Transcend CompactFlash 100I Specification Sheet Download Page 1

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Transcend Information Inc.

V1.1

Description

The Transcend CF100I is a High Speed industrial

Compact Flash Card with high quality Flash Memory

assembled on a printed circuit board.

Placement

Dimensions

Features

•

CompactFlash Specification Version 4.1 Complaint

•

RoHS compliant products

•

Single Power Supply: 3.3V

5% or 5V

10%

•

Operating Temperature: -40

C to 85

•

Storage Temperature: -55

C to 100

•

Operation Modes:

PC Card Memory Mode

PC Card IO Mode

True IDE Mode

•

True IDE Mode supports:

Ultra DMA Mode 0 to Ultra DMA Mode 4

Multi-Word DMA Mode 0 to Multi-Word DMA Mode 4

PIO Mode 0 to PIO Mode 6

(Series of –P Only support PIO Mode 0 to PIO Mode
4, please see Order Information)

•

True IDE Mode: Fixed Disk (Standard)

•

PC Card Mode: Fixed Disk (Standard)

•

Durability of Connector: 10,000 times

•

Endurance: 2,000,000 Program/Erase cycles

•

MTBF: 1,000,000 hours

•

Support Wear-Leveling to extend product life

•

Support S.M.A.R.T (Self-defined)

•

Support Security Command

•

Compliant to CompactFlash, PCMCIA, and ATA

standards

•

Mechanical Shock Test: 1500G

•

Vibration Test: 20G (Peak-to-Peak)

20Hz to 2000Hz (Frequency)

Summary of Contents for CompactFlash 100I

Page 1: ...ature 40 o C to 85 o C Storage Temperature 55 o C to 100 o C Operation Modes PC Card Memory Mode PC Card IO Mode True IDE Mode True IDE Mode supports Ultra DMA Mode 0 to Ultra DMA Mode 4 Multi Word DM...

Page 2: ...mber Interface Transfer Mode True IDE mode Ultra DMA mode 0 4 Multi Word DMA Mode 0 4 PIO Mode 0 6 Fixed Disk Standard TS128M 16GCF100I PC Card mode PCMCIA 80ns 100ns 120ns 250ns Fixed Disk Standard T...

Page 3: ...sc c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Informat...

Page 4: ...c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Informatio...

Page 5: ...en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1...

Page 6: ...d not be left floating by the host in PC Card modes In these modes the pin should be connected by the host to PC Card A25 or grounded by the host 6 If DMA operations are not used the signal should be...

Page 7: ...Mode STSCHG PC Card I O Mode Status Changed PDIAG True IDE Mode I O 46 This signal is asserted high as BVD1 is not supported This signal is asserted low to alert the host to changes in the READY and...

Page 8: ...be held negated and the width of the transfers shall be 16 bits CSEL PC Card Memory Mode CSEL PC Card I O Mode CSEL True IDE Mode I 39 This signal is not used for this mode but should be connected by...

Page 9: ...all be 16 bits If there is no hardware support for DMA mode in the host this output signal is not used and should not be connected at the host In this case the BIOS must report that DMA mode is not su...

Page 10: ...tput Enable strobe generated by the host interface It is used to read data from the CompactFlash Storage Card in Memory Mode and to read the CIS and configuration registers In PC Card I O Mode this si...

Page 11: ...d be driven high or connected to VCC by the host A host that does not support DMA mode and implements both PCMCIA and True IDE modes of operation need not alter the PCMCIA mode connections while in Tr...

Page 12: ...r I O cycle that is in progress This signal is the same as the PC Card Memory Mode signal In True IDE Mode except in Ultra DMA modes this output signal may be used as IORDY In True IDE Mode when Ultra...

Page 13: ...I O Operation When the CompactFlash Storage Card is configured for I O Operation Pin 24 is used for the I O Selected is 16 Bit Port IOIS16 function A Low signal indicates that a 16 bit or odd byte onl...

Page 14: ...ltage VCC 3 135 3 465 V High level output voltage VOH VCC 0 8 V Low level output voltage VOL 0 8 V 2 4 V Non schmitt trigger High level input voltage VIH 2 05 V Schmitt trigger 1 0 6 V Non schmitt tri...

Page 15: ...d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 15 Out...

Page 16: ...ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information...

Page 17: ...able to drive at least the following load 10 while meeting all AC timing requirements the number of sockets wired in parallel multiplied by 100pF with DC current 450 A low state and 150 A high state...

Page 18: ...ost interface signal capacitance at the host connector shall be a maximum of 25 pF for each signal as measured at 1 MHz The card interface signal capacitance at the card connector shall be a maximum o...

Page 19: ...m the IC pin to the connector The shortest D 15 00 trace shall be no more than 0 5 shorter than either STROBE trace as measured from the IC pin to the connector Ultra DMA Mode Cabling Requirement Oper...

Page 20: ...d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 20 A...

Page 21: ...n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 21 Configuration...

Page 22: ...d d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 22...

Page 23: ...d d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 23...

Page 24: ...nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 2...

Page 25: ...s s sc c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Info...

Page 26: ...nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 26...

Page 27: ...s s sc c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Info...

Page 28: ...I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 28 True...

Page 29: ...s s sc c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Info...

Page 30: ...us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 30 True IDE Ultra DMA Mode R...

Page 31: ...surement location column For example in the case of tRFS both STROBE and DMARDY transitions are measured at the sender connector 3 The parameter tCYC shall be measured at the recipient s connector far...

Page 32: ...s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 32 Notes 1 The parameters tUI t...

Page 33: ...ions on the cable these timing measurements are not valid in a normally functioning system 4 For all modes the parameter tZIORDY may be greater than tENV due to the fact that the host has a pull up on...

Page 34: ...connector If the test point is on a cable conductor rather than the PCB an adjacent ground conductor shall also be cut within one half inch of the connector The test load and test points should then...

Page 35: ...s are used to coordinate the I O spaces and the Interrupt level of cards that are located in the system In addition these registers provide a method for accessing status information about the CompactF...

Page 36: ...end Information Inc V1 1 36 Attribute Memory Function Attribute memory is a space where CompactFlash Storage Card identification and configuration information are stored and is limited to 8 bit wide a...

Page 37: ...In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 37 Configura...

Page 38: ...nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 38 Card Configura...

Page 39: ...I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 39 Pin Rep...

Page 40: ...I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 40 Socket...

Page 41: ...tFlash Storage Otherwise the IOIS16 signal is de asserted When a 16 bit transfer is attempted and the IOIS16 signal is not asserted by the CompactFlash Storage the system shall generate a pair of 8 bi...

Page 42: ...l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 42 Common Memory Transfer Function The Common Memory trans...

Page 43: ...he host during the power off to power on cycle Optionally CompactFlash Storage Cards may support the following optional detection methods 1 The card is permitted to monitor the OE ATA SEL signal at an...

Page 44: ...d capabilities of the CompactFlash Storage Card as thoroughly as possible This includes describing the power requirements IO requirements memory requirements manufacturer information and details about...

Page 45: ...hrough a The standard PC AT disk I O address spaces 1F0h 1F7h 3F6h 3F7h primary or 170h 177h 376h 377h secondary with IRQ 14 or other available IRQ b Any system decoded 16 byte I O block using any ava...

Page 46: ...us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 46 I O Primary and Secondary...

Page 47: ...2 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 47 Contiguous I O Mapped Addressing When the system decodes a contiguous block of I O registers to select t...

Page 48: ...GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 48 Memory Mapped Addressing When the CompactFlash Storage Card registers are accessed via memory references the registers appear in the c...

Page 49: ...ress 1F1h 171h Offset 1 0Dh Read Only This register contains additional information about the source of an error when an error is indicated in bit 0 of the Status register This register is also access...

Page 50: ...ogical Block Address Cylinder High LBA 23 16 Register Address 1F5h 175h Offset 5 This register contains the high order bits of the starting cylinder address or bits 23 16 of the Logical Block Address...

Page 51: ...mmand register and buffer No other bits in this register are valid when this bit is set to a 1 During the data transfer of DMA commands the Card shall not assert DMARQ unless either the BUSY bit the D...

Page 52: ...it 5 this bit is ignored by the CompactFlash Storage Card The host software should set this bit to 0 Bit 4 this bit is ignored by the CompactFlash Storage Card The host software should set this bit to...

Page 53: ...time 3 Implement a socket adapter that can be programmed to conditionally tri state D7 of I 0 address 3F7h 377h when a CompactFlash Storage Card is installed and conversely to tristate D6 D0 of I O ad...

Page 54: ...e E1h or 95h Y Support 9 Initialize Drive Parameters 91h Y Y Support 10 Key Management Structure Read B9 Feature 0 127 Y Y Y Y Y NOT Support 1 11 Key Management Read Keying Material B9 Feature 80 Y Y...

Page 55: ...32h or 33h Y Y Y Y Not Support 3 39 Write Multiple C5h Y Y Y Y Y Support 40 Write Multiple w o Erase CDh Y Y Y Y Y Support 41 Write Sector s 30h or 31h Y Y Y Y Y Support 42 Write Sector s w o Erase 38...

Page 56: ...tFlash Storage Card sets BSY sets the Sector Count Register to FFh clears BSY and generates an interrupt Execute Drive Diagnostic 90h When the diagnostic command is issued in a PCMCIA configuration mo...

Page 57: ...rd returns status with RDY 1 and DSC 1 after the data in the write cache buffer is written to the media If the Compact Flash Storage Card does not support the Flush Cache command the Compact Flash Sto...

Page 58: ...e card and aaaa indicates an ASCII string specific to the particular drive Word Address Default Value Total Bytes Data Field Type Information 848Ah 2 General configuration signature for the CompactFla...

Page 59: ...this value shall be 0h 66 XXXXh 2 Recommended Multiword DMA transfer cycle time In PC Card modes this value shall be 0h 67 XXXXh 2 Minimum PIO transfer cycle time without flow control 68 XXXXh 2 Minim...

Page 60: ...ll be 848Ah If bits 15 12 are set to 0h then Bits 11 0 are set using the definitions below and the Card is required to support for the CFA command set and report that in bit 2 of Word 83 Bit 15 12 val...

Page 61: ...Supported If bit 11 is set to 1 then this CompactFlash Storage Card supports IORDY operation If bit 11 is set to 0 then this CompactFlash Storage Card may support IORDY operation Bit 10 IORDY may be...

Page 62: ...ne indicates that the CompactFlash Storage Card supports Multiword DMA modes 1 and 0 Bit 2 if set to one indicates that the CompactFlash Storage Card supports Multiword DMA modes 2 1 and 0 Support for...

Page 63: ...in words 64 70 other than this field and the CompactFlash Storage Card does not support this field the CompactFlash Storage Card shall return a value of zero in this field Words 82 84 Features comman...

Page 64: ...command is not supported Bit 10 of word 85 shall be set to zero the Host Protected Area feature set is not supported Bit 11 of word 85 is obsolete Bit 12 of word 85 shall be set to one the CompactFlas...

Page 65: ...security mode is enabled and the security level is maximum If set to 0 and security mode is enabled indicates that the security level is high Bit 5 Enhanced security erase unit feature supported If s...

Page 66: ...of the host Additional Requirements for CF Advanced Timing Modes There are four separate fields defined that describe support and selection of Advanced PIO timing modes and Advanced Multiword DMA timi...

Page 67: ...tes the maximum I O timing mode supported by the card Value Maximum PCMCIA IO timing mode Supported 0 255ns Cycle PCMCIA I O Mode 1 120ns Cycle PCMCIA I O Mode 2 100ns Cycle PCMCIA I O Mode 3 80ns Cyc...

Page 68: ...ediate 95h or E1h This command causes the CompactFlash Storage Card to set BSY enter the Idle mode clear BSY and generate an interrupt Initialize Drive Parameters 91h This command enables the host to...

Page 69: ...1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 69 Read Buffer E4h The Read Buffer command enables the host to read the current contents of the Compact...

Page 70: ...tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 70 Read Multiple C4h Read Sector s 20...

Page 71: ...s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 71 The extended error code is r...

Page 72: ...rue IDE Mode If the 01h feature command is issued all data transfers shall occur on the low order D 7 0 data bus and the IOIS16 signal shall not be asserted for data register accesses The host shall n...

Page 73: ...he host to select the PIO or Multiword DMA transfer mode by specifying a value in the Sector Count register The upper 5 bits define the type of transfer and the low order 3 bits encode the mode value...

Page 74: ...du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 74 Standby Immediate 9...

Page 75: ...d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 75 Wea...

Page 76: ...us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 76 Write Long Sector 32h or...

Page 77: ...d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information Inc V1 1 77 Write Sector s 30h...

Page 78: ...c ce e en n nd d d I I In n nd d du u us s st t tr r ri i ia a al l l C C CF F F C C Ca a ar r rd d d T T TS S S1 1 12 2 28 8 8M M M 1 1 16 6 6G G GC C CF F F1 1 10 0 00 0 0I I I Transcend Information...

Page 79: ...tus and error value for all the CF ATA Command set SMART Command Set SMART Command Set SMART Command Set SMART Command Set SMART Command Set SMART Feature Register Values D0h Read Data D4h Execute OFF...

Page 80: ...in minutes 374 F Conveyance self test routine recommended polling time in minutes 375 385 R Reserved 386 395 F Date Code 396 V Number of MU in device 0 n 397 n 6 V MU number 398 n 6 V MU data block 4...

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