SLCF2GM1UI STEC, SLCF2GM1UI Datasheet

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SLCF2GM1UI

Manufacturer Part Number
SLCF2GM1UI
Description
Memory Cards 2G 3.3-5V Ind Temp
Manufacturer
STEC
Datasheet
1.SLCF4GM1U.pdf (39 pages)

Specifications of SLCF2GM1UI

Product Category
Memory Cards
Rohs
yes
Memory Size
2 GB
Operating Supply Voltage
3.3 V, 5 V
Maximum Operating Temperature
+ 85 C
Minimum Operating Temperature
- 40 C
Solid-State Memory Card
(No Moving Parts)
Capacity: 128MB - 16GB
CFA 3.0 and ATA-5 Compatible
ATA Transfer modes:
Supports TrueIDE and PC Card
Memory and I/O Modes
Form Factors:
Endurance Guarantee of 2,000,000
Write/Erase Cycles
Card Information Structure (CIS)
Programmed into 256 Bytes of
Internal Memory
PC Card and Socket Services
Release 2.1 or later compatible
5V or 3.3V Power Supply
Commercial and Industrial
Operating Temperature Range
5-Byte Detection, 4-Byte Correction
ECC Engine
10 Year Data Retention
RoHS-6 Compliant
PIO 0-6, MWDMA 0-4
PIO 0-6 only (for applications
that require MWDMA access to
be disabled)
CompactFlash Type I
CompactFlash Type II
CompactFlash Adapter
128MB to 16GB
CompactFlash Card
SLCFxxx(M/G)M1(T2)U(I)
General Description and Key Features
STEC’s flash storage adheres to the latest industry compliance and regulatory
standards including UL, FCC, RoHS, and various compliance associations. Each
device incorporates a proprietary state-of-the-art flash memory controller that provides
the greatest flexibility to customer-specific applications while supporting key flash
management features resulting in the industry’s highest reliability and endurance. Key
features include:
STEC’s CF Card is the product of choice in applications requiring high reliability and
high tolerance to shock, vibration, humidity, altitude, ESD, and temperature. The
rugged industrial design combined with industrial temperature (-40°C to 85°C) testing
and adherence to rigid JEDEC JESD22 standards ensures flawless execution in the
harshest environments.
In addition to custom hardware and firmware designs, STEC also offers value-added
services including:
Ordering Information: CompactFlash Card
Legend:
Built-in ECC engine detects up to 5-byte and corrects up to 4-byte errors
Sophisticated block management and wear leveling algorithms guarantees
2,000,000 write/erase cycles
Power-down data protection ensures data integrity and errors in case of power loss
Lifecycle management feature allows users to monitor the device’s block
management
Custom labeling and packaging
Custom software imaging and ID strings
Full BOM control and product change notification
Total supply-chain management to ensure continuity of supply
In-field application engineering to help customers through product design-ins
SLCF = STEC standard CF Card part number prefix.
(M/G) = proceeding capacity (xxx) is in Megabytes (M) or Gigabytes (G).
M1 = STEC Mach 1 controller.
U = RoHS-6 compliant lead-free.
Part numbers without (I) = Commercial temperature range (0ºC to 70ºC).
(I) = Industrial temperature range (-40ºC to +85 ºC).
F = media set to fixed storage for non-removable IDE applications. Use with
operating systems, such as Windows XP, that require storage media to be
identified as a fixed drive before it can be used as a bootable drive. Example:
SLCFxxx(M/G)M1(T2)U(I)-F.
P = firmware programmed for PIO Modes 0-6 only for applications requiring
MWDMA access to be disabled. Example: SLCFxxx(M/G)M1(T2)U(I)-P.
S = optimized for applications that store small (1-4 sector) data packets, e.g.
transactional data acquisition. Example: SLCFxxx(M/G)M1(T2)U(I)-S.
SLCF16GM1T2U(I)
SLCF128MM1U(I)
SLCF256MM1U(I)
SLCF512MM1U(I)
SLCF1GM1U(I)
SLCF2GM1U(I)
SLCF4GM1U(I)
SLCF8GM1U(I)
Part Number
CF Form Factor
Type II
Type I
Type I
Type I
Type I
Type I
Type I
Type I
www.stec-inc.com
128 Mbytes
256 Mbytes
512 Mbytes
16 GBytes
Capacity
2 GBytes
4 GBytes
8 GBytes
1 GByte

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SLCF2GM1UI Summary of contents

Page 1

... Lifecycle management feature allows users to monitor the device’s block management STEC’s CF Card is the product of choice in applications requiring high reliability and high tolerance to shock, vibration, humidity, altitude, ESD, and temperature. The rugged industrial design combined with industrial temperature (-40°C to 85°C) testing and adherence to rigid JEDEC JESD22 standards ensures flawless execution in the harshest environments ...

Page 2

... True IDE Mode Register Access ............................................................................................. 20 3.3.8 True IDE Mode PIO Access .................................................................................................... 21 3.3.9 True IDE Mode Multiword DMA (not used for part numbers with P) ....................................... 23 3.4 PC Card Memory and I/O Modes Power Up to READY and RESET to READY ........................ 24 4.0 Host Access Specification ..............................................................................................25 4.1 Task File Register and Byte/Word/Odd-Byte Mode Mappings ................................................... 25 4 ...

Page 3

... SLCFxxx(M/G)M1(T2)U(I) Datasheet 1.0 Product Specifications 1.1 Labeling STEC CF Cards can be manufactured with standard labeling, or customer-specific, custom labeling. Standard labeling is shown in Figure 1. Figure 1: Standard Labeling 61000-04496-118, April 2008 CompactFlash Card 3 ...

Page 4

SLCFxxx(M/G)M1(T2)U(I) Datasheet 1.2 Package Dimensions and Pin Locations 1.2.1 CompactFlash Type I Table 1 and Figure 2 show the mechanical dimensions of the CompactFlash Type I. Table 1: Mechanical dimensions CompactFlash Type I Parameter Length Width Height (including label area) ...

Page 5

SLCFxxx(M/G)M1(T2)U(I) Datasheet 1.2.2 CompactFlash Type II Table 2 and Figure 3 show the mechanical dimensions of the CompactFlash Type II. Table 2: Mechanical dimensions CompactFlash Type II Parameter Length Width Height (including label area) Figure 3: Mechanical dimensions CompactFlash Type ...

Page 6

SLCFxxx(M/G)M1(T2)U(I) Datasheet 1.3 Pin Assignment Pin Signal Name Number 1 GND 2 D03 3 D04 4 D05 5 D06 6 D07 -CE1 7 -CS0 8 A10 -OE 9 -ATASEL 10 A09 11 A08 12 A07 13 VCC 14 A06 15 ...

Page 7

... In True IDE Mode, this input signal is not used and should be connected to VCC. 9 This is an Output Enable strobe generated by the host interface used to read data from the CF Card in PC Card Memory Mode and to read the CIS and configuration registers. 61000-04496-118, April 2008 CompactFlash Card ...

Page 8

... To enable True IDE Mode, this input should be grounded by the host Memory Mode, this signal is set high when the CF Card is ready to accept a new data transfer operation and held low when the CF Card is busy. The host must provide a pull-up resistor. At power up and at reset, the RDY/-BSY signal is held low (busy) until the CF Card completes its power up or reset function ...

Page 9

... IORDY (True IDE Mode) GND GND (PC Card Memory Mode) GND (PC Card I/O Mode) GND (True IDE Mode) VCC VCC (PC Card Memory Mode) VCC (PC Card I/O Mode) VCC (True IDE Mode) RESET I (PC Card Memory Mode) Pin Description Number The signal must also be active (low) during I/O Cycles when the I/O address is on the bus ...

Page 10

... Pin Number This signal is the same as the PC Card Memory Mode signal. In the True IDE Mode this input pin is the active low hardware reset from the host. 33, 40 -VS1 is grounded so that the card CIS can be read at 3.3 volts. -VS2 is reserved for a secondary voltage and is not connected ...

Page 11

... EN 55024 – ―Information technology equipment – Immunity characteristics – Limits and methods of measurement‖ 1.7.2 RoHS STEC certifies that its products do not contain any of the restricted substances as stated below and are in compliance with RoHS EU directive 2002/95/EC, specifically:  Mercury (Hg)  ...

Page 12

SLCFxxx(M/G)M1(T2)U(I) Datasheet 2.0 Environmental Specifications 2.1 Recommended Operating Conditions Table 7: CF Card Recommended Operating Conditions Parameter Commercial Operating Temperature Industrial Operating Temperature VCC voltage 5.0 VCC voltage 3.3 2.2 Reliability Table 8: CF Card Endurance & Data Reliability Parameter ...

Page 13

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.0 Electrical Specifications 3.1 Absolute Maximum Ratings Table 10: CF Card Absolute Maximum Ratings Parameter Voltage Storage temperature range 3.2 DC Characteristics Measurements at Recommended Operating Conditions unless otherwise specified. Symbol Parameter VIL Input LOW Voltage VIH Input ...

Page 14

... Output Disable Time from -OE Address Setup Time Output Enable Time from -CE Output Enable Time from -OE Data Valid from Address Change Address Hold Time -CE Setup Time -CE Hold Time Figure 4: PC Card Memory Mode Attribute Memory Read Timing Diagram Symbol IEEE Symbol tc(R) tAVAV ta(A) tAVQV ta(CE) ...

Page 15

... Output Disable Time (-WE) Output Disable Time (-OE) Output Enable Time (-WE) Output Enable Time (-OE) Output Enable Setup Time (-WE) Output Enable Hold Time (-WE) -CE Setup Time -CE Hold Time Figure 5: PC Card Memory Mode Attribute Memory Write Timing Diagram Symbol IEEE Symbol tc(W) tAVAV tw(WE) tWLWH tsu(A) tAVWL — ...

Page 16

... Wait Delay Falling from OE tv(WT-OE) (max) Data Setup for Wait Release tv(WT) (max) Wait Width tw(WT) tWTLWTH Time (max) Figure 6: PC Card Memory Mode Common Memory Read Timing Diagram IEEE 250 ns Cycle 120 ns Cycle Symbol Time Mode Time Mode tGLQV 125 60 tGHQZ 100 60 ...

Page 17

... CE Hold following WE th(CE) (min) Wait Delay Falling tv(WT- from WE (max) WE) WE High from Wait tv(WT) Release (min) Wait Width Time tw(WT) (max) Figure 7: PC Card Memory Mode Common Memory Write Timing Diagram 250 ns 120 ns IEEE Cycle Time Cycle Time Symbol Mode Mode tDVWH 80 50 tWMDX ...

Page 18

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.3.5 PC Card I/O Mode Read AC Characteristics Table 16: PC Card I/O Mode Read AC Characteristics Parameter Symbol Data Delay after td(IORD) -IORD (max) Data Hold following -IORD th(IORD) (min) -IORD Width tw(IORD) Time (min) Address Setup ...

Page 19

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.3.6 PC Card I/O Mode Write AC Characteristics Table 17: PC Card I/O Mode Write AC Characteristics Parameter Symbol Data Setup before -IOWR tsu(IOWR) (min) Data Hold following -IOWR th(IOWR) (min) -IOWR Width tw(IOWR) Time (min) Address Setup ...

Page 20

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.3.7 True IDE Mode Register Access Table 18: True IDE Mode Register Access AC Characteristics Parameter Symbol Mode0 Cycle time (min) t0 600 Address valid to -IORD/-IOWR t1 70 (min) setup -IORD/-IOWR pulse width 8bit t2 290 (min) ...

Page 21

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.3.8 True IDE Mode PIO Access Table 19: True IDE Mode PIO Access AC Characteristics Parameter Symbol Mode0 Cycle time (min) t0 600 Address valid to -IORD/-IOWR t1 70 (min) setup -IORD/-IOWR pulse width 8bit t2 290 (min) ...

Page 22

SLCFxxx(M/G)M1(T2)U(I) Datasheet Figure 10: True IDE Mode PIO Access Timing Diagram 61000-04496-118, April 2008 CompactFlash Card 22 ...

Page 23

SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.3.9 True IDE Mode Multiword DMA (not used for part numbers with P) Table 20: True IDE Mode Multiword DMA AC Characteristics Parameter Symbol Cycle time (min) t -IORD/-IOWR Asserted Pulse t (min) -IORD data access (max) t ...

Page 24

... SLCFxxx(M/G)M1(T2)U(I) Datasheet 3.4 PC Card Memory and I/O Modes Power Up to READY and RESET to READY Table 21: Power Up to READY and RESET to READY AC Characteristics Parameter Symbol Power up to READY t rdy RESET to READY t rdy Minimum Rec. Reset Width T (reset) w Capacity Min Typ 128MB 0.069 256MB 0.073 73 ...

Page 25

... The Card Information Structure (CIS) in Attribute Memory can be accessed by Byte/Word/Odd-byte modes in PC Card Memory Mode. The -REG signal must be asserted when accessing Attribute Memory. The CF Card is mapped to PC Card Memory Mode by the Index bits in the Configuration Option Register. An example of a CIS is listed in 4.3, Card Information Structure (CIS). ...

Page 26

SLCFxxx(M/G)M1(T2)U(I) Datasheet 4.3 Card Information Structure (CIS) The CF Card uses a Card Information Structure (CIS) as summarized below: 1. 0000: Code 01, link Tuple CISTPL_DEVICE (01), length 3 (03) at offset 0  Device type ...

Page 27

... BVDs not active, WP not active, RdyBsy active  Wait signal support required  Vcc Power Description: Nom V = 5.0 V  Map 2048 bytes of memory to CF Card address 0  Miscellaneous Features: Max Twins 0, -Audio, -ReadOnly, +PowerDown 11. 0048: Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length 6 (06) at offset 48  ...

Page 28

SLCFxxx(M/G)M1(T2)U(I) Datasheet 12. 0050: Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length10 (0A) at offset 50 10 (0A) at offset 50  Configuration Table Index is 01 (default)  Interface ...

Page 29

SLCFxxx(M/G)M1(T2)U(I) Datasheet 16. 007D: Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length 15 (0F) at offset 7D  Configuration Table Index is 03 (default)  ...

Page 30

... Default number of sectors per track Number of sectors per CF Card (word 7 = MSW, word 8 = LSW) Reserved Serial Number in ASCII (20 characters): STEC proprietary Do not use this word. Before retirement, was buffer type Do not use this word. Before retirement, was buffer size in 512 byte increments # of ECC bytes passed on Read/Write Long commands Firmware revision in ASCII (8 characters): Rev8 ...

Page 31

... Card, and to issue soft resets to it. Also, the Index bits of this register are used to select the PC Card mapping mode that the CF Card uses Card Memory Card Contiguous I/O, 3).PC Card Primary I/O, and 4) PC Card Secondary I/O This register is used for observing the CF Card state. ...

Page 32

SLCFxxx(M/G)M1(T2)U(I) Datasheet 5.2 Task File Registers Table 24: CF Card Task File Registers Task File Register The Data Register is a 16-bit read/write register used for transferring data Data Register between the CF Card and the host. This register can ...

Page 33

SLCFxxx(M/G)M1(T2)U(I) Datasheet 6.0 Supported ATA Commands The ATA commands used by the CF Card are listed in Table 25. Refer to CF Card standards for details. Table 25: CF Card Supported ATA Commands Command Set Code Check Power Mode E5h ...

Page 34

SLCFxxx(M/G)M1(T2)U(I) Datasheet Command Set Code Seek 7Xh Set Features EFh Set Multiple Mode C6h Set Sleep Mode E6h or 99h Stand By E2h or 96h Stand By Immediate E0h or 94h Translate Sector 87h Wear Level F5h Write Buffer E8h ...

Page 35

... Table 26: CF Adapter Ordering Information Part Number SLCFAD(I)U SLCFAD2(I)U Legend:  SLCFAD, SLCFAD2 = STEC standard CompactFlash Adapter part number prefix.  Part numbers without (I) = Commercial temperature range (0ºC to 70ºC).  Industrial temperature range (-40ºC to +85 ºC)  RoHS-6 compliant lead-free. ...

Page 36

SLCFxxx(M/G)M1(T2)U(I) Datasheet 7.3 CF Adapter Package Dimensions and Pin Locations Table 28 and Figure 14 show the mechanical dimensions of the CF Adapters, Type I and Type II. Table 28: Mechanical dimensions CF Adapter (Type I and Type Ii) Parameter ...

Page 37

SLCFxxx(M/G)M1(T2)U(I) Datasheet 7.4 CF Adapter Pin Assignment Table 29: CF Adapter Pin Assignment Pin Number PC Card 1 GND 2 D03 3 D04 4 D05 5 D06 6 D07 7 -CE1, -CS0 8 A10 9 -OE, -ATASEL 10 11 A09 ...

Page 38

... Pasting error corrected in CIS (paper error only). -115 11/7/07 Layout updated for consistency and easier editing. Disclaimer notice reformatted with headings. -116 11/21/07 S option cylinder count corrected. -117 3/7/08 Contact information on last page updated. -118 4/2/08 STEC China address on last page updated. 61000-04496-118, April 2008 CompactFlash Card 38 ...

Page 39

... Please contact the STEC™ Inc. sales office to obtain the latest specifications. STEC™ Inc. grants no warranty with respect to this datasheet, neither explicit or implied, and is not liable for direct or indirect damages. Some states do not grant the exclusion of incidental damages and as such this statement may not be valid in such states ...

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