503 & 503 Pro Series Industrial Grade CompactFlash Card (CF) Product Manual Cactus Technologies Limited Suite C, 15/F, Capital Trade Center 62 Tsun Yip Street, Kwun Tong Kowloon, Hong Kong Tel: +852-2797-2277 Email: sales@cactus-tech.com Cactus USA 3112 Windsor Road Suite A356 Austin, Texas 78703 Tel: +512-775-0746 Email: americas@cactus-tech.com Cactus-Tech.
The information in this manual is believed to be accurate at the time of publication but is subject to change without notice. Cactus Technologies® Limited shall not be liable for technical or editorial errors or omissions contained herein; nor for incidental or consequential damages resulting from the furnishing, performance, or use of this material.
CONTENTS Table of 1 . Introduction to Cactus Technologies 503 Series Industrial Grade CF Products ................................................................ 1 1.1.Supported Standards..................................................................................................................... 2 1.2.Product Features............................................................................................................................ 2 1.2.1.Host and Technology Independence............
CONTENTS Table of 4.5.4.Sector Count Register (Address—1F2[172]; Offset 2)............................................... 31 4.5.5.Sector Number (LBA 7-0) Register (Address—1F3[173]; Offset 3)........................... 31 4.5.6.Cylinder Low (LBA 15-8) Register (Address—1F4[174]; Offset 4)............................. 32 4.5.7.Cylinder High (LBA 23-16) Register (Address—1F5[175]; Offset 5).......................... 32 4.5.8.
CONTENTS Table of 6.2.CTPurge™....................................................................................................................................... 49 6.2.1.Command Structure...................................................................................................... 49 6.2.2.Standard Compliance.................................................................................................... 50 6.2.3.Status Reporting.....................................................
01 01 Introduction to Cactus Technologies 503 Series Industrial Grade CF Introduction to Cactus Technologies Industrial Grade CFProducts -3XX/-3XX-P1/-3XX-WP1 Series Products Features Overview • Solid state design with no moving parts • Industry standard CF Type I form factor • Supports TrueIDE Mode • S upports ATA PIO Modes 0-6 in TrueIDE Mode • S upports MultiWord DMA Modes 0-4 in TrueIDE Mode • S upports UDMA Modes 0-6 in TrueIDE Mode • Supports ATA S.M.A.R.T.
1.1. Supported Standards Cactus Technologies CompactFlash Memory Cards are fully electrically compatible with the following specifications: • PCMCIA PC Card Standard v2.1 • PCMCIA PC Card ATA Specification • CompactFlash Specification 4.1 & 5.0 • ATA Specification published by ANSI: X3.221 AT Attachment Interface for Disk Drives 1.2. Product Features Cactus Technologies Industrial Compact Flash Cards contain a high level, intelligent controller.
1.2.3. Intelligent Power Management Cactus Technologies Industrial CF cards employ sophisticated power management algorithms to conserve power. Upon completion of a command, the card will automatically enter sleep mode if no further commands are received. In most situations, the card will be in sleep mode except when the host is accessing it, thus conserving power. The delay from command completion to entering sleep mode can be adjusted.
02 01 Product Introduction to Cactus Technologies Industrial Grade CF Specifications -3XX/-3XX-P1/-3XX-WP1 Series Products For all the following specifications, values are defined at ambient temperature and nominal supply voltage unless otherwise stated. 2.1. System Environmental Specifications Table 2-1.
2.3. System Performance All performance numbers are typical values assuming the card controller is in the default (i.e., fastest) mode. Table 2-3. Performance Start Up Times Reset to ready: Read Transfer Rate Operating &Non-Operating: up to 50.0 Mbytes/sec* Write Transfer Rate up to 30.
Figure 2-1. CompactFlash Memory Card Dimensions 3.30mm ± .10 (.130 in. ± .004) 2X 25.78mm ± .07 P TO 41.66mm ± .13 (1.640 in. ± .005) Cactus Technologies® 2X 3.00mm ± .07 (2X .118 in. ± .003) 0.76mm ± .07 (.030 in. ± .003) 1.65mm (.130 in.) 4X R 0.5mm ± .1 (4X R .020 in. ± .004) .99mm ± .05 (.039 in. ± .002) 25 1.01mm ± .07 (.040 in. ± .003) 1 1.01mm ± .07 (.040 in. ± .003) (2X 1.015 in. ± .003) 2X 12.00mm ± .10 (2X .472 in. ± .004) 50 26 36.40mm ± .15 (1.433 in. ± .006) 1.60mm ± .05 (.
Figure 2-2. CompactFlash Memory Card w/Write Protect switch Dimensions Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
2.6. Capacity Specifications Cactus Technologies® offers CompactFlash products in the following capacities: 1G, 2G, 4G, 8G, 16G, 32G and 64G Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
03 01 Interface Introduction to Cactus Technologies Industrial Grade CF Description -3XX/-3XX-P1/-3XX-WP1 Series Products The following sections provide detailed information on the Cactus Technologies Industrial CompactFlash card interface. 3.1. CF Pin Assignments and Pin Type The signal/pin assignments are listed in Table 3-6. Low active signals have a “-” prefix. Pin types are Input, Output or Input/Output. Sections 3.3.1 to 3.3.
PC Card Memory Mode PC Card I/O Mode True IDE Mode Pin Num Signal Name Pin Type Pin Num Signal Name Pin Type Pin Num Signal Name Pin Type 31 D151 I/O 31 D151 I/O 31 D151 I/O -CE21 I 32 -CS11 I -VS1 O 33 -VS1 O -IORD HSTROBE5 -HDMARDY6 I 32 -CE21 I 32 33 -VS1 O 33 34 -IORD I 34 -IORD I 34 35 -IOWR I 35 -IOWR I 35 36 37 38 39 40 41 -WE RDY/BSY VCC -CSEL -VS2 RESET I O -WE IREQ VCC -CSEL -VS2 RESET I O I O I 36 37 38 39 40 41 I O I 36 37 38 39 40 4
Table 3-7. Signal Description Signal Name A10—A0 (CF Card Memory Mode) Dir. Description I These address lines along with the -REG signal are used to select the following: The I/O port address registers within the CompactFlash Card, the memory mapped port address registers within the card, a byte in the card’s information structure and its configuration control and status registers.
Signal Name Dir. These input signals are used both to select the card and to indicate to the card 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 word depending on A0 and ‑CE2. A multiplexing scheme based on A0, -CE1, and -CE2 allows 8 bit hosts to access all data on D0-D7. See Tables 3-11, 3-12, 3‑15, and 3-16.
Signal Name Dir. Description -INPACK (CF Card Memory Mode) This signal is not used in this mode. -INPACK (CF Card I/O Mode) Input Acknowledge The Input Acknowledge signal is asserted by the CompactFlash Card when the card is selected and responding to an I/O read cycle at the address that is on the address bus. This signal is used by the host to control the enable of any input data buffers between the card and the CPU.
Signal Name Dir. This is an Output Enable strobe generated by the host interface. It is used to read data from the CompactFlash Card in Memory Mode and to read the CIS and configuration registers. -OE (CF Card Memory Mode) -OE (CF Card I/O Mode) Description I In CF Card I/O Mode, this signal is used to read the CIS and configuration registers. -ATA SEL (True IDE Mode) To enable True IDE Mode this input should be grounded by the host.
Signal Name Dir. VCC (CF Card Memory Mode) VCC (CF Card I/O Mode) Description +5 V, +3.3 V power. -- This signal is the same for all modes. VCC (True IDE Mode) This signal is the same for all modes. -VS1 -VS2 (CF Card Memory Mode) Voltage Sense Signals. -VS1 is grounded so that the CompactFlash Card CIS can be read at 3.3 volts and ‑VS2 is open and reserved by CF Card for a secondary voltage. -VS1 -VS2 (CF Card I/O Mode) O This signal is the same for all modes.
Signal Name Dir. WP (CF Card Memory Mode) Write Protect -IOIS16 (CF Card I/O Mode) -IOCS16 (True IDE Mode) 3.3. Description Memory Mode—The CompactFlash Card does not have a write protect switch. This signal is held low after the completion of the reset initialization sequence. O I/O Operation—When the CompactFlash Card is configured for I/O Operation, Pin 24 is used for the -I/O Selected is 16 Bit Port (-IOIS16) function.
3.3.2. DC Characteristics Parameter Symbol MIN MAX Units Vin -0.5 Vcc + 0.5 V Vout -0.3 Vcc + 0.3 V Input Leakage Current ILI -10 10 uA Output Leakage Current ILO -10 10 uA 10 pF 4 mA Input Voltage Output Voltage Input/Output Capacitance CI/C° Operating Current Sleep Mode ICC Active 165 3.3.3. AC Characteristics Cactus Technolgies CF Cards meet all the timing requirements as specified in CompactFlash Specification 5.0 and PCMCIA PC Card Standard v2.1.
h 3.4. Card Configuration The CompactFlash Memory Cards are identified by information in the Card Information Structure (CIS). The entries in Table 3-8 and Table 3-9 show how to access the various registers and address spaces in the memory cards. Table 3-8.
3.4.1. Attribute Memory Function ttribute memory is a space where CompactFlash Memory Card CIS and configurations registers A are stored, and is limited to 8-bit wide accesses only at even addresses. As in the Main Memory Read functions, the signals -CE1 and -CE2 control the even-byte and odd-byte address, but only the even-byte data is valid during the Attribute Memory access. Refer to Table 3-10 for signal states and bus validity for the Attribute Memory function. Table 3-10.
SRESET Soft Reset—Setting this bit to one (1), waiting the minimum reset width time and returning to zero (0) places the CompactFlash Memory Card in the Reset state. Setting this bit to one (1) is equivalent to assertion of the +RESET signal except that the SRESET bit is not cleared. Returning this bit to zero (0) leaves the CompactFlash Memory Card in the same un-configured, Reset state as following power-up and hardware reset. This bit is set to zero (0) by power-up and hardware reset.
IOis8 The host sets this bit to a one (1) if the CompactFlash Memory Card is to be configured in an 8-bit I/O mode. The CompactFlash Card is always configured for both 8- and 16-bit I/O, so this bit is ignored. PwrDwn This bit indicates whether the host requests the CompactFlash Memory Card to be in the power saving or active mode. When the bit is one (1), the CompactFlash Card enters a power down mode. When zero (0), the host is requesting the CompactFlash Card to enter the active mode.
Table 3-14. Pin Replacement Changed Bit/Mask Bit Values Initial Value of (C) Status Written by Host Final “C” Bit Comments “C” Bit “M” Bit 0 X 0 0 Unchanged 1 X 0 1 Unchanged X 0 1 0 Cleared by Host X 1 1 1 Set by Host .4.5. Socket and Copy Register 3 (Address 206h in Attribute Memory) This register contains additional configuration information. This register is always written by the system before writing the card’s Configuration Index Register. Table 3-15.
3.5. I/O Transfer Function The I/O transfer to or from the CompactFlash Memory Card can be either 8 or 16 bits. When a 16‑bit accessible port is addressed, the signal ‑IOIS16 is asserted by the CompactFlash Card. Otherwise, the -IOIS16 signal is de-asserted. When a 16-bit transfer is attempted, and the ‑IOIS16 signal is not asserted by the CompactFlash Card, the system must generate a pair of 8-bit references to access the word‘s even byte and odd byte.
3.6. Common Memory Transfer Function The Common Memory transfer to or from the CompactFlash card can be either 8 or 16 bits. The CompactFlash cards permit both 8- and 16-bit accesses to all of its Common addresses (refer to Table 3-17). Table 3-17.
Table 3-18.
04 01 ATA Set Introduction to Drive CactusRegister Technologies Industrial Definition and ProtocolSeries Products Grade CF -3XX/-3XX-P1/-3XX-WP1 The CompactFlash Memory Card can be configured as a high performance I/O device through the following ways: • S tandard PC-AT disk I/O address spaces 1F0h-1F7h, 3F6h-3F7h (primary); 170h-177h, 376h-377h (secondary) with IRQ 14 (or other available IRQ). • Any system decoded 16-byte I/O block using any available IRQ. • Memory space.
NOTES: 1. Register 0 is accessed with -CE1 low and -CE2 low (and A0 = Do not care) as a word register on the combined Odd Data Bus and Even Data Bus (D15-D0). This register may also be accessed by a pair of byte accesses to the offset 0 with -CE1 low and -CE2 high. Note that the address space of this word register overlaps the address space of the Error and Feature byte-wide registers that lie at offset 1.
4.3. Memory Mapped Addressing When the CompactFlash Memory Card registers are accessed via memory references, the registers appear in the common memory space window: 0-2K bytes as shown in Table 4-22. Table 4-22.
4.4. True IDE Mode Addressing When the CompactFlash Memory Card is configured in the True IDE Mode the I/O decoding is as listed in Table 4-23. Table 4-23. True IDE Mode I/O Decoding -CE2 -CE1 A2 A1 A0 1 0 0 0 0 Even RD Data Even WR Data 1 0 0 0 1 Error Register Features 1 0 0 1 0 Sector Count Sector Count 1 0 0 1 1 Sector No. Sector No.
.5.2. Error Register 4 (Address—1F1[171]; 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. The bits are defined as follows: D7 D6 D5 D4 D3 D2 D1 D0 BBK UNC 0 IDNF 0 ABRT 0 AMNF This register is also accessed on data bits D15-D8 during a write operation to offset 0 with -CE2 low and -CE1 high. Bit 7 (BBK) This bit is set when a Bad Block is detected.
.5.6. Cylinder Low 4 (LBA 15-8) Register (Address—1F4[174]; Offset 4) This register contains the low order 8 bits of the starting cylinder address or bits 15-8 of the Logical Block Address. .5.7. Cylinder High (LBA 23-16) Register 4 (LBA 23-16) Register (Address—1F5[175]; Offset 5) This register contains the high order bits of the starting cylinder address or bits 23-16 of the Logical Block Address. .5.8.
.5.9. Status and Alternate Status Registers 4 (Address 1F7[177] and 3F6[376]; Offsets 7 and Eh) These registers return the status when read by the host. Reading the Status register does clear a pending interrupt while reading the Auxiliary Status register does not.
Bit 2 (SW Rst) This bit is set to 1 in order to force the card to perform an AT Disk controller Soft Reset operation. This does not change the PC Card Configuration Registers (4.3.2 to 4.3.5) as a hardware Reset does. The card remains in Reset until this bit is reset to ‘0’. Bit 1 (-IEn) The Interrupt Enable bit enables interrupts when the bit is 0. When the bit is 1, interrupts from the card are disabled. This bit also controls the Int bit in the Configuration and Status Register.
Bit 3 (-HS1) This bit is the negation of bit 1 in the Drive/Head register. 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. Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
05 01 S.M.A.R.T.
5.3. SMART Enable/Disable Attribute Autosave For this command to take effect, the following signature bytes must be loaded: Sector Count – 00h or F1h Cylinder Low – 4Fh Cylinder High – C2h This command is essentially a no-operation as the SMART attribute data is always available and kept current by the device. 5.4. SMART Read Data For this command to take effect, the following signature bytes must be loaded: Cylinder Low – 4Fh Cylinder High – C2h This command returns one sector of SMART data.
Offset Value 410 – 413 414 – 510 Description Number of correctable ECC errors during firmware initialization 00h 511 ---Data structure checksum There are 12 attributes defined for the -503 series products. The following sections describe in detail what these attributes are. 5.4.1. Spare Block Count Attribute This attribute gives information about the amount of available spare blocks.
5.4.3. Erase Count Attribute This attribute gives information about the number of flash block erases performed.
5.4.5. Correctable ECC Error Attribute This attribute gives information about the total number of correctable ECC errors on flash read commands. The data structure of this attribute is as follows: Offset Value Description 0 204 Attribute ID 1–2 0002h Flags – Advisory type, attribute is updated during normal operation 3 64h Attribute value – fixed at 100 4 64h Attribute value – fixed at 100 5–8 Total number of correctable ECC errors 9 – 10 -- 11 00h Reserved 5.4.6.
5.4.8. Power On Count Attribute This attribute gives information about the total number of power on cycles. The data structure of this attribute is as follows: Offset Value Description 0 12 Attribute ID 1–2 0002h Flags – Advisory type, attribute is updated during normal operation 3 64h Attribute value – fixed at 100 4 64h Attribute value – fixed at 100 5–8 Total number of power on cycles 9 – 10 -- 11 00h Reserved 5.4.9.
5.4.11. Anchor Block Status Attribute This attribute gives information about the total number time the Anchor block has been re-written, either by a repair operation or by firmware updates.
Offset Value Description 0–1 0010h SMART structure version 2 – 361 Attribute entries 1 to 30 (12 bytes each) 362 - 379 00h Reserved 380 - 510 00h -- 511 Data structure checksum The SMART attribute threshold entries are as follows: 5.5.1. Spare Block Count Attribute Threshold Offset Value Description 0 196 Attribute ID 1 2 - 11 Spare block count attribute threshold defined during low level format 00h Reserved 5.5.2.
5.5.6. UDMA CRC Errors Attribute Threshold Offset Value Description 0 199 Attribute ID 1 00h None defined 2 - 11 00h Reserved 5.5.7. Total Number of Reads Attribute Threshold Offset Value Description 0 232 Attribute ID 1 00h None defined 2 - 11 00h Reserved 5.5.8. Power On Count Attribute Threshold Offset Value Description 0 12 Attribute ID 1 00h None defined 2 - 11 00h Reserved 5.5.9.
5.5.12. TRIM Status Attribute Threshold Offset Value Description 0 215 Attribute ID 1 00h None defined 2 - 11 00h Reserved 5.6. SMART Return Status For this command to take effect, the following signature bytes must be loaded: Cylinder Low – 4Fh Cylinder High – C2h This commands checks the health of the device.
Offset Value Description 0–1 1 SMART Logging version 256 – 319 16 Number of sectors for Log addresses 0x80 to 0x9F 320 – 511 -- Reserved 5.8. SMART Write Log For this command to take effect, the following signature bytes must be loaded: Cylinder Low – 4Fh Cylinder High – C2h This command is used to write data to the SMART logs. Only the Host Vendor Specific logs can be written. Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
06 01 -503-P1/-503-WP1 Introduction to Cactus Technologies Industrial Firmware SpecificationsSeries Products Grade CF -3XX/-3XX-P1/-3XX-WP1 The following sections describe in detail the enhanced firmware features available only in the Cactus Technologies® -503-P1 and -503-WP1 series Compact Flash devices. 6.1. CTLock™ The CTLock™ feature allows a Cactus Technologies flash card/drive to be locked to a specific host.
byte Description 00-31 zeroes 32-64 Lock code 65-511 zeroes If this command is issued with Bit 0 of Feature Reg. set, the drive will enable the VS Lock mode. In this mode, the drive will not response to normal ATA data transfer commands until a CTLock™ command is issued with the same Lock code and the Unlock bit set.
6.2. CTPurge™ This feature allows the host to issue a single command and erase all the content of the flash card/ drive. There are various options available to control how thoroughly the erasure is to be carried out, so that it can meet various published standards. This operation will erase all data on the flash, including bad blocks, re-assigned blocks and reserve blocks. There are two erasure modes: 1) erase everything, including firmware.
bit[3:2] These two bits determine the type of operation to be performed for sequence 2. The coding is the same as for sequence 3. bit[1:0] These two bits determine the type of operation to be performed for sequence 1. The coding is the same as for sequence 3. For sequence 1, an optional ‘count’ can be specified. If count=0, the sequence is performed only once. For non-zero counts, the sequence is repeated for count+1 times.
Operation Opcode Parameter 1 Parameter 2 Count 0x9e Character Complement of Character 0x00 0x8e 0x55 0xAA 0x00 NISPOMSUP Chap.8, Sect.8501 Erase and overwrite with a character, its complement, and then random data IREC (IRIG) 106 Erase and overwrite with 0x55, then erase and overwrite with 0xAA, then erase 6.2.3.
6.3. CTWPROT™ CTWPROT™ enables write protect function on the entire Cactus Technologies® card. This feature can be activated in hardware or software. Hardware activation is by either a mechanical write protect switch or a signal pin. On Cactus Technologies® -503-P1 and -503-WP1 CF Cards, pin 40 is used as the Write Protect signal (pin 40 is currently unused in the CFA standard). If this pin is pulled low, CTWPROT™ is enabled.
Command Code Device State Normal WP WP w/ password WP Permanent 12 Go to WP state No effect No effect No effect 13 No effect Go to Normal state Return error No effect 15 Go to WP Permanent state No effect No effect No effect 22 Go to WP w/ password state No effect No effect No effect 23 No effect Go to Normal state Password correct => go to Normal state No effect Password incorrect => return error The current Write Protect status is reported in Identify Drive data word 129, bi
07 01 CISto Cactus Technologies Industrial Introduction Description Grade CF -3XX/-3XX-P1/-3XX-WP1 Series Products This section describes the Card Information Structure (CIS) for the Cactus Technologies CompactFlash Memory Cards. Table 6-25.
020h 04h Link is 4 bytes Link Length 022h 00h Low Byte of PCMCIA Manufacturer’s Code JEDEC Manufacturer’s ID Low Byte of PCMCIA Mfg ID 024h 00h High Byte of PCMCIA Manufacturer’s Code Code of 0 because other byte is JEDEC 1 byte Manufacturer’s ID High Byte of PCMCIA Mfg ID 026h 00h Low Byte of Product Code Manufacturer specific info Low Byte Product Code 028h 00h High Byte of Product Code Manufacturer specific info High Byte Product Code 02Ah 21h CISTPL_FUNCID Function ID Tuple T
046h 048h 05h Link Length is 5 bytes Link to next tuple 01h Size of Reserved Field is 0 bytes, Size of Register Mask is 1 Byte, Size of Config Base Address is 2 bytes RFS:Bytes in Reserved Field RMS:Bytes in Reg Mask-1 RAS:Bytes in Base Addr-1 Size of fields byte (TPCC_SZ) RFS RMS RAS 00 00 01 04Ah 07h TPCC_LAST Entry with Config Index of 07h is final entry in table Last entry of configuration table 04Ch 00h TPCC_RADR (lsb) Configuration Registers are Location of 04Eh 02h TPCC_RADR
05Ah 05Ch M MS IR IO T P 1 1 0 0 0 1 Vcc only Power; No Timing, I/O, or IRQ; 2 Byte Mem Space Length; Misc Entry Present P:Power info type T:Timing info not present IO:I/O space not used IR:Interrupt not used MS:Mem space info type M:Misc info byte(s) present A1h R DI PI AI SI HV LV 0 0 1 0 0 1 1 Nominal Voltage Follows NV:Nominal Voltage info present LV:Mimimum Voltage info NV present HB:Maximum Voltage info present 1 SI:No Static Current info AI:No Average Current info PI:Pea
Nominal Operation Supply Voltage = 3.0V Extension Byte Present Nominal Operation Supply Voltage +.30 Nominal Operation Supply Voltage Extension Byte Max Average Current over 10 msec is 45mA Max Average Current Configuration Entry Tuple Tuple Code 0Dh Link to next tuple is 13 bytes. Also limits size of this tuple to 15 bytes. Link to next tuple C1h I/O Mapped Contiguous 16 registers configuration Configuration Index for this entry is 1. Interface Byte follows this byte.
086h R DI PI AI SI HV LV NV 0 0 1 0 0 1 1 1 27h Nominal Voltage Follows NV:Nominal Voltage info LV:Mimimum Voltage info HB:Maximum Voltage info SI:No Static Current info AI:No Average Current info PI:Peak Current info DI:No Power Down Current info Power Parameters for Vcc 088h 55h X 0 Mantissa Ah = 5.0 Exponent 5h = 1V Vcc Nominal is 5Volts Vcc Nominal Value 08Ah 4Dh X 0 Mantissa 9h = 4.5 Exponent 5h = 1V Vcc Minimum is 4.
0A2h R DI PI AI SI HV LV NV 0 0 1 0 0 0 0 1 21h Nominal Operation Supply Voltage = 3.0V Extension Byte Present Nominal Operation Supply Voltage +.30 Nominal Operation Supply Voltage Extension Byte Max Average Current over 10 msec is 45 mA Max Average Current Configuration Entry Tuple Tuple Code X 1 0A6h 1Eh X 0 0A8h 4Dh X 0 0AAh 1Bh 0ACh 12h Link to next tuple is 18 bytes. Also limits size of this tuple to 20 bytes.
0B8h 4Dh X 0 Mantissa 9h = 4.5 Exponent 5h = 1V Vcc Minimal is 4.5Volts Vcc Minimum Value 0BAh 5Dh X 0 Mantissa Bh = 5.5 Exponent 5h = 1V Vcc Maximum is 5.5Volts Vcc Maximum Value 0BCh 75h X 0 Mantissa Eh = 8.0 Exponent 5h = 10 Max Average Current over 10 msec is 80 mA 0BEh 0C0h R S E IO AddeLines 1 1 1 Ah = 10 EAh LS AS N Ranges - 1 1 2 1 61h Supports both 8 and 16 bit I/O hosts.
X 0D0h 0D2h 1Bh 0D4h 06h 0D6h 02h 0DAh P RO A T 21h 0 0D8h R 0 1 0 0 1 CISTPL_CE I D Configuration Index 0 0 3 M MS IR IO T P 0 0 0 0 0 1 01h R DI PI AI SI HV LV NV 0 0 1 0 0 0 0 1 21h Power-Down, and Twin Card. T:Twin Cards Allowed is 1 A:Audio Not Supported RO:Read/Write Mode P:Power Down Supported R:Reserved X:No More Misc Fields Bytes TPCE_MI Configuration Entry Tuple Tuple Code Link to next tuple is 6 bytes.
0EAh 0ECh M MS IR IO T P 1 0 1 1 0 1 99h R DI PI AI SI HV LV NV 0 0 1 0 0 1 1 1 27h Vcc Only Power Descriptors; No Timing; I/O and IRQ present; No Mem Space; Misc Entry Present.
104h 01h 2nd I/O Range Length - 1 S 106h X 10Ah 1Bh 10Ch 06h 10Eh 03h 112h M 1 1 R P Recommend IRQ Level 0 RO Eh = 14 A T 21h 0 110h L EEh 1 108h P 0 1 0 0 1 CISTPL_CE I D Configuration Index 0 0 3 M MS IR IO T P 0 0 0 0 0 1 01h R DI PI AI SI HV LV NV 0 0 1 0 0 0 0 1 21h 2 bytes total ==>376-377h I/O Length - 1 IRQ Sharing Logic Active in Card Control and Status Register, Pulse and Level Mode Interrupts supported, Recommended IRQ’s any
122h 028h Cactus Specific Code Reserved 124h 0D3h Cactus Specific Code Reserved 126h 014h CISTPL_NO_LINK Prevent Scan of Common Memory Tuple Code 128h 000h CISTPL_LINK Link Length is 0 Bytes Link to next tuple 12Ah 015h CISTPL_VERS_1 Level 1 version/product info Tuple Code 12Ch 022h CISTPL_LINK Link Length is 24h bytes Link to next tuple 12Eh 004h TPPLV1_MAJOR PCMCIA 2.0/JEIDA 4.1 Major Version 130h 001h TPPLV1_MINOR PCMCIA 2.0/JEIDA 4.
Appendix A 01 Ordering Introduction to Cactus Technologies Industrial Information Grade CF -3XX/-3XX-P1/-3XX-WP1 Series Products Model KCXYZ-503-P1 Where X is card capacities: 1G ................................................................................................................................. 1GB 2G ................................................................................................................................. 2GB 4G .......................................................
Appendix B 01 CF To PC Card Technologies Industrial Introduction to Cactus Information Grade Adapter CF -3XX/-3XX-P1/-3XX-WP1 Series Products For customers who would like to use the Cactus CompactFlash cards in their existing PC Card sockets, we offer a CF to PC Card adapter. The physical dimensions of this adapter are as shown below: To order this adapter, please use the following product code: KADPT-CF01 Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
Appendix C 01 Technical Introduction to Cactus Technologies Industrial Services Grade Support CF -3XX/-3XX-P1/-3XX-WP1 Series Products Cactus Technologies® Limited Suite C, 15/F, Capital Trade Center 62 Tsun Yip Street, Kwun Tong Kowloon, Hong Kong Tel: +852-27972261 Fax: +852-27973777 Email: tech@cactus-tech.com Cactus Technologies® Limited Santa Clara, CA 95054 Email: tech@cactus-tech.com Cactus Technologies® 503 Series Industrial Grade CompactFlash Card Product Manual v2.
Appendix D 01 Cactusto Technologies Introduction Cactus Technologies Industrial debra.park2 debra.park2zz z z vzv v z Offices v Sales Grade Worldwide CF -3XX/-3XX-P1/-3XX-WP1 Series Products ® Cactus Technologies® Limited Suite C, 15/F, Capital Trade Center 62 Tsun Yip Street, Kwun Tong Kowloon, Hong Kong Tel: +852-27972277 Fax: +852-27973777 Email: sales@cactus-tech.com Cactus® USA 3112 Windsor Road Suite A-356 Austin, Texas Tel: +512-775-0746 Email: americas@cactus-tech.
Appendix E 01 Limitedto Cactus Technologies Industrial Introduction GradeWarranty CF -3XX/-3XX-P1/-3XX-WP1 Series Products I. WARRANTY STATEMENT Cactus Technologies® warrants its Industrial Grade products only to be free of any defects in materials or workmanship that would prevent them from functioning properly for five years from the date of purchase. This express warranty is extended by Cactus Technologies® Limited II.
shall be tested to the product s functional and performance specifications. Upon confirmation of failure, each product will be analyzed, by whatever means necessary, to determine the root cause of failure. If the root cause of failure is found to be not covered by the above provisions, then the product will be returned to the customer with a report indicating why the failure was not covered under the warranty.