©2007 Silicon Storage Technology, Inc.
S71336-02-EOL 9/09
1
The SST logo and SuperFlash are registered trademarks of Silicon Storage Technology, Inc.
CSF and ComboMemory are trademarks of Silicon Storage Technology, Inc.
These specifications are subject to change without notice.
EOL Data Sheet
FEATURES:
Flash Organization: 1M x16 or 2M x8
Dual-Bank Architecture for Concurrent
Read/Write Operation
Bottom Sector Protection
16 Mbit: 12 Mbit + 4 Mbit
PSRAM Organization:
4 Mbit: 256K x16
8 Mbit: 512K x16
Single 2.7-3.3V Read and Write Operations
Superior Reliability
Endurance: 100,000 Cycles (typical)
Greater than 100 years Data Retention
Low Power Consumption:
Active Current: 25 mA (typical)
PSRAM Standby Current: 40 µA (typical)
Hardware Sector Protection (WP#)
Protects 4 outer most sectors (4 KWord) in the
larger bank by holding WP# low and unprotects
by holding WP# high
Hardware Reset Pin (RST#)
Resets the internal state machine to reading
data array
Byte Selection for Flash (CIOF pin)
Selects 8-bit or 16-bit mode (56-ball package
only)
Sector-Erase Capability
Uniform 2 KWord sectors
Block-Erase Capability
Uniform 32 KWord blocks
Read Access Time
Flash: 70 ns
PSRAM: 70 ns
Erase-Suspend / Erase-Resume Capabilities
Security ID Feature
SST: 128 bits
User: 128 bits
Latched Address and Data
Fast Erase and Program (typical):
Sector-Erase Time: 18 ms
Block-Erase Time: 18 ms
Chip-Erase Time: 35 ms
Word-Program Time: 7 µs
Automatic Write Timing
Internal VPP Generation
End-of-Write Detection
Toggle Bit
Data# Polling
Ready/Busy# pin
CMOS I/O Compatibility
JEDEC Standard Command Set
Packages Available
56-ball LFBGA (8mm x 10mm)
62-ball LFBGA (8mm x 10mm)
All non-Pb (lead-free) devices are RoHS compliant
PRODUCT DESCRIPTION
The SST34HF1641J and SST34HF1681J ComboMemory
devices integrate either a 1M x16 or 2M x8 CMOS flash
memory bank with either a 256K x16, or 512K x16 CMOS
pseudo SRAM (PSRAM) memory bank in a multi-chip
package (MCP). These devices are fabricated using SST
proprietary, high-performance CMOS SuperFlash technol-
ogy incorporating the split-gate cell design and thick-oxide
tunneling injector to attain better reliability and manufactur-
ability compared with alternate approaches. The
SST34HF1641J/1681J devices are ideal for applications
such as cellular phones, GPS devices, PDAs, and other
portable electronic devices in a low power and small form
factor system.
The SST34HF1641J/1681J feature dual flash memory
bank architecture allowing for concurrent operations
between the two flash memory banks and the PSRAM.
The devices can read data from either bank while an Erase
or Program operation is in progress in the opposite bank.
The two flash memory banks are partitioned into 12 Mbit
and 4 Mbit with bottom sector protection options for storing
boot code, program code, configuration/parameter data
and user data.
The SuperFlash technology provides fixed Erase and Pro-
gram times, independent of the number of Erase/Program
cycles that have occurred. Therefore, the system software
or hardware does not have to be modified or de-rated as is
necessary with alternative flash technologies, whose Erase
and Program times increase with accumulated Erase/Pro-
gram cycles. The SST34HF1641J/1681J devices offer a
guaranteed endurance of 10,000 cycles. Data retention is
rated at greater than 100 years. With high-performance
Program operations, the flash memory banks provide a
typical Word-Program time of 7 µsec.To protect against
inadvertent flash write, the SST34HF1641J/1681J devices
contain on-chip hardware and software data protection
schemes.
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
SST34HF168116Mb CSF (x8/x16) + 2/4/8 Mb SRAM (x16) MCP ComboMemory
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2
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
The flash and PSRAM operate as two independent mem-
ory banks with respective bank enable signals. The mem-
ory bank selection is done by two bank enable signals. The
PSRAM bank enable signals, BES1# and BES2, select the
PSRAM bank. The flash memory bank enable signal,
BEF#, has to be used with Software Data Protection (SDP)
command sequence when controlling the Erase and Pro-
gram operations in the flash memory bank. The memory
banks are superimposed in the same memory address
space where they share common address lines, data lines,
WE# and OE# which minimize power consumption and
area.
Designed, manufactured, and tested for applications requir-
ing low power and small form factor, the SST34HF1641J/
1681J are offered in extended temperatures and a small
footprint package to meet board space constraint require-
ments. See Figures 4 and 5 for pin assignments.
Device Operation
The SST34HF1641J/1681J uses BES1#, BES2 and BEF#
to control operation of either the flash or the PSRAM mem-
ory bank. When BEF# is low, the flash bank is activated for
Read, Program or Erase operation. When BES1# is low,
and BES2 is high the PSRAM is activated for Read and
Write operation. BEF# and BES1# cannot be at low level,
and BES2 cannot be at high level at the same time. If all
bank enable signals are asserted, bus contention will
result and the device may suffer permanent damage.
All address, data, and control lines are shared by flash and
PSRAM memory banks which minimizes power consump-
tion and loading. The device goes into standby when BEF#
and BES1# bank enables are raised to VIHC (Logic High) or
when BEF# is high and BES2 is low.
Concurrent Read/Write Operation
Dual bank architecture of SST34HF1641J/1681J devices
allows the Concurrent Read/Write operation whereby the
user can read from one bank while programming or eras-
ing in the other bank. This operation can be used when the
user needs to read system code in one bank while updat-
ing data in the other bank. See Figures 2 and 3 for dual-
bank memory organization.
Note: For the purposes of this table, Write means to perform
Block-/Sector-Erase or Program operations
as applicable to the appropriate bank.
Flash Read Operation
The Read operation of the SST34HF1641J/1681J is con-
trolled by BEF# and OE#, both have to be low for the sys-
tem to obtain data from the outputs. BEF# is used for
device selection. When BEF# is high, the chip is dese-
lected and only standby power is consumed. OE# is the
output control and is used to gate data from the output pins.
The data bus is in high impedance state when either BEF#
or OE# is high. Refer to the Read cycle timing diagram for
further details (Figure 9).
Concurrent Read/Write States
Flash
PSRAMBank 1 Bank 2
Read Write No Operation
Write Read No Operation
Write No Operation Read
No Operation Write Read
Write No Operation Write
No Operation Write Write
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
3
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
Flash Program Operation
These devices are programmed on a word-by-word or
byte-by-byte basis depending on the state of the CIOF pin.
Before programming, one must ensure that the sector
which is being programmed is fully erased.
The Program operation is accomplished in three steps:
1. Software Data Protection is initiated using the
three-byte load sequence.
2. Address and data are loaded.
During the Program operation, the addresses are
latched on the falling edge of either BEF# or WE#,
whichever occurs last. The data is latched on the
rising edge of either BEF# or WE#, whichever
occurs first.
3. The internal Program operation is initiated after
the rising edge of the fourth WE# or BEF#, which-
ever occurs first. The Program operation, once ini-
tiated, will be completed typically within 7 µs.
See Figures 10 and 11 for WE# and BEF# controlled Pro-
gram operation timing diagrams and Figure 24 for flow-
charts. During the Program operation, the only valid reads
are Data# Polling and Toggle Bit. During the internal Pro-
gram operation, the host is free to perform additional tasks.
Any commands issued during an internal Program opera-
tion are ignored.
Flash Sector- /Block-Erase Operation
These devices offer both Sector-Erase and Block-Erase
operations. These operations allow the system to erase the
devices on a sector-by-sector (or block-by-block) basis.
The sector architecture is based on a uniform sector size of
2 KWord. The Block-Erase mode is based on a uniform
block size of 32 KWord. The Sector-Erase operation is initi-
ated by executing a six-byte command sequence with a
Sector-Erase command (30H) and sector address (SA) in
the last bus cycle. The Block-Erase operation is initiated by
executing a six-byte command sequence with Block-Erase
command (50H) and block address (BA) in the last bus
cycle. The sector or block address is latched on the falling
edge of the sixth WE# pulse, while the command (30H or
50H) is latched on the rising edge of the sixth WE# pulse.
The internal Erase operation begins after the sixth WE#
pulse. Any commands issued during the Block- or Sector-
Erase operation are ignored except Erase-Suspend and
Erase-Resume. See Figures 15 and 16 for timing wave-
forms.
Flash Chip-Erase Operation
The SST34HF1641J/1681J provide a Chip-Erase opera-
tion, which allows the user to erase all sectors/blocks to the
“1” state. This is useful when the device must be quickly
erased.
The Chip-Erase operation is initiated by executing a six-
byte command sequence with Chip-Erase command (10H)
at address 555H in the last byte sequence. The Erase
operation begins with the rising edge of the sixth WE# or
BEF#, whichever occurs first. During the Erase operation,
the only valid read is Toggle Bits or Data# Polling. See
Table 5 for the command sequence, Figure 14 for timing
diagram, and Figure 28 for the flowchart. Any commands
issued during the Chip-Erase operation are ignored. When
WP# is low, any attempt to Chip-Erase will be ignored.
Flash Erase-Suspend/-Resume Operations
The Erase-Suspend operation temporarily suspends a
Sector- or Block-Erase operation thus allowing data to be
read from any memory location, or program data into any
sector/block that is not suspended for an Erase operation.
The operation is executed by issuing a one-byte command
sequence with Erase-Suspend command (B0H). The
device automatically enters read mode no more than 10 µs
after the Erase-Suspend command had been issued. (TES
maximum latency equals 10 µs.) Valid data can be read
from any sector or block that is not suspended from an
Erase operation. Reading at address location within erase-
suspended sectors/blocks will output DQ2 toggling and
DQ6 at “1”. While in Erase-Suspend mode, a Program
operation is allowed except for the sector or block selected
for Erase-Suspend. To resume Sector-Erase or Block-
Erase operation which has been suspended, the system
must issue an Erase-Resume command. The operation is
executed by issuing a one-byte command sequence with
Erase Resume command (30H) at any address in the one-
byte sequence.
Flash Write Operation Status Detection
The SST34HF1641J/1681J provide one hardware and
two software means to detect the completion of a Write
(Program or Erase) cycle, in order to optimize the system
Write cycle time. The hardware detection uses the
Ready/Busy# (RY/BY#) pin. The software detection
includes two status bits: Data# Polling (DQ7) and Toggle
Bit (DQ6). The End-of-Write detection mode is enabled
after the rising edge of WE#, which initiates the internal
Program or Erase operation.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
The actual completion of the nonvolatile write is asynchro-
nous with the system; therefore, either a Ready/Busy# (RY/
BY#), Data# Polling (DQ7) or Toggle Bit (DQ6) read may be
simultaneous with the completion of the Write cycle. If this
occurs, the system may possibly get an erroneous result,
i.e., valid data may appear to conflict with either DQ7 or
DQ6. In order to prevent spurious rejection, if an erroneous
result occurs, the software routine should include a loop to
read the accessed location an additional two (2) times. If
both reads are valid, then the device has completed the
Write cycle, otherwise the rejection is valid.
Ready/Busy# (RY/BY#)
The SST34HF1641J/1681J include a Ready/Busy# (RY/
BY#) output signal. RY/BY# is an open drain output pin that
indicates whether an Erase or Program operation is in
progress. Since RY/BY# is an open drain output, it allows
several devices to be tied in parallel to VDD via an external
pull-up resistor. After the rising edge of the final WE# pulse
in the command sequence, the RY/BY# status is valid.
When RY/BY# is actively pulled low, it indicates that an
Erase or Program operation is in progress. When RY/BY#
is high (Ready), the devices may be read or left in standby
mode.
Byte/Word (CIOF)
This function, found only on the 56-ball package, includes a
CIOF pin to control whether the device data I/O pins oper-
ate x8 or x16. If the CIOF pin is at logic “1” (VIH) the device
is in x16 data configuration: all data I/0 pins DQ0-DQ15 are
active and controlled by BEF# and OE#.
If the CIOF pin is at logic “0”, the device is in x8 data config-
uration: only data I/O pins DQ0-DQ7 are active and con-
trolled by BEF# and OE#. The remaining data pins DQ8-
DQ14 are at Hi-Z, while pin DQ15 is used as the address
input A-1 for the Least Significant Bit of the address bus.
Flash Data# Polling (DQ7)
When the devices are in an internal Program operation, any
attempt to read DQ7 will produce the complement of the
true data. Once the Program operation is completed, DQ7
will produce true data. During internal Erase operation, any
attempt to read DQ7 will produce a ‘0’. Once the internal
Erase operation is completed, DQ7 will produce a ‘1’. The
Data# Polling is valid after the rising edge of fourth WE# (or
BEF#) pulse for Program operation. For Sector-, Block-, or
Chip-Erase, the Data# Polling is valid after the rising edge
of sixth WE# (or BEF#) pulse. See Figure 12 for Data# Poll-
ing (DQ7) timing diagram and Figure 25 for a flowchart.
Toggle Bits (DQ6 and DQ2)
During the internal Program or Erase operation, any con-
secutive attempts to read DQ6 will produce alternating “1”s
and “0”s, i.e., toggling between 1 and 0. When the internal
Program or Erase operation is completed, the DQ6 bit will
stop toggling. The device is then ready for the next opera-
tion. The toggle bit is valid after the rising edge of the fourth
WE# (or BEF#) pulse for Program operations. For Sector-,
Block-, or Chip-Erase, the toggle bit (DQ6) is valid after the
rising edge of sixth WE# (or BEF#) pulse. DQ6 will be set to
“1” if a Read operation is attempted on an Erase-sus-
pended Sector/Block. If Program operation is initiated in a
sector/block not selected in Erase-Suspend mode, DQ6 will
toggle.
An additional Toggle Bit is available on DQ2, which can be
used in conjunction with DQ6 to check whether a particular
sector is being actively erased or erase-suspended. Table 1
shows detailed status bit information. The Toggle Bit (DQ2)
is valid after the rising edge of the last WE# (or BEF#)
pulse of a Write operation. See Figure 13 for Toggle Bit tim-
ing diagram and Figure 25 for a flowchart.
Note: DQ7, DQ6, and DQ2 require a valid address when reading status information. The address must be in the bank where the operation is in
progress in order to read the operation status. If the address is pointing to a different bank (not busy), the device will output array data.
TABLE 1: Write Operation Status
Status DQ7DQ6DQ2RY/BY#
Normal Operation Standard Program DQ7# Toggle No Toggle 0
Standard Erase 0 Toggle Toggle 0
Erase-Suspend Mode Read From Erase Suspended Sector/Block 1 1 Toggle 1
Read From Non-Erase Suspended Sector/Block Data Data Data 1
Program DQ7# Toggle No Toggle 0
T1.2 1336
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
5
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
Data Protection
The SST34HF1641J/1681J provide both hardware and
software features to protect nonvolatile data from inadvert-
ent writes.
Hardware Data Protection
Noise/Glitch Protection: A WE# or BEF# pulse of less than
5 ns will not initiate a Write cycle.
VDD Power Up/Down Detection: The Write operation is
inhibited when VDD is less than 1.5V.
Write Inhibit Mode: Forcing OE# low, BEF# high, or WE#
high will inhibit the Write operation. This prevents inadvert-
ent writes during power-up or power-down.
Hardware Block Protection
The SST34HF1641J/1681J provide a hardware block pro-
tection which protects the outermost 8 KWord in Bank 1.
The block is protected when WP# is held low. See Figures
2 and 3 for Block-Protection location.
A user can disable block protection by driving WP# high
thus allowing erase or program of data into the protected
sectors. WP# must be held high prior to issuing the write
command and remain stable until after the entire Write
operation has completed. If WP# is left floating, it is inter-
nally held high via a pull-up resistor, and the Boot Block is
unprotected, enabling Program and Erase operations on
that block.
Hardware Reset (RST#)
The RST# pin provides a hardware method of resetting the
device to read array data. When the RST# pin is held low
for at least TRP, any in-progress operation will terminate and
return to Read mode, see Figure 21. When no internal Pro-
gram/Erase operation is in progress, a minimum period of
TRHR is required after RST# is driven high before a valid
Read can take place, see Figure 20.
The Erase operation that has been interrupted needs to be
reinitiated after the device resumes normal operation mode
to ensure data integrity. See Figures 20 and 21 for timing
diagrams.
Software Data Protection (SDP)
The SST34HF1641J/1681J provide the JEDEC standard
Software Data Protection scheme for all data alteration
operations, i.e., Program and Erase. Any Program opera-
tion requires the inclusion of the three-byte sequence. The
three-byte load sequence is used to initiate the Program
operation, providing optimal protection from inadvertent
Write operations, e.g., during the system power-up or
power-down. Any Erase operation requires the inclusion of
six-byte sequence. The SST34HF1641J/1681J are
shipped with the Software Data Protection permanently
enabled. See Table 5 for the specific software command
codes. During SDP command sequence, invalid com-
mands will abort the device to Read mode within TRC. The
contents of DQ15-DQ8 are “Don’t Care” during any SDP
command sequence.
Common Flash Memory Interface (CFI)
These devices also contain the CFI information to describe
the characteristics of the devices. In order to enter the CFI
Query mode, the system must write the three-byte
sequence same as the Software ID Entry command with
98H (CFI Query command) to address 555H in the last
byte sequence. For CFI Entry and Bead timing diagram,
See Figure 18. Once the device enters the CFI Query
mode, the system can read CFI data a t the addresses
given in Tables 7 and 9. The system must write the CFI Exit
command to return to Bead mode from the CFI Query
mode.
Security ID
The SST34HF1641J/1681J devices offer a 256-bit Security
ID space. The Secure ID space is divided into two 128-bit
segments—one factory programmed segment and one
user programmed segment. The first segment is pro-
grammed and locked at SST with a unique, 128-bit num-
ber. The user segment is left un-programmed for the
customer to program as desired. To program the user seg-
ment of the Security ID, the user must use the Security ID
Program command. End-of-Write status is checked by
reading the toggle bits. Data# Polling is not used for Secu-
rity ID End-of-Write detection. Once programming is com-
plete, the Sec ID should be locked using the User-Sec-ID-
Program-Lock-Out. This disables any future corruption of
this space. Note that regardless of whether or not the Sec
ID is locked, neither Sec ID segment can be erased. The
Secure ID space can be queried by executing a three-byte
command sequence with Query-Sec-ID command (88H)
at address 555H in the last byte sequence. To exit this
mode, the Exit-Sec-ID command should be executed.
Refer to Table 5 for more details.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
Product Identification
The Product Identification mode identifies the device as the
SST34HF1641J/1681J and manufacturer as SST. This
mode may be accessed by software operations only. The
hardware device ID Read operation, which is typically used
by programmers cannot be used on this device because of
the shared lines between flash and PSRAM in the multi-
chip package. Therefore, application of high voltage to pin
A9 may damage this device. Users may use the software
Product Identification operation to identify the part (i.e.,
using the device ID) when using multiple manufacturers in
the same socket. For details, see Tables 4 and 5 for soft-
ware operation, Figure 17 for the Software ID Entry and
Read timing diagram and Figure 26 for the ID Entry com-
mand sequence flowchart.
Note: BK = Bank Address (A19-A18)
Product Identification Mode Exit
In order to return to the standard Read mode, the Software
Product Identification mode must be exited. Exit is accom-
plished by issuing the Software ID Exit command
sequence, which returns the device to the Read mode.
This command may also be used to reset the device to the
Read mode after any inadvertent transient condition that
apparently causes the device to behave abnormally, e.g.,
not read correctly. Note that the Software ID Exit/CFI Exit
command is ignored during an internal Program or Erase
operation. See Table 5 for software command codes, Fig-
ure 19 for timing waveform and Figure 26 for a flowchart.
PSRAM Operation
With BES1# low, BES2 and BEF# high, the
SST34HF1641J/1681J operate as either 128K x16, 256K
x16, or 512K x16 CMOS PSRAM, with fully static operation
requiring no external clocks or timing strobes. The
SST34HF1641J/1681J PSRAM is mapped into the first
512 KWord address space. When BES1#, BEF# are high
and BES2 is low, all memory banks are deselected and the
device enters standby. Read and Write cycle times are
equal. The control signals UBS# and LBS# provide access
to the upper data byte and lower data byte. For PSRAM
Read and Write data byte control modes of operation, see
Table 4.
PSRAM Read
The PSRAM Read operation of the SST34HF1641J/1681J
is controlled by OE# and BES1#, both have to be low with
WE# and BES2 high for the system to obtain data from the
outputs. BES1# and BES2 are used for PSRAM bank
selection. OE# is the output control and is used to gate
data from the output pins. The data bus is in high imped-
ance state when OE# is high. Refer to the Read cycle tim-
ing diagram, Figure 6, for further details.
PSRAM Write
The PSRAM Write operation of the SST34HF1641J/1681J
is controlled by WE# and BES1#, both have to be low,
BES2 must be high for the system to write to the PSRAM.
During the Word-Write operation, the addresses and data
are referenced to the rising edge of either BES1#, WE#, or
the falling edge of BES2 whichever occurs first. The write
time is measured from the last falling edge of BES#1 or
WE# or the rising edge of BES2 to the first rising edge of
BES1#, or WE# or the falling edge of BES2. Refer to the
Write cycle timing diagrams, Figures 7 and 8, for further
details.
TABLE 2: Product Identification
ADDRESS DATA
Manufacturer’s ID BK0000H 00BFH
Device ID
SST34HF1641J/1681J BK0001H 734BH
T2.1 1336
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
7
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 1: Functional Block Diagram
1336 B1.0
SuperFlash Memory
(Bank 1)
I/O Buffers
SuperFlash Memory
(Bank 2)
4 / 8 Mbit
PSRAM
AMS1- A0
DQ15/A-1 - DQ0
Notes: 1. AMS = Most significant address
2. For LSE package only: WE# = WEF# and/or WES#
OE# = OEF# and/or OES#
Control
Logic
CIOF
RST#
BEF#
WP#
LBS#
UBS#
WE#2
OE#2
BES1#
BES2
RY/BY#
Address
Buffers
Address
Buffers
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 2: 1M x16 Concurrent SuperFlash Dual-Bank Memory Organization
FFFFFH
F8000H Block 31
F7FFFH
F0000H Block 30
EFFFFH
E8000H Block 29
E7FFFH
E0000H Block 28
DFFFFH
D8000H Block 27
D7FFFH
D0000H Block 26
CFFFFH
C8000H Block 25
C7FFFH
C0000H Block 24
Bank 2
BFFFFH
B8000H Block 23
B7FFFH
B0000H Block 22
AFFFFH
A8000H Block 21
A7FFFH
A0000H Block 20
9FFFFH
98000H Block 19
97FFFH
90000H Block 18
8FFFFH
88000H Block 17
87FFFH
80000H Block 16
7FFFFH
78000H Block 15
77FFFH
70000H Block 14
6FFFFH
68000H Block 13
67FFFH
60000H Block 12
5FFFFH
58000H Block 11
57FFFH
50000H Block 10
4FFFFH
48000H Block 9
47FFFH
40000H Block 8
3FFFFH
38000H Block 7
37FFFH
30000H Block 6
2FFFFH
28000H Block 5
27FFFH
20000H Block 4
1FFFFH
18000H Block 3
17FFFH
10000H Block 2
0FFFFH
08000H Block 1
07FFFH
02000H
01FFFH
00000H
Block 0
Bank 1
Bottom Sector Protection; 32 KWord Blocks; 2 KWord Sectors
8 KWord Sector Protection
(4-2 KWord Sectors)
1336 F01.0
Note: The address input range in x16 mode (COIF=VIH) is A19-A0
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
9
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 3: 2M x8 Concurrent SuperFlash Dual-Bank Memory Organization
1FFFFFH
1F0000H Block 31
1EFFFFH
1E0000H Block 30
1DFFFFH
1D0000H Block 29
1CFFFFH
1C0000H Block 28
1BFFFFH
1B0000H Block 27
1AFFFFH
1A0000H Block 26
19FFFFH
190000H Block 25
18FFFFH
180000H Block 24
Bank 2
17FFFFH
170000H Block 23
16FFFFH
160000H Block 22
15FFFFH
150000H Block 21
14FFFFH
140000H Block 20
13FFFFH
130000H Block 19
12FFFFH
120000H Block 18
11FFFFH
110000H Block 17
10FFFFH
100000H Block 16
0FFFFFH
0F0000H Block 15
0EFFFFH
0E0000H Block 14
0DFFFFH
0D0000H Block 13
0CFFFFH
0C0000H Block 12
0BFFFFH
0B0000H Block 11
0AFFFFH
0A0000H Block 10
09FFFFH
090000H Block 9
08FFFFH
080000H Block 8
07FFFFH
070000H Block 7
06FFFFH
060000H Block 6
05FFFFH
050000H Block 5
04FFFFH
040000H Block 4
03FFFFH
030000H Block 3
02FFFFH
020000H Block 2
01FFFFH
010000H Block 1
00FFFFH
004000H
003FFFH
000000H
Block 0
Bank 1
Bottom Sector Protection; 64 KByte Blocks; 4 KByte Sectors
16 KByte Sector Protection
(4-4 KByte Sectors)
1336 F01b.0
Note: The address input range in x8 mode (CIOF=VIL) is A19-A-1
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10
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 4: Pin Assignments for 56-ball LFBGA (8mm x 10mm)
FIGURE 5: Pin Assignments for 62-ball LFBGA (8mm x 10mm)
1336 56-lfbga P1a.0
A11
A8
WE#
WP#
LBS#
A7
A15
A12
A19
BES2
RST#
UBS#
A6
A3
NC
A13
A9
NC
RY/BY#
A18
A5
A2
NC
A14
A10
A17
A4
A1
A16
NC
DQ6
DQ1
VSS
A0
CIOF
NOTE*
DQ13
DQ4
DQ3
DQ9
OE#
BEF#
VSS
DQ7
DQ12
VDDS
VDDF
DQ10
DQ0
BES1#
DQ14
DQ5
NC
DQ11
DQ2
DQ8
A B C D E F G H
8
7
6
5
4
3
2
1
TOP VIEW (balls facing down)
Note* = DQ
15
/A
-1
1336 62-lfbga P2.0
NC
NC
NC
A16
WEF#
VSSS
WP#
LBS#
A18
NC
A11
A8
RY/BY#
RST#
NC
UBS#
A17
A5
A15
A10
A19
OES#
A7
A4
A14
A9
DQ11
A6
A0
A13
DQ15
DQ13
DQ12
DQ9
A3
BEF#
A12
WES#
DQ6
BES2
DQ10
DQ8
A2
VSSF
VSSF
DQ14
DQ4
VDDS
DQ2
DQ0
A1
OEF#
NC
DQ7
DQ5
VDDF
DQ3
DQ1
BES1#
NC
NC
NC
A B C D E F G H J K
8
7
6
5
4
3
2
1
TOP VIEW (balls facing down)
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
11
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 3: Pin Description
Symbol Pin Name Functions
AMS1 to A0Address Inputs To provide flash address, A19-A0.
To provide PSRAM address, AMS-A0
DQ14-DQ0Data Inputs/Outputs To output data during Read cycles and receive input data during Write cycles.
Data is internally latched during a flash Erase/Program cycle. The outputs are in
tri-state when OE# is high or BES1# is high or BES2 is low and BEF# is high.
DQ15/A-1 Data Input/Output
and LBS Address
DQ15 is used as data I/O pin when in x16 mode (CIOF = “1”)
A-1 is used as the LBS address pin when in x8 mode (CIOF = “0”)
BEF# Flash Memory Bank Enable To activate the Flash memory bank when BEF# is low
BES1# PSRAM Memory Bank Enable To activate the PSRAM memory bank when BES1# is low
BES2 PSRAM Memory Bank Enable To activate the PSRAM memory bank when BES2 is high
OEF#2Output Enable To gate the data output buffers for Flash2 only
OES#2Output Enable To gate the data output buffers for PSRAM2 only
WEF#2Write Enable To control the Write operations for Flash2 only
WES#2Write Enable To control the Write operations for PSRAM2 only
OE# Output Enable To gate the data output buffers
WE# Write Enable To control the Write operations
CIOF3Byte Selection for Flash When low, select Byte mode. When high, select Word mode.
UBS# Upper Byte Control (PSRAM) To enable DQ15-DQ8
LBS# Lower Byte Control (PSRAM) To enable DQ7-DQ0
WP# Write Protect To protect and unprotect the bottom 8 KWord (4 sectors) from Erase or Program
operation
RST# Reset To Reset and return the device to Read mode
RY/BY# Ready/Busy# To output the status of a Program or Erase Operation
RY/BY# is a open drain output, so a 10KΩ - 100KΩ pull-up resistor is required to
allow RY/BY# to transition high indicating the device is ready to read.
VSSF2Ground Flash2 only
VSSS2Ground PSRAM2 only
VSS Ground
VDDFPower Supply (Flash) 2.7-3.3V Power Supply to Flash only
VDDSPower Supply (PSRAM) 2.7-3.3V Power Supply to PSRAM only
NC No Connection Unconnected pins
T3.1 1336
1. AMS = Most Significant Address
AMS = A17 for SST34HF1641J and A18 for SST34HF1681J
2. LSE package only
3. L1PE package only
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12
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 4: Operational Modes Selection
Mode BEF#1BES1#1,2 BES21,2 OE#2,3 WE#2,3 LBS#2UBS#2
DQ15-8
DQ7-0 CIOF = VIH CIOF = VIL
Full Standby VIH VIH X X X X X HIGH-Z HIGH-Z HIGH-Z
XV
IL XXXX
Output Disable VIH VIL VIH VIH VIH X X HIGH-Z HIGH-Z HIGH-Z
VIL VIH XXV
IH VIH
VIL VIH XV
IH VIH X X HIGH-Z HIGH-Z HIGH-Z
XV
IL
Flash Read VIL VIH XV
IL VIH XXD
OUT DOUT DQ14-8 = HIGH-Z
DQ15 = A-1
XV
IL
Flash Write VIL VIH X VIH VIL XXD
IN DIN DQ14-8 = HIGH-Z
DQ15 = A-1
XV
IL
Flash Erase VIL VIH XV
IH VIL XX X X X
XV
IL
PSRAM Read VIH V
IL VIH VIL VIH VIL V
IL DOUT DOUT DOUT
VIH VIL HIGH-Z DOUT DOUT
VIL VIH DOUT HIGH-Z HIGH-Z
PSRAM Write VIH VIL VIH XV
IL VIL VIL DIN DIN DIN
VIH VIL HIGH-Z DIN DIN
VIL VIH DIN HIGH-Z HIGH-Z
Product
Identification4
VIL VIH V
IL V
IL VIH X X Manufacturer’s ID5
Device ID5
T4.1 1336
1. Do not apply BEF# = VIL, BES1# = VIL and BES2 = VIH at the same time
2. X can be VIL or VIH, but no other value.
3. OE# = OEF# and OES#
WE# = WEF# and WES# for LSE package only
4. Software mode only
5. With A19-A18 = VIL;SST Manufacturer’s ID = BFH, is read with A0=0,
SST34HF1641J/1681J Device ID = 734BH, is read with A0=1
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
13
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 5: Software Command Sequence
Command
Sequence
1st Bus
Write Cycle
2nd Bus
Write Cycle
3rd Bus
Write Cycle
4th Bus
Write Cycle
5th Bus
Write Cycle
6th Bus
Write Cycle
Addr1Data2Addr1Data2Addr1Data2Addr1Data2Addr1Data2Addr1Data2
Program 555H AAH 2AAH 55H 555H A0H WA3Data
Sector-Erase 555H AAH 2AAH 55H 555H 80H 555H AAH 2AAH 55H SAX430H
Block-Erase 555H AAH 2AAH 55H 555H 80H 555H AAH 2AAH 55H BAX450H
Chip-Erase 555H AAH 2AAH 55H 555H 80H 555H AAH 2AAH 55H 555H 10H
Erase-Suspend XXXXH B0H
Erase-Resume XXXXH 30H
Query Sec ID5555H AAH 2AAH 55H 555H 88H
User Security ID
Program
555H AAH 2AAH 55H 555H A5H SIWA6Data
User Security ID
Program Lock-out7
555H AAH 2AAH 55H 555H 85H XXH 0000H
Software ID Entry8555H AAH 2AAH 55H BKX9
555H
90H
CFI Query Entry 555H AAH 2AAH 55H BKX9
555H
98H
Software ID Exit/
CFI Exit
Sec ID Exit10,11
555H AAH 2AAH 55H 555H F0H
Software ID Exit/
CFI Exit
Sec ID Exit10,11
XXH F0H
T5.4 1336
1. Address format A10-A0 (Hex), Addresses A19-A11 can be VIL or VIH, but no other value, for the command sequence when in x16 mode.
When in x8 mode, Addresses A19-A12, Address A-1 and DQ14-DQ8 can be VIL or VIH, but no other value, for the command sequence.
2. DQ15-DQ8 can be VIL or VIH, but no other value, for the command sequence
3. WA = Program word/byte address
4. SAX for Sector-Erase; uses A19-A11 address lines
BAX for Block-Erase; uses A19-A15 address lines
5. For SST34HF1641J/1681J,
SST ID is read with A4 = 0 (Address range = 00000H to 00007H),
User ID is read with A4 = 1 (Address range = 00010H to 00017H).
Lock Status is read with A7-A0 = 000FFH. Unlocked: DQ3 = 1 / Locked: DQ3 = 0.
6. SIWA = User Security ID Program word/byte address
For SST34HF1641J/1681J, valid Word-Addresses for User Sec ID are from 00010H-00017H.
All 4 cycles of User Security ID Program and Program Lock-out must be completed before going back to Read-Array mode.
7. The User Security ID Program Lock-out command must be executed in x16 mode (CIOF=VIH).
8. The device does not remain in Software Product Identification mode if powered down.
9. A19 and A18 = VIL
10. Both Software ID Exit operations are equivalent
11. If users never lock after programming, User Sec ID can be programmed over the previously unprogrammed bits (data=1) using the
User Sec ID mode again (the programmed “0” bits cannot be reversed to “1”).
For SST34HF1641J/1681J, valid Word-Addresses for User Sec ID are from 00010H-00017H.
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14
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 6: CFI QUERY IDENTIFICATION STRING1
Address
x16 Mode
Address
x8 Mode Data2Description
10H
11H
12H
20H
22H
24H
0051H
0052H
0059H
Query Unique ASCII string “QRY”
13H
14H
26H
28H
001H
007H
Primary OEM command set
15H
16H
2AH
2CH
0000H
0000H
Address for Primary Extended Table
17H
18H
2EH
30H
0000H
0000H
Alternate OEM command set (00H = none exits)
19H
1AH
32H
34H
0000H
0000H
Address for Alternate OEM extended Table (00H - none exits)
T6.0 1252
1. Refer to CFI publication 100 for more details.
2. In x8 mode only the lower byte of data is output.
TABLE 7: SYSTEM INTERFACE INFORMATION
Address
x16 Mode
Address
x8 Mode Data1
1. In x8 mode, only the lower byte of data is output.
Description
1BH 36H 0027H VDD Min (Program/Erase)
DQ7-DQ4: Volts, DQ3-DQ0: 100 Millivolts
1CH 38H 0036H VDD Max (Program/Erase)
DQ7-DQ4: Volts, DQ3-DQ0: 100 Millivolts
1DH 3AH 0000H VDD Min (00H = No VDD pin)
1EH 3CH 0000H VDD Max (00H = No VDD pin)
1FH 3EHh 0004H Typical time out for Program 2N µs (24 = 16 µs)
20H 40H 0000H Typical time out for min size buffer program 2N µs (00H = not supported)
21H 42H 0004H Typical time out for individual Sector-/Block-Erase 2N ms (2N = 16 ms)
22H 44H 0006H Typical time out for Chip-Erase 2N ms (26 = 64 ms)
23H 46H 0001H Maximum time out for Program 2N time typical (21 x 24 - 32 µs)
24H 48H 0000H Maximum time out for buffer program 2N time typical
25H 4AH 0001H Maximum time out for individual Sector-Block-Erase 2N time typical (21 x 24 - 32 ms)
26H 4CH 0001H Maximum time out for individual Chip-Erase 2N time typical (21 x 26 - 128 ms)
T7.0 1252
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
15
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 8: SYSTEM INTERFACE INFORMATION
Address
x16 Mode
Address
x8 Mode Data1Description
27H 4EH 0015H Device size = 2N Bytes (15H = 21; 221 = 2 MByte)
28H
29H
50H
52H
0002H
0000H
Flash Device Interface description; 0002H = x8/x16 asynchronous interface
2AH
2BH
54H
56H
00000H
0000H
Maximum number of bytes in multi-byte write = 2N (00H = not supported)
2CH 58H 0002H Number of Erase Sector/Block sizes supported by device
2DH
2EH
2FH
30H
5AH
5CH
5EH
60H
00FFH
0001H
0010H
0000H
Sector Information (y + 1 = Number of sectors; z x 256B = sector size)
y = 511 + 1 = 512 sectors (01FFH = 512)
z = 16 x 256 Bytes = 4 KByte/sector (0010H = 16)
31H
32H
33H
34H
62H
64H
66H
68H
001FH
0000H
0000H
0001H
Block Information (y + 1 = Number of blocks; z x 256B = block size)
y = 31 + 1 = 32 blocks (001FH = 31)
z = 256 x 256 Bytes = 64 KByte/block (0100H = 256)
T8.0 1252
1. In x8 mode, only the lower byte of data is output.
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16
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
ELECTRICAL CHARACTERISTICS
Absolute Maximum Stress Ratings (Applied conditions greater than those listed under “Absolute Maximum
Stress Ratings” may cause permanent damage to the device. This is a stress rating only and functional operation
of the device at these conditions or conditions greater than those defined in the operational sections of this data
sheet is not implied. Exposure to absolute maximum stress rating conditions may affect device reliability.)
Operating Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -20°C to +85°C
Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65°C to +125°C
D. C. Voltage on Any Pin to Ground Potential . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.5V to VDD1+0.3V
1. VDD = VDDF and VDDS
Transient Voltage (<20 ns) on Any Pin to Ground Potential . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -1.0V to VDD1+1.0V
Package Power Dissipation Capability (TA = 25°C) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.0W
Surface Mount Solder Reflow Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260°C for 10 seconds
Output Short Circuit Current2. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50 mA
2. Outputs shorted for no more than one second. No more than one output shorted at a time.
Operating Range
Range Ambient Temp VDD
Extended -20°C to +85°C 2.7-3.3V
AC Conditions of Test
Input Rise/Fall Time . . . . . . . . . . . . . . 5 ns
Output Load . . . . . . . . . . . . . . . . . . . . CL = 30 pF
See Figures 22 and 23
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
17
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
DC Characteristics
TABLE 9: DC Operating Characteristics (VDD = VDDF and VDDS = 2.7-3.3V)
Symbol Parameter
Limits
Test ConditionsMin Max Units
IDD1Active VDD Current Address input = VILT/VIHT, at f=5 MHz,
VDD=VDD Max, all DQs open
Read OE#=VIL, WE#=VIH
Flash 35 mA BEF#=VIL, BES1#=VIH, or BES2=VIL
PSRAM 30 mA BEF#=VIH, BES1#=VIL , BES2=VIH
Concurrent Operation 60 mA BEF#=VIH, BES1#=VIL , BES2=VIH
Write2WE#=VIL
Flash 40 mA BEF#=VIL, BES1#=VIH, or BES2=VIL, OE#=VIH
PSRAM 30 mA BEF#=VIH, BES1#=VIL , BES2=VIH
ISB Standby VDD Current 115 µA VDD = VDD Max, BEF#=BES1#=VIHC, BES2=VILC
IRT Reset VDD Current 30 µA RST#=GND
ILI Input Leakage Current 1 µA VIN=GND to VDD, VDD=VDD Max
ILIW Input Leakage Current
on WP# pin and RST# pin
10 µA WP#=GND to VDD, VDD=VDD Max
RST#=GND to VDD, VDD=VDD Max
ILO Output Leakage Current 10 µA VOUT=GND to VDD, VDD=VDD Max
VIL Input Low Voltage 0.8 V VDD=VDD Min
VILC Input Low Voltage (CMOS) 0.3 V VDD=VDD Max
VIH Input High Voltage 0.7 VDD VV
DD=VDD Max
VIHC Input High Voltage (CMOS) VDD-0.3 V VDD=VDD Max
VOLF Flash Output Low Voltage 0.2 V IOL=100 µA, VDD=VDD Min
VOHF Flash Output High Voltage VDD-0.2 V IOH=-100 µA, VDD=VDD Min
VOLP PSRAM Output Low Voltage 0.4 V IOL =1 mA, VDD=VDD Min
VOHP PSRAM Output High Voltage 2.2 V IOH =-500 µA, VDD=VDD Min
T9.1 1336
1. Address input = VILT/VIHT, VDD=VDD Max (See Figure 22)
2. IDD active while Erase or Program is in progress.
TABLE 10: Recommended System Power-up Timings
Symbol Parameter Minimum Units
TPU-READ1
1. This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
Power-up to Read Operation 100 µs
TPU-WRITE1Power-up to Write Operation 100 µs
T10.0 1336
TABLE 11: Capacitance (TA = 25°C, f=1 Mhz, other pins open)
Parameter Description Test Condition Maximum
CI/O1
1. This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
I/O Pin Capacitance VI/O = 0V 20 pF
CIN1Input Capacitance VIN = 0V 16 pF
T11.0 1336
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18
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
AC Characteristics
TABLE 12: Flash Reliability Characteristics
Symbol Parameter Minimum Specification Units Test Method
NEND1Endurance 10,000 Cycles JEDEC Standard A117
TDR1Data Retention 100 Years JEDEC Standard A103
ILTH1Latch Up 100 + IDD mA JEDEC Standard 78
T12.0 1336
1. This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
TABLE 13: PSRAM Read Cycle Timing Parameters
Min Max Units
TRCS Read Cycle Time 70 ns
TAAS Address Access Time 70 ns
TBES Bank Enable Access Time 70 ns
TOES Output Enable Access Time 35 ns
TBYES UBS#, LBS# Access Time 70 ns
TBLZS1
1. This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
BES# to Active Output 0 ns
TOLZS1Output Enable to Active Output 0 ns
TBYLZS1UBS#, LBS# to Active Output 0 ns
TBHZS1BES# to High-Z Output 25 ns
TOHZS1Output Disable to High-Z Output 25 ns
TBYHZS1UBS#, LBS# to High-Z Output 35 ns
TOHS Output Hold from Address Change 10 ns
T13.0 1336
TABLE 14: PSRAM Write Cycle Timing Parameters
Symbol Parameter Min Max Units
TWCS Write Cycle Time 70 ns
TBWS Bank Enable to End-of-Write 60 ns
TAWS Address Valid to End-of-Write 60 ns
TASTS Address Set-up Time 0 ns
TWPS Write Pulse Width 60 ns
TWRS Write Recovery Time 0 ns
TBYWS UBS#, LBS# to End-of-Write 50 ns
TODWS Output Disable from WE# Low 30 ns
TOEWS Output Enable from WE# High 0 ns
TDSS Data Set-up Time 30 ns
TDHS Data Hold from Write Time 0 ns
T14.0 1336
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
19
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
TABLE 15: Flash Read Cycle Timing Parameters VDD = 2.7-3.3V
Symbol Parameter Min Max Units
TRC Read Cycle Time 70 ns
TCE Chip Enable Access Time 70 ns
TAA Address Access Time 70 ns
TOE Output Enable Access Time 35 ns
TCLZ1BEF# Low to Active Output 0 ns
TOLZ1OE# Low to Active Output 0 ns
TCHZ1BEF# High to High-Z Output 20 ns
TOHZ1OE# High to High-Z Output 20 ns
TOH1Output Hold from Address Change 0 ns
TRP1RST# Pulse Width 500 ns
TRHR1RST# High Before Read 50 ns
TRY1,2 RST# Pin Low to Read 20 µs
T15.0 1336
1. This parameter is measured only for initial qualification and after the design or process change that could affect this parameter.
2. This parameter applies to Sector-Erase, Block-Erase and Program operations. This parameter does not apply to Chip-Erase.
TABLE 16: Flash Program/Erase Cycle Timing Parameters
Symbol Parameter Min Max Units
TBP Program Time 10 µs
TAS Address Setup Time 0 ns
TAH Address Hold Time 40 ns
TCS WE# and BEF# Setup Time 0 ns
TCH WE# and BEF# Hold Time 0 ns
TOES OE# High Setup Time 0 ns
TOEH OE# High Hold Time 10 ns
TCP BEF# Pulse Width 40 ns
TWP WE# Pulse Width 40 ns
TWPH1
1. This parameter is measured only for initial qualification and after a design or process change that could affect this parameter.
WE# Pulse Width High 30 ns
TCPH1 BEF# Pulse Width High 30 ns
TDS Data Setup Time 30 ns
TDH1Data Hold Time 0 ns
TIDA1Software ID Access and Exit Time 150 ns
TES Erase-Suspend Latency 10 µs
TBY1,2
2. This parameter applies to Sector-Erase, Block-Erase, and Program operations.
This parameter does not apply to Chip-Erase operations.
RY/BY# Delay Time 90 ns
TBR1Bus# Recovery Time s
TSE Sector-Erase 25 ms
TBE Block-Erase 25 ms
TSCE Chip-Erase 50 ms
T16.1 1336
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20
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 6: PSRAM Read Cycle Timing Diagram
FIGURE 7: PSRAM Write Cycle Timing Diagram (WE# Controlled)1
ADDRESSES
AMSS-0
DQ15-0
UBS#, LBS#
OE#
BES1#
BES2
TRCS
TAAS
TBES
TOES
TBLZS
TOLZS
TBYES
TBYLZS TBYHZS
DATA VALID
TOHZS
TBHZS
TOHS
1336 F04.0
TBES
Note: AMSS = Most Significant Address
AMSS = A17 for SST34HF1641J, and A18 for SST34HF1681J
TAWS
ADDRESSES AMSS3-0
BES1#
BES2
WE#
UBS#, LBS#
TWPS TWRS
TWCS
TASTS
TBWS
TBWS
TBYWS
TODWS TOEWS
TDSS TDHS
1336 F05.0
NOTE 2
NOTE 2
DQ15-8, DQ7-0 VALID DATA IN
Note: 1. If OE# is High during the Write cycle, the outputs will remain at high impedance.
2. If BES1# goes Low or BES2 goes high coincident with or after WE# goes Low, the output will remain at high impedance.
If BES1# goes High or BES2 goes low coincident with or before WE# goes High, the output will remain at high impedance.
Because DIN signals may be in the output state at this time, input signals of reverse polarity must not be applied.
3. AMSS = Most Significant PSRAM Address
AMSS = A17 for SST34HF1641J, and A18 for SST34HF1681J
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
21
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 8: PSRAM Write Cycle Timing Diagram (UBS#, LBS# Controlled)1 x16 PSRAM ONLY
ADDRESSES AMSS3-0
WE#
BES1#
BES2
TBWS
TBWS
TAWS
TWCS
TWPS TWRS
TASTS TBYWS
DQ15-8, DQ7-0 VALID DATA IN
TDSS TDHS
UBS#, LBS#
1336 F06.0
NOTE 2 NOTE 2
Note: 1. If OE# is High during the Write cycle, the outputs will remain at high impedance.
2. Because DIN signals may be in the output state at this time, input signals of reverse polarity must not be applied.
3. AMSS = Most Significant PSRAM Address
AMSS = A17 for SST34HF1641J, and A18 for SST34HF1681J
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22
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 9: Flash Read Cycle Timing Diagram for Word Mode
(For Byte Mode A-1 = Address Input)
FIGURE 10: Flash WE# Controlled Program Cycle Timing Diagram for Word Mode
(For Byte Mode A-1 = Address Input)
1336 F07.0
ADDRESS A19-0
DQ15-0
WE#
OE#
BEF#
TCE
TRC TAA
TOE
TOLZ
VIH
HIGH-Z TCLZ TOH
TCHZ
HIGH-Z
DATA VALIDDATA VALID
TOHZ
1336 F08.0
ADDRESS A19-0
DQ15-0
TDH
TWPH
TDS
TWP
TAH
TAS
TCH
TCS?TBY
BEF#
RY/BY#
555 2AA 555 ADDR
XXAA XX55 XXA0 DATA
WORD
(ADDR/DATA)
OE#
WE#
TBR
TBP
Note: X can be VIL or VIH, but no other value.
VALID
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
23
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 11: Flash BEF# Controlled Program Cycle Timing Diagram for Word Mode
(For Byte Mode A-1 = Address Input)
FIGURE 12: Flash Data# Polling Timing Diagram for Word Mode
(For Byte Mode A-1 = Address Input)
VALID
1336 F09.0
ADDRESS A19-0
DQ15-0
TDH
T
CPH
TDS
TCP
TAH
TAS
TCH
TCS?
WE#
555 2AA 555 ADDR
XXAA XX55 XXA0 DATA
WORD
(ADDR/DATA)
OE#
BEF#
TBP
TBY
RY/BY# TBR
Note: X can be VIL or VIH, but no other value.
1336 F10.0
ADDRESS A19-0
DQ7DATA DATA# DATA# DATA
WE#
OE#
BEF#
TOEH
TOE
TCE
TOES
RY/BY#
TBY
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24
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 13: Flash Toggle Bit Timing Diagram for Word Mode
(For Byte Mode A-1 = Don’t Care)
FIGURE 14: Flash WE# Controlled Chip-Erase Timing Diagram for Word Mode
(For Byte Mode A-1 = Don’t Care)
1336 F11.0
ADDRESS A19-0
DQ6
WE#
OE#
BEF#
TOE
TOEH
TCE
TWO READ CYCLES
WITH SAME OUTPUTS
VALID DATA
TBR
VALID
TBR
1336 F12.0
ADDRESS A19-0
DQ15-0
WE#
555 2AA 2AA555 555
XX55 XX10XX55XXAA XX80 XXAA
555
OE#
BEF#
SIX-BYTE CODE FOR CHIP-ERASE
TSCE
TWP
TBY
RY/BY#
Note: This device also supports BEF# controlled Chip-Erase operation.
The WE# and BEF# signals are interchangeable as long as minimum timings are met. (See Table 16.)
X can be VIL or VIH, but no other value.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
25
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 15: Flash WE# Controlled Block-Erase Timing Diagram for Word Mode
(For Byte Mode A-1 = Don’t Care)
FIGURE 16: Flash WE# Controlled Sector-Erase Timing Diagram for Word Mode
(For Byte Mode A-1 = Don’t Care)
1336 F13.0
ADDRESS
A19-0
DQ15-0
WE#
555 2AA 2AA555 555
XX55 XX50XX55XXAA XX80 XXAA
BAX
OE#
BEF#
SIX-BYTE CODE FOR BLOCK-ERASE
TWP
TBY
RY/BY#
VALID
TBR
TBE
Note: This device also supports BEF# controlled Block-Erase operation.
The WE# and BEF# signals are interchangeable as long as minimum timings are met. (See Table 16.)
BAX = Block Address
X can be VIL or VIH, but no other value.
1336 F14.0
ADDRESS
A
19-0
DQ
15-0
WE#
555 2AA 2AA555 555
XX55 XX30XX55XXAA XX80 XXAA
SA
X
OE#
BEF#
SIX-BYTE CODE FOR SECTOR-ERASE
T
WP
T
BY
RY/BY#
VALID
T
BR
T
SE
Note: This device also supports BEF# controlled Sector-Erase operation.
The WE# and BEF# signals are interchangeable as long as minimum timings are met. (See Table 16.)
SAX = Sector Address
X can be VIL or VIH, but no other value.
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26
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 17: Flash Software ID Entry and Read for Word Mode
(For Byte Mode A-1 = 0)
FIGURE 18: CEI Entry and Read
1336 F15.0
ADDRESS A14-0
TIDA
DQ15-0
WE#
555 2AA 555 0000 0001
OE#
BEF#
Three-Byte Sequence For Software ID Entry
TWP
TWPH TAA
00BF Device ID
XX55XXAA XX90
Note: X can be VIL or VIH, but no other value.
Device ID - 734BH for SST34HF1641J/1681J
1336 F26.0
ADDRESSES
TIDA
DQ15-0
WE#
555 2AA 555
OE#
CE#
THREE-BYTE SEQUENCE FOR
CFI QUERY ENTRY
TWP
TWPH TAA
XX55XXAA XX98
Note: X can be VIL or VIH, but no other value.
Note: X can be VIL or VIH, but no other value.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
27
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 19: Flash Software ID Exit/CEI Exit for Word Mode
(For Byte Mode A-1 = 0)
1336 F16.0
ADDRESS A14-0
DQ15-0
TIDA
TWP
TWHP
WE#
555 2AA 555
Three-Byte Sequence for Software ID Exit and Reset
OE#
BEF#
XXAA XX55 XXF0
Note: X can be VIL or VIH, but no other value
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28
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 20: RST Timing (when no internal operations in progress)
FIGURE 21: RST# Timing (during Sector- or Block-Erase operation)
1336 F17.0
RY/BY#
0V
RST#
BEF#/OE#
TRP
TRHR
1336 F18.0
RY/BY#
BEF#
OE#
TRP
TRY
TBR
RST#
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
29
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 22: AC Input/Output Reference Waveforms
FIGURE 23: A Test Load Example
1336 F19.0
REFERENCE POINTS OUTPUTINPUT? V
IT
V
IHT
V
ILT
V
OT
AC test inputs are driven at VIHT (0.9 VDD) for a logic “1” and VILT (0.1 VDD) for a logic “0”. Measurement reference points
for inputs and outputs are VIT (0.5 VDD) and VOT (0.5 VDD). Input rise and fall times (10% 90%) are <5 ns.
Note: VIT - VINPUT Te s t
VOT - VOUTPUT Tes t
VIHT - VINPUT HIGH Test
VILT - VINPUT LOW Test
1336 F20.0
TO TESTER
TO DUT
CL
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30
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 24: Program Algorithm
1336 F21.0
Start
Load data: XXAAH
Address: 555H
Load data: XX55H
Address: 2AAH
Load data: XXA0H
Address: 555H
Load
Address/Data
Wait for end of
Program (TBP,?
Data# Polling
bit, or Toggle bit
operation)
Program
Completed
Note: X can be V
IL
or
V
IH
, but no other value.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
31
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 25: Wait Options
1336 F22.0
Wait TBP,
TSCE, TSE
or TBE
Program/Erase
Initiated
Internal Timer Toggle Bit
Ye s
Ye s
No
No
Program/Erase
Completed
Does DQ6
match?
Read same
byte/word
Data# Polling
Program/Erase
Completed
Program/Erase
Completed
Read
byte/word
Is DQ7 =
true data?
Read DQ7
Program/Erase
Initiated
Program/Erase
Initiated
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32
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 26: Software Product ID/CFI/Sec ID Command Flowcharts
1336 F23.0
Load data: XXAAH
Address: 555H
Software Product ID Entry
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX90H
Address: 555H
Wait TIDA
Read Software ID
Load data: XXAAH
Address: 555H
CFI Query Entry
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX98H
Address: 555H
Wait TIDA
Read CFI data
Load data: XXAAH
Address: 555H
Sec ID Query Entry
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX88H
Address: 555H
Wait TIDA
Read Sec ID
X can be VIL or VIH, but no other value
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
33
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 27: Software Sec ID/CFI/ Exit/Sec ID Exit Command Flowcharts
1336 F24.0
Load data: XXAAH
Address: 555H
Software ID Exit/CFI Exit/Sec ID Exit
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XXF0H
Address: 555H
Load data: XXF0H
Address: XXH
Return to normal
operation
Wait TIDA
Wait TIDA
Return to normal
operation
X can be VIL or VIH, but no other value
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34
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 28: Erase Command Sequence
1336 F25.0
Load data: XXAAH
Address: 555H
Chip-Erase
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX80H
Address: 555H
Load data: XX55H
Address: 2AAH
Load data: XX10H
Address: 555H
Load data: XXAAH
Address: 555H
Wait TSCE
Chip erased
to FFFFH
Load data: XXAAH
Address: 555H
Sector-Erase
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX80H
Address: 555H
Load data: XX55H
Address: 2AAH
Load data: XX30H
Address: SAX
Load data: XXAAH
Address: 555H
Wait TSE
Sector erased
to FFFFH
Load data: XXAAH
Address: 555H
Block-Erase
Command Sequence
Load data: XX55H
Address: 2AAH
Load data: XX80H
Address: 555H
Load data: XX55H
Address: 2AAH
Load data: XX50H
Address: BAX
Load data: XXAAH
Address: 555H
Wait TBE
Block erased
to FFFFH
Note: X can be VIL or VIH, but no other value.
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
35
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
PRODUCT ORDERING INFORMATION
Valid combinations for SST34HF1641J
SST34HF1641J-70-4E-L1PE SST34HF1641J-70-4E-LSE
Valid combinations for SST34HF1681J
SST34HF1681J-70-4E-L1PE SST34HF1681J-70-4E-LSE
Note: Valid combinations are those products in mass production or will be in mass production. Consult your SST sales
representative to confirm availability of valid combinations and to determine availability of new combinations.
Package Attribute
E1 = non-Pb
Package Modifier
P = 56 balls
S = 62 balls
Package Type
L1 = LFBGA (8mm x 10mm x 1.4mm, 0.45mm ball size)
L = LFBGA (8mm x 10mm x 1.4mm, 0.40mm ball size)
Temperature Range
E = Extended = -20°C to +85°C
Minimum Endurance
4 =10,000 cycles
Read Access Speed
70 = 70 ns
Version
J = x16 Mbit PSRAM
Boot Block Protection
1 = Bottom Boot Block
PSRAM Density
4 = 4 Mbit
8 = 8 Mbit
Flash Density
16 = 16 Mbit
Voltage
H = 2.7-3.3V
Product Series
34 = Concurrent SuperFlash +
PSRAM ComboMemory
1. Environmental suffix “E” denotes non-Pb solder.
SST non-Pb solder devices are “RoHS Compliant”.
Device Speed Suffix1 Suffix2
SST34HF16x1X- XXX -XX-XXXX
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36
EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
PACKAGING DIAGRAMS
FIGURE 29: 56-Ball Low-Profile, Fine-Pitch Ball Grid Array (LFBGA) 8mm x 10mm
SST Package Code: L1PE
H G F E D C B A
A B C D E F G H
SIDE VIEW
8
7
6
5
4
3
2
1
SEATING PLANE
0.35 ± 0.05
1.30 ± 0.10
0.12
0.45 ± 0.05
(56X)
0.80
5.60
0.80
5.60
56-lfbga-L1P-8x10-450mic-4
Note: 1. Although many dimensions are similar to those of JEDEC Publication 95, MO-210, this specific package is not registered.
2. All linear dimensions are in millimeters.
3. Coplanarity: 0.12 mm
4. Ball opening size is 0.38 mm (± 0.05 mm)
8
7
6
5
4
3
2
1
1mm
A1 CORNER
BOTTOM VIEWTOP VIEW
8.00 ± 0.20
A1 CORNER
10.00 ± 0.20
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EOL Data Sheet
16 Mbit Concurrent SuperFlash + 4/8 Mbit PSRAM ComboMemory
SST34HF1641J / SST34HF1681J
37
©2007 Silicon Storage Technology, Inc. S71336-02-EOL 9/09
FIGURE 30: 62-Ball Low-Profile, Fine-Pitch Ball Grid Array (LFBGA) 8mm x 10mm
SST Package Code: LSE
TABLE 17: Revision History
Number Description Date
00 Initial Release of PSRAM pulled from S71252 Aug 2006
01 Changed ‘Program Time: 7 µs’ to ‘Word-Program Time: 7 µs’ on page 1, Features
Edited Product Description on page 1
Aug 2007
02 End of life all valid combinations Sep 2009
A1 CORNER
K J H G F E D C B A
A B C D E F G H J K
BOTTOM VIEWTOP VIEW
8
7
6
5
4
3
2
1
8.00 ± 0.20
0.40 ± 0.05
(62X)
A1 CORNER
10.00 ± 0.20
0.80
5.60
0.80
7.20
62-lfbga-LS-8x10-400mic-4
Note: 1. Although many dimensions are similar to those of JEDEC Publication 95, MO-210, this specific package is not registered.
2. All linear dimensions are in millimeters.
3. Coplanarity: 0.12 mm
4. Ball opening size is 0.32 mm (± 0.05 mm)
8
7
6
5
4
3
2
1
1mm
SIDE VIEW
SEATING PLANE 0.32 ± 0.05
1.30 ± 0.10
0.12
Silicon Storage Technology, Inc. • 1171 Sonora Court • Sunnyvale, CA 94086 • Telephone 408-735-9110 • Fax 408-735-9036
www.SuperFlash.com or www.sst.com
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