h with Feature register value of D4h);
This command cause the device to immediately initiate the optional set of activities that collect SMART
data in an off-line mode and then save this data to the device’s non-volatile memory, or execute a
self-diagnostic test routine in either captive or off-line mode.
38. SMART READ LOG (code: B0h with Feature register value of D5h);
This command returns the specified log data to the host.
39. SMART ENABLE OPERATION (code: B0h with Feature register value of D8h);
This command enables access to all SMART capabilities within the device. Prior to receipt of this
command SMART data are neither monitored nor saved by the device.
40. SMART DISABLE OPERATION (code: B0h with Feature register value of D9h);
This command disables all SMART capabilities within the device including any and all timer and event
count functions related exclusively to this feature. After command acceptance the device shall disable all
SMART operations.
After receipt of this command by the device, all other SMART commands including SMART DISABLE
OPERATION commands, with exception of SMART ENABLE OPERATIONS, are disabled and invalid and
shall be command aborted by the device.
41. SMART RETURN STATUS (code: B0h with Feature register value of DAh);
This command cause the device to communicate the reliability status of the device to the host.
42. STANDBY (code: E2h);
This command causes the module to set BSY, enter the Standby mode, clear BSY and return the interrupt
immediately.
43. STANDBY IMMEDIATE (code: E0h);
This command causes the module to set BSY, enter the Standby mode, clear BSY and return the interrupt
immediately.
44. WRITE BUFFER (code: E8h);
This command enables the host to overwrite contents of the module’s sector buffer with any data pattern
desired.
45. WRITR DMA (code: CAh or CBh);
This command writes from “1” to “256” sectors as specified in the Sector Count register using the DMA
data transfer protocol. A sector count of “0” requests “256” sectors transfer. The transfer begins at the
sector specified in the Sector Number register.
46. WRITR DMA EXT (code: 35h);
This command writes from “1” to “65536” sectors as specified in the Sector Count register using the DMA
data transfer protocol. A sector count of “0” requests “65536” sectors transfer. The transfer begins at the
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sector specified in the Sector Number register.
47. WRITE MULTIPLE (code: C5h);
This command is similar to the WRITE SECTORS command. Interrupts are not presented on each sector,
but on the transfer of a block which contains the number of sectors defined by Set Multiple command.
48. WRITE MULTIPLE EXT (code: 39h);
This command is similar to the WRITE SECTORS command. Interrupts are not presented on each sector,
but on the transfer of a block which contains the number of sectors defined by Set Multiple command.
49. WRITE SECTOR(S) (code: 30h);
This command writes from “1” to “256” sectors as specified in the Sector Count register. A sector count of
“0” requests “256” sectors transfer. The transfer begins at the sector specified in the Sector Number
register.
50. WRITE SECTOR(S) EXT (code: 34h);
This command writes from “1” to “65536” sectors as specified in the Sector Count register. A sector count
of “0” requests “65536” sectors transfer. The transfer begins at the sector specified in the Sector Number
register.
51. WRITE SECTOR(S) W/O ERASE (code: 38h);
This command writes from “1” to “256” sectors as specified in the Sector Count register. A sector count of
“0” requests “256” sectors transfer. The transfer begins at the sector specified in the Sector Number
register.
52. WRITE VERIFY (code: 3Ch);
This command is similar to the WRITE SECTOR(S) command, except that each sector is verified before
the command is completed.
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8.
System Power Consumption
8.1 Supply Voltage
Parameter
Rating
Operating Voltage
3.3V +/- 5%
8.2 Power Consumption
mA
Read
Write
Idle
Slumber
1 GB
158.79
167.88
77.27
10.00
2 GB
185.16
208.79
78.48
10.00
4 GB
191.82
239.70
78.79
10.00
8 GB
287.88
303.04
84.85
10.00
16 GB
296.97
281.82
84.85
10.00
32 GB
363.64
393.94
84.85
10.00
64 GB
409.10
424.25
87.88
10.00
Ultra
MLC
2 GB
4 GB
8 GB
16 GB
32 GB
64 GB
128 GB
260.61
363.64
287.88
409.10
469.70
484.85
566.67
227.28
266.67
257.58
378.79
393.94
393.94
403.03
84.85
84.85
84.85
87.88
90.91
90.91
84.85
10.00
10.00
10.00
10.00
10.00
10.00
10.00
MLC
4 GB
8 GB
16 GB
32 GB
64 GB
128 GB
256 GB
260.61
350.00
284.85
409.10
475.76
484.85
593.94
218.19
268.19
254.55
366.67
384.85
393.94
524.24
84.85
84.85
84.85
87.88
90.91
90.91
85.76
10.00
10.00
10.00
10.00
10.00
10.00
10.00
SLC
Specifications subject to change without notice, contact your sales representatives for the most update information.
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CFast 630
9.
Physical Dimension
CFast (Unit: mm)
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Appendix: Part Number Table
SLC
Product
Advantech PN
SQF CFast 630 1G SLC (0~70°C)
SQF-S10S1-1G-S9C
SQF CFast 630 2G SLC (0~70°C)
SQF-S10S2-2G-S9C
SQF CFast 630 4G SLC (0~70°C)
SQF-S10S2-4G-S9C
SQF CFast 630 8G SLC (0~70°C)
SQF-S10S2-8G-S9C
SQF CFast 630 16G SLC (0~70°C)
SQF-S10S4-16G-S9C
SQF CFast 630 32G SLC (0~70°C)
SQF-S10S4-32G-S9C
SQF CFast 630 64G SLC (0~70°C)
SQF-S10S4-64G-S9C
SQF CFast 630 1G SLC (-40~85°C)
SQF-S10S1-1G-S9E
SQF CFast 630 2G SLC (-40~85°C)
SQF-S10S2-2G-S9E
SQF CFast 630 4G SLC (-40~85°C)
SQF-S10S2-4G-S9E
SQF CFast 630 8G SLC (-40~85°C)
SQF-S10S2-8G-S9E
SQF CFast 630 16G SLC (-40~85°C)
SQF-S10S4-16G-S9E
SQF CFast 630 32G SLC (-40~85°C)
SQF-S10S4-32G-S9E
SQF CFast 630 64G SLC (-40~85°C)
SQF-S10S4-64G-S9E
Specifications subject to change without notice, contact your sales representatives for the most update information.
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SQFlash
CFast 630
Ultra MLC
Product
Advantech PN
SQF CFast 630 2G U-MLC (0~70°C)
SQF-S10U1-2G-S9C
SQF CFast 630 4G U-MLC (0~70°C)
SQF-S10U2-4G-S9C
SQF CFast 630 8G U-MLC (0~70°C)
SQF-S10U2-8G-S9C
SQF CFast 630 16G U-MLC (0~70°C)
SQF-S10U2-16G-S9C
SQF CFast 630 32G U-MLC (0~70°C)
SQF-S10U2-32G-S9C
SQF CFast 630 64G U-MLC (0~70°C)
SQF-S10U2-64G-S9C
SQF CFast 630 128G U-MLC (0~70°C)
SQF-S10U2-128G-S9C
SQF CFast 630 2G U-MLC (-40~85°C)
SQF-S10U1-2G-S9E
SQF CFast 630 4G U-MLC (-40~85°C)
SQF-S10U2-4G-S9E
SQF CFast 630 8G U-MLC (-40~85°C)
SQF-S10U2-8G-S9E
SQF CFast 630 16G U-MLC (-40~85°C)
SQF-S10U2-16G-S9E
SQF CFast 630 32G U-MLC (-40~85°C)
SQF-S10U2-32G-S9E
SQF CFast 630 64G U-MLC (-40~85°C)
SQF-S10U2-64G-S9E
SQF CFast 630 128G U-MLC (-40~85°C)
SQF-S10U2-128G-S9E
Specifications subject to change without notice, contact your sales representatives for the most update information.
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SQFlash
CFast 630
MLC
Product
Advantech PN
SQF CFast 630 4G MLC (0~70°C)
SQF-S10M1-4G-S9C
SQF CFast 630 8G MLC (0~70°C)
SQF-S10M2-8G-S9C
SQF CFast 630 16G MLC (0~70°C)
SQF-S10M2-16G-S9C
SQF CFast 630 32G MLC (0~70°C)
SQF-S10M2-32G-S9C
SQF CFast 630 64G MLC (0~70°C)
SQF-S10M2-64G-S9C
SQF CFast 630 128G MLC (0~70°C)
SQF-S10M2-128G-S9C
SQF CFast 630 256G MLC (0~70°C)
SQF-S10M2-256G-S9C
SQF CFast 630 4G MLC (-40~85°C)
SQF-S10M1-4G-S9E
SQF CFast 630 8G MLC (-40~85°C)
SQF-S10M2-8G-S9E
SQF CFast 630 16G MLC (-40~85°C)
SQF-S10M2-16G-S9E
SQF CFast 630 32G MLC (-40~85°C)
SQF-S10M2-32G-S9E
SQF CFast 630 64G MLC (-40~85°C)
SQF-S10M2-64G-S9E
SQF CFast 630 128G MLC (-40~85°C)
SQF-S10M2-128G-S9E
SQF CFast 630 256G MLC (-40~85°C)
SQF-S10M2-256G-S9E
Specifications subject to change without notice, contact your sales representatives for the most update information.
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Apr. 01, 2016
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