PCMCIA Flash Memory Card
FLF1 Series
1White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
High Density FLASH Memory Card
16, 32, 48, 64, 80 MEGABYTE
FEATURES
Low cost, high density Linear Flash Card
Universal 3V to 5V operating range providing full
“plug and play” exchangeability between different
systems
Based on Intel 28F128J3A (MLC) and *28F640J3
(MLC) Components
Fast Read Performance
• 250ns Maximum Access Time
• (200ns optional)
PCMCIA compatible
• x8/ x16 Data Interface
32-Byte Write Buffer (per Memory Device)
• 6μs per Byte Effective Write Time
128-bit Protection Register (per Memory Device)
• 64-bit Unique Device Identifi er
• 64-bit User Programmable OTP Cells
Cross-Compatible Command Support
• Common Flash Interface (CFI)
• Intel Basic Command Set
• Scaleable Command Set
Power-Down Mode
• Reset, Power Down Registers
100,000 Erase Cycles per Block
128K word symmetrical Block Architecture
PC Card Standard Type I Form Factor
GENERAL DESCRIPTION
WEDC’s Flash memory cards — FLF1 Series — offer
high density linear Flash memory for code and data
storage, high performance disk emulation, mobile PC and
embedded applications.
The WEDC’s FLF1 series is based on Intel’s Multi Level
Cell (MLC) Flash memory technology, providing high
density Flash components at a signifi cantly lower cost
per megabyte. MLC technology allows for two bits of
information to be stored in a single cell. This leads to
reduced die size and reduced cost per megabyte.
WEDC’s FLF1 series cards are built with Intel’s 128Mb
memory components, 28F128J3A, with a manufacturer/
device ID of 89/18H. The FLF1 series is available in
densities of 32, 64, 96, 128, 160, and 192MB. There are
also 16MB and 48MB cards available built with Intel’s
64Mb memory components 28F640J3 with 89/17H
manufacturer/device ID.
The cards up to the 64MB density operate in the regular
PCMCIA mode. The densities beyond the 64MB density
are implemented using a “paging scheme”, which is also
supported by the PCMCIA standard. By writing a page
address to the Confi guration Option Register (address
4000H), an additional page of memory can be accessed.
The current FLF1 series supports densities up to 192MB:
total of 3 pages: page 0 := 64MB, page 1 := 64MB, and
page 2 := 64MB.
The FLF1 series card operates in a wide, universal
voltage range, from 3V to 5V, allowing full “plug and play”
functionality and upgrade solutions in all mobile, battery
powered applications.
Each memory component in the card also has a 128-
bit Protection Register, containing 64 bits of User
Programmable OTP (One Time Programmable) Cells.
These cells can be programmed with a numeric security
measure, such as an electronic signature.
To provide a 16 bit word wide access supported by
the PCMCIA standard, devices are paired on the card.
Therefore, the Flash array is structured in 128K word
(256kB) blocks. Write, read and block erase operations can
be performed as either a word or byte wide operation.
The FLF1 series cards conform to the PC Card 95 Standard
supported by PCMCIA and JEIDA, providing electrical and
physical compatibility. The PC Card form factor offers an
industry standard pinout and mechanical outline, allowing
density upgrades without system design changes.
WEDC’s standard cards are shipped with WEDC’s Flash
Logo. Cards are also available with blank housings
(no Logo). The blank housings are available in both, a
recessed (for label) or fl at housing. Please contact your
WEDC sales representative for further information on
Custom artwork.
PCMCIA Flash Memory Card
FLF1 Series
2White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
BLOCK DIAGRAM
DATA
BUS
Q8-Q15
DATA
BUS
Q0-Q7
N x 28F128J3A
Device 0Device 1
Device 3 Device 2
Device (N-2)Device (N-1)
ADDRESS
BUFFER
A1-A25
B26, (B27..)
WRi
Q2
CL0
control
logic
Ai
Qn
RDi
(A1-A25)
(B26)
attrib. mem
CIS
E²PROM 2kB
Management
Registers
0000h
4000h
A24, A25, B26
At/Reg enable
Ctrl
Q0
Device Pair 0
Device Pair 1
Device Pair (N/2 - 1)
ADDRESS Register NAME
Configuration Option Register
4000h
4002h
4004h
4006h
4008h
Config. and Status Reg.
WE#
CE1#
CE2#
OE#
REG#
CHn
CH0
CLn
CL0
CLn
CL1
CH0
CH0
SR Clr
Reg Clr
D5-D0=Page Number (PN)
- Page Number (PN) -
D7 D5D6 D1D3 D2D4 D0
SRes LvReq
CH0
+
A1-A23 ADDRESS BUS
(A1-A25)
R/BUSY
R/B0
R/B(N-1)
R/B1
VS2
VS1
10k
N.C.
N.C.
Vpp2
Vpp1
Vc
(3V-5V)
cVcc
GND
CD1
CD2
BVD1
BVD2
Vcc
OPEN
OPEN
WAIT
OPEN
A0
control
I/O buffer
DATA
BUS
D8
-
D15
DATA
BUS
D0
-
D7
Q0-Q7
MRes Configuration Option Register: A=4000h (Read/Write)
MRes
SR Clr
Reg Clr
reset circuit
Configuration Option Register: ADRS=4000h
D6 LevelReq (not supported)
- Page Number (PN) -
D2D4D7 D6
D7 Soft Reset, active High
1=Reset State
0=End Reset State
D0D5 D1D3
SRes LvReq
D5-D0 Configuration index
D5-D1 reserved
D0 Page Number Config. (PN) Power On default =0
D7 D3 D0D6 D2D4 D1D5
D2
Power Down; active High
1 = Place all memory devices in power down mode
0 = normal operation Power On default=0
PwrDwn reserved
reserved
Configuration Status Register: ADRS=4002h
Read/Write
Read/Write
D0 - D15
C
220k
R
Vcc
Reset
CE1#, CE2#, OE#, WE#, Reg#: pull up typ 100k
A0: pull down typ 100k
Reset: pull down typ 220k
R/Busy - Open Drain output pull up typ 100k
Manufacturer ID Intel 89H
Device ID 28F128J3A 18H
Device ID 28F640J3A 18H
FLF1 Flash Card
based on Strata Flash 28F128J3A and 28F640J3
PCMCIA Flash Memory Card
FLF1 Series
3White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
MECHANICAL
PINOUT
Notes:
1. RDY/BSY# signal is an “Open drain” type output, pull-up resistors are required on
the host side.
2. VS1 is connected to GND.
3. Wait#, BVD1 and BVD2 are internally connected to VCC by resistors for
compatibility.
5.0mm MAX.
0.197”
1.6mm 0.05
0.063”
MIN.
10.0mm MIN.
0.400”
1.0mm 0.05
0.039’
85.6mm 0.20
3.370”
3.0mm
54.0mm 0.10
2.126”
1.0mm 0.05
0.039’
Substrate area
Interconnect area
Pin #1
Pin #35
3.3mm 0.05”
0.130”
Pin Signal name I/O Function Active
1 GND Ground
2 DQ3 I/O Data bit 3
3 DQ4 I/O Data bit 4
4 DQ5 I/O Data bit 5
5 DQ6 I/O Data bit 6
6 DQ7 I/O Data bit 7
7 CE1# I Card enable 1 LOW
8 A10 I Address bit 10
9 OE# I Output enable LOW
10 A11 I Address bit 11
11 A9 I Address bit 9
12 A8 I Address bit 8
13 A13 I Address bit 13
14 A14 I Address bit 14
15 WE# I Write Enable LOW
16 RDY/BSY# O Ready/Busy LOW (1)
17 VCC Supply Voltage
18 VPP1 Prog. Voltage N.C.
19 A16 I Address bit 16
20 A15 I Address bit 15
21 A12 I Address bit 12
22 A7 I Address bit 7
23 A6 I Address bit 6
24 A5 I Address bit 5
25 A4 I Address bit 4
26 A3 I Address bit 3
27 A2 I Address bit 2
28 A1 I Address bit 1
29 A0 I Address bit 0
30 DQ0 I/O Data bit 0
31 DQ1 I/O Data bit 1
32 DQ2 I/O Data bit 2
33 WP O Write Potect HIGH
34 GND Ground
Pin Signal name I/O Function Active
35 GND Ground
36 CD1# O Card Detect 1 LOW
37 DQ11 I/O Data bit 11
38 DQ12 I/O Data bit 12
39 DQ13 I/O Data bit 13
40 DQ14 I/O Data bit 14
41 DQ15 I Data bit 15
42 CE2# I Card Enable 2 LOW
43 VS1 O Voltage Sense 1 NC (2)
44 RFU Reserved
45 RFU Reserved
46 A17 I Address bit 17
47 A18 I Address bit 18
48 A19 I Address bit 19
49 A20 I Address bit 20
50 A21 I Address bit 21
51 VCC Supply Voltage
52 VPP2 Prog. Voltage NC
53 A22 I Address bit 22
54 A23 I Address bit 23
55 A24 I Address bit 24
56 A25 I Address bit 25
57 VS2 O Voltage Sense 2 NC
58 RST I Card Reset HIGH
59 Wait# O Extended Bus cycle LOW(3)
60 RFU Reserved
61 REG# I Attrib Mem Select
62 BVD2 O Bat. Volt. Detect 2 (2)
63 BVD1 O Bat. Volt. Detect 1 (3)
64 DQ8 I/O Data bit 8
65 DQ9 I/O Data bit 9
66 DQ10 O Data bit 10
67 CD2# O Card Detect 2 LOW
68 GND Ground
PCMCIA Flash Memory Card
FLF1 Series
4White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
Symbol Type Name and Function
A0 - A25 INPUT ADDRESS INPUTS: A0 through A25 enable direct addressing of up to 64MB of memory on the card. Signal A0 is not
used in word access mode. A25 is the most signifi cant bit
DQ0 - DQ15 INPUT/OUTPUT DATA INPUT/OUTPUT: DQ0 THROUGH DQ15 constitute the bi-directional databus. DQ15 is the MSB.
CE1#, CE2# INPUT CARD ENABLE 1 AND 2: CE1# enables even byte accesses, CE2# enables odd byte accesses. Multiplexing A0,
CE1# and CE2# allows 8-bit hosts to access all data on DQ0 - DQ7 (see truth table).
OE# INPUT OUTPUT ENABLE: Active low signal gating read data from the memory card.
WE# INPUT WRITE ENABLE: Active low signal gating write data to the memory card.
RDY/BSY# OUTPUT READY/BUSY OUTPUT: Indicates status of internally timed erase or program algorithms. A high output indicates that
the card is ready to accept accesses. A low output indicates that one or more devices in the memory card are busy
with internally timed erase or write activities.
CD1#, CD2# OUTPUT CARD DETECT 1 and 2: Provide card insertion detection. These signals are internally connected to ground on the
card. The host shall monitor these signals to detect card insertion (pulled-up on host side).
WP OUTPUT WRITE PROTECT: Write protect refl ects the status of the Write Protect switch on the memory card. WP set to high =
write protected, providing internal hardware write lockout to the Flash array. If card dOE#s not include optional write
protect switch, this signal will be pulled low internally indicating write protect = “off”.
VPP1, VPP2 N.C. PROGRAMMING VOLTAGES: Not connected for 5V only card.
VCC CARD POWER SUPPLY: 5.0V for all internal circuitry
GND CARD GROUND
REG# INPUT ATTRIBUTE MEMORY SELECT : Active low signal, enables access to attribute memory space, occupied by the
Card Information Structure (CIS) and Card Registers.
RST INPUT RESET: Active high signal for placing card in Power-on default state. Reset can be used as a Power-Down control for
the memory array.
WAIT# OUTPUT WAIT: This signal is pulled high internally for compatibility. No wait states are generated.
BVD1, BVD2 OUTPUT BATTERY VOLTAGE DETECT: These signals are pulled high to maintain SRAM card compatibility.
VS1, VS2 OUTPUT VOLTAGE SENSE: Notifi es the host socket of the card’s VCC requirements. VS1 and VS2 are
RFU RESERVED FOR FUTURE USE
NC NO INTERNAL CONNECTION TO CARD: pin may be driven or left fl oating
Card Signal Description
READ function Common Memory Attribute Memory
Function Mode CE2#CE
1#A
0OE# WE# REG# D15-D8D7-D0REG# D15-D8D7-D0
Standby Mode H H X X X X High-Z High-Z X High-Z High-Z
Byte Access (8 bits) H L L L H H High-Z Even-Byte L High-Z Even-Byte
H L H L H H High-Z Odd-Byte L High-Z Not Valid
Word Access (16 bits) L L X L H H Odd-Byte Even-Byte L Not Valid Even-Byte
Odd-Byte Only Access L H X L H H Odd-Byte High-Z L Not Valid High-Z
WRITE function
Standby Mode H H X X X X X X X X X
Byte Access (8 bits) H L L H L H X Even-Byte L X Even-Byte
H L H H L H X Odd-Byte L X X
Word Access (16 bits) L L X H L H Odd-Byte Even-Byte L X Even-Byte
Odd-Byte Only Access L H X H L H Odd-Byte X L X X
Functional Truth Table
PCMCIA Flash Memory Card
FLF1 Series
5White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
CARD INTERFACE
The FLF0 series fl ash card complies with PC Card
standard (PCMCIA, March 1997). While maintaining
PCMCIA compatibility, the FLF0 series card has
integrated special features to extend functionality.
Card has built in 2 control registers:
• Confi guration Option Register (COR)
Address = 4000h
• Confi guration and Status Register (CSR)
Address = 4002h
COR register: provide a soft reset function (bit D7) and
additional page register (bit D0) to extend card capacity
beyond 64MB.
SReset
As defi ned by PCMCIA, setting the SReset bit to 1,
places the card in the reset state. During this state
all memory devices are place in power down mode,
minimizing power consumption. Returning this bit to 0
leaves the reset cycle and place the card in the same
condition as following a power up or hardware reset.
This bit must be cleared to 0, to access any device on
the card.
Complete soft reset cycle must consist of a 2 step write
sequence to the SReset bit:
1. Initialization: write 1 to SReset
• reset cycle begin
• memory devices enters Power-Down mode
aborting all operations and clearing all registers.
2. Write 0 to SReset
• Reset cycle ends
• memory devices and registers enters power on
default state
Card can be place in Power Down mode by activating
Reset signal (pin58) or by controlling the bit D2 in CSR
register.
LevlRequest
Not supported
Confi guration Index
Confi guration Index bits (D0 - D5) are defi ned to provide
address extension bits -page address, to extend card
capacity beyond 64MB.
Only bit D0 is supported:
• D1D0 set to 00bin (0H) selects: page 0
• D1D0 set to 01bin (1H) selects: page 1
• D1D0 set to 10bin (2H) selects: page 2
• D1D0 set to 11bin (3H) selects: page 3 (No
Memory Access)
D1D0 is set to the value of 00bin (0H) during any
reset cycle (Power on Reset, Hardware Reset,
and SReset). Attempting to access page 3 will not
result in the writing or reading of data.
CSR register: provide a power control of memory array.
Only bit D2 is supported; all other bits are “don’t care”
PwrDwn
Writing 1 to PwrDwn bit (D2) forces each memory
device on the card into a reset/power down mode
by asserting all the devices RP# pins. Writing 0 to
the bit returns the array to stand by mode.
Card Information Structure (CIS) contains information
about Registers addressing and Memory structure.
Cards with memory capacity < 64MB do not support
Confi guration Index bits.
Notes:
1. Reading from undefi ned address location or unsupported bits will return random
data.
2. Writing to undefi ned address location may result in card malfunctioning due to
limited address decoding.
3. See block diagram for more details about control registers.
Writing commands to the CUI enables reading of device data, query, identifi er codes,
inspection and clearing of the status register, and, when VPEN = VPENH, block erasure,
program, and lock-bit confi guration.
The Block Erase command requires appropriate command data and an address within
the block to be erased. The Byte/Word Program command requires the command
and address of the location to be written. Set Block Lock-Bit commands require the
command and block within the device to be locked. The Clear Block Lock-Bits command
requires the command and address within the device.
The CUI does not occupy an addressable memory location. It is written when the device
is enabled and WE# is active. The address and data needed to execute a command are
latched on the rising edge of WE# or the fi rst edge of CE0, CE1, or CE2 that disables the
device. Standard microprocessor write timings are used.
For information regarding modes of operation,
commands, and programming details for the memory
components, please consult the Intel 28F128J3A
(28F640J3) data sheet.
PCMCIA Flash Memory Card
FLF1 Series
6White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
Note:
Stress greater than those listed under “Absolute Maximum Ratings” may cause
permanent damage to the device. This is a stress rating only and functional operation
at these or any other conditions greater than those indicated in the operational sections
of this specifi cation is not implied. Exposure to absolute maximum rating conditions for
extended periods may affect reliability.
ABSOLUTE MAXIMUM RATINGS (2)
Operating Temperature TA (ambient)
Commercial 0°C to +60°C
Industrial -40°C to +85°C
Storage Temperature -65°C to +125°C
Voltage on any pin relative to VSS -0.5V to VCC+0.5V
VCC supply Voltage relative to VSS -0.5V to +7.0V
DC CHARACTERISTICS (1)
Symbol Parameter Density (Mbytes) Notes Typ(3) Max Units Test Conditions
ICCR VCC Read Current 32,64, 96, 128, 160, 192 70 110 mA VCC = VCC max tcycle = 200ns
ICCW VCC Program Current 32,64, 96, 128, 160, 192 70 120 mA 2 memory devices
ICCE VCC Erase Current 32,64, 96, 128, 160, 192 70 140 mA 2 memory devices
ICCD VPP Power-down Current 32 2 100 200 μAVCC = VCC max
Control Signals = VCC
Reset = VCC (active)
64 200 400
96 300 600
128 400 800
160 500 1000
192 600 1200
ICCS
(CMOS)
VCC Standby Current 32 2 0.1 0.2 mA VCC = VCC max
Control Signals = VCC
Reset = 0V (not active)
64 0.2 0.4
96 0.3 0.6
128 0.4 0.8
160 0.5 1.0
192 0.6 1.2
CMOS Test Conditions: VCC = 5V ± 5%, VIL = VSS ± 0.2V, VIH = VCC ± 0.2V
Notes:
1. All currents are RMS values unless otherwise specifi ed. ICCR, ICCW and ICCE are based on Word wide operations (2 memory devices activated).
2. Control Signals: CE1#, CE2#, OE#, WE#.
3. Typical: VCC = 5V or VCC = 3V, T = +25°C.
VCC Tolerance
3.3V ± 0.3V
5.0V ± 0.5V
RECOMMENDED SUPPLY VOLTAGE
Note: The FLF1 Series Card will
function at either 3.3V or 5.0V
VCC = 3.3V or 5V
Symbol Parameter Notes Min Max Units Test Conditions
ILI Input Leakage Current 1, 2 ±20 μAVCC = VCCMAX
VIN =VCC or GND
ILO Output Leakage Current 1 ±20 μAVCC = VCCMAX
VIN =VCC or GND
VIL Input Low Voltage 1 0 0.8 V
VIH Input High Voltage 1 2.0V VCC+0.5 V
VOL Output Low Voltage 1 0.4 V IOL = 3.2mA
VOH Output High Voltage 1 2.4V V IOH = -2.0mA
VLKO VCC Erase/Program Lock Voltage 1 2.0 V
Notes:
1. Values are the same for byte and word wide modes for all card densities.
2. Exception: Leakage current on control signals with internal pull up resistors (see block diag) will be <500 μA when VIN = GND.
PCMCIA Flash Memory Card
FLF1 Series
7White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
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Rev. 5
AC CHARACTERISTICS – READ TIMING PARAMETERS
VCC = 3.3V or 5V
SYMBOL (PCMCIA) Parameter 200ns 250ns Unit
Min Max Min Max
tC(R) Read Cycle Time 200 250 ns
tA(A) Address Access Time 200 250 ns
tA(CE) Card Enable Access Time 200 250 ns
tA(OE#) Output Enable Access Time 90 100 ns
tSU(A) Address Setup Time 20 30 ns
tSU(CE) Card Enable Setup Time 0 0 ns
tH(A) Address Hold Time 20 20 ns
tH(CE) Card Enable Hold Time 20 20 ns
tV(A) Output Hold from Address Change 0 0 ns
tDIS(CE) Output Disable Time from CE 90 100 ns
tDIS(OE#) Output Disable Time from OE# 90 100 ns
tEN(CE) Output Enable Time from CE 5 5 ns
tEN(OE#) Output Enable Time from OE# 5 5 ns
tREC(RST) Power Down recovery to Output
Delay. VCC = 5V
500 500 ns
Note: AC timing diagrams and characteristics are guaranteed to meet or exceed PCMCIA 2.1 specifi cations.
READ TIMING DIAGRAM
NOTE 1
A
[25::0], REG#
CE
1#
, CE
2#
NOTE 1
D[15::0]
OE#
t
C
(R)
t
A
(A) t
H
(A)
t
A
(CE) t
V
(A)
t
H
(CE)
t
DIS
(OE)
t
DIS
(CE)
DATA VALID
t
SU
(CE)
t
SU
(A) t
A
(OE)
t
EN
(OE)
PCMCIA Flash Memory Card
FLF1 Series
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White Electronic Designs
March 2003
Rev. 5
AC CHARACTERISTICS – WRITE TIMING PARAMETERS
VCC = 3.3V or 5V
SYMBOL (PCMCIA) Parameter 200ns 250ns Unit
Min Max Min Max
tCW Write Cycle Time 200 250 ns
tW(WE) Write Pulse Width 120 150 ns
tSU(A) Address Setup Time 20 30 ns
tSU(A-WEH) Address Setup Time for WE# 140 180 ns
tSU(CE-WEH) Card Enable Setup Time for WE# 140 180 ns
tSU(D-WEH) Data Setup Time for WE# 60 80 ns
tH(D) Data Hold Time 30 30 ns
tREC(WE) Write Recover Time 30 30 ns
tDIS(WE) Output Disable Time from WE# 90 100 ns
tDIS(OE) Output Disable Time from OE# 90 100 ns
tEN(WE) Output Enable Time from WE# 5 5 ns
tEN(OE) Output Enable Time from OE# 5 5 ns
tSU(OE-WE) Output Enable Setup from WE# 10 10 ns
tH(OE-WE) Output Enable Hold from WE# 50 50 ns
tSU(CE) Card Enable Setup Time from OE# 0 0 ns
tH(CE) Card Enable Hold Time 20 20 ns
tREC(WEL) Reset recovery to WE# going low 1 1 μs
Note: AC timing diagrams and characteristics are guaranteed to meet or exceed PCMCIA 2.1 specifi cations.
WRITE TIMING DIAGRAM
A
[25::0], REG#
tC(W)
CE1#, CE2#
OE#
D[15::0](DIN)
tW(WE)
tSU(A)
NOTE 1
DATA INPUT
tSU(A-WEH)
tSU(CE) NOTE 1
tREC(WE)
tH(CE)
tSU(OE-WE)
tH(D)
tEN(WE)
D[15::0](DOUT)
WE#
tSU(CE-WEH)
tH(OE-WE)
tDIS(OE)
tDIS(WE)
NOTE 2
NOTE 2
tSU(D-WEH)
tEN(OE)
PCMCIA Flash Memory Card
FLF1 Series
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White Electronic Designs
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Rev. 5
DATA WRITE AND ERASE PERFORMANCE (1,3)
Vcc = 5V ± 5%, 0°C to ≤ TA ≤ 70°C
Symbol Parameter Notes Min Typ(1) Max Units Test Conditions
tWHQV1Word/Byte Program time 2,4 6.3 μs Effective time per Byte
(using Write Buffer)
tWHQV3Block Program Time (using Byte program command) 180 μs
Block Program Time (usingwrite to buffer command) 2 0.8 sec Word Program Mode
tWHQV4Block Erase Time 2 0.7 sec
tWHRH Erase Suspend Latency Time to Read 26 35 μs
Notes:
1. Typical: Nominal voltages and TA = 25C.
2. Excludes system overhead.
3. Valid for all speed options.
4. To maximize system performance RDY/BSY# signal should be polled.
WAVEFORMS FOR RESET OPERATION
tW(RST) P2
RDY/BSY#
RST
Valid Output
tREC(RST)
WE#
Read Operation
tWHQV
tREC(WEL)
Write Operation
tWHRH
tWHRL
SYMBOL Parameter Min Max Unit
tW(RST) Reset pulse High time 35 μs
P2 RST Low to reset during Erase/Program/Lock-bit 100 ns
tREC(RST) Reset Low to output delay 500 ns
tREC(WEL) Reset Recovery to WEgoing Low 1 μs
tWHRL WEHigh to RDY/BSY# going low 100 ns
PCMCIA Flash Memory Card
FLF1 Series
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Rev. 5
CIS DATA FOR FLF10 32MB & 64 MB CARDS BASED ON INTEL 28F128J3A
Address Value Description
00H 01H CISTPL_DEVICE
02H 03H TPL_LINK
04H 51H FLASH = 250ns (device writable)
06H 7EH CARD SIZE: 32MB
FEH 64MB
08H FFH END OF DEVICE
0AH 1CH CISTPL_DEVICE_OC
0CH 04H TPL_LINK
0EH 02H 3 VOLT OPERATION
10H 51H FLASH = 250ns (device writable)
12H 7EH CARD SIZE:32MB
FEH 64MB
14H FFH END OF DEVICE
16H 18H CISTPL_JEDEC_C
18H 03H TPL_LINK
1AH 89H Manufacturer ID -INTEL
1CH 18H Device ID - 28F0128J3A
1EH FFH END OF DEVICE
20H 17H CISTPL_DEVICE_A
22H 03H TPL_LINK
24H 42H EEPROM - 200ns
26H 01H Device Size = 2KBytes
28H FFH END OF TUPLE
2AH 1DH CISTPL_DEVICE_OA
2CH 03H TPL_LINK
2EH 02H 3 VOLT OPERATION
30H 11H ROM - 250ns
32H FFH END OF DEVICE
34H 1EH CISTPL_DEVICEGEO
36H 07H TPL_LINK
38H 02H DGTPL_BUS
3AH 12H DGTPL_EBS
3CH 01H DGTPL_RBS
3EH 01H DGTPL_WBS
40H 01H DGTPL_PART
42H 01H FLASH DEVICE
NON-INTERLEAVED
44H FFH END OF TUPLE
46H 20H CISTPL_MANFID
48H 05H TPL_LINK(05H)
4AH F6H EDI TPLMID_MANF: LSB
4CH 01H EDI TPLMID_MANF: MSB
4EH 00H LSB: Number Not Assigned
50H 00H MSB: Number Not Assigned
52H FFH END OF TUPLE
54H 1AH CISTPL_CONF
56H 06H TPL_LINK
58H 01H TPCC_SZ
Address Value Description
5AH 00H TPCC_LAST
5CH 00H TPCC_RADR
5EH 40H TPCC_RADR
60H 00H TPCC_RMSK
62H FFH END OF TUPLE
64H 1BH CISTPL_CFTABLE_ENTRY
66H 03H TPL_LINK
68H 00H TPCE_INDEX
6AH 00H TPCE_FS (no selection)
6CH FFH END OF TUPLE
6EH 15H CISTPL_VERS1
70H 7FH TPL_LINK
72H 04H TPLLV1_MAJOR
74H 01H TPLLV1_MINOR
76H 37H 7
78H 50H P
7AH 30H 0
7CH 33H 3
7EH 32H 2
80H 46H F
82H 4CH L
84H 46H F
86H 31H 1
88H 32H 2
8AH 2DH -
8CH 2DH -
8EH 2DH -
90H 32H 2
92H 35H 5
94H 20H SPACE
96H 00H END TEXT
98H 43H C
9AH 4FH O
9CH 50H P
9EH 59H Y
A0H 52H R
A2H 49H I
A4H 47H G
A6H 48H H
A8H 54H T
AAH 20H SPACE
ACH 57H W
AEH 48H H
B0H 49H I
B2H 54H T
B4H 45H E
B6H 20H SPACE
Address Value Description
B8H 45H E
BAH 4CH L
BCH 45H E
BEH 43H C
C0H 54H T
C2H 52H R
C4H 4FH O
C6H 4EH N
C8H 49H I
CAH 43H C
CCH 20H SPACE
CEH 44H D
D0H 45H E
D2H 53H S
D4H 49H I
D6H 47H G
D8H 4EH N
DAH 53H S
DCH 20H SPACE
DEH 43H C
E0H 4FH O
E2H 52H R
E4H 50H P
E6H 4FH O
E8H 52H R
EAH 41H A
ECH 54H T
EEH 49H I
F0H 4FH O
F2H 4EH N
F4H 20H SPACE
F6H 00H END TEXT
F8H 31H 1
FAH 39H 9
FCH 39H 9
FEH 39H 9
100H 00H END TEXT
102H 00H NULL
104H FFH END OF LIST
PCMCIA Flash Memory Card
FLF1 Series
11 White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
CIS DATA FOR FLF10 96MB - 192MB CARDS BASED ON INTEL 28F128J3A
Address Value Description
00H 01H CISTPL_DEVICE
02H 03H TPL_LINK
04H 51H FLASH = 250ns (device writable)
06H FEH CARD SIZE: 64MB (1st page)
08H FFH END OF DEVICE
0AH 1CH CISTPL_DEVICE_OC
0CH 04H TPL_LINK
0EH 02H 3 VOLT OPERATION
10H 51H FLASH = 250ns (device writable)
12H FEH CARD SIZE:64MB (1st page)
14H FFH END OF DEVICE
16H 09H CISTPL_EXTDEVICE
18H 06H TPL_LINK
1AH 0CH Mem Paging Info:2bit/COR/64MB
1CH 51H Flash = 250 ns
1EH 07H Device Size Extender
20H 01H 1x64MB (for 96MB and 128MB)
02H 2x64MB (for 160MB and 192MB)
22H 7DH +32MB (for 96MB and 160MB)
FEH +64MB (for 128MB and 192 MB)
24H FFH END OF TUPLE
26H 18H CISTPL_JEDEC_C
28H 03H TPL_LINK
2AH 89H Manufacturer ID - INTEL
2CH 18H Device ID - 28F0128J3A
2EH FFH END OF DEVICE
30H 17H CISTPL_DEVICE_A
32H 03H TPL_LINK
34H 42H EEPROM - 200ns
36H 01H Device Size = 2Kbytes
38H FFH END OF TUPLE
3AH 1DH CISTPL_DEVICE_OA
3CH 03H TPL_LINK
3EH 02H 3 VOLT OPERATION
40H 11H ROM - 250ns
42H FFH END OF DEVICE
44H 1EH CISTPL_DEVICEGEO
46H 07H TPL_LINK
48H 02H DGTPL_BUS
4AH 12H DGTPL_EBS
4CH 01H DGTPL_RBS
4EH 01H DGTPL_WBS
50H 01H DGTPL_PART
52H 01H FLASH DEVICE
NON-INTERLEAVED
54H FFH END OF TUPLE
56H 20H CISTPL_MANFID
58H 05H TPL_LINK(05H)
5AH F6H EDI TPLMID_MANF: LSB
Address Value Description
5CH 01H EDI TPLMID_MANF: MSB
5EH 00H LSB: Number Not Assigned
60H 00H MSB: Number Not Assigned
62H FFH END OF TUPLE
64H 1AH CISTPL_CONF
66H 06H TPL_LINK
68H 01H TPCC_SZ
6AH 00H TPCC_LAST
6CH 00H TPCC_RADR
6EH 40H TPCC_RADR
70H 03H TPCC_RMSK
72H FFH END OF TUPLE
74H 15H CISTPL_VERS1
76H 7FH TPL_LINK
78H 04H TPLLV1_MAJOR
7AH 01H TPLLV1_MINOR
7CH 37H 7
7EH 50H P
80H 30H 0
82H 39H 9
84H 36H 6
86H 46H F
88H 4CH L
8AH 46H F
8CH 31H 1
8EH 32H 2
90H 2DH -
92H 2DH -
94H 2DH -
96H 32H 2
98H 35H 5
9AH 20H SPACE
9CH 00H END TEXT
9EH 43H C
A0H 4FH O
A2H 50H P
A4H 59H Y
A6H 52H R
A8H 49H I
AAH 47H G
ACH 48H H
AEH 54H T
B0H 20H SPACE
B2H 57H W
B4H 48H H
B6H 49H I
B8H 54H T
BAH 45H E
BCH 20H SPACE
Address Value Description
BEH 45H E
C0H 4CH L
C2H 45H E
C4H 43H C
C6H 54H T
C8H 52H R
CAH 4FH O
CCH 4EH N
CEH 49H I
D0H 43H C
D2H 20H SPACE
D4H 44H D
D6H 45H E
D8H 53H S
DAH 49H I
DCH 47H G
DEH 4EH N
E0H 53H S
E2H 20H SPACE
E4H 43H C
E6H 4FH O
E8H 52H R
EAH 50H P
ECH 4FH O
EEH 52H R
F0H 41H A
F2H 54H T
F4H 49H I
F6H 4FH O
F8H 4EH N
FAH 20H SPACE
FCH 00H END TEXT
FEH 31H 1
100H 39H 9
102H 39H 9
104H 39H 9
106H 00H END TEXT
108H 00H NULL
10AH FFH END OF LIST
PCMCIA Flash Memory Card
FLF1 Series
12 White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
PART NUMBERING
PRODUCT MARKING
Note:
Some products are currently marked with our pre-merger company name/acronym (EDI). During our
transition period, some products will also be marked with our new company name/acronym (WED).
Starting October 2000 all PCMCIA products will be marked only with the WED prefi x.
Company Name
Part Number
Lot Code/Trace Number
Date Code
EDI
WED 7P032FLF1200C20 C995 9915
7 P 032 FLF12 00 C 25
CARD TECHNOLOGY
7 FLASH
8 SRAM
PC CARD
P Standard PCMCIA
R Ruggedized PCMCIA
CARD CAPACITY
032 32MB
CARD FAMILY AND VERSION
- See Card Family and Version Info.
for details (next page)
PACKAGING OPTION
00 Standard, type I
TEMPERATURE RANGE
C = Commercial 0°C to +70°C
I = Industrial -40°C to +85°C
CARD ACCESS TIME
20 200ns
25 250ns
PCMCIA Flash Memory Card
FLF1 Series
13 White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
ORDERING INFORMATION
XXX
016* 16MB
032 32MB
048* 48MB
064 64MB
096 96MB
128 128MB
160 160MB
192 192MB
YY
12 Based on 28F128J3A (*28F640J3)
with Attribute Memory
14 Based on 28F128J3A (*28F640J5)
with Attribute Memory and
Write Protect Switch (optional)
SS
00 WEDC Logo Type I
01 Blank Housing Type I
02 Blank Housing Type I Recessed
T
C Commercial
I Industrial
ZZ
20 200ns
25 250ns
7P XXX FLF YY SS T ZZ
PCMCIA Flash Memory Card
FLF1 Series
14 White Electronic Designs Corporation • (602) 437-1520 • www.whiteedc.com
White Electronic Designs
March 2003
Rev. 5
Document Title
High Density FLASH Memory Card
16, 32, 48, 64, 80 MEGABYTE
Revision History
Rev # History Release Date Status
Rev 0 Initial release 7-22-99
Rev 1 Added page 16 5-3-01
Rev 2 Corrected Timing Errors, pages 9 and 10 8-1-00
Rev 3 Corrected CIS Errors, page 14
Added Memory Chip Info, page 16
10-17-00
Rev 4 Corrected VIH, VOH, page 8
CIS for 96-192MB, in Adr 12h: 7E->FE
3-18-01
Rev 5 64Mb component, Industrial temp. added 3-18-03
