WED7P008ATA4504C25 [WEDC]
Flash Memory,;型号: | WED7P008ATA4504C25 |
厂家: | WHITE ELECTRONIC DESIGNS CORPORATION |
描述: | Flash Memory, |
文件: | 总33页 (文件大小:264K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Flash Cards
ATA45 Series
White Electronic Designs
ATA45 Series FLASH CARDS
8MB to 512MB
■
■
ISA standard and Read/Write unit is 512 bytes
(sector) sequential access
PRODUCT DESCRIPTION
ATA45 series Flash ATA cards are built with NAND flash
memory components operating as solid-state diskꢀ They
comply with the PC card ATA standard and are suitable
for use as a data storage memory medium for PCs or
other electronic equipmentꢀ The read/write unit is 1
sector (512 bytes) sequential accessꢀ
High performance:
Host data transfer rate
Flash data transfer rate
20ꢀ0 MB/sec
10ꢀ0 MB/sec
■
■
Maximum card density is 512 MB
3 variations of mode access
Memory card mode
I/O card mode
FEATURES
■
PC Card-ATA/True IDE/ I/O Card mode compatible
host interface
True-IDE mode
68 pin connector and type II stainless steel
housing
■
■
Internal self-diagnostic program operates at VCC
power on
Automatic sensing of PC Card ATA and IDE mode
Included 256-byte CIS ROM
High data reliability
Endurance: 100,000 Program / Erase cycles
Support the five PC Card ATA addressing modes
Host Interface bus width: 8/16-bit Access
Flash Interface bus width: 8-bit Access
Support 3 power save mode: standby / idle / active
Auto power down function
High reliability based on internal ECC (Error
Correcting Code) function 2-bit ECC
Data reliability is 1 error in 1014 bits readꢀ
■
Power Consumption
Active mode
Idle mode
Stop mode
30 mA (typꢀ), 40 mA (maxꢀ)
2-bit ECC function
10 mA
400 µA
■
Operating Voltage: 3ꢀ3 V and 5ꢀ0 V
CARD BLOCK DIAGRAM
Internal Vcc
Vcc
GND
Data
In/Out
Samsung
NAND
Flash
Host
Samsung
Interface
Controller
Control
July 2003 Revꢀ 0
ECO #16317
1
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
CARD CAPACITIES (CF TYPE I BLANK HOUSING)
Capacity
8 MB
Part
Number
Sectors/CerardCylind
Sector/Track
Heads
WED7P008ATA4504C25
WED7P016ATA4504C25
WED7P032ATA4504C25
WED7P048ATA4504C25
WED7P064ATA4504C25
WED7P096ATA4504C25
WED7P128ATA4504C25
WED7P256ATA4504C25
WED7P512ATA4504C25
15,616
31,488
122
246
32
32
32
32
32
32
32
32
63
4
4
16 MB
32 MB
62,976
492
4
48 MB
94,464
738
4
64 MB
125,952
188,928
251,904
503,808
1,029,168
246
16
16
16
16
16
96 MB
369
128 MB
256 MB
512 MB
492
984
1,021
PHYSICAL SPECIFICATION
The ATA45 series physical specification complies with PCMCIA standard card formatꢀ
CARD SIZE AND OUTLINE
Type II
1.6mm
0.05
85.6mm
0.20
1.0mm
0.05
3.0m
MIN.
54.0mm
0.10
Substrate
1.0mm
0.05
10.0mm
MIN
Interconnect
3.3mm 0.10mm
5.0mm T1
0.197”
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
2
Flash Cards
ATA45 Series
White Electronic Designs
INTERFACE SPECIFICATION
SIGNAL PIN ASSIGNMENTS
Memory Card Mode
Signal name
I/O Card Mode
True IDE Mode
Signal name
Pin NO&
1
I/O
Signal name
GND
D3
I/O
I/O
I/O
I/O
I/O
I/O
I
I/O
I/O
I/O
I/O
I/O
I/O
I
GND
D3
I/O
I/O
I/O
I/O
I/O
I
GND
D3
2
3
D4
D4
D4
4
D5
D5
D5
5
D6
D6
D6
6
D7
D7
D7
7
CE1
A10
OE
CE1
A10
OE
CE1
A10
ATASEL
8
I
I
I
9
I
I
I
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
I
I
I
A9
A9
A9
A8
I
A8
I
A8
I
I
I
I
WE
RDY/BSY
VCC
WE
IREQO
VCC
WE
NTRQO
VCC
O
I
I
I
I
A7
A7
A7
A6
I
A6
I
A6
I
A5
I
A5
I
A5
I
A4
I
A4
I
A4
I
A3
I
A3
I
A3
I
A2
I
A2
I
A2
I
A1
I
A1
I
A1
I
A0
I
A0
I
A0
I
D0
I/O
I/O
I/O
O
O
I/O
I/O
I/O
I/O
I/O
I
D0
I/O
I/O
I/O
O
O
I/O
I/O
I/O
I/O
I/O
I
D0
I/O
I/O
I/O
O
O
I/O
I/O
I/O
I/O
I/O
I
D1
D1
D1
D2
D2
D2
WP
GND
GND
CD1
D11
D12
D13
D14
D15
CE2
VS1
IORD
IOWR
IOIS16
GND
GND
CD1
D11
D12
D13
D14
D15
CE2
VS1
IORD
IOWR
IOIS16
GND
GND
CD1
D11
D12
D13
D14
D15
CE2
VS1
IORD
IOWR
O
I
O
I
O
I
I
I
I
3
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
SIGNAL PIN ASSIGNMENTS CONTꢀ
Memory Card Mode
Signal name
I/O Card Mode
Signal name
True IDE Mode
Signal name
Pin NO&
51
I/O
I
I/O
I
I/O
I
VCC
VCC
VCC
52
53
54
55
56
CSEL
VS2
RESET
WAIT
INPACK
REG
BVD2
BVD1
D8
CSEL
VS2
CSEL
VS2
57
O
O
O
58
I
RESET
WAIT
INPACK
REG
SPKR
STSCHG
D8
I
RESET
IORDY
INPACK
REG
DASP
PDIAG
D8
I
59
O
O
O
60
O
O
O
61
I
I
I
62
I/O
I/O
I/O
I/O
I/O
O
I/O
I/O
I/O
I/O
I/O
O
I/O
I/O
I/O
I/O
I/O
O
63
64
65
D9
D9
D9
66
D10
CD2
GND
D10
D10
67
CD2
GND
CD2
GND
68
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
4
Flash Cards
ATA45 Series
White Electronic Designs
INTERFACE SIGNALS DESCRIPTION
Symbol
Type
Name and Function
A0 - A10
INPUT
ADDRESS BUS: These address lines along with the REG signal are used to select the following: The I/O port
address registers within the PC Storage Card, the memory mapped port address registers within the PC
Storage Card, a byte in the Cards information structure and its configuration control and status registers< This
signal is the same as the PC Card Memory Mode signal in PC Card I/O mode< In True IDE Mode only A [2:0]
are used to select the one of eight registers in the Task File, the remaining address lines should be grounded
by the host<
D0 - D15
INPUT/
OUTPUT
DATA BUS: These signal lines carry the Data, Commands and Status information between the host and the
controller< D0 is the LSB of the even byte of the word< D8 is the LSB of the odd byte of the word<
This signal is the same as the PC Card memory mode signal in PC Card I/O mode< In True IDE mode, all Task
File operations occur in byte mode on the low order bus D0-D7 while all data transfers are 16 bit using D0D15<
CE1, CE2
INPUT
CARD ENABLE: CE1 and CE2 are card select signals, active low< 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, CE2 allows 8 bit hosts to access all data on
D0-D7< This signal is the same as the PC card memory mode signal in PC Card I/O mode< In the True IDE
mode, CE1 is the chip select for the task file registers while CE2 is used to select the Alternate Status
Register and the Device Control Register<
OE, ASTEL
WE
INPUT
INPUT
OUTPUT ENABLE, ATA SELECT: OE is used for the control of data read in Attribute area or Common memory
area< To enable True IDE Mode this input should be grounded by the host (in power up)<
WRITE ENABLE: WE is used for the control of data write in Attribute memory area or Common memory area<
This is a signal driven by the host and used for strobing memory write data to the registers of the PC Card
when the card is configured in the memory interface mode< It is also used for writing the configuration
registers< In PC Card I/O mode, this signal is used for writing the configuration registers< In True IDE mode,
this input signal is not used and should be connected to VCC by the host<
IORD
IOWR
INPUT
INPUT
I/O READ: IORD is used for control of read data in the Task File area< This card does not respond to IORD
until I/O card interface setting up<
I/O WRITE: IOWR is used for control of data write in the Task File area< This card does not respond to IOWR
until I/O card interface setting up< This signal is not used in memory mode< The I/O write strobe pulse is used
to clock I/O data on the card data bus into the PC Card controller registers when the PC Card is configured to
use the I/O interface< The clocking will occur on the negative to positive edge of the signal (trailing edge)< In
True IDE mode, this signal has the same function as in PC Card I/O Mode<
RDY/BSY,
IREQ, INTRQ
OUTPUT
READY/BUSY INTERRUPT REQUEST: In memory mode, this signal is set high when the PC Card is
ready to accept a new data transfer operation and held low when the card is busy< The host memory card
socket must provide a pull-up resistor< At power up and at reset, the RDY/BSY signal is held low (busy) until
the PC Card has completed its power up or reset function< No access of any type should be made to the PC
Card during this time< The RDY/BSY signal is held high (disabled from being busy) whenever the following
condition is true: The PC Card has been powered up with RESET continuously disconnected or asserted< I/O
operation - After the PC Card has been configured for I/O operation, this signal is used as Interrupt request<
This line is strobed low to generate a pulse mode interrupt or held low for a level mode interrupt< In True IDE
mode, this signal is the active high Interrupt request to the host<
CD1, CD2
OUTPUT
OUTPUT
CARD DETECTION: CD1 and CD2 are the card detection signals< CD1 and CD2 are connected to ground in
this card, so the host can detect if the card is inserted or not<
WP, IOIS16
WRITE PROTECT, 16 BIT I/O PORT: In memory card mode, WP is held low because this card does not have a
write protect switch< In the I/O card mode, IOIS16 is asserted when Task File registers are accessed in 16-bit
mode< In True IDE Mode this output signal is asserted low when this device is expecting a word data transfer
cycle<
REG
INPUT
ATTRIBUTE MEMORY AREA SELECTION: REG should be high level during common memory area accessing,
and low level during Attribute area accessing< The attribute memory area is located only in an even address, so
D0 to D7 are valid and D8 to D15 are invalid in the word access mode< Odd addresses are invalid in the byte
access mode< The signal must also be active (low) during I/O cycles when the I/O address is on the Bus< In
True IDE Mode this input signal is not used and should be connected to VCC<
BVD2, SPKR, INPUT/
BATTERY VOLTAGE DETECTION, DIGITAL AUDIO OUTPUT, DISK ACTIVE/SLAVE PRESENT: In memory card
mode, BVD2 outputs the battery voltage status in the card< This card has no battery, so this output is high
level constantly< In the I/O card mode, SPKR is held High because this card does not have digital audio output<
In True IDE Mode DASP is the Disk Active/Slave Present signal in the Master/Slave handshake protocol<
DASP
OUTPUT
RESET,
RESET
INPUT
RESET: By assertion of the RESET signal, all registers of this card are cleared and the RDY/BSY signal turns
to high level< In True IDE Mode RESET is the active low hardware reset from the host<
5
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
INTERFACE SIGNALS DESCRIPTION CONTꢀ
Symbol
Type
Name and Function
WAIT, IORDY OUTPUT
WAIT: This signal outputs low level for the purpose of delaying memory access cycle or I/O access cycle< In
True IDE Mode this output signal may be used as IORDY< As for this controller, this output is high impedance
state constantly<
INPACK
OUTPUT
INPUT ACKNOWLEDGE: This signal is not used in the memory card mode< The Input acknowledge signal is
asserted by the PC 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
PC Card and the CPU< In True IDE mode, this output signal is not used and should be connected to VCC at
the host<
BVD1,
STSCHG,
PDIAG
INPUT/
OUTPUT
BATTERY VOLTAGE DETECTION, STATUS CHANGE, PASS DIAGNOSTIC: In the memory card mode, BVD1
outputs the battery voltage status in the card< This card has no battery, so this output is high level constantly<
In the I/O card mode, STSCHG is used for changing the status of the Configuration status register in the
Attribute area, while the card is set I/O card interface< In True IDE Mode, PDIAG is the Pass Diagnostic signal
in the Master/Slave handshake protocol<
VS1, VS2
OUTPUT
INPUT
VCC VOLTAGE SENSE: These signals are intended to notify the socket of the PC Cards CIS VCC requirement<
VS1 is held low and VS2 is not connected in this card<
CSEL
CARD SELECT: This signal is not used in the memory card mode and I/O card mode< This internally pulled up
signal is used to configure this device as a Master or a Slave when configured in the True IDE Mode< When
this pin is grounded, this device is configured as a Master< When the pin is open, this device is configured as
a Slave<
PCMCIA-ATA REGISTER MAPPING ADDRESSꢀ
PCMCIA-ATA I/O MAPPING ADDRESS
REG
Primary I/O
A[10:0]
Secondary I/O Independent I/O IORD = L
IOWR = L
A[10:0]
170H
171H
172H
173H
174H
175H
176H
177H
-
A[3:0]
L
L
L
L
L
L
L
L
L
L
L
L
L
1F0H
1F1H
1F2H
1F3H
1F4H
1F5H
1F6H
1F7H
-
0H
Read Even Data
Error Register
Write Even Data
Feature Register
Sector Count
1H
2H
Sector Count
3H
Sector Number
Cylinder Low
Sector Number
Cylinder Low
4H
5H
Cylinder High
Cylinder High
6H
Drive/Head
Drive/Head
7H
Status Register
Duplicate Read Even Data
Duplicate Read Odd Data
Duplicate Error
Alternate Status
Drive Address
Command
8H
Duplicate Write Even Data
Duplicate Write Odd Data
Duplicate Feature
Device Control
Reserved
-
-
9H
-
-
0DH
0EH
0FH
3F6H
3F7H
376H
377H
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6
Flash Cards
ATA45 Series
White Electronic Designs
PCMCIA-ATA MEMORY MAPPING ADDRESS
REG
H
A10
L
A[9:4]
X
A[3]
L
A[2]
L
A[1]
L
A[0]
L
IORD = L
IOWR = L
Read Data
Write Data
H
L
X
L
L
L
H
L
Error Register
Sector Count
Feature
H
L
X
L
L
H
H
L
Sector Count
H
L
X
L
L
H
L
Sector Number
Cylinder Low
Sector Number
Cylinder Low
H
L
X
L
H
H
H
H
L
H
L
X
L
L
H
L
Cylinder High
Cylinder High
Drive/Head
H
L
X
L
H
H
L
Drive/Head
H
L
X
L
H
L
Status Register
Duplicate Read Even Data
Duplicate Read Odd Data
Duplicate Error
Alternate Status
Drive Address
Read Even Data
Read Odd Data
Command
H
L
X
H
H
H
H
H
X
X
Duplicate Write Even Data
Duplicate Write Odd Data
Duplicate Feature
Device Control
Reserved
H
L
X
L
L
H
H
L
H
L
X
H
H
H
X
L
H
L
X
H
H
X
X
H
L
X
H
L
H
H
H
X
Write Even Data
Write Odd Data
H
X
X
H
THE ATA REGISTERS AND PCMCIA REGISTERS
STATUS REGISTER
DIRECTION - This register is read-only by the hostꢀ
ACCESS RESTRICTION - The contents of this register, except for BSY, will be ignored when BSY is set to oneꢀ BSY
is valid at all timeꢀ The contents of the register and all other Command Block registers are not valid while a device
is in the Sleep modeꢀ
FUNCTIONAL DESCRIPTION - This register contains the device statusꢀ The contents of this register are updated to
reflect the current state of the device and the progress of any command being executed by the deviceꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
BSY
DRDY
DF
DSC
DRQ
CORR
IDX
ERR
BIT 0 ERR (Error) indicates that an error occurred during execution of the previous commandꢀ The Error register has
additional information regarding the cause of the error when this bit is assertedꢀ
BIT 1 IDX (Index) is vendor specificꢀ
BIT 2 CORR (Corrected Data) is used to indicate a correctable data errorꢀ The definition of what constitutes a
correctable error is vendor specificꢀ
BIT 3 DRQ (Data Request) indicates that the device is ready to transfer a word or byte between the host and the
deviceꢀ
BIT 4 DSC (Device Seek Complete) indicates that the device heads are settled over a trackꢀ
BIT 5 DF (Device Fault) indicates a device fault error has been detectedꢀ The internal status or internal conditions that
causes this error to be indicated is vendor specificꢀ
BIT 6 DRDY (Device Ready) is set to indicate that the device is capable of accepting all command codesꢀ This bit will
be cleared at power onꢀ
BIT 7 BSY (Busy) is set whenever the device has control of the command block registersꢀ When the BSY bit is equal
to one, the commands written to this register will be ignored by the deviceꢀ
7
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Flash Cards
ATA45 Series
White Electronic Designs
COMMAND REGISTER
DIRECTION - This register is write-only by hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ The contents of this
register and all other Command Block registers are not valid while a device is in the Sleep modeꢀ
FUNCTIONAL DESCRIPTION - This register contains the command code being sent to the deviceꢀ Command
execution begins immediately after this register is writtenꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
Command Code
ERROR REGISTER
DIRECTION - This register is read-only by hostꢀ
ACCESS RESTRICTION - The contents of this register shall be valid when BSY and DRQ are equal to zero and ERR
is assertedꢀ
FUNCTIONAL DESCRIPTION - This register contains the operation status for the current commandꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
R
UNC
MC
IDNF
MCR
ABRT
TKONF
AMNF
BIT 0
AMNF (Address Mark Not Found) indicates the data address mark has not been found after finding the correct
ID fieldꢀ
BIT 1
BIT 2
TKONF (Track 0 Not Found) indicates the track 0 has not been found during a RECALIBRATE commandꢀ
ABRT (Aborted Command) indicates the requested command has been aborted because the command code or a
command parameter is invalid or some other error has occurredꢀ
MCR (Media Change Requested) is used by removable media devicesꢀ
IDNF (ID Not Found) indicates the requested sectors ID field could not be foundꢀ
MC (Media Change) is used by removable media devicesꢀ
BIT 3
BIT 4
BIT 5
BIT 6
BIT 7
UNC (Uncorrectable Data Error) indicate an uncorrectable data error has been encounteredꢀ
Reserved
FEATURE REGISTER
DIRECTION - This register is write-only by hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - This register is command specificꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
Command Specific
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Flash Cards
ATA45 Series
White Electronic Designs
SECTOR NUMBER REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - If the LBA bit is cleared to zero in the Device/Head register, this register contains the
starting sector number for any media accessꢀ If the LBA bit is set to one in the Device/Head register, this register
contains Bits 7-0 of the LBA for any media accessꢀ
BIT DESCRIPTION
CHS
7
7
6
6
5
5
4
4
3
2
2
1
1
0
0
Sector (7:0)
LBA
3
LBA (7:0)
SECTOR COUNT REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - This register contains the number of sector of data requested to be transferred on a
read or write operation between the host and the deviceꢀ If the value in this register is zero, a count of 256 sectors is
specifiedꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
Sector Count
CYLINDER LOW REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - If the LBA bit is cleared to zero in the Device/Head register, this register contains the
low order bits of the starting cylinder address for any media accessꢀ If the LBA bit is set to one in the Device/Head
register, this register contains Bits 15-8 of the LBA for any media accessꢀ
BIT DESCRIPTION
CHS
7
7
6
6
5
5
4
4
3
2
2
1
1
0
0
Cylinder (7:0)
LBA
3
LBA (15:8)
9
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Flash Cards
ATA45 Series
White Electronic Designs
CYLINDER HIGH REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - If the LBA bit is cleared to zero in the Device/Head register, this register contains the
low order bits of the starting cylinder address for any media accessꢀ If the LBA bit is set to one in the Device/Head
register, this register contains Bits 23-16 of the LBA for any media accessꢀ
BIT DESCRIPTION
CHS
7
7
6
6
5
5
4
4
3
2
2
1
1
0
0
Cylinder (7:0)
LBA
3
LBA (15:8)
DEVICE/HEAD REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRICTION - This register is write-only when BSY and DRQ are both equal to zeroꢀ
FUNCTIONAL DESCRIPTION - This register selects the device, defines address translation as CHS or LBA, and
provides the head address if CHS mode or LBA (27:24) if LBA modeꢀ
BIT DESCRIPTION
CHS (CYLINDER-HEAD-SECTOR)
7
6
5
4
3
2
1
0
1
LBA
1
DEV
HS3
HS2
HS1
HS0
LBA (LOGIC BLOCK ADDRESS)
7
6
5
4
3
2
1
0
1
LBA
1
DEV
LBA
(27:24)
BIT 0~3 If LBA is equal to zero (CHS), these contain the head address of the starting CHS addressꢀ The HS3 bit is the
most significant bitꢀ If LBA is equal to one (LBA), these bits represent bits 27 through 24 of the LBAꢀ
BIT 4
DEV is the device addressꢀ When the DEV bit is equal to zero, Device 0 is selectedꢀ When the DEV bit is equal to
one, Device 1 is selectedꢀ
BIT 5
BIT 6
BIT 7
Bit 5 is set to one for backward compatibilityꢀ
LBA mode if this bit is set to one, otherwise, CHS modeꢀ
Bit 7 is set to one for backward compatibilityꢀ
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Flash Cards
ATA45 Series
White Electronic Designs
DATA REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
ACCESS RESTRUCTIONS - This register can be written or the content is valid on read when DRQ is set to oneꢀ
FUNCTIONAL DESCRIPTION - The data register is 16-bit wideꢀ
BIT DESCRIPTION
15
14
13
12
11
Data (15:8)
10
9
8
7
6
5
4
3
2
1
0
Data (7:0)
PCMICA CONFIGURATION OPTION REGISTER
DIRECTION - This register is read-only by hostꢀ
FUNCTION DESCRIPTION - Direct map to 0x200H in the Attribute Memoryꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
SRESET
LevlReq
Configuration Index
BIT 0~5 Configuration Index:
0 : common memory mode
1 : Independent IO mode
2 : Primary IO mode
3 : Secondary IO mode
BIT 6
BIT 7
LevlReq (level Mode IREQ#) : Level Mode Interrupts are selected when this bit is set to one, otherwise it is Pulse
Mode Interruptsꢀ
SRESET (Soft Reset): Setting this bit to one places the card in the reset stateꢀ This is equivalent to assertion of
the RESET signalꢀ
PCMICA CARD CONFIGURATION AND STATUS REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
FUNCTION DESCRIPTION - Direct map to 0x202H in the Attribute Memoryꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
SCDect
SigChg
IOis8
ResrV
SPKR/DASP
PwrDn
Intr
ResrV
BIT 0 Reserved
BIT 1 Intr (Interrupt Request Pending) : The real time status of the host interrupt signal pinꢀ
BIT 2 PwrDn (Power Down): This bit will enable the power down modeꢀ
BIT 3 SPKR/DASP: Setting this bit to 1 will enable DASP- to the BVD2 pin of the PCMCIA connector, otherwise, the BVD2
will be held at high-impedanceꢀ
BIT 4 ResrV: Reserved bit must be 0ꢀ
BIT 5 IOis8 (I/O Cycles Occur Only as 8-bit Transfer): When the host can provide I/O cycle only using the D7:D0 data
path, the PCMCIA software will set this bit to 1ꢀ
11
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Flash Cards
ATA45 Series
White Electronic Designs
BIT 6 SigChg (Signal Change Enable/Disable): If this bit is set to one, the Signal Changed output is enabledꢀ
BIT 7 SCDect (Status Change Detected): This bit indicates that at least one bit of the Pin replacement Register is set oneꢀ
PCMICA PIN REPLACEMENT REGISTER
DIRECTION - This register is read-only by hostꢀ
FUNCTION DESCRIPTION - Direct map to 0x204H in the Attribute Memoryꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
ResrV
ResrV
CRdy
CWProt
ResrV
ResrV
CSRdy
CSWProt
BIT 0
BIT 1
CSWProt (Current State of Write Protect) : This bit represents the current the state of the Write Protectꢀ
CSRdy (Current State of Ready) : This bit represents the internal state of the READY signalꢀ
BIT 2~3 Reservedꢀ
BIT 4
BIT 5
CWProt (Change Write Protect) : This bit is set to one when CSWProt changes stateꢀ
CRdy (Changed Ready) : This bit is set to one when CSRdy changes stateꢀ
BIT 6~7 ResrV : Reserved bit must be 0ꢀ
PCMICA SOCKET AND COPY REGISTER
DIRECTION - This register is bi-directional for the drive and hostꢀ
FUNCTION DESCRIPTION - Direct map to 0x206H in the Attribute Memoryꢀ
BIT DESCRIPTION
7
6
5
4
3
2
1
0
ResrV
Copy Number
Socket Number
BIT 0~2 Socket Number : The first Socket is numbered 0ꢀ
BIT 3~5 Copy Number
BIT 6~7 ResrV : Reserved bit must be 0ꢀ
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
12
Flash Cards
ATA45 Series
White Electronic Designs
ELECTRICAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
Symbol
VDD
Parameter
Ratings
0<3 to + 7<0
0<3 to V DD + 0<3
10
Unit
V
Supply voltage
Input voltage
VIN
V
IIN
DC input current
Storage temperature
mA
°C
TSTG
40 to + 80
RECOMMENDED OPERATING CONDITIONS
Symbol
VDD
Parameter
Ratings
Unit
5V
3<3V
4<5 to + 5<5
3<0 to 3<6
V
V
DC supply voltage
Ta
Storage temperature
0 to + 60
°C
DꢀCꢀ ELECTRICAL CHARACTERISTICS @ 3ꢀ3V
(TA = 0 TO +60°C, VCC = 3ꢀ3V ± 5%)
Symbol
VIH
Parameter
Conditions
Min
Typ
Max
1<0
Unit
V
High level input voltage
Low level input voltage
Switching threshold
CMOS
CMOS
CMOS
CMOS
2<0
VIL
V
VT
1<4
V
VT+
Switching trigger,
2<0
V
positive-going threshold
VT-
Switching trigger,
CMOS
1<0
V
negative-going threshold
Input buffer
Input buffer with pull-up
Input buffer
10
10
10
60
IIH
High level input current
Low level input current
VIN = VDD
VIN = VSS
uA
uA
30
10
160
2<4
10
IIL
Input buffer with pull-up
30
10
VOH
VOL
IOZ
High level output voltage
Low level output voltage
Tri-state output leakage current
Maximum operating current
Idle current
IOH = 8 mA
V
V
IOL = 8 mA
0<4
10
VOUT = VSS or VDD
10
uA
mA
mA
uA
IDD
30
40
VDD = 5<0V,
Iidle
Ids
10
fMCLK = 20 MHz
Stop current
300
13
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Flash Cards
ATA45 Series
White Electronic Designs
ELECTRICAL CHARACTERISTICS @ 5V
(TA = 0 TO 60°C, VCC = 5V ± 10%)
Symbol
Parameter
Conditions
Min
Typ
Max
Unit
CMOS
TTL
3<5
2<0
VIH
High level input voltage
V
CMOS
TTL
1<5
0<8
VIL
Low level input voltage
Switching threshold
V
V
CMOS
TTL
2<5
1<4
VT
VT+
Switching trigger,
positive-going threshold
CMOS
TTL
4<0
2<0
V
VT-
Switching trigger,
negative-going threshold
CMOS
TTL
1<0
0<8
V
Input buffer
Input buffer with pull-up
Input buffer
10
10
10
100
10
IIH
High level input current
Low level input current
VIN = VDD
VIN = VSS
uA
50
10
100
2<4
IIL
uA
Input buffer with pull-up
50
10
VOH
VOL
IOZ
High level output voltage
Low level output voltage
Tri-state output leakage current
Maximum operating current
Idle current
IOH = 8 mA
V
V
IOL = 8 mA
0<4
10
VOUT = VSS or VDD
10
uA
mA
mA
uA
IDD
30
40
VDD = 5<0V,
Iidle
Ids
10
fMCLK = 24 MHz
Stop current
400
ENVIRONMENTAL AND RELIABILITY SPECIFICATIONS
ITEM
SPECIFICATION
Vibration
Operating
Non-Operating
15G peak to peak Max<
15G peak to peak Max<
Shock
Operating
Non-Operating
2,000G Max<
2,000G Max<
Relative Humidity
(non-condensing)
Operating
Non-Operating
8% ~ 95%
8% ~ 95%
MTBF
Operating
Operating
Operating
> 1,000,000 hours
Endurance
Data Reliability
³ 100,000 erase program cycles
ꢀ 1 non-recoverable error in 1014 bits read
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
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Flash Cards
ATA45 Series
White Electronic Designs
INTERFACE SIGNAL TIMING
There are two types of bus cycles and timing sequences that occur in the PCMCIA type interface, a direct mapped
I/O transfer and a memory accessꢀ The two timing sequences are explained in detail in the PCMCIA PC Card
Standardꢀ The PC Card conforms to the timing in that reference documentꢀ
PC CARD INTERFACE
ATTRIBUTE MEMORY READ TIMING
300ns
Parameter
Symbol
IEEE Symbol
Min& ns
Max& ns
Read Cycle Time
tC(R)
tA(A)
TAVAV
TAVQV
TELQV
TGLQV
TEHQZ
TGHQZ
tAVWL
tELQNZ
tGLQNZ
tAXQX
300
Address Access Time
300
300
150
100
100
Card Enable Access Time
Output Enable Access Time
Output Disable Time from CE
Output Disable Time from OE
Address Setup Time
tA(CE)
tA(OE)
tDIS(CE)
tDIS(OE)
tSU(A)
30
5
Output Enable Time from CE
Output Enable Time from OE
Data Valid from Address Change
tEN(CE)
tEN(OE)
tV(A)
5
0
NOTE: All times are in nanosecondꢀ Dout signifies data provided by the PC Card to the systemꢀ The CE signal or both
the OE signal & the WE signal must be de-asserted between consecutive cycle operationsꢀ
ATTRIBUTE MEMORY READ TIMING DIAGRAM
tC
(R)
An
tA
(A)
REG
tSU (A)
tV (A)
t
A
(CE)
(OE)
CE
OE
tEN (CE)
tDIS (CE)
t
A
tDIS (OE)
tEN (OE)
D
OUT
15
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Flash Cards
ATA45 Series
White Electronic Designs
ATTRIBUTE MEMORY WRITE TIMING
Note: A host cannot write to CISꢀ This timing is specified
only for the write to Configuration Registerꢀ
250ns
Max& ns
Parameter
Symbol
IEEE Symbol
Min& ns
250
150
30
Write Cycle Time
tC(W)
tW(WE)
tAVAV
tWLWH
tAVWL
tWMAX
tDVWH
tWMDX
Write Pulse Width
Address Setup Time
Write Recovery Time
Data Setup Time for WE
Data Hold Time
tSU(A)
tREC(WE)
tSU(D-WEH)
tH(D)
30
80
30
NOTE: All times are in nanosecondꢀ Din signifies data provided by the system to the PC Cardꢀ
ATTRIBUTE MEMORY WRITE TIMING DIAGRAM
tC (W)
REG
An
tREC (WE)
tSU (A)
tW (WE)
WE
CE
tSU (D-WEH)
tH (D)
OE
DOUT
Data In Valid
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Flash Cards
ATA45 Series
White Electronic Designs
COMMON MEMORY READ TIMING
Parameter
Symbol
IEEE Symbol
Min& ns
Max& ns
125
Output Enable Access Time
Output Disable Time from OE
Address Setup Time
ta (OE)
tGLQV
tGHQZ
tAVGL
tdis (OE)
tsu (A)
100
30
20
0
Address Hold Time
th (A)
tGHAX
CE Setup before OE
tsu (CE)
th (CE)
tELGL
CE Hold following OE
Wait Delay Falling from OE
Data Setup for Wait Release
Wait Width Time
tGHEH
tGLWTV
tQVWTH
tWTLWTH
20
tv (WT-OE)
tv (WT)
tw (WT)
35
0
350
NOTE: The maximum load on WAIT is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ DOUT signifies data
provided by the PC Card to the systemꢀ The WAIT signal may be ignored if the OE cycle-to-cycle time is greater than the
Wait Width timeꢀ The Max Wait Width time can be determined from the Card Information Structureꢀ The Wait Width time
meets the PCMCIA specification of 12s but is intentionally less in this specificationꢀ
COMMON MEMORY READ TIMING DIAGRAM
An
tSU (A)
tH (A)
REG
tH (CE)
tSU (CE)
CE
tDIS (CE)
tA (OE)
OE
tW (WT)
WAIT
tDIS (OE)
tV
(WT)
tV (WT-OE)
D
OUT
17
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Flash Cards
ATA45 Series
White Electronic Designs
COMMON MEMORY WRITE TIMING
Parameter
Symbol
tsu (D-WEH)
th (D)
IEEE Symbol
Min& ns
80
Max& ns
Data Setup before WE
Data Hold following WE
WE Pulse Width
tDVWH
tlWMDX
tWLWH
tAVWL
30
tw (WE)
tsu (A)
150
30
Address Setup Time
CE Setup before WE
Write recovery Time
Address Hold Time
tsu (CE)
trec (WE)
th (A)
tELWL
0
tWMAX
30
tGHAX
20
CE Hold following WE
Wait Delay Falling from WE
WE High from Wait Release
Wait Width Time
th (CE)
tGHEH
20
tv (WT-WE)
tv (WT)
tWLWTV
tWTHWH
tWTLWTH
35
0
tw (WT)
350
NOTE: The maximum load on WAIT is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ DIN signifies data
provided by the system to the PC Cardꢀ The WAIT signal may be ignored if the WE cycle-to-cycle time is greater than the
Wait Width timeꢀ The Max Wait Width time can be determined from the Card Information Structureꢀ The Wait Width time
meets the PCMCIA specification of 12s but is intentionally less in this specificationꢀ
COMMON MEMORY WRITE TIMING DIAGRAM
An
tSU (A)
tH (A)
REG
tH (CE)
tSU (CE)
CE
tREC (WE)
tW (WE)
WE
tW (WT)
WAIT
DIN
tV (WT)
tV (WT-WE)
tH (D)
tSU (D-WEH)
DIN Valid
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
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Flash Cards
ATA45 Series
White Electronic Designs
I/O INPUT (READ) TIMING
Parameter
Symbol
IEEE Symbol
Min& ns
Max& ns
Data Delay after IORD
td (IORD)
tlGLQV
tlGHQX
tlGLIGH
tAVIGL
100
Data Hold following IORD
IORD Width Time
th (IORD)
0
165
70
20
5
tw (IORD)
Address Setup before IORD
Address Hold following IORD
CE Setup before IORD
tsuA (IORD)
thA (IORD)
tlGHAX
tsuCE (IORD)
thCE (IORD)
tsuREG
tELIGL
CE Hold following IORD
tlGHEH
tRGLIGL
tlGHRGH
tlGLIAL
tlGHIAH
tAVISL
20
5
REG Setup before IORD (IORD)
REG Hold following IORD
INPACK Delay Falling from IORD
INPACK Delay Rising from IORD
IOIS16 Delay Falling from Address
IOIS16 Delay Rising from Address
Wait Delay Falling from IORD
Data Delay from Wait Rising
Wait Width Time
thREG (IORD)
tdfINPACK (IORD)
tdrINPACK (IORD)
tdfIOIS16 (ADR)
tdrIOIS16 (ADR)
tdWT (IORD)
td (WT)
0
0
45
45
35
35
35
0
tAVISH
tlGLWTL
tWTHQV
tWTLWTH
tw (WT)
350
NOTE: The maximum load on WAIT, INPACK and IOIS16 is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ
Minimum time from WAIT high to IORD high is 0nsec, but minimum IORD width must still be metꢀ DOUT signifies data
provided by the PC Card to the systemꢀ The Wait Width time meets the PCMCIA specification of 12s but is intentionally
less in this specificationꢀ
I/O READ TIMING DIAGRAM
An
t
SU (IORD)
t
H
A (IORD)
RE (IORD)
t
SUREG (IORD)
REG
t
H
tSUCE (IORD)
tHCE (IORD)
CE
tWIORD
IORD
tDRINPACK (IORD)
INPACK
IOIS16
WAIT
tDFINPACK (IORD)
tDRIOIS16 (ADR)
tD
(IORD)
tDFIOIS16 (ADR)
tD (WT)
tDWT (IORD)
tW
(WT)
tH (IORD)
D
OUT
19
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Flash Cards
ATA45 Series
White Electronic Designs
I/O INPUT (WRITE) TIMING
Parameter
Symbol
IEEE Symbol
Min& ns
Max& ns
Data Setup before IOWR
Data Hold following IOWR
IOWR Width Time
tsu (IOWR)
tDVIWH
tlWHDX
tlWLIWH
tAVIWL
60
30
165
70
20
5
th (IOWR)
tw (IOWR)
Address Setup before IOWR
Address Hold following IOWR
CE Setup before IOWR
tsuA (IOWR)
thA (IOWR)
tlWHAX
tsuCE (IOWR)
thCE (IOWR)
tsuREG (IOWR)
thREG (IOWR)
tdfIOIS16 (ADR)
tdrIOIS16 (ADR)
tdWT (IOWR)
tdrIOWR (WT)
tw (WT)
tELIWL
CE Hold following IOWR
REG Setup before IOWR
REG Hold following IOWR
IOIS16 Delay Falling from Address
IOIS16 Delay Rising from Address
Wait Delay Falling from IOWR
IOWR high from Wait high
Wait Width Time
tlWHEH
tRGLIWL
tlWHRGH
tAVISL
20
5
0
35
35
35
tAVISH
tlWLWTL
tWTJIWH
tWTLWTH
0
350
NOTE: The maximum load on WAIT, INPACK, and IOIS16 is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ
Minimum time from WAIT high to IOWR high is 0nsec, but minimum IOWR width must still be metꢀ DIN signifies data
provided by the system to the PC Cardꢀ The Wait Width time meets the PCMCIA specification of 12s but is intentionally
less in this specificationꢀ
I/O WRITE TIMING DIAGRAM
An
t
SU (IOWR)
t
H
A (IOWR)
RE (IOWR)
t
SUREG (IOWR)
REG
t
H
tSUCE (IOWR)
tHCE (IOWR)
CE
tWIORD
IOWR
IOIS16
WAIT
tDRIOIS16 (ADR)
tSU (IOWR)
tDFIOIS16 (ADR)
t
W (WT)
tD
WT (IOWR)
tH
(IOWR)
tDRIOWR (WT)
D
IN
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20
Flash Cards
ATA45 Series
White Electronic Designs
IDE MODE INTERFACE
IDE MODE READ TIMING
Parameter
Symbol
IEEE Symbol
Min& ns
Max& ns
Data Delay after IORD
Data Hold following IORD
IORD Width Time
td (IORD)
tlGLQV
tlGHQX
tlGLIGH
tAVIGL
tlGHAX
tELIGL
tlGHEH
tAVISL
tAVISH
100
th (IORD)
0
165
70
20
5
tw (IORD)
Address Setup before IORD
Address Hold following IORD
CE Setup before IORD
CE Hold following IORD
IOIS16 Delay Falling from Address
IOIS16 Delay Rising from Address
tsuA (IORD)
thA (IORD)
tsuCE (IORD)
thCE (IORD)
tdfIOIS16 (ADR)
tdrIOIS16 (ADR)
20
35
35
NOTE: The maximum load on IOIS16 is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ Minimum time from
WAIT high to IORD high is 0nsec, but minimum IORD width must still be metꢀ DOUT signifies data provided by the PC Card
to the systemꢀ
IDE MODE READ TIMING DIAGRAM
An
tSU (IORD)
tHA (IORD)
tSUCE (IORD)
tHCE (IORD)
CE
tWIORD
IORD
IOIS16
DOUT
tDRIOIS16 (ADR)
tH (IORD)
tD (IORD)
tDFIOIS16 (ADR)
21
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Flash Cards
ATA45 Series
White Electronic Designs
IDE MODE WRITE TIMING
Parameter
Symbol
IEEE Symbol
Min& ns
60
Max& ns
Data Setup before IOWR
Data Hold following IOWR
IOWR Width Time
tsu(IOWR)
tDVIWH
tlWHDX
tlWLIWH
tAVIWL
tlWHAX
tELIWL
tlWHEH
tAVISL
th(IOWR)
30
twI(OWR)
165
70
Address Setup before IOWR
Address Hold following IOWR
CE Setup before IOWR
tsuA(IOWR)
thA(IOWR)
20
tsuCE(IOWR)
thCE(IOWR)
tdfIOIS16(ADR)
tdrIOIS16(ADR)
5
CE Hold following IOWR
20
IOIS16 Delay Falling from Address
IOIS16 Delay Rising from Address
35
35
tAVISH
NOTE: The maximum load on IOIS16 is 1 LSTTL with 50pF total loadꢀ All times are in nanosecondsꢀ Minimum time from -
WAIT high to IOWR high is 0nsec, but minimum IOWR width must still be metꢀ DIN signifies data provided by the system to
the PC Cardꢀ
IDE MODE WRITE TIMING DIAGRAM
An
tSU (IOWR)
tHA (IOWR)
tSUCE (IOWR)
tHCE (IOWR)
CE
tWIOWR
IOWR
IOIS16
DIN
tDRIOIS16 (ADR)
tH (IOWR)
tDFIOIS16 (ADR)
tSU (IOWR)
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
22
Flash Cards
ATA45 Series
White Electronic Designs
RESET TIMING
Parameter
Symbol
tset
Min
Typ
Max
Unit
ms
Level Set before Power On
Power on Reset
Reset time
1
tpor
10
10
ms
trst
ms
RESET TIMING DIAGRAM
VCC
POR
(Internal)
Reset Pin
TRST
TPOR
RDY/BSY Pin
TSET
OE Pin
CSEL Pin
POWER ON RESET CHARACTERISTICS
All card status are reset automatically when VCC voltage goes over about 2ꢀ3 Vꢀ
Parameter
Symbol
tsu(VCC)
tpr
Min
100
0<1
Typ
Max
Unit
ms
Test conditions
CE setup time
VCC rising up time
100
ms
tPR
POWER ON RESET TIMING
C
C
V
t
SU(VCC)
CE1 , CE2
Please notice that the card insertion/removal should be
executed after card internal operations are completed
(status register bit 7 turns from 1 to 0)ꢀ
Attention for Card Use
In the reset or power off, all register information is
clearedꢀ
Before the card insertion Vcc cannot be supplied to the
cardꢀ After confirmation that CD1, CD2 pins are inserted,
supply Vcc to the cardꢀ
All card status are cleared automatically when Vcc
voltage turns below about 2ꢀ5Vꢀ
Notice that the card insertion/removal should not be
executed during host is active, if the card is used in true
IDE modeꢀ
OE must be kept at the Vcc level during power on reset
in memory card mode and I/O card modeꢀ OE must be
kept constantly at the GND level in True IDE modeꢀ
After the card hard reset, soft reset, or power on reset, the
card cannot access during +READY pin is low levelꢀ
Unused pins of data bus (D0 to D15) signals should not
be openedꢀ
23
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Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE (CIS) & IDENTIFY DRIVE (ID) INFORMATION
IDENTIFY DRIVE INFORMATION
Word8MB
16MB
848A
32MB
848A
48MB
848A
64MB
848A
02E2
0000
0004
0000
0200
0020
0001
7100
0000
All 2020
0000
0002
0004
*1
96MB
848A
128MB
848A
256MB
848A
01EC
0000
0010
0000
0200
0020
0003
D800
0000
All 2020
0000
0002
0004
1
0
848A
03D8
0000
0010
0000
0200
0020
0007
B000
0000
All 2020
0000
0002
0004
*1
1
007A
0000
0004
0000
0200
0020
0000
3D00
0000
All 2020
0000
0002
0004
*1
00F6
0000
0004
0000
0200
0020
0000
7B00
0000
All 2020
0000
0002
0004
*1
01EC
0000
0004
0000
0200
0020
0000
F600
0000
All 2020
0000
0002
0004
*1
00F6
0000
0010
0000
0200
0020
0001
EC00
0000
All 2020
0000
0002
0004
*1
0171
0000
0010
0000
0200
0020
0002
E200
0000
All 2020
0000
0002
0004
*1
2
3
4
5
6
7-8
9
10-19
20
21
22
23-26
27-46
47
*2
*2
*2
2
*2
*2
*2
*2
0004
0000
0200
0000
0200
0000
0001
007A
0004
0020
3D00
0000
0100
3D00
0000
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
00F6
0004
0020
7B00
0000
0100
7B00
0000
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
01EC
0004
0020
F600
0000
0100
F600
0000
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
02E2
0004
0020
7100
0001
0100
7100
0001
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
00F6
0010
0020
EC00
0001
0100
EC00
0001
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
0171
0010
0020
E200
0002
0100
E200
0002
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
01EC
0010
0020
D800
0003
0100
D800
0003
All 0000
0000
All 0000
0000
All 0000
0004
0000
0200
0000
0200
0000
0001
03D8
0010
0020
B000
0007
0100
B000
0007
All 0000
0000
All 0000
0000
All 0000
48
49
50
51
52
53
54
55
56
57-58
59
60-61
62-127
128
129-159
160
161-255
Note 1ꢀ Firmware Version: Rev 1ꢀ15 (52 65 76 20 31 2E 31 35)
2ꢀ Model Number: SAMSUNG CF/ATA (53 41 4d 53 55 4e 47 20 43 46 2f 41 54 41 20 20 20 20 20 20)
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
24
Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE
AttributeOffset
000h
002h
Data
01
04
7
6
5
4
3
2
1
0
Description of Contents
Device Info Tuple
Link is 4bytes
CIS Function
Tuple Code
Link to next tuple
CISTPL_DEVICE
004h
DF
Device Type Code
Dh=I/O
W
1
Speed
7h
2h
I/O device,
No Write Protects,
Device Speed = 400ns
2Kbyte of address Space
End of Devices
Other Condition Device Info Tuple Tuple Code
Link is 4bytes
3<3V Vcc Operation
I/O device, No Write Protects,
Device Speed=250ns
Device ID
WPS, Speed
006h
008h
00Ah
00Ch
00Eh
010h
012h
4A
01
FF
1 C
04
X
9h
Device Size
List End Marker
CISTPL_DEVICE_OC
Device Size
End Marker
Link to next tuple
OC Info
Device ID WPS, Speed
02
D9
0
Reserved, 0
VccU
Speed
1h
M
Device Type Code
Dh=I/O
W
1
014h
016h
018h
01Ah
01Ch
01Eh
01
FF
18
02
DF
01
Device Size
List End Marker
CISTPL_JEDEC_C
2Kbyte of address Space
End of Devices
JEDEC ID Common Mem
Link is 2bytes
First Byte of JEDEC ID
Second Byte of JEDEC ID
Device Size
End Marker
Tuple Code
Link to next tuple
JEDEC ID of Device 1
JEDEC ID
PCMCIA Manufacture s ID
PCMCIA Code for PC Card-ATA
No Vpp Required
020h
022h
024h
026h
028h
02Ah
02Ch
20
04
CE
00
00
00
15
CISTPL_MANFID
Manufacture ID String
Link is 4bytes
Tuple Code
Link to next tuple
TPLMID_MANF
TPLMID_MANF
TPLMID_CARD
TPLMID_CARD
Tuple Code
PC Card Manufactures ID Code
Manufacture Information
CISTPL_VERS_1
Level 1 Version/Product
Infor mation
02Eh
030h
032h
034h
036h
038h
03Ah
03Ch
03Eh
040h
042h
044h
046h
048h
04Ah
04Ch
04Eh
050h
052h
054h
056h
058h
05Ah
05Ch
05Eh
060h
062h
064h
066h
068h
20
04
01
53
41
4D
53
55
4E
47
20
20
20
20
20
20
00
52
65
76
20
31
2E
31
35
20
20
20
20
20
Link is 20bytes
PCMCIA 2<1
JEIDA 4<2
S
A
M
S
U
N
Link to next tuple
TPLLV1_MAJOR
TPLLV1_MINOR
String 1
Major Version Number
Minor Version Number
Manufacture Information
G
Name of Manufacture
End of Manufacture Information
Product Information
Null Terminator
End String 1
String 2
R
e
v
1
<
1
5
Firmware Revision
25
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE CONTꢀ
AttributeOffset
06Ah
06Ch
06Eh
070h
072h
074h
076h
Data
00
00
FF
21
02
7
6
5
4
3
2
1
0
Description of Contents
Null Terminator
Null Terminator
CIS Function
End String 2
End of Product Information
End of CIS Revision Number
List End Marker
End Marker
Tuple Code
Link to next tuple
TPLFID_FUNCTION
TPLFID_SYSINIT
CISTPL_FUNCID
Function ID Tuple
Link is 2bytes
Fixed Disk Function
System Initialization Bit Mask,
Power-On-Self Test
04
01
IC Card Function Code
RFU, 0
R
P
078h
07Ah
07Ch
07Eh
080h
082h
084h
086h
088h
22
02
01
01
22
03
02
0C
0F
CISTPL_FUNCE
Function Extention Tuple
Link is 2bytes
Disk Device Interface
PCCard-ATA Interface
Function Extention Tuple
Link is 3bytes
Disk Device Interface
Silicon/Rotating, ID/SN is unique
Auto, Idle, Standby, Sleep Mode
supported
Tuple Code
Link to next tuple
TPLFE_TYPE
TPLFE_DATA
Tuple Code
Link to next tuple
TPLFE_TYPE
TPLFE_DATA
TPLFE_DATA
Disk Function Extension Tuple Type
Interface Type Code
CISTPL_FUNCE
Disk Function Extension Tuple Type
RFU
R
U
P3
S
V
I
E
N
P2 P1
P0
08Ah
08Ch
08Eh
090h
1A
05
01
03
CISTPL_CONFIG
Configuration Tuple
Link is 5bytes
RASZ Size of Fields Byte
Entry Index 03h
Tuple Code
Link to next tuple
TPCC_SZ
RFSZ
TPCC_LAST
RMSZ
Last entry of
Configuration table
092h
00
TPCC_RADR
Configuration Registers are
located at 200h
Location of Config
Registers
094h
096h
02
0F
TPCC_RADR
RFU
S
P
C
I
4 Configuration Registers are
present
TPCC_RMSK
098h
09Ah
09Ch
1B
08
C0
CISTPL_CFTABLE_ENTRY
Configuration Entry Tuple
Link is 8bytes
Memory Mapped I/O, D: Default
Configuration, I: Interface Byte
Follows
Memory Only Interface, Bvd & WP TPCE_IF
not used, RDY/BSY & Wait used
for Memory Cycle
Vcc power-description structure only, TPCE_FS
MS: Single 2-byte length specified
Tuple Code
Link to next tuple
TPCE_INDX
I
D
R
Configuration Entry Number
09Eh
0A0h
0A2h
C0
A1
01
M
W
W
P
B
V
Interface Type
M
MS
I
R
QM:
AI
IO
SI
T Power
Misc
field
R
X
DI PI
H
V
L
V
N
V
Nominal Operating Supply Voltage, Power Parameters for Vcc
No Extension
Vcc Nominal is 5V
Length of Mem Space is 2KB
Start at 0 on Card
Power Down
0A4h
0A6h
0A8h
0AAh
0ACh
0AEh
0B0h
0B2h
55
08
00
20
1B
06
00
01
Ah
5h
Vcc Nominal Value
TPCE_MS Length LSB
TPCE_MS Length MSB
TPCE_MI
Tuple Code
Link to next tuple
TPCE_INDX
Length in 256 bytes pages(LSB)
Length in 256 bytes pages(MSB)
X
R
P
R
A
Twin
CISTPL_CFTABLE_ENTRY
Configuration Entry Tuple
Link is 6bytes
I
D Configuration Entry Number
M
MS
IR
Q
IO
T
Power
Vcc power-description structure only TPCE_FS
0B4h
21
R
DI
PI
AI
SI
H
V
L
V
N
V
Maximum Current required averaged TPCE_PD
over 10ms, Nominal Operating
Supply Voltage, With Extension
0B6h
0B8h
B5
1E
X
X
6h
5h
1V x3
Vcc Nominal is 3<3V
Vcc Nominal Value
1Eh(30d)
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
26
Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE CONTꢀ
AttributeOffset
0BAh
0BCh
0Beh
0C0h
Data
4D
1B
0A
C1
7
X
6
5
4
3
2
1
5h
0
Description of Contents
Peak I is 45mA
Configuration Entry Tuple
Link is 10bytes
I/O Mapped Contiguous 16
Registers Configuration, D: Default
Configuration, I: Interface Byte
Follows
CIS Function
Peak I Value
Tuple Code
Link to next tuple
TPCE_INDX
9h
CISTPL_CFTABLE_ENTRY
I
D
Configuration Entry Number
0C2h
41
W
R
P
B
Interface Type
I/O Interface, Bvd & WP not used, TPCE_IF
RDY/BSY active, Wait not used
for memory access
0C4h
0C6h
99
01
M
R
MS
DI
IR
IO
T
Power
Misc & IRQ field are present, Vcc
structure
Nominal Operating supply Voltage TPCE_PD
TPCE_FS
Qpower-description
AI
only
PI
SI
H
V
L
V
N
V
0C8h
0CAh
55
64
X
R
Ah
5h
Vcc Nominal is 5V
Support 16/8 bit I/O access,
I/O Address Lines are 16
Vcc Nominal Value
TPCE_IO
Bus 16/8
P
I/O AddrLines
0CCh
F0
S
L
M
V
B
I
N
IRQ Sharing
TPCE_IR
S: Share Logic active
P: Pulse IRQ supported
L: Level IRQ supported
M: Bit Mask of IRQ
0CEh
0D0h
0D2h
FF
FF
20
IRQ Levels to be routed 0-7
recommended
IRQ Levels to be routed 8-15
recommended
TPCE_IR Mask
Extension
TPCE_IR Mask
Extension
X
R
P
R
O
A
T
Power Down supported
TPCE_MI
0D4h
0D6h
0D8h
0DAh
1B
06
01
01
CISTPL_CFTABLE_ENTRY
Configuration Entry Tuple
Link is 6 bytes
Tuple Code
Link to next tuple
TPCE_INDX
I
D
Configuration Entry Number
M
MS
IR
Q
IO
T
Power
Vcc power-description structure only TPCE_FS
0DCh
21
R
DI
PI
AI
SI
H
V
L
V
N
V
Nominal Operating supply Voltage, TPCE_PD
Maximum Current required averaged
over 10ms
0DEh
0E0h
0E2h
0E4h
0E6h
0E8h
0EAh
B5
1E
4D
1B
0F
C2
41
X
X
X
6h
5h
5h
1Vx3
Vcc Nominal Value
1Eh(30d)
Vcc Nominal is 3<3V
Peak I is 45mA
Configuration Entry Tuple
Link is 15bytes
9h
Peak I Value
Tuple Code
Link to next tuple
TPCE_INDX
CISTPL_CFTABLE_ENTRY
I
W
D
R
Configuration Entry Number
P
B
Interface Type
I/O Interface, Bvd & WP not used, TPCE_IF
RDY/BSY active, Wait not used
for memory access
0ECh
0EEh
0F0h
99
01
55
M
R
X
MS
IR
IO
T
Power
Misc & IRQ field are present, Vcc
structure
Nominal Operating supply Voltage TPCE_PD
TPCE_FS
Qpower-description
AI
only
DI
PI
SI
H
V
L
V
5h
N
V
Ah
Vcc Nominal is 5V Vcc Nominal Value
27
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE CONTꢀ
AttributeOffset
Data
7
6
5
4
3
2
1
0
Description of Contents
CIS Function
0F2h
EA
R
Bus 16/8
I/O AddrLines
I/O range description, Support
16/8 bit I/O access, A 1 Kbyte
I/O address space
TPCE_IO
0F4h
61
Size of
length
Size of
address
Number of I/O
Address Ranges
Length is 1 byte long, Address is
2 byte long, 1 I/O Address Range Byte
Description field
I/O Range Description
0F6h
0F8h
0FAh
0FCh
0FEh
100h
102h
F0
01
07
F6
03
01
EE
Start of I/O Address Block First(LSB)
Start of I/O Address Block First(MSB)
First I/O Range Length
Start of I/O Address Block Second(LSB)
Start of I/O Address Block Second(MSB)
Second I/O Range Length
S
P
L
M
V
B
I
N
IRQ Sharing
TPCE_IR
S: Share Logic active,
P: Pulse IRQ supported,
L: Level IRQ supported,
V: Vendor-Specific supported,
B: Bus-Error supported,
I: I/O-check supported
104h
20
X
R
P
R
O
A
T
Power Down supported
TPCE_MI
106h
108h
10Ah
10Ch
1B
06
02
01
CISTPL_CFTABLE_ENTRY
Configuration Entry Tuple
Link is 6bytes
Tuple Code
Link to next tuple
TPCE_INDX
TPCE_FS
I
D
Configuration Entry Number
M
MS
IR
I
T
Power
Vcc power-description structure
QO
only
10Eh
21
R
DI
PI
AI
SI
H
V
L
V
N
V
Nominal Operating supply Voltage, TPCE_PD
Maximum Current required
averaged over 10ms
110h
112h
114h
116h
118h
11Ah
11Ch
B5
1E
4D
1B
0F
C3
41
X
X
X
6h
1Eh(30d)
9h
5h
5h
1Vx3
Vcc Nominal Value
Vcc Nominal is 3<3V
Peak I is 45mA
Configuration Entry Tuple
Link is 15bytes
Peak I Value
Tuple Code
Link to next tuple
TPCE_INDX
CISTPL_CFTABLE_ENTRY
I
W
D
R
Configuration Entry Number
P
B
Interface Type
I/O Interface, Bvd & WP not used, TPCE_IF
RDY/BSY active, Wait not used
for memory access
11Eh
120h
99
01
M
R
MS
IR
QO
AI
I
T
Power
Misc & IRQ field are present, Vcc TPCE_FS
power-description
structure
only
DI
PI
SI
H
V
L
V
N
V
Nominal Operating supply Voltage TPCE_PD
122h
124h
55
EA
X
R
Ah
5h
Vcc Nominal is 5V
Vcc Nominal Value
TPCE_IO
Bus
16/8
I/O AddrLines
I/O range description, Support
16/8 bit I/O access, A 1 Kbyte I/O
address space
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
28
Flash Cards
ATA45 Series
White Electronic Designs
CARD INFORMATION STRUCTURE CONTꢀ
AttributeOffset
Data
7
6
5
4
3
2
1
0
Description of Contents
CIS Function
126h
61
Size of
length
Size of
address
Number of I/O
Address Ranges
Length is 1 byte long, Address is
2 byte long, 1 I/O Address Range
Description field
I/O Range Description
Byte
128h
12Ah
12Ch
12Eh
130h
132h
134h
70
01
07
76
03
01
EE
Start of I/O Address Block First (LSB)
Start of I/O Address Block First (MSB)
First I/O Range Length
Start of I/O Address Block Second(LSB)
Start of I/O Address Block Second(MSB)
Second I/O Range Length
S
P
L
M
V
B
I
N
IRQ Sharing
TPCE_IR
TPCE_MI
S: Share Logic active,
P: Pulse IRQ supported,
L: Level IRQ supported,
V: Vendor-Specific supported,
B: Bus-Error supported,
I: I/O-check supported
136h
20
X
R
P
R
O
A
T
Power Down supported
138h
13Ah
13Ch
13Eh
1B
06
03
01
CISTPL_CFTABLE_ENTRY
Configuration Entry Tuple
Link is 6bytes
Tuple Code
Link to next tuple
TPCE_INDX
TPCE_FS
I
D
Configuration Entry Number
M
MS
IR
I
T
Power
Vcc power-description structure
QO
only
140h
21
R
DI
PI
AI
SI
H
V
L
V
N
V
Nominal Operating supply Voltage, TPCE_PD
Maximum Current required
averaged over 10ms
142h
144h
146h
148h
14Ah
14Ch
B5
1E
4D
14
X
X
X
6h
1Eh(30d)
9h
5h
5h
1Vx3
Vcc Nominal Value
Vcc Nominal is 3<3V
Peak I is 45mA
Peak I Value
Tuple Code
CISTPL_NO_LINK
No Bytes Following
End of CIS Tuple Chain
No Link to Common Memory
Link Length is 0 byte
End of CIS
00
Link to next tuple
Tuple Code
FF
29
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
TRUE IDE TO PCMCIA INTERFACE
True IDE
40pin
RESET
GND
D7
PCMCIA ATA
No(#)
1
No(#)
68pin
58
RESET
2
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL (56)
3
6
D7
4
D8
64
D8
5
D6
5
D6
6
D9
65
D9
7
D5
4
D5
8
D10
66
D10
9
D4
3
D4
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
D11
27
D11
D3
2
D3
D12
38
D12
D2
32
D2
D13
39
D13
D1
31
D1
D14
40
D14
D0
30
D0
D15
41
D15
GND
(keypin)
DMACK
GND
IOWR
GND
IORD
GND
IORDY
CSEL
DMACK
GND
IREQ16
IOIS16
A1
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
60
INPACK
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
45
IOWR
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
44
IORD
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
59
WAIT
56
CSEL
61
REG
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
RDY/BSY
33
WP
28
A1
PDIAG
A0
63
BVD1
29
A0
A2
27
A2
CS0
7
CS0
CS1
42
CS1
DASP
GND
62
BVD2
1,8,9,11,12,22,23,24,25,26,34,35,68, (56)
GND, A10-A3, OE, CSEL(56)
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
30
Flash Cards
ATA45 Series
White Electronic Designs
PRODUCT MARKING
WED 7P016ATA4503C25 C995 0322
COMPANYNAME
PARTNUMBER
LOT CODE/TRACE NUMBER
DATECODE
PART NUMBERING
7 P 256 ATA45 03 C 25
CARD TECHNOLOGY
7
8
FLASH
SRAM
PC CARD
P
R
Standard
Ruggedized
CARDCAPACITY
256 256MB
CARD FAMILY AND VERSION
PACKAGINGOPTION
03 Standard WEDC logo type II
TEMPERATURERANGE
C = Commercial 0°C to +70°C
CARD ACCESS TIME
25 250ns
31
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
Flash Cards
ATA45 Series
White Electronic Designs
ORDERING INFORMATION
7P XXX ATA45 SS T ZZ
XXX (unformatted capacity)
008 8MB
016 16MB
032 32MB
048 48MB
064 64MB
096 96MB
128 128MB
256 256MB
512 512MB
ATA45
Samsung based
SS
03
04
05
WEDC Flash ATA logo Type II
Blank Housing Type II
Blank Housing Type II Recessed
T
C
Commercial Temperature Range
250ns
ZZ
25
White Electronic Designs Corporation Marlborough, MA (508) 485-4000
32
Flash Cards
ATA45 Series
White Electronic Designs
Document Title
Flash Cards ATA45 Series
Revision History
Rev level
Description
Initial release
Date
Rev 0
May 16, 2003
33
White Electronic Designs Corporation (508) 485-4000 wwwꢀwhiteedcꢀcom
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