SMC04GBFK6E NUMONYX, SMC04GBFK6E Datasheet

MEMORY CARD 4GB COMPACT FLASH

SMC04GBFK6E

Manufacturer Part Number
SMC04GBFK6E
Description
MEMORY CARD 4GB COMPACT FLASH
Manufacturer
NUMONYX
Datasheet

Specifications of SMC04GBFK6E

Memory Size
4GB
Memory Type
CompactFLASH
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
1-Gbyte, 2-Gbyte and 4-Gbyte 3.3/5 V supply CompactFlash™ card
Features
Table 1.
May 2008
This is preliminary information on a new product now in development or undergoing evaluation. Details are subject to
change without notice.
Custom-designed, highly-integrated memory
controller
– Fully compliant with CompactFlash
– Fully compatible with PCMCIA specification
– PC Card ATA interface supported
– True IDE mode compatible
– Up to PIO mode 6 supported
– Up to 4 multi-word DMA supported
– Hardware RS-code ECC (4-byte/528-byte
Small form factor
– 36.4 mm x 42.8 mm x 3.3 mm
Low-power CMOS technology
3.3 V / 5.0 V power supply
Power saving mode (with automatic wake-up)
High reliability
– MTBF > 3,000,000 hours
– Data reliability: < 1 non-recoverable error
– Endurance: > 2,000,000 erase/program
– Number of card insertions/removals:
SMCxxxBF
Reference
specification 3.0
correction)
per 10
cycles
>10,000
14
Product list
bits read
32-Mbyte, 64-Mbyte, 128-Mbyte, 256-Mbyte, 512-Mbyte,
Part number
SMC01GBF
SMC02GBF
SMC04GBF
SMC032BF
SMC064BF
SMC128BF
SMC256BF
SMC512BF
TM
Package form factor
Rev 4
CF type I
Hot swappable
High performance
– Up to 23.8 Mbyte/s transfer rate
– Sustained write performance (host to card):
– Sustained read performance (host to card:
Available densities (formatted)
– 32 Mbytes to 4 Gbytes
Operating system support
– Standard software drivers operation
15 Mbyte/s
22.5 Mbyte/s)
CompactFlash
Operating voltage range
3.3 V + 5%, 5 V + 10%
SMCxxxBF
TM
Preliminary Data
www.numonyx.com
1/90
1

Related parts for SMC04GBFK6E

SMC04GBFK6E Summary of contents

Page 1

... Sustained write performance (host to card): 15 Mbyte/s – Sustained read performance (host to card: 22.5 Mbyte/s) Available densities (formatted) – 32 Mbytes to 4 Gbytes Operating system support – Standard software drivers operation Package form factor CF type I Rev 4 SMCxxxBF Preliminary Data TM CompactFlash Operating voltage range 3 5 10% 1/90 www.numonyx.com 1 ...

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Contents Contents 1 Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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SMCxxxBF 6.3.3 6.3.4 6.3.5 6.3.6 6.4 Socket and copy register (206h in attribute memory 6.4.1 6.4.2 6.5 Attribute memory function . . . ...

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Contents 9.6 Cylinder low (LBA 15-8) register . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 9.7 ...

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SMCxxxBF 10.1 Check power mode (98h or E5h ...

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Contents 10.12 Read Sector(s) command (20h or 21h 10.13 Read Verify Sector(s) command ...

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SMCxxxBF List of tables Table 1. Product list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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List of tables Table 49. Check power mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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SMCxxxBF List of figures Figure 1. CompactFlash memory card block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

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Description 1 Description The CompactFlash is a small form factor non-volatile memory card which provides high capacity data storage. Its aim is to capture, retain and transport data, audio and images, facilitating the transfer of all types of digital information ...

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SMCxxxBF Table 2. System performance System performance Sleep to write Sleep to read Power-up to ready Data transfer rate (burst) Sustained read Sustained write Command to DRQ 1. 162X, 130X and 85X, speed grade markings where 1X = 150 Kbytes/s. ...

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Capacity specification 2 Capacity specification This section Table 6 number of heads, sector/tracks and cylinders. Table 6. CF capacity specification Part Capacity number SMC032BF 32 Mbytes SMC064BF 64 Mbytes SMC128BF 128 Mbytes SMC256BF 256 Mbytes SMC512BF 512 Mbytes SMC01GBF 1 ...

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SMCxxxBF 3 Card physical 3.1 Physical description The CompactFlash memory card contains a single chip controller and flash memory module(s). The controller interfaces with a host system allowing data to be written to and read from the flash memory module(s). ...

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Electrical interface 4 Electrical interface 4.1 Electrical description The CompactFlash memory card operates in three basic modes: PC card ATA using I/O mode PC card ATA using memory mode True IDE mode, which is compatible with most disk drives. The ...

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SMCxxxBF Table 8. Pin assignment and pin type (continued) PC card memory mode Pin Signal Pin Num name type 17 A03 I 18 A02 I 19 A01 I 20 A00 I 21 D00 I/O 22 D01 I/O 23 D02 I/O ...

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Electrical interface Table 8. Pin assignment and pin type (continued) PC card memory mode Pin Signal Pin Num name type (3) 49 D10 I/O 50 GND 1. For True IDE mode, pin 9 is grounded. 2. The signal should be ...

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SMCxxxBF Table 9. Signal descriptions (continued) Signal name Dir. D15-D00 (PC card memory mode) D15-D00 I/O (PC card I/O mode) D15-D00 (True IDE mode) GND (PC card memory mode) GND (PC card I/O mode) GND (True IDE mode) –INPACK (PC ...

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Electrical interface Table 9. Signal descriptions (continued) Signal name Dir. –CD1, –CD2 (PC card memory mode) –CD1, –CD2 O (PC card I/O mode) –CD1, –CD2 (True IDE mode) –CE1, –CE2 (PC card memory mode) –CE1, –CE2 (PC card I/O mode) ...

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SMCxxxBF Table 9. Signal descriptions (continued) Signal name Dir. READY (PC card memory mode) O –IREQ (PC card I/O mode) INTRQ (True IDE mode) –REG (PC card memory mode) –REG (PC card I/O mode) –DMACK (True IDE mode) RESET (PC ...

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... O (PC card I/O mode) –IOCS16 (True IDE mode) 20/90 Pin 42 Numonyx CF does not assert the WAIT (IORDY) signal Driven by the host to strobe memory write data to the registers Used for writing to the configuration registers. Not used, should be connected write protect switch available held Low after the completion of the reset initialization sequence. Used for the 16-bit port (– ...

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SMCxxxBF 4.2 Electrical specification Table 10 defines the DC characteristics for the CompactFlash memory card. Unless otherwise stated, conditions are ± 10 3.3 V ± -40 ° °C. Table ...

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Electrical interface Table 13. Input characteristics Type Parameter Input voltage 1 CMOS Input voltage 2 CMOS Input voltage CMOS 3 Schmitt Trigger Table 14. Output drive type Type OTx OZx OPx ONx 1. x refers to the characteristics described in ...

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SMCxxxBF 5 Command interface There are two types of bus cycles and timing sequences that occur in the PCMCIA type interface, direct mapped I/O transfer and memory access. Two types of bus cycles are also available in true IDE interface ...

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Command interface Table 16. Attribute memory read timing Symbol IEEE symbol tc(R) t AVAV ta(A) t AVQV ta(CE) t ELQV ta(OE) t GLQV tdis(CE) t EHQZ tdis(OE) t GHQZ ten(CE) t ELQNZ ten(OE) t GLQNZ tv(A) t AXQX tsu(A) t ...

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... Address setup time AVGL th(A) t Address hold time GHAX tsu(CE setup time ELGL th(CE hold time GHEH 1. Numonyx CF does not assert the WAIT signal. VALID tsu(A) tsu(CE) ta(OE) tv(WT) (1) 250 ns Parameter Min Max Min Max Min Max Min Max 125 100 30 20 ...

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... Address setup time AVGL tsu(CE setup time before WE ELWL trec(WE) t Write recovery time WMAX th(A) t Address hold time GHAX th(CE hold following WE GHEH 1. Numonyx CF does not assert the WAIT signal. 26/90 VALID tsu(A) tsu(CE) tw(WE) tsu(D-WEH) (1) 250 ns Parameter Min Max 80 30 150 ...

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... INPACK delay rising from IORD IGHIAH tdfIOIS16(A) t IOIS16 delay falling from address AVISL tdrIOIS16(A) t IOIS16 delay rising from address AVISH 1. Numonyx CF does not assert the WAIT signal. 2. -IOIS16 is not supported in this mode. VALID tsuREG(IORD) thREG(IORD) tsuCE(IORD) tw(IORD) td(IORD) tdfINPACK(IORD) 250 ns ...

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... REG Hold following IOWR IWHRGH IOIS16 Delay Falling from tdfIOIS16(A) t AVISL Address IOIS16 Delay Rising from tdrIOIS16(A) t AVISH Address 1. Numonyx CF does not assert the WAIT signal. 2. -IOIS16 is not supported in this mode. 28/90 VALID tsuREG(IOWR) thREG(IOWR) tsuCE(IOWR) tw(IOWR) tdfIOIS16(ADR) tsu(IOWR) 250 ns Parameter ...

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SMCxxxBF 5.4 True IDE mode The timing waveforms for true IDE mode and true IDE DMA mode of operation in this section are drawn using the conventions in the ATA-4 specification, which are different than the conventions used in the ...

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Command interface Table 22. True IDE PIO mode read/write timing Symbol Parameter (2) t Cycle time (min) 0 Address Valid to -IORD/-IOWR t 1 setup (min) (2) t -IORD/-IOWR (min) 2 -IORD/-IOWR (min) register (8 ( bit) -IORD/-IOWR ...

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SMCxxxBF Figure 9. True IDE multi-word DMA mode read/write waveforms tM −CS0, −CS1 −∆ΜΑΡΘ tI −∆ΜΑΧΚ −IORD/−IOWR Read Data D0-D15 Write Data D0-D15 Table 23. True IDE multi-word DMA mode read/write timing Symbol Parameter (1) t Cycle time (min) 0 ...

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Card configuration 6 Card configuration The CompactFlash memory card is identified by information in the card information structure (CIS). The card has four configuration registers Configuration option register Pin replacement register Card configuration and status register Socket and copy register ...

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SMCxxxBF Table 25. CompactFlash memory card configuration registers decoding –CE2 –CE1 –REG –OE –WE A10 ...

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Card configuration Table 27. CompactFlash memory card configurations Conf5 Conf4 Conf3 Conf2 6.2 Card configuration and status register (202h in attribute memory) The card ...

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SMCxxxBF Table 28. Card configuration and status register (default value: 00h) Operation Read Changed Write 6.3 Pin replacement register (204h in attribute memory) This register contains information on the state of the READY signal when configured in memory mode and ...

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Card configuration Table 30. Pin replacement changed bit/mask bit values Initial value of ‘C’ status 6.4 Socket and copy register (206h in attribute memory) This register contains additional configuration information which identifies the card from other ...

Page 37

SMCxxxBF 6.5 Attribute memory function Attribute memory is a space where identification and configuration information are stored. Only 8-bit wide accesses at even addresses can be performed in this area. The card configuration registers are also located in the attribute ...

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Card configuration 6.6 I/O transfer function The I/O transfer to or from the card can be either bits. When a 16-bit accessible port is addressed, the When a 16-bit transfer is attempted, and the generate a pair ...

Page 39

SMCxxxBF 6.7 Common memory transfer function The common memory transfer to or from the card permits both 8- or 16-bit access to all of the common memory addresses. (see Table 34. Common memory function Function code Standby mode Byte read ...

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Card configuration Table 35. True IDE mode I/O function Function code CS1 – Invalid mode Standby mode H Task file write H Task file read H PIO data register write H DMA data register H ...

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SMCxxxBF 7 Host configuration requirements The CompactFlash advanced timing modes include PCMCIA-style I/O modes that are faster than the original 250 ns cycle time (see Before configuring the card interface for the I/O mode, the host must ensure that all ...

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Software interface 8 Software interface 8.1 CF-ATA drive register set definition and protocol The CompactFlash memory card can be configured as a high performance I/O device through: Standard PC-AT disk I/O address spaces – 1F0h-1F7h, 3F6h-3F7h (primary); – 170h-177h, 376h-377h ...

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SMCxxxBF Accesses to even addresses between 400h and 7FFh access register 8. Accesses to odd addresses between 400h and 7FFh access register 9. This 1-Kbyte memory window to the data register is provided so that hosts can perform memory-to-memory block ...

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Software interface 8.3 Contiguous I/O mapped addressing When the system decodes a contiguous block of I/O registers to select the card, the registers are accessed in the block of I/O space decoded by the system as shown in Table 38. ...

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SMCxxxBF 8.4 I/O primary and secondary address configurations When the system decodes the primary and secondary address configurations, the registers are accessed in the block of I/O space as shown in As for the memory mapped addressing, register 0 is ...

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Software interface 8.5 True IDE mode addressing When the card is configured in the true IDE mode, the I/O decoding is as shown in Table 40. True IDE mode I/O decoding CS1 CS0 – – ...

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SMCxxxBF 9 CF-ATA registers The following section describes the hardware registers used by the host software to issue commands to the card. These registers are collectively referred to as the ‘task file’. In accordance with the PCMCIA specification, each register ...

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CF-ATA registers Table 42. Data register access Data register PIO word data register DMA word data register PIO byte data register (selected using Set Features command) 9.2 Error register The error register is a read-only register, located at address 1F1h ...

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SMCxxxBF Table 43. Error register D7 D6 BBK UNC 9.3 Feature register The feature register is a write-only register, located at address 1F1h [171h], offset 1h, Dh. This write-only register provides information on features that the host can utilize. It ...

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CF-ATA registers 9.8 Drive/head (LBA 27-24) register The driver/head register is located at address 1F6h [176h], offset 6h. The drive/head register is used to select the drive and head also used to select LBA addressing instead of cylinder/head/sector ...

Page 51

SMCxxxBF Table 44. Drive/head register LBA 9.9 Status & alternate status registers The status & alternate status registers are located at addresses 1F7h [177h] and 3F6h [376h], respectively. Offsets are 7h and Eh. These registers return the ...

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CF-ATA registers 9.9.8 Bit 0 (ERR) This bit is set when the previous command has ended in some type of error. The bits in the error register contain additional information describing the error. In case of read or write access ...

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SMCxxxBF 9.11 Card (drive) address register The card (drive) address register is located at address 3F7h [377h], offset Fh. This read-only register is provided for compatibility with the AT disk drive interface and can be used for confirming the drive ...

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CF-ATA command description 10 CF-ATA command description This section defines the software requirements and the format of the commands the host sends to the card. Commands are issued to the card by loading the required registers in the command block ...

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SMCxxxBF Table 48. CF-ATA command set Class 1 1 Standby Immediate 1 Translate Sector Write Multiple 3 Write Multiple w/o Erase 2 Write Sector(s) 2 Write Sector(s) w/o Erase features register, SC ...

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CF-ATA command description 10.2 Execute drive diagnostic (90h) This command performs the internal diagnostic tests implemented by the card. In PCMCIA configuration, this command only runs on the card which is addressed by the drive/head register when the command is ...

Page 57

SMCxxxBF 10.3 Erase sector(s) (C0h) This command is used to pre-erase and condition data sectors prior to a Write Sector Without Erase command or a Write Multiple Without Erase command. There is no data transfer associated with this command but ...

Page 58

CF-ATA command description 10.4.4 Word 6: default number of sectors per track This field contains the number of sectors per track in the default translation mode. 10.4.5 Word 7-8: number of sectors per card This field contains the number of ...

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SMCxxxBF 10.4.14 Word 57-58: current capacity This field contains the product of the current cylinders, heads and sectors. 10.4.15 Word 59: multiple sector setting Bits 15-9 are reserved and must be set to ‘0’. Bit 8 is set to ‘1’, ...

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CF-ATA command description 10.4.19 Word 65: minimum multi-word DMA transfer cycle time Word 65 of the parameter information of the Identify Device command is defined as the minimum multi-word DMA transfer cycle time. It corresponds to the minimum cycle time ...

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SMCxxxBF 10.4.24 Word 164: advanced PCMCIA I/O and memory timing modes capabilities and settings This word describes the capabilities and current settings for CFA defined advanced timing modes using the memory and PCMCIA I/O interface: Bits 2-0: maximum advanced PCMCIA ...

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CF-ATA command description Table 54. Identify drive information Word Default address value 848Ah 0 044Ah 1 XXXXh 2 0000h 3 00XXh 4 0000h 5 0000h 6 XXXXh 7-8 XXXXh 9 0000h 10-19 20 0000h 21 0000h 22 0004h 23-26 27-46 ...

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SMCxxxBF Table 54. Identify drive information (continued) Word Default address value 64 0003h 65 0050h 66 0050h 67 0050h 68 0050h 69-128 0000h 129-159 0000h 160-162 0000h 163 0492h 164 001Bh 165-255 0000h 10.5 Idle command (97h or E3h) This ...

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CF-ATA command description Table 56. Idle Immediate Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) 10.7 Initialize Drive Parameters command (91h) This command enables the host to set the ...

Page 65

SMCxxxBF 10.8 NOP command (00h) This command always fails with the CompactFlash memory card returning command aborted. Table 58 Table 58. NOP Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature ...

Page 66

CF-ATA command description 10.10 Read DMA command (C8h) This command uses multi-word DMA mode to read from 1 to 256 sectors as specified in the sector count register. If the sector count is set to ‘0’, 256 sectors will be ...

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SMCxxxBF 10.11 Read Multiple command (C4h) The Read Multiple command performs similarly to the Read Sectors command. Interrupts are not generated on every sector, but on the transfer of a block which contains the number of sectors defined by a ...

Page 68

CF-ATA command description 10.12 Read Sector(s) command (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. The transfer begins at the sector specified ...

Page 69

SMCxxxBF Table 63. Read Verify Sector(s) Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) 10.14 Recalibrate command (1Xh) This command is effectively a NOP command to the card and ...

Page 70

CF-ATA command description 10.15 Request Sense command (03h) This command requests extended error information for the previous command. defines the Request Sense command byte sequence. error codes. The extended error code is returned to the host in the error register. ...

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SMCxxxBF 10.16 Seek command (7Xh) This command is effectively a NOP command to the card although it does perform a range check of cylinder and head or LBA address and returns an error if the address is out of range. ...

Page 72

CF-ATA command description M Table 68. Set Features Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) Table 69. Features supported Feature 01h Enable 8-bit data transfers 03h Set transfer ...

Page 73

SMCxxxBF 10.18 Set Multiple Mode command (C6h) This command enables the card to perform read and write multiple operations and establishes the block count for these commands. The sector count register is loaded with the number of sectors per block. ...

Page 74

CF-ATA command description Table 72. Set Sleep Mode Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) 10.20 Standby command (96h or E2) This command causes the card to set ...

Page 75

SMCxxxBF Table 74. Standby Immediate Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) 10.22 Translate Sector command (87h) This command allows the host a method of determining the exact ...

Page 76

CF-ATA command description 10.23 Wear Level command (F5h) This command is effectively a NOP command and only implemented for backward compatibility. The sector count register will always be returned with a ‘00h’ indicating wear level is not needed. Table 77 ...

Page 77

SMCxxxBF 10.25 Write DMA command (CAh) This command uses DMA mode to write from 1 to 256 sectors as specified in the sector count register. If the sector count is set to ‘0’, 256 sectors will be read by issuing ...

Page 78

CF-ATA command description 10.26 Write Multiple command (C5h) This command is similar to the Write Sectors command. The card sets BSY within 400 ns of accepting the command. Interrupts are not presented on each sector but on the transfer of ...

Page 79

SMCxxxBF 10.27 Write Multiple without Erase command (CDh) This command is similar to the Write Multiple command with the exception that an implied erase before write operation is not performed. The sectors should be pre-erased with the Erase Sector(s) command ...

Page 80

CF-ATA command description Table 82. Write Sector(s) Bit Command (7) C/D/H (6) Cyl High (5) Cyl Low (4) Sect Num (3) Sect Cnt (2) Feature (1) 10.29 Write Sector(s) without Erase command (38h) This command is similar to the Write ...

Page 81

SMCxxxBF 10.30 Write Verify command (3Ch) This command is similar to the Write Sector(s) command, except each sector is verified immediately after being written. This command has the same protocol as the Write Sector(s) command. Table 84 Table 84. Write ...

Page 82

CIS information (typical) 11 CIS information (typical) -------- 0000: Code 01, link -------- – Tuple CISTPL_DEVICE (01), length 4 (04) – Device type is FUNCSPEC – Extended speed byte used – Device speed is 80ns ...

Page 83

... SMCxxxBF -------- – Tuple CISTPL_VERS_1 (15), length 18 (12) – Major version 4, minor version 1 – Product Information: Manufacturer: ‘Numonyx’, – Product name: ‘Numonyx-xxxxB’ -------- 0056: Code 21, link -------- – Tuple CISTPL_FUNCID (21), length 2 (02) – Function code 04 (Fixed Disk), system init 01 -------- 005E: Code 22, link -------- – ...

Page 84

CIS information (typical) -------- 007E: Code 1B, link -------- – Tuple CISTPL_CFTABLE_ENTRY (1B), length 8 (08) – Configuration Table Index is 00 (default) – Interface type is Memory – BVDs not ...

Page 85

SMCxxxBF Peak I = 45.0 mA -------- 00CA: Code 1B, link -------- – Tuple CISTPL_CFTABLE_ENTRY (1B), length 15 (0F) – Configuration Table Index is ...

Page 86

CIS information (typical) -------- 011E: Code 1B, link -------- – Tuple CISTPL_CFTABLE_ENTRY (1B), length 6 (06) – Configuration Table Index is 03 – V Power Description: Nom V = 3.30 V, Peak I ...

Page 87

SMCxxxBF 12 Package mechanical Figure 10. Type I CompactFlash memory card dimensions 1.60mm ± 0.5 (0.063in ± 0.002) 3.30mm ± 0.10 (0.130in ± 0.004) 1.65mm (0.130in 0.5mm ± 0.1 (4X R 0.020in ± 0.004 ...

Page 88

... Other digits may be added to the ordering code for pre-programmed parts or other options. Devices are shipped from the factory with the memory content bits erased to ’1’.For further information on any aspect of the device, please contact your nearest Numonyx sales office. 88/90 ...

Page 89

... Note 1 updated below Figure 7: I/O write Read byte access configuration CF+ (8 bits) mode removed from Table 32: Attribute memory 3 Applied Numonyx branding. Sustained write and read performances changed to 15 Mbyte/s and 4 22.5 Mbyte/s, respectively. Updated: Table 3: Current consumption. Minor text changes. Revision history ...

Page 90

... NUMONYX PRODUCTS INCLUDING LIABILITY OR WARRANTIES RELATING TO FITNESS FOR A PARTICULAR PURPOSE, MERCHANTABILITY, OR INFRINGEMENT OF ANY PATENT, COPYRIGHT OR OTHER INTELLECTUAL PROPERTY RIGHT. Numonyx products are not intended for use in medical, life saving, life sustaining, critical control or safety systems nuclear facility Numonyx may make changes to specifications and product descriptions at any time, without notice. ...

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