ETC2 AP-CF002GH4NR-NDNRQ Ata cf Datasheet

RoHS Compliant
ATA CF
Specifications
August 27th, 2013
Version 1.6
Apacer Technology Inc.
1F, No.32, Zhongcheng Rd., Tucheng Dist., New Taipei City, Taiwan, R.O.C
Tel: +886-2-2267-8000
www.apacer.com
Fax: +886-2-2267-2261
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Features:
Standard ATA/IDE bus interface bus
interface
– ATA command set compatible
– ATA mode support for up to:
PIO Mode-4
Multiword DMA Mode-2
Ultra DMA Mode-4
–
Connector Type
50 pins female
–
–
–
Power consumption (typical)**
Supply voltage: 3.3V & 5V
Active mode: 80 mA/95 mA (3.3V/5.0V)
Sleep mode: 500 µA/600 µA (3.3V/5.0V)
–
–
Performance**
Sustained read: up to 29 MB/sec
Sustained write: up to 15 MB/sec
–
–
Temperature ranges
– Operation:
Standard: 0°C to 70°C
Extended: -40°C to 85°C
– Storage: -40°C to 100°C
Flash management
– Advanced wear-leveling algorithms
– S.M.A.R.T. technology
– Built-in hardware ECC
– Flash block management
– Power failure management
–
–
–
–
–
–
–
–
Capacity
128, 256, 512 MB
1, 2, 4, 8, 16 GB
Endurance (TBW: Terabytes Written)
128 MB: 3.3 TBW
256 MB: 6.7 TBW
512 MB: 12.9 TBW
1 GB: 25.6 TBW
2 GB: 38.4 TBW
4 GB: 51.9 TBW
8 GB: 69.8 TBW
16 GB: 115.0 TBW
NAND Flash Type: SLC
RoHS compliant
Physical Dimensions
36.4mm x 42.8mm x 3.3mm
Shock & Vibration**
– Shock: 1500G
– Vibration: 15G
MTBF > 2,000,000 hours
*The values addressed here for performance and power consumption are typical and may vary depending on configurations and
platforms.
**Non-operating
1
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Table of Contents
1. GENERAL DESCRIPTION .................................................................................................... 3
2. FUNCTIONAL BLOCK .......................................................................................................... 3
3. PIN ASSIGNMENTS ............................................................................................................... 4
4. PRODUCT SPECIFICATIONS.............................................................................................. 5
4.1 CAPACITY .............................................................................................................................................................5
4.2 PERFORMANCE .....................................................................................................................................................5
4.3 ENVIRONMENTAL .................................................................................................................................................6
4.4 ENDURANCE ........................................................................................................................................................6
4.5 MEAN TIME BETWEEN FAILURES (MTBF) ...........................................................................................................6
5. FLASH MANAGEMENT ........................................................................................................ 7
5.1. ADVANCED WEAR-LEVELING ALGORITHMS .........................................................................................................7
5.2 S.M.A.R.T. TECHNOLOGY ....................................................................................................................................7
5.3 BUILT-IN HARDWARE ECC ...................................................................................................................................7
5.4 FLASH BLOCK MANAGEMENT ...............................................................................................................................7
5.5 POWER FAILURE MANAGEMENT...........................................................................................................................7
6. SOFTWARE INTERFACE .................................................................................................... 8
6.1 COMMAND SET .....................................................................................................................................................8
7. ELECTRICAL SPECIFICATION ...................................................................................... 10
8. PHYSICAL CHARACTERISTICS ..................................................................................... 11
8.1 DIMENSION .........................................................................................................................................................11
9. PRODUCT ORDERING INFORMATION ........................................................................ 12
9.1 PRODUCT CODE DESIGNATIONS .........................................................................................................................12
9.2 VALID COMBINATIONS .......................................................................................................................................13
2
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
1. General Description
Apacer’s ATA CF offers reliable and high performance storage compatible with CF Type I and Type II
devices. Unlike the ordinary cards, Apacer ATA CF provides solid compatibilities for use in Point of Sale
(POS) terminals, telecom, IP-STB, medical instruments, surveillance systems, industrial PCs and
handheld applications.
With featuring technologies as wear leveling, S.M.A.R.T, built-in hardware ECC, flash block management,
and power failure management, the ATA CF is the ideal embedded storage for mission oriented
applications.
2. Functional Block
The ATA CF includes a controller and flash media, as well as the ATA CF standard interface. Figure 2-1
shows the functional block diagram.
Flash Array
Flash
Media
ATA CF
Interface
Flash
Media
ATA CF
Controller
Flash
Media
Flash
Media
Figure 2-1: Functional block diagram
3
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
3. Pin Assignments
Table 3-1 lists the pin assignments with respective signal names for the 50-pin configuration. A “#” suffix
indicates the active low signal. The pin type can be input, output or input/output.
Table 3-1: Pin assignments
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
True IDE mode
Signal name
GND
D3
D4
D5
D6
D7
#CE1
GND
GND
GND
GND
GND
VCC
GND
GND
GND
GND
A2
A1
A0
D0
D1
D2
#IOCS16
#CD2
Pin No.
Pin I/O type
I/O
I/O
I/O
I/O
I/O
I
I
I
I
I/O
I/O
I/O
O
O
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
True IDE mode
Signal name
#CD1
D11
D12
D13
D14
D15
#CE2
#VS1
#IORD
#IOWR
VCC
INTRQ
VCC
#CSEL
#WP_PD*
RESET
IORDY
DMARQ**
DMACK**
#DASP
#PDIAG
D8
D9
D10
GND
Pin I/O type
O
I/O
I/O
I/O
I/O
I/O
I
O
I
I
O
I
I
I
O
O
I
I/O
I/O
I/O
I/O
I/O
-
*Write-Protect enabled when pin 40 assigned to GND.
**Connection required when UDMA is in use.
4
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
4. Product Specifications
4.1 Capacity
Capacity specification of the ATA CF series is 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
128 MB
128,057,344
977
8
32
250,112
256 MB
256,901,120
980
16
32
501,760
512 MB
512,483,328
993
16
63
1,000,944
1GB
1,024,966,656
1986
16
63
2,001,888
2GB
2,048,385,024
3969
16
63
4,000,752
4GB
4,096,253,952
7937
16
63
8,000,496
8GB
8,001,552,384
15504
16
63
15,628,032
16GB
16,001,040,384
16383*
16
63
31,252,032
Notes:
Display of total bytes varies from operating systems.
Cylinders, heads or sectors are not applicable for these capacities. Only LBA addressing applies
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
Performances of the CF cards are listed in Table 4-2
Table 4-2: Performance specifications
Capacity
128 MB
256 MB
512 MB
1 GB
2 GB
4 GB
8 GB
16 GB
Sustained
read (MB/s)
17
29
19
21
20
21
21
20
Sustained
write (MB/s)
4
8
7
12
11
11
13
15
Performance
Notes: performance may vary depending on flash configurations or host system settings.
5
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
4.3 Environmental
Environmental specification of the ATA CF follows the MIL-STD-810F standards as shown in Table 4-4.
Table 4-3: Environmental specifications
Environment
Temperature
Specification
Operation
0°C to 70°C; -40°C to 85°C (Extended Temperature)
Storage
-40°C to 100°C
Vibration (Non-Operation)
Shock (Non-Operation)
Sine wave : 10~2000Hz, 15G (X, Y, Z axes)
Half sine wave 1,500G (X, Y, Z ; All 6 axes)
4.4 Endurance
The endurance of a storage device is predicted by TeraBytes Written based on several factors related to
usage, such as the amount of data written into the drive, block management conditions, and daily
workload for the drive. Thus, key factors, such as Write Amplifications and the number of P/E cycles, can
influence the lifespan of the drive.
Capacity
TeraBytes Written
128 MB
3.3
256 MB
6.7
512 MB
12.9
1 GB
25.6
2 GB
38.4
4 GB
51.9
8 GB
69.8
16 GB
115.0
Notes:
The measurement assumes the data written to the SSD for test is under a typical and constant rate.
The measurement follows the standard metric: 1 TB (Terabyte) = 1000 GB.
4.5 Mean Time Between Failures (MTBF)
Mean Time Between Failures (MTBF) is predicted based on reliability data for the individual components
in our drive device. Although many component of MTBF are given in databases and often these values
are not really accurate, the prediction result for this unit more than 2,000,000 hours for its SLC flash
configuration
Notes about the MTBF:
The MTBF is predicated and calculated based on “Telcordia Technologies Special Report, SR-332, Issue
2” method.
6
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
5. Flash Management
5.1. Advanced wear-leveling algorithms
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.
5.2 S.M.A.R.T. technology
S.M.A.R.T. is an acronym for Self-Monitoring, Analysis and Reporting Technology, an open standard
allowing disk drives to automatically monitor their own health and report potential problems. It protects the
user from unscheduled downtime by monitoring and storing critical drive performance and calibration
parameters. Ideally, this should allow taking proactive actions to prevent impending drive failure. Apacer
SMART feature adopts the standard SMART command B0h to read data from the drive. When the Apacer
SMART Utility running on the host, it analyzes and reports the disk status to the host before the device is
in critical condition.
5.3 Built-in hardware ECC
The ATA-Disk Module uses BCH Error Detection Code (EDC) and Error Correction Code (ECC)
algorithms which correct up to eight random single-bit errors for each 512-byte block of data. High
performance is fulfilled through hardware-based error detection and correction.
5.4 Flash 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.
5.5 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.
7
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
6. Software Interface
6.1 Command Set
Table 6-1 summarizes the command set with the paragraphs that follow describing the individual
commands and the task file for each.
Table 6-1: Command set (1 of 2)
Command
Code
Check-Power-Mode
E5H or 98H
Execute-Drive-Diagnostic
90H
Erase Sector(s)
C0H
Flush-Cache
E7H
Format Track
50H
Identify-Drive
ECH
Idle
E3H or 97H
Idle-Immediate
E1H or 95H
Initialize-Drive-Parameters
91H
NOP
00H
Read-Buffer
E4H
Read-DMA
C8H or C9H
Read-Multiple
C4H
Read-Sector(s)
20H or 21H
Read-Verify-Sector(s)
40H or 41H
Recalibrate
1XH
Request-Sense
03H
Security-Disable-Password
F6H
Security-Erase-Prepare
F3H
Security-Erase-Unit
F4H
Security-Freeze-Lock
F5H
Security-Set-Password
F1H
Security-Unlock
F2H
Seek
7XH
Set-Features
EFH
8
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Table 6-1: Command set (2 of 2)
Command
Code
SMART
B0H
Set-Multiple-Mode
C6H
Set-Sleep-Mode
E6H or 99H
Standby
E2H or 96H
Standby-lmmediate
E0H or 94H
Translate-Sector
87H
Write-Buffer
E8H
Write-DMA
CAH or CBH
Write-Multiple
C5H
Write-Multiple-Without-Erase
CDH
Write-Sector(s)
30H or 31H
Write-Sector-Without-Erase
38H
Write-Verify
3CH
9
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
7. Electrical Specification
Caution: Absolute Maximum Stress Ratings – Applied conditions greater than those listed under
“Absolute Maximum Stress Ratings” may cause permanent damage to the device. This is a stress rating
only and functional operation of the device at these conditions or conditions greater than those defined in
the operational sections of this data sheet is not implied. Exposure to absolute maximum stress rating
conditions may affect device reliability.
Table 7-1: Operating range
Operating Temperature
0°C to +70°C
Supply voltage
-40°C to +85°C
5V± 5% (4.75-5.25V)
3.3V ± 5% (3.135-3.465V)
Table 7-2: Absolute maximum power pin stress ratings
Parameter
Symbol
Input Power
Voltage on any pin except VDD with respect to GND
VDD
V
Conditions
-0.3V min. to 6.5V max.
-0.5V min. to VDD + 0.5V max.
Table 7-3: Recommended system power-up timing
Symbol
Parameter
TPU-READY*
TPU-WRITE*
Power-up to Ready Operation
Power-up to Write Operation
Typical
Maximum
Units
200
200
1000
1000
ms
ms
*This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
10
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
8. Physical Characteristics
8.1 Dimension
TABLE 8-1: Type I CFC physical specification
Length:
Width:
Thickness (Including Label Area):
36.40 +/- 0.15mm (1.433+/- 0.06 in.)
42.80 +/- 0.10mm (1.685+/- 0.04 in.)
3.3mm+/-0.10mm (0.130+/-0.04in.)
Unit: mm
FIGURE 8-1: Physical dimension
11
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
9. Product Ordering Information
9.1 Product Code Designations
A P – C F x x x x H 4 X R – XXXXXX Q
FW Version
Specification
NR: Non-Removable Setting
NDNR: Non-DMA + Non-Removable
ETNR: Ext. Temp. + Non-Removable
ETNDNR: Ext. Temp + Non-DMA + Non-Removable
RoHS Compliant
Configuration
N: Standard
Controller Type
CFC Type
Capacity:
128M:
256M:
512M:
001G:
002G:
004G:
008G:
016G:
128MB
256MB
512MB
1GB
2GB
4GB
8GB
16GB
Model Name
Apacer Product Code
12
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
9.2 Valid Combinations
Standard Temperature
Non-Removable
Capacity
Model Number
128MB
AP-CF128MH4NR-NRQ
256MB
AP-CF256MH4NR-NRQ
512MB
AP-CF512MH4NR-NRQ
1GB
AP-CF001GH4NR-NRQ
2GB
AP-CF002GH4NR-NRQ
4GB
AP-CF004GH4NR-NRQ
8GB
AP-CF008GH4NR-NRQ
16GB
AP-CF016GH4NR-NRQ
Non-DMA & Non-Removable
Capacity
Model Number
128MB
AP-CF128MH4NR-NDNRQ
256MB
AP-CF256MH4NR-NDNRQ
512MB
AP-CF512MH4NR-NDNRQ
1GB
AP-CF001GH4NR-NDNRQ
2GB
AP-CF002GH4NR-NDNRQ
4GB
AP-CF004GH4NR-NDNRQ
8GB
AP-CF008GH4NR-NDNRQ
16GB
AP-CF016GH4NR-NDNRQ
13
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Extended Temperature
Non-Removable
Capacity
Model Number
128MB AP-CF128MH4NR-ETNRQ
256MB AP-CF256MH4NR-ETNRQ
512MB AP-CF512MH4NR-ETNRQ
1GB
AP-CF001GH4NR-ETNRQ
2GB
AP-CF002GH4NR-ETNRQ
4GB
AP-CF004GH4NR-ETNRQ
8GB
AP-CF008GH4NR-ETNRQ
16GB
AP-CF016GH4NR-ETNRQ
Non-DMA & Non-Removable
Capacity
Model Number
128MB AP-CF128MH4NR-ETNDNRQ
256MB AP-CF256MH4NR-ETNDNRQ
512MB AP-CF512MH4NR-ETNDNRQ
1GB
AP-CF001GH4NR-ETNDNRQ
2GB
AP-CF002GH4NR-ETNDNRQ
4GB
AP-CF004GH4NR-ETNDNRQ
8GB
AP-CF008GH4NR-ETNDNRQ
16GB
AP-CF016GH4NR-ETNDNRQ
14
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Revision History
Revision
Date
Description
Remark
0.1
02/16/2009
Preliminary
0.2
02/18/2009
Updated pin assignments
1.0
02/23/2009
Official release
1.1
03/06/2009
Product name changed
1.2
04/01/2009
Updated feature and valid combination wording
1.3
01/06/2010
Corrected valid combinations
1.4
03/22/2011
Updated Performance Specification & Product Ordering
Information
1.5
03/22/2012
Updated performance information
1.6
08/27/2013
Updated performance information due to change in flash
configurations
15
© 2013 Apacer Technology Inc.
Rev. 1.6
ATA CF
AP-CFxxxxH4NR-XXXXXXQ
Global Presence
Taiwan (Headquarters)
Apacer Technology Inc.
Apacer Technology Inc.
1F., No.32, Zhongcheng Rd., Tucheng Dist.,
New Taipei City 236, Taiwan R.O.C.
Tel: 886-2-2267-8000
Fax: 886-2-2267-2261
[email protected]
U.S.A.
Apacer Memory America, Inc.
386 Fairview Way, Suite102,
Milpitas, CA 95035
Tel: 1-408-518-8699
Fax: 1-408-935-9611
[email protected]
Japan
Apacer Technology Corp.
5F, Matsura Bldg., Shiba, Minato-Ku
Tokyo, 105-0014, Japan
Tel: 81-3-5419-2668
Fax: 81-3-5419-0018
[email protected]
Europe
Apacer Technology B.V.
Science Park Eindhoven 5051 5692 EB Son,
The Netherlands
Tel: 31-40-267-0000
Fax: 31-40-267-0000#6199
[email protected]
China
Apacer Electronic (Shanghai) Co., Ltd
1301, No.251,Xiaomuqiao Road, Shanghai,
200032, China
Tel: 86-21-5529-0222
Fax: 86-21-5206-6939
[email protected]
India
Apacer Technologies Pvt. Ltd.
# 535, 1st Floor, 8th cross, JP Nagar 3rd Phase,
Bangalore – 560078, India
Tel: 91-80-4152-9061
[email protected]
16
© 2013 Apacer Technology Inc.
Rev. 1.6
Mouser Electronics
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