Table of Contents
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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
Transcend Information Inc.
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Features
• CompactFlash Specification Version 4.1 Complaint
• RoHS compliant products
• Single Power Supply: 3.3V ± 5 % or 5V ± 1 0%
• Operating Temperature: -40
• Storage Temperature: -55
• 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
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Support S.M.A.R.T (Self-defined)
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Support Security Command
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• Compliant to CompactFlash, PCMCIA, and ATA
standards
• Mechanical Shock Test: 1500G
• Vibration Test: 20G (Peak-to-Peak)
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C to 85
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20Hz to 2000Hz (Frequency)
V1.1
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Table of Contents
Related Manuals for Transcend CompactFlash TS16GCF100I-P
Summary of Contents for Transcend CompactFlash TS16GCF100I-P
- Page 1 Compact Flash Card with high quality Flash Memory assembled on a printed circuit board. Placement Dimensions Transcend Information Inc. Features • CompactFlash Specification Version 4.1 Complaint • RoHS compliant products • Single Power Supply: 3.3V ± 5 % or 5V ± 1 0% •...
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Page 2: Order Information
True IDE mode TS128M~16GCF100I-P PC Card mode (PCMCIA) 250ns C.H.S. Table Capacity 128MB 256MB 512MB 16GB Transcend Information Inc. Interface Transfer Mode Ultra DMA mode 0~4 Multi-Word DMA Mode 0~4 PIO Mode 0 ~ 6 PIO Mode 0 ~ 4 1974 3949... - Page 3 Transcend Information Inc. Transcend V1.1...
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Page 4: Block Diagram
Block Diagram Transcend Information Inc. V1.1... -
Page 5: Pin Assignments And Pin Type
Pin Assignments and Pin Type Transcend Information Inc. V1.1... - Page 6 10) Signal usage in PC Card I/O and Memory Mode when Ultra DMA mode protocol DMA Write is active. 11) Signal usage in PC Card I/O and Memory Mode when Ultra DMA mode protocol DMA Read is active. 12) Signal usage in PC Card I/O and Memory Mode when Ultra DMA protocol is active. Transcend Information Inc. V1.1...
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Page 7: Signal Description
-CD1, -CD2 (PC Card I/O Mode) -CD1, -CD2 (True IDE Mode) Transcend Information Inc. 8,10,11,12, These address lines along with the -REG signal are used to select the following: 14,15,16,17, The I/O port address registers within the CompactFlash Storage Card , the... - Page 8 (PC Card Memory Mode) (PC Card I/O Mode) (True IDE Mode) Transcend Information Inc. These input signals are used both to select the card and to indicate to the card 7,32 whether a byte or a word operation is being performed. -CE2 always accesses the odd byte of the word.-CE1 accesses the even byte or the Odd byte of the...
- Page 9 HSTROBE (True IDE Mode – In Ultra DMA Protocol DMA Write) Transcend Information Inc. This signal is not used in this mode. The Input Acknowledge signal is asserted by the CompactFlash Storage Card when the card is selected and responding to an I/O read cycle at the address that is on the address bus.
- Page 10 (PC Card I/O Mode) INTRQ (True IDE Mode) Transcend Information Inc. This signal is not used in this mode. The I/O Write strobe pulse is used to clock I/O data on the Card Data bus into the CompactFlash Storage Card controller registers when the CompactFlash Storage Card is configured to use the I/O interface.
- Page 11 (True IDE Mode) (PC Card Memory Mode) (PC Card I/O Mode) (True IDE Mode) Transcend Information Inc. This signal is used during Memory Cycles to distinguish between Common Memory and Register (Attribute) Memory accesses. High for Common Memory, Low for Attribute Memory.
- Page 12 (PC Card I/O Mode) (True IDE Mode) Transcend Information Inc. Voltage Sense Signals. -VS1 is grounded on the Card and sensed by the Host so that the CompactFlash Storage Card CIS can be read at 3.3 volts and -VS2 is reserved by PCMCIA for a secondary voltage and is not connected on the Card.
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Page 13: Absolute Maximum Conditions
Input Leakage Current Input Characteristics CompactFlash interface I/O at 5.0V Parameter Transcend Information Inc. Memory Mode – The CompactFlash Storage Card does not have a write protect switch. This signal is held low after the completion of the reset initialization sequence. - Page 14 Low level input voltage Pull up resistance Pull down resistance 1. Include CE1, CE2, HREG, HOE. HIOE, HWE, HIOW pins. 2. Include CE1, CE2, HREG, HOE. HIOE, HWE, HIOW, CSEL, PDIAG, DASP pins. Transcend Information Inc. 2.92 Symbol Min. 3.135 -0.8...
- Page 15 Output Drive Type Output Drive Characteristics Transcend Information Inc. V1.1...
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Page 16: Signal Interface
Signal Interface Transcend Information Inc. V1.1... - Page 17 Devices supporting CF Advanced timing modes shall also support slower timing modes, to ensure operability with systems that do not support CF Advanced timing modes Transcend Information Inc. A high state, including pull-resistor. The socket shall be able to drive at least the following μ...
- Page 18 Series termination resistors are required at both the host and the card for operation in any of the Ultra DMA modes. Table 13 describes typical values for series termination at the host and the device. Transcend Information Inc. Table: Typical Series Termination for Ultra DMA...
- Page 19 For True IDE mode operation using a cable with IDE (ATA) type 40 pin connectors it is recommended that the host sense the cable type using the method described in the ANSI INCITS 361-2002 AT Attachment - 6 standard, to prevent use of Ultra DMA with a 40 conductor cable. Transcend Information Inc. V1.1...
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Page 20: Attribute Memory Read Timing Specification
Attribute Memory Read Timing Specification Transcend Information Inc. V1.1... - Page 21 Configuration Register (Attribute Memory) Write Timing Specification Transcend Information Inc. V1.1...
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Page 22: Common Memory Read Timing Specification
Common Memory Read Timing Specification Transcend Information Inc. V1.1... -
Page 23: Common Memory Write Timing Specification
Common Memory Write Timing Specification Transcend Information Inc. V1.1... -
Page 24: I/O Input (Read) Timing Specification
I/O Input (Read) Timing Specification Transcend Information Inc. V1.1... - Page 25 Transcend Information Inc. V1.1...
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Page 26: I/O Output (Write) Timing Specification
I/O Output (Write) Timing Specification Transcend Information Inc. V1.1... - Page 27 Transcend Information Inc. V1.1...
- Page 28 True IDE PIO Mode Read/Write Timing Specification Transcend Information Inc. V1.1...
- Page 29 Transcend Information Inc. V1.1...
- Page 30 True IDE Ultra DMA Mode Read/Write Timing Specification Transcend Information Inc. Table: Ultra DMA Data Burst Timing V1.1...
- Page 31 5)The parameter tAZ shall be measured at the connector of the sender or recipient that is driving the bus but must release the bus the allow for a bus turnaround. Transcend Information Inc. V1.1...
- Page 32 Notes: 1) The parameters tUI, tMLI : (Ultra DMA Data-In Burst Device Termination Timing and Ultra DMA Transcend Information Inc. V1.1...
- Page 33 3) The parameters tDVSIC and tDVHIC shall be met for lumped capacitive loads of 15 and 40 pF at the IC where all signals have the same capacitive load value. Noise that may couple onto the output signals from external sources has not been included in these values. Transcend Information Inc. V1.1...
- Page 34 VOH level with data transitions at least 120 nsec apart. The settled VOH level shall be measured as the average output high level under the defined testing conditions from 100 nsec after 80% of a rising edge until 20% of the subsequent falling edge. Transcend Information Inc. V1.1...
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Page 35: Card Configuration
I/O cards. Multiple Function CompactFlash Storage Cards Table: CompactFlash Storage Card Registers and Memory Space Decoding Table: CompactFlash Storage Card Configuration Registers Decoding Transcend Information Inc. V1.1... -
Page 36: Attribute Memory Function
8 bit wide accesses only at even addresses. The card configuration registers are also located here. For CompactFlash Storage Cards, the base address of the ard configuration registers is 200h. Transcend Information Inc. Table 31: Attribute Memory Function V1.1... - Page 37 Configuration Option Register (Base + 00h in Attribute Memory) Transcend Information Inc. V1.1...
- Page 38 Card Configuration and Status Register (Base + 02h in Attribute Memory) Transcend Information Inc. V1.1...
- Page 39 Pin Replacement Register (Base + 04h in Attribute Memory) Transcend Information Inc. V1.1...
- Page 40 Socket and Copy Register (Base + 06h in Attribute Memory) Transcend Information Inc. V1.1...
- Page 41 CompactFlash Storage responds. The CompactFlash Storage Card may request the host to extend the length of an input cycle until data is ready by asserting the -WAIT signal at the start of the cycle. Transcend Information Inc. Table : PCMCIA Mode I/O Function V1.1...
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Page 42: Common Memory Transfer Function
Common Memory Transfer Function The Common Memory transfer to or from the CompactFlash Storage can be either 8 or 16 bits. Transcend Information Inc. Table: Common Memory Function V1.1... -
Page 43: True Ide Mode I/O Transfer Function
3. The card is permitted to monitor the –OE (-ATA SEL) signal at any time(s) and switch to True IDE mode upon detection of a continuous low level on pin for an extended period of time. Table: True IDE Mode I/O Function defines the function of the operations for the True IDE Mode. Transcend Information Inc. V1.1... - Page 44 Note: The value “1” defined for D3 of the N+0 words indicates that no write-protect switch controls writing the ATA registers. The value “0” defined for D7 in the N+2 words indicates that there is not more than a single speed extension byte. Transcend Information Inc. V1.1...
- Page 45 The PCMCIA interface connects peripherals to the host using four register mapping methods. Table 39 is a detailed description of these methods: Transcend Information Inc. V1.1...
- Page 46 I/O Primary and Secondary Address Configurations Transcend Information Inc. Table: Primary and Secondary I/O Decoding V1.1...
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Page 47: Contiguous I/O Mapped Addressing
When the system decodes a contiguous block of I/O registers to select the CompactFlash Storage Card, the registers are accessed in the block of I/O space decoded by the system as follows: Transcend Information Inc. Table: Contiguous I/O Decoding V1.1... -
Page 48: Memory Mapped Addressing
When the CompactFlash Storage Card registers are accessed via memory references, the registers appear in the common memory space window: 0-2K bytes as follows: True IDE Mode Addressing When the CompactFlash Storage Card is configured in the True IDE Mode, the I/O decoding is as follows: Transcend Information Inc. V1.1... - Page 49 Bit 2 (Abort) This bit is set if the command has been aborted because of a CompactFlash Storage Card status condition: (Not Ready, Write Fault, etc.) or when an invalid command has been issued. Bit 1 This bit is 0. Bit 0 (AMNF) This bit is set in case of a general error. Transcend Information Inc. V1.1...
- Page 50 1 is selected. Setting this bit to 1 is obsolete in PCMCIA modes of operation. If the obsolete functionality is support by a CF Storage Card, the CompactFlash Storage Card is set to be Card 0 or 1 using the copy field (Drive #) of the PCMCIA Socket & Copy configuration register. Transcend Information Inc. V1.1...
- Page 51 Error register contain additional information describing the error. It is recommended that media access commands (such as Read Sectors and Write Sectors) that end with an error condition should have the address of the first sector in error in the command block registers. Transcend Information Inc. V1.1...
- Page 52 CompactFlash Storage Card are disabled. This bit also controls the Int bit in the Configuration and Status Register. This bit is set to 0 at power on and Reset. Bit 0: this bit is ignored by the CompactFlash Storage Card. Transcend Information Inc. V1.1...
- Page 53 Bit 2 (-HS0): this bit is the negation of bit 0 in the Drive/Head register. Bit 1 (-nDS1): this bit is 0 when drive 1 is active and selected. Bit 0 (-nDS0): this bit is 0 when the drive 0 is active and selected. Transcend Information Inc. V1.1...
- Page 54 Read Sector(s) Read Verify Sector(s) Recalibrate Request Sense Security Disable Password Security Erase Prepare Security Erase Unit Security Freeze Lock Security Set Password Security Unlock Seek Transcend Information Inc. Code E5 or 98h – – – – – – – –...
- Page 55 CY = Cylinder Low/High register DH = Head No. (0 to 15) of Drive/Head register LBA = Logic Block Address Mode Support – = Not used for the command Y = Used for the command Transcend Information Inc. – – E6h or 99h –...
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Page 56: Check Power Mode - 98H Or E5H
True IDE Mode, the Drive bit is ignored and the diagnostic command is executed by both the Master and the Slave with the Master responding with status for both devices. Diagnostic Codes are returned in the Error Register at the end of the command. Transcend Information Inc. V1.1... -
Page 57: Erase Sector(S) - C0H
CompactFlash Storage Card. If LBA=1 then the number of sectors to format is taken from the Sec Cnt register (0=256). The use of this command is not recommended. Transcend Information Inc. V1.1... -
Page 58: Identify Device (Ech)
27-46 aaaa XXXXh 0000h XX00h 0000h Transcend Information Inc. Total Bytes General configuration - signature for the CompactFlash 0 lash Storage Card General configuration – Bit Significant with ATA-4 definitions. Default number of cylinders Reserved Default number of heads... - Page 59 XXXXh 0000h 0000h XXXXh XXXXh 165-167 0000h 168-255 0000h Transcend Information Inc. Total Bytes PIO data transfer cycle timing mode Obsolete Field Validity Current numbers of cylinders Current numbers of heads Current sectors per track Current capacity in sectors (LBAs)(Word 57 = LSW, Word 58 = MSW)
- Page 60 Word 3: Default Number of Heads This field contains the number of translated heads in the default translation mode. Word 6: Default Number of Sectors per Track This field contains the number of sectors per track in the default translation mode. Transcend Information Inc. V1.1...
- Page 61 Current Number of Cylinders, Heads, Sectors/Track These fields contains the current number of user addressable Cylinders, Heads, and Sectors/Track in the current translation mode. Current Capacity This field contains the product of the current cylinders times heads times sectors. Transcend Information Inc. V1.1...
- Page 62 Multiword DMA transfer cycle time. This field defines, in nanoseconds, the cycle time that, if used by the host, may optimize the data transfer from by reducing the probability that the CompactFlash Storage Card will need to negate the DMARQ signal during the transfer of a sector. Transcend Information Inc. V1.1...
- Page 63 Bit 1 of word 83 shall be set to zero; the CompactFlash Storage Card does not support the Read DMA Queued and Write DMA Queued commands. Bit 2 of word 83 shall be set to one; the CompactFlash Storage Card supports the CFA feature set. Transcend Information Inc. V1.1...
- Page 64 Bit 4: 1 = Ultra DMA mode 4 and below are supported. Bits 0-3 Shall be set to 1. Bit 3: 1 = Ultra DMA mode 3 and below are supported, Bits 0-2 Shall be set to 1. Transcend Information Inc. V1.1...
- Page 65 This bit is reserved and shall be 0. Bit 13: -XP If set to 1, indicates that the CompactFlash Storage Card does not have Power Level 1 commands. If set to 0, indicates that the CompactFlash Storage Card has Power Level 1 commands Transcend Information Inc. V1.1...
- Page 66 Value Bits 11-9: Advanced True IDE Multiword DMA Mode Selected Indicates the current True IDE Multiword DMA Mode Selected on the card. Value Transcend Information Inc. Maximum PIO mode timing selected Specified in word 64 PIO Mode 5 PIO Mode 6...
- Page 67 If the sector count is zero, the automatic power down mode is disabled. Note that this time base (5 msec) is different from the ATA specification. Transcend Information Inc. Reserved Maximum PCMCIA IO timing mode Supported...
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Page 68: Idle Immediate - 95H Or E1H
This command enables the host to set the number of sectors per track and the number of heads per cylinder. Only the Sector Count and the Card/Drive/Head registers are used by this command. NOP - 00h This command always fails with the CompactFlash Storage Card returning command aborted. Transcend Information Inc. V1.1... -
Page 69: Read Buffer - E4H
The Read Buffer command enables the host to read the current contents of the CompactFlash Storage Card’s sector buffer. This command has the same protocol as the Read Sector(s) command. Read DMA – C8h Read Long Sector - 22h or 23h Transcend Information Inc. V1.1... - Page 70 Read Multiple - C4h Read Sector(s) - 20h or 21h Read Verify Sector(s) - 40h or 41h Recalibrate - 1Xh Request Sense - 03h Transcend Information Inc. V1.1...
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Page 71: Set Features (Efh)
The extended error code is returned to the host in the Error Register. Seek - 7Xh Set Features – EFh Transcend Information Inc. V1.1... - Page 72 Features 02h and 82h allow the host to enable or disable write cache in CompactFlash Storage Cards that implement write cache. When the subcommand disable write cache is issued, the CompactFlash Storage Card shall initiate the sequence to flush cache to non-volatile memory before command completion. Transcend Information Inc. V1.1...
- Page 73 One PIO mode shall be selected at all times. For Cards which support DMA, one Multiword DMA mode shall be selected at all times. The host may change the selected modes by the Set Features command. Set Multiple Mode - C6h Set Sleep Mode- 99h or E6h Standby - 96h or E2h Transcend Information Inc. V1.1...
- Page 74 Standby Immediate - 94h or E0h Translate Sector - 87h Translate Sector Information Transcend Information Inc. V1.1...
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Page 75: Write Dma - Cah
Wear Level - F5h Write Buffer - E8h Write DMA – CAh Transcend Information Inc. V1.1... - Page 76 Write Long Sector - 32h or 33h Write Multiple Command - C5h Write Multiple without Erase – CDh Transcend Information Inc. V1.1...
- Page 77 Write Sector(s) - 30h or 31h Write Sector(s) without Erase - 38h Write Verify - 3Ch Transcend Information Inc. V1.1...
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Page 78: Error Posting
Error Posting Transcend Information Inc. V1.1... - Page 79 Enable/Disable Autosave Save Attribute Values 1. If reserved size is below the Threshold, the status can be read from Cylinder register by Return Status command (DAh). Transcend Information Inc. SMART Feature Register Values Execute OFF-LINE Immediate Enable SMART Operations Disable SMART Operations Return Status V1.1...
- Page 80 Transcend reserves the right to make changes in specifications at any time without prior notice. Transcend Information Inc. Revision code...