SLCF2GM2PUI STEC, SLCF2GM2PUI Datasheet

Page 1

... PCs. STEC’s MACH2 CF Card is available in a CompactFlash Type I package and adheres to the latest industry compliance and regulatory standards including UL, FCC, RoHS, and the Compact Flash Association (CFA). Because the ...

Page 2

... SMART Support and Identify Command .................................................................................... 50 8.2 SMART Commands ................................................................................................................... 50 8.3 SMART Attributes ....................................................................................................................... 51 9.0 Appendix: CompactFlash Adapter .................................................................................52 9.1 CF Adapter Ordering Information ............................................................................................... 52 9.2 CF Adapter Specifications .......................................................................................................... 52 9.3 CF Adapter Package Dimensions and Pin Locations ................................................................. 53 9.4 CF Adapter Pin Assignment ....................................................................................................... 54 10.0 Revision History ..............................................................................................................55 61000-05610-108, April 2009 CompactFlash Card 2 ...

Page 3

... SLCFxxx(G)M2PU(I) Datasheet 1.0 Ordering Information Table 1 lists the ordering part number for standard STEC MACH2 CompactFlash cards. Note: Cards are shipped unformatted. Part Number SLCF128M2PU(I) SLCF256M2PU(I) SLCF512M2PU(I) SLCF1GM2PU(I) SLCF2GM2PU(I) SLCF4GM2PU(I) SLCF8GM2PU(I) SLCF16GM2PU(I) Legend:  SLCF = STEC standard CompactFlash card part number prefix. ...

Page 4

... Datasheet 2.0 Product Specifications 2.1 Labeling STEC CF Cards can be manufactured with standard or custom (customer specified) front labeling. The standard back label is available in ―Standard‖ or ―RoHS‖ pre-printed versions. Standard front and back labeling is shown in Figure 1. Figure 1: Standard Labeling 61000-05610-108, April 2009 ...

Page 5

... Table 2: Mechanical dimensions CF Card Type I Parameter Length Width Height (including label area) Figure 2: Mechanical dimensions CF Card Type I Value 36.40 ± 0.15 mm (1.433 ±. 0.006 in) 42.80 ± 0.10 mm (1.685 ± 0.004 in) 3.30 ± 0.10 mm (0.130 ± 0.004 in) 61000-05610-108, April 2009 CompactFlash Card 5 ...

Page 6

... Power I/O 46 I 61000-05610-108, April 2009 CompactFlash Card Signal Name Pin Type -CD1 O D11 I/O D12 I/O D13 I/O D14 I/O D15 I/O -CE2 I -CS1 -VS1 O -IORD HSTROBE I (-)HDMARDY -IOWR I STOP -WE I RDY/-BSY -IREQ O INTRQ VCC Power -CSEL I -VS2 ...

Page 7

... The clocking occurs on the negative to positive edge of the signal (trailing edge). Same as STOP above. In True IDE Mode, this signal has the same function Card I/O Mode. Same as STOP above. 34 This signal is not used in this mode. 61000-05610-108, April 2009 CompactFlash Card Description 7 ...

Page 8

... After card has been configured for I/O operation, signal is used as active low interrupt request. Strobe low to generate pulse mode interrupt or hold low for level mode interrupt. In True IDE Mode, this signal is the active high interrupt request to the host. 61000-05610-108, April 2009 CompactFlash Card 8 ...

Page 9

... I/O address is on the bus Card I/O Mode, when UDMA protocol is support by host and host has enable UDMA on card, the host shall keep the –REG signal asserted during the execution of any DMA Command by the device. Same as (-)DMACK above. Same as (-)DMACK above. 61000-05610-108, April 2009 CompactFlash Card 9 ...

Page 10

... This signal is asserted high as since a battery is not used with this product. Asserted low to alert host to changes in RDY/-BSY, Write Protect states. Use is controlled by Configuration and Status Register. In True IDE Mode, this input/output signal is the Pass Diagnostic signal in the Master/Slave handshake protocol. 61000-05610-108, April 2009 CompactFlash Card 10 ...

Page 11

... 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 3.3 volts. -VS2 is reserved for a secondary voltage and is not connected. 61000-05610-108, April 2009 CompactFlash Card 11 ...

Page 12

... MBytes/s (burst) SLC MBytes/s SLC MBytes/s Logical Block Cylinders (C) Addresses (standard) (LBA) 250,880 980 501,760 980 1,000,944 993 2,001,888 1,986 3,844,512 3,814 7,709,184 7,648 15,435,504 15,313 30,926,448 30,681 61000-05610-108, April 2009 CompactFlash Card 2GB-16GB 133 MBytes/s (burst MBytes MBytes/s Sectors/Track Heads (H) ( ...

Page 13

... EN 55024 – ―Information technology equipment – Immunity characteristics – Limits and methods of measurement‖ 2.7.2 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 14

... Bit Error rate 10E-14 (NAND flash) 10 years Value (per JEDEC JESD22 standard, method B110 peak, 20Hz-2000Hz, 4 cycles per direction (per JEDEC JESD22 standard, method B103) 85°C 85% RH, 500 hrs 61000-05610-108, April 2009 CompactFlash Card Max Unit 70 C + ...

Page 15

... V 4.0 VCC +0.3 V 2.4 VCC +0.3 V 0.8 VCC-0 100 K ohms 100 K ohms 61000-05610-108, April 2009 CompactFlash Card Unit V C Notes VCC= 5.0V VCC= 3.3V VCC= 5.0V VCC= 3.3V VCC=5.0V or 3.3V VCC=5.0V or 3.3V ICC at VCC=5.0V or 3.3V ICC at VCC=5.0V or 3.3V 15 ...

Page 16

... IEEE Symbol tc(R) tAVAV ta(A) tAVQV ta(CE) tELQV ta(OE) tGLQV tdis(CE) tEHQZ tdis(OE) tGHQZ tsu(A) tAVGL ten(CE) tELQNZ ten(OE) tGLQNZ tv(A) tAXQX — th(A) — tsu(CE) — th(CE) 61000-05610-108, April 2009 CompactFlash Card Min (ns) Max (ns) 300 300 300 150 100 100 ...

Page 17

... April 2009 CompactFlash Card Min (ns) Max (ns) 250 150 30 180 180 100 100 125 125 ...

Page 18

... Symbol Symbol Time Mode ta(OE) tGLQV 125 tdis(OE) tGHQZ 100 tsu(A) tAVGL 30 th(A) tGHAX 20 tsu(CE) tELGL 0 th(CE) tGHEH 20 tv(WT-OE) tGLWTV 35 tv(WT) tQVWTH 0 tw(WT) tWTLWTH 350 61000-05610-108, April 2009 CompactFlash Card 120 ns 100 Cycle Cycle Cycle Time Time Time Mode Mode Mode ...

Page 19

... Mode tsu(D-WEH) tDVWH 80 th(D) tWMDX 30 tw(WE) tWLWH 150 tsu(A) tAVWL 30 tsu(CE) tELWL 0 trec(WE) tWMAX 30 th(A) tGHAX 20 th(CE) tGHEH 20 tv(WT-WE) tWLWTV 35 tv(WT) tWTHWH 0 tw(WT) tWTLWTH 350 61000-05610-108, April 2009 CompactFlash Card 120 ns 100 Cycle Cycle Cycle Time Time Time Mode Mode Mode ...

Page 20

... Cycle Symbol Symbol Time Mode td(IORD) tIGLQV 100 th(IORD) tIGHQX 0 tw(IORD) tIGLIGH 165 tsuA(IORD) tAVIGL 70 thA(IORD) tIGHAX 20 tsuCE(IORD) tELIGL 5 thCE(IORD) tIGHEH 20 tsuREG(IORD) tRGLIGL 5 thREG(IORD) tIGHRGH 0 61000-05610-108, April 2009 CompactFlash Card 120 ns 100 Cycle Cycle Cycle Time Time Time Mode Mode Mode ...

Page 21

... Cycle Symbol Symbol Time Mode tsu(IOWR) tDVIWH 60 th(IOWR) tIWHDX 30 tw(IOWR) tIWLIWH 165 tsuA(IOWR) tAVIWL 70 thA(IOWR) tIWHAX 20 tsuCE(IOWR) tELIWL 5 thCE(IOWR) tIWHEH 20 tsuREG(IOW tRGLIWL 5 R) thREG(IOWR tIWHRGH 0 ) 61000-05610-108, April 2009 CompactFlash Card 120 ns 100 Cycle Cycle Cycle Time Time Time Mode Mode Mode ...

Page 22

... Address valid to -IOCS16 t8 60 release (max) -IORD/-IOWR to address valid t9 20 hold Mode1 Mode2 Mode3 Mode4 383 330 180 120 290 290 80 70 — — N/A N N/A N 61000-05610-108, April 2009 CompactFlash Card Mode5 Mode6 Unit 100 N/A N/A ns N/A N ...

Page 23

... Address valid to -IOCS16 t8 60 release -IORD/-IOWR to address valid t9 20 hold Mode1 Mode2 Mode3 Mode4 383 330 180 120 290 290 80 — — N/A N N/A N 61000-05610-108, April 2009 CompactFlash Card Mode5 Mode6 Unit 100 N/A N/A ns N/A N ...

Page 24

... SLCFxxx(G)M2PU(I) Datasheet Figure 9: True IDE Mode PIO Access Timing Diagram 61000-05610-108, April 2009 CompactFlash Card 24 ...

Page 25

... DMARQ delay (max) -IOWR to DMARQ delay (max) Figure 10: True IDE Mode Multiword DMA Timing Diagram Mode 0 Mode 1 Mode 2 t 480 150 120 0 t 215 150 100 215 120 61000-05610-108, April 2009 CompactFlash Card Mode 3 Mode 4 Unit 100 ...

Page 26

... April 2009 CompactFlash Card Measure UDMA4 (ns) location (see Note2) 60 Sender 25 Note3 57 Sender Recip’nt 5.0 Recip’nt 5.0 6.7 Sender 6.2 Sender 5.0 Device 5.0 Device 6.7 Host 6.2 Host 0 Device 6.7 Sender 120 Device 0 Note4 100 ...

Page 27

... Maximum time before releasing IORDY tZIORDY Minimum time before driving IORDY tACK Setup and hold times for -DMACK (before assertion or negation) Time from STROBE edge to negation of DMARQ or assertion of STOP (when sender tSS terminates a burst) Parameter 61000-05610-108, April 2009 CompactFlash Card 27 ...

Page 28

... Rising Edge Slew Rate for any signal SFALL Falling Edge Slew Rate for any signal UDMA1 UDMA2 UDMA3 9.7 6.8 6.8 4.8 4.8 4.8 50.9 33.9 22.6 9.0 9.0 9.0 Parameter Parameter 61000-05610-108, April 2009 CompactFlash Card UDMA4 Unit 4.8 ns 4.8 ns 9.5 ns 9.0 ns Max (V/ns) 1.25 1.25 28 ...

Page 29

... SLCFxxx(G)M2PU(I) Datasheet Figure 11: UDMA Data-In Burst Initiation Timing 61000-05610-108, April 2009 CompactFlash Card 29 ...

Page 30

... SLCFxxx(G)M2PU(I) Datasheet Figure 12: Sustained UDMA Data-In Burst Timing Figure 13: UDMA Data-In Burst Host Pause Timing 61000-05610-108, April 2009 CompactFlash Card 30 ...

Page 31

... SLCFxxx(G)M2PU(I) Datasheet Figure 14: UDMA Data-In Burst Device Termination Timing 61000-05610-108, April 2009 CompactFlash Card 31 ...

Page 32

... SLCFxxx(G)M2PU(I) Datasheet Figure 15: UDMA Data-In Burst Host Termination Timing Figure 16: UDMA Data-Out Burst Initiation Timing 61000-05610-108, April 2009 CompactFlash Card 32 ...

Page 33

... SLCFxxx(G)M2PU(I) Datasheet Figure 17: Sustained UDMA Data-Out Burst Timing Figure 18: UDMA Data-Out Burst Device Pause Timing 61000-05610-108, April 2009 CompactFlash Card 33 ...

Page 34

... SLCFxxx(G)M2PU(I) Datasheet Figure 19: UDMA Data-Out Burst Device Termination Timing Figure 20: UDMA Data-Out Burst Host Termination Timing 61000-05610-108, April 2009 CompactFlash Card 34 ...

Page 35

... The Data Register is accessed in word (16-bit) mode at power up. The CF Card permits 8-bit accesses if the host issues a Set Feature Command to put the CF Card in 8-bit mode. Parameter information that the CF Card uses in True IDE mode is returned when the Identify Drive command (ECh) is invoked. Refer to 5.4 Identify Drive Parameter for an example. 61000-05610-108, April 2009 CompactFlash Card 35 ...

Page 36

... Code 15, link Tuple CISTPL_VERS_1 (15), length 20 (14) at offset 17  Major version 4, minor version 1  Product Information: "STEC M2" (Manufacturer) "STEC M2" (Product Name) 6. 002D: Code 21, link 02 04 /xx 01 Tuple CISTPL_FUNCID (21), length 2 (02) at offset 2D Function code 04 (Fixed (Removable), system init 01 7. 0031: Code 22, link 02 ...

Page 37

... Map 2048 bytes of memory to CF Card address 0  Miscellaneous Features: Max Twins 0, -Audio, -ReadOnly, +PowerDown 11. 004B: Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length 6 (06) at offset 4B  Configuration Table Index is 00  Vcc Power Description: Nom V = 3.30 V, Peak I = 45.0 mA 61000-05610-108, April 2009 CompactFlash Card 37 ...

Page 38

... IRQ may be shared, pulse and level mode interrupts are supported  Only IRQ14 is supported  Miscellaneous Features: Max Twins 0, -Audio, -ReadOnly, +PowerDown 15. 0078: Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length 6 (06) at offset 78  Configuration Table Index is 02  Vcc Power Description: Nom V = 3.30 V, Peak I = 45.0 mA 61000-05610-108, April 2009 CompactFlash Card 38 ...

Page 39

... Code 1B, link Tuple CISTPL_CFTABLE_ENTRY (1B), length 6 (06) at offset 91  Configuration Table Index is 03  Vcc Power Description: Nom V = 3.30 V, Peak I = 45.0 mA 18. 0099: Code 14, link 00 Tuple CISTPL_NO_LINK (14), length 0 (00) at offset 99 19. 009B: Code FF Tuple CISTPL_END (FF) at offset 9B 61000-05610-108, April 2009 CompactFlash Card 39 ...

Page 40

... Number of sectors per track in the default translation mode Number of sectors per Card This double word value is also the first invalid address in LBA translation mode - STEC Proprietary - Number of ECC bytes (4) used on each sector in the Read and Write Long commands Reserved Reserved 1. ...

Page 41

... Total number of user addressable sectors for the Card in LBA mode only - 1. Multiword DMA modes 2, 1 and 0 are supported 2. Multiword DMA modes 1 and 0 are supported 3. Multiword DMA is supported 1. PIO mode 3 is supported 2. PIO mode 4 is supported 120ns 120ns 120ns 120ns - - - 61000-05610-108, April 2009 CompactFlash Card Description 41 ...

Page 42

... Removable Media feature set is not supported 13. Security Mode feature set has not been enabled via the Security Set Password command 14. SMART feature set is not enabled Note: The card is SMART ready and the SMART feature set can be implemented per special request. 61000-05610-108, April 2009 CompactFlash Card Description 42 ...

Page 43

... Not specified Not specified Not specified - - 1. Security level is high 2. Enhanced security erase unit feature set is not supported 3. Security count has not expired 4. Security is not Frozen 5. Security is unlocked 6. Security is disabled 7. Security mode feature set supported Reserved 61000-05610-108, April 2009 CompactFlash Card Description 43 ...

Page 44

... PC Card UDMA support values in bits 11-6 are valid 2. PC Card Memory or I/O UDMA timing Mode 2 selected 3. Maximum PC Card Memory UDMA timing Mode 4 supported 4. Maximum PC Card I/O UDMA timing Mode 4 supported 5. Maximum Memory timing mode supported Maximum PC Card IO timing mode supported:100 ns - 61000-05610-108, April 2009 CompactFlash Card Description 44 ...

Page 45

... This register is used for providing the signal state of -IREQ when the CF Card is configured in the PC Card I/O Mode. This read/write register is used to identify the CF Card from other devices. This register should be set by the host before this Configuration Option register is set. 61000-05610-108, April 2009 CompactFlash Card 45 ...

Page 46

... This write-only register is used for writing the command that executes the CF Card’s operation. The command code is written in the command register after Command Register its parameters are written in the Task File during the CF Card ready state. Description 61000-05610-108, April 2009 CompactFlash Card 46 ...

Page 47

... Command performs similarly to the Read Sector(s) command except that it returns 516 bytes of data instead of 512 bytes. Command reads from 1 to 256 sectors as specified in Sector Count register. A sector count of 0 requests 256 sectors. Transfer begins at sector specified in Sector Number register. 61000-05610-108, April 2009 CompactFlash Card 47 ...

Page 48

... UDMA transfer. If UDMA is not enabled, this command is the sector write command used for MWDMA transfer. This command is provided for compatibility purposes and is similar to the Write Sector(s) command except that it writes 516 bytes instead of 512 bytes. 61000-05610-108, April 2009 CompactFlash Card 48 ...

Page 49

... Note: Before using this command required to erase the respective sectors using the Erase Sectors command. This command is similar to the Write Sector(s) command except each sector is verified immediately after being written. 61000-05610-108, April 2009 CompactFlash Card 49 ...

Page 50

... SMART READ ATTRIBUTE DATA D1h SMART READ ATTRIBUTE THRESHOLDS D2h SMART ENABLE/DISABLE ATTRIBUTE AUTOSAVE D8h SMART ENABLE OPERATIONS D9h SMART DISABLE OPERATIONS DAh SMART RETURN STATUS 61000-05610-108, April 2009 CompactFlash Card Notes Optional – supported OBS – supported Mandatory Mandatory Mandatory Mandatory 50 ...

Page 51

... Number of reserved spares for bad block handling. Number of uncorrectable errors reported at the interface. Tracks the number of command time outs as defined by an active command being interrupted. Number of CRC errors during UDMA mode. 61000-05610-108, April 2009 CompactFlash Card Type Advisory Advisory Advisory Advisory Warranty ...

Page 52

... Datasheet 9.0 Appendix: CompactFlash Adapter In addition to the CF Card form factors, passive CompactFlash Adapters allow the card to be used Card Type II slot. This appendix provides information on the CompactFlash Adapter available from STEC. 9.1 CF Adapter Ordering Information Refer to Table 32 for the CF Adapter ordering part number. ...

Page 53

... Table 34 and Figure 21 show the mechanical dimensions of the CF Adapter Type I. Table 34: Mechanical dimensions CF Adapter Type I Parameter Length Width Height (including label area) Figure 21: Mechanical dimensions CF Adapter Type I Value 85.50 ± 0.20 mm (3.366 ±. 0.008 in) 54.40 ± 0.10 mm (2.126 ± 0.004 in) 5.00 mm (0.197 in) max 61000-05610-108, April 2009 CompactFlash Card 53 ...

Page 54

... BVD2, -SPKR, -DASP 63 BVD1, -STSCHG, -PDIAG 64 D08 65 D09 66 D10 67 -CD2 68 GND 61000-05610-108, April 2009 CompactFlash Card CF Card -IOWR, STOP -WE -RDY/-BSY, -IREQ, INTRQ VCC -CSEL -VS2 (-)RESET -WAIT, IORDY, -DDMARDY, DSTROBE -INPACK, (-)DMARQ -REG, (-)DMACK BVD2, -SPKR, -DASP BVD1, -STSCHG, -PDIAG ...

Page 55

... Capacity in Features, Performance table, CHS Parameter table, and Word table corrected. -106 3/17/09 MTBF added to reliability table. Storage temperature corrected. -107 3/23/09 Preliminary notice removed. -108 4/24/09 ID Table updated and SMART Feature Set added. 61000-05610-108, April 2009 CompactFlash Card 55 ...

Page 56

... 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 ...