©2013 Silicon Storage Technology, Inc. DS25022B 04/13
Data Sheet
www.microchip.com
1 Mbit / 2 Mbit / 4 Mbit (x8) Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Features
Org anized as 128K x8 / 256K x8 / 512K x8
Single 4.5-5.5V Read and Write Operations
Superior Reliability
Endurance: 100,000 Cycles (typical)
Greater than 100 years Data Retention
Low Power Consumption
(typical values at 14 MHz)
Active Current: 10 mA (typical)
Standby Current: 30 µA (typical)
Sector-Erase Capability
Uniform 4 KByte sectors
Fast Read Access Time:
55 ns
70 ns
Latched Address and Data
Automatic Write Timing
Internal VPP Gener ation
Fast Erase and Byte-Pr ogram
Sector-Erase Time: 18 ms (typical)
Chip-Erase Time: 70 ms (typical)
Byte-Program Time: 14 µs (typical)
Chip Rewrite Time:
2 seconds (typical) for SST39SF010A
4 seconds (typical) for SST39SF020A
8 seconds (typical) for SST39SF040
End-of-Write Detection
Toggle Bit
Data# Polling
TTL I/O Compatibility
JEDEC Standard
Flash EEPROM Pinouts and command sets
Packages Available
32-lead PLCC
32-lead TSOP (8mm x 14mm)
32-pin PDIP
All devices are RoHS compliant
The SST39SF010A / SST39SF020A / SST39SF040 are CMOS Multi-Purpose
Flash (MPF) devices manufactured with SST proprietary, high performance
CMOS SuperFlash technology. The split-gate cell design and thick oxide tunnel-
ing injector attain better reliability and manufacturability compared with alternate
approaches. The SST39SF010A / SST39SF0 20A / SST39SF040 write (Program
or Erase) with a 4.5-5.5V power supply, and conforms to JEDEC st andard pinouts
for x8 memories
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
2
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Product Description
The SST39SF010A/020A/040 are CMOS Multi-Purpose Flash (MPF) manufactured with SST’s propri-
etary, high performance CMOS SuperFlash technology. The split-gate cell design and thick oxide tun-
neling injector attain better reliability and manufacturability compared with alter nate approaches. The
SST39SF010A/020A/040 devices write (Program or Erase) with a 4.5-5.5V power supply. The
SST39SF010A/020A/ 040 devices conform to JEDEC standard pinouts for x8 memories.
Featur ing high performance Byte-Program, the SST39SF010A/0 20A/040 devices provide a maximum
Byte-Program time of 20 µsec. These devices use Toggle Bit or Data# Polling to indicate the comple-
tion of Program operation. To protect against inadver tent write, they have on-chip hardware and Soft-
ware Data Protection schemes. Designed, manufactured, and tested for a wide spectrum of
applications, these devices are offered with a guaranteed typical endurance of 100,000 cycles. Data
retention is rated at greater than 100 years.
The SST39SF010A/020A/040 devices are suited for applications that require convenient and econom-
ical updating of program, configuration, or data memory. For all system applications, they significantly
improve performance and reliability, while lowering power consumption. They inherently use less
energy during erase and program than alternative flash technologies. The total energy consumed is a
function of the applied voltage, current, and time of application. Since for any given voltage range, the
SuperFlash technology uses less current to program and has a shorter erase time, the total energy
consumed during any Erase or Program operation is less than alternative flash technologies. These
devices also improve flexibility while lowering the cost for program, data, and configuration storage
applications.
The SuperFlash technology provides fixed Erase and Program 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 Pro-
gram times increase with accumulated Erase/Pro gram cycles.
To meet high density, surf a ce mount requir ements, the SST39SF010A/020A/040 are o ffered in 32-lead
PLCC and 32-lead TSOP packages. A 600 mil, 32-pin PDIP is also available. See Figures 2, 3, and 4
for pin assignments.
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Block Diagram
Figure 1: Functional Block Diagram
Y-Decoder
I/O Buffers and Data Latches
1147 B1.2
Address Buffers & Latches
X-Decoder
DQ7 - DQ0
Memory Address
OE#
CE#
WE#
SuperFlash
Memory
Control Logic
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Pin Assignment
Figure 2: Pin Assignments for 32-lead PLCC
SST39SF010A
SST39SF010A
SST39SF010A
SST39SF010A
5
6
7
8
9
10
11
12
13
29
28
27
26
25
24
23
22
21
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
SST39SF020ASST39SF040
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
SST39SF020A SST39SF040
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
4 3 2 1 32 31 30
A12
A15
A16
NC
VDD
WE#
NC
SST39SF020A SST39SF040
A12
A15
A16
NC
VDD
WE#
A17
A12
A15
A16
A18
VDD
WE#
A17
32-lead PLCC
Top View
1147 32-plcc P2.4
14 15 16 17 18 19 20
DQ1
DQ2
VSS
DQ3
DQ4
DQ5
DQ6
SST39SF020ASST39SF040
DQ1
DQ2
VSS
DQ3
DQ4
DQ5
DQ6
DQ1
DQ2
VSS
DQ3
DQ4
DQ5
DQ6
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
5
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 3: Pin Assignments for 32-lead TSOP (8mm x 14mm)
Figure 4: Pin Assignments for 32-pin PDIP
A11
A9
A8
A13
A14
NC
WE#
VDD
NC
A16
A15
A12
A7
A6
A5
A4
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
VSS
DQ2
DQ1
DQ0
A0
A1
A2
A3
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
1147 32-tsop P1.1
Standard Pinout
Top View
Die Up
SST39SF010A
A11
A9
A8
A13
A14
A17
WE#
VDD
NC
A16
A15
A12
A7
A6
A5
A4
A11
A9
A8
A13
A14
A17
WE#
VDD
A18
A16
A15
A12
A7
A6
A5
A4
SST39SF020ASST39SF040 SST39SF010A
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
VSS
DQ2
DQ1
DQ0
A0
A1
A2
A3
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
VSS
DQ2
DQ1
DQ0
A0
A1
A2
A3
SST39SF020A SST39SF040
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
32-pin
PDIP
Top View
1147 32-pdip P3.2
NC
A16
A15
A12
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
DQ1
DQ2
VSS
SST39SF010A
NC
A16
A15
A12
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
DQ1
DQ2
VSS
SST39SF020A
A18
A16
A15
A12
A7
A6
A5
A4
A3
A2
A1
A0
DQ0
DQ1
DQ2
VSS
SST39SF040
SST39SF010A
32
31
30
29
28
27
26
25
24
23
22
21
20
19
18
17
VDD
WE#
NC
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
SST39SF020A SST39SF040
VDD
WE#
A17
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
VDD
WE#
A17
A14
A13
A8
A9
A11
OE#
A10
CE#
DQ7
DQ6
DQ5
DQ4
DQ3
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Table 1: Pin Descr iption
Symbol Pin Name Functions
AMS1-A0Address Inputs To provide memory addresses.
During Sector-Erase AMS-A12 address lines will sele ct the sector.
DQ7-DQ0Data Input/output To output data during Read cycles and receive input data during Write cycles.
Data is internally latched during a Write cycle.
The outputs are in tri-state when OE# or CE# is high.
CE# Chip Enable To activate the device when CE# is low.
OE# Output Enable To gate th e data output buffers.
WE# Write Enable To control the Write operations.
VDD Power Supply To provide 5.0V supply (4 .5-5.5V)
VSS Ground
NC No Connection Unconnected pins.
T1.2 25022
1. AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Device Operation
Commands are used to initiate the memor y operation functions of the device. Commands are written
to the de vice using standard micro processor write sequences. A command is written b y asserting WE#
low while keeping CE# low. The address bus is latched on the falling edge of WE# or CE#, whichever
occurs last. The data bus is latched on the rising edge of WE# or CE#, whichever occurs first.
Read
The Read operation of the SST39SF010A/020A/040 is controlled by CE# and OE#, both have to be
low f or the system to obtain data from the outputs . CE# is used f or device selection. When CE# is high,
the chip is deselected 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 CE# or OE# is
high. Refer to the Read cycle timing diagram (Figure 5) for further details.
Byte-Program Operation
The SST39SF010A/020A/040 are progr ammed on a byte-by-byte basis. Before programming, the sec-
tor where the byte exists must be fully erased. The Program operation is accom plished in three ste ps.
The first step is the three-byte load sequence for Software Data Protection. The second step is to load
byte address and byte data. During the Byte-Program operation, the addresses are latched on the fall-
ing edge of either CE# or WE#, whichever occurs last. The data is latched on the rising edge of either
CE# or WE#, whichever occurs first. The third step is the internal Program operation which is initiated
after the rising edge of the fourth WE# or CE#, whichever occurs first. The Program operation, once
initiated, will be completed, within 20 µs. See Figures 6 and 7 for WE# and CE# controlled Program
operation timing diagrams and Figure 16 for flowcharts. Dur ing the Program operation, the only valid
reads are Data# Polling and Toggle Bit. During the internal Program operation, the host is free to per-
form additional tasks. Any commands written during the internal Program operation will be ignored.
Sector-Erase Operation
The Sector-Erase operation allows the system to erase the device on a sector-by-sector basis. The
sector architecture is based on unifor m sector size of 4 KByte. The Sector-Erase operation is initiated
by executing a six-byte comma nd lo ad se qu e nc e for Software Data Prot ect ion wit h Se cto r -Erase c om -
mand (30H) and sector address (SA) in the last bus cycle. The sector address is latched on the falling
edge of the sixth WE# pulse, while the command (30H) is latched on the rising edge of the sixth WE#
pulse. The internal Erase operation begins after the sixth WE# pulse. The End-of-Erase can be deter-
mined using either Data# Polling or Toggle Bit methods. See Figure 10 for timing w aveforms. An y com-
mands written during the Sector-Erase operation will be ignored.
Chip-Erase Operation
The SST39SF010A/020A/040 provide Chip-Erase operation, which allows the user to erase the entire
memory array to the “1s” state. This is useful when the entire device must be quickly erased.
The Chip-Erase operation is initiated by executing a six- byte Software Data Protection command
sequence with Chip-Er ase command (10H) wit h address 5555H in t he last b yte sequence . The int ernal
Erase oper ation begins with the rising edge of the sixt h WE# or CE#, whiche v e r occurs first. During the
internal Erase operation, the only valid read is Toggle Bit or Data# Polling. See Table 4 for the com-
mand sequence, Figure 11 for timing diagram, and Figure 19 for the flowchar t. Any commands written
during the Chip-Erase operation will be ignored.
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Write Operation Status Detection
The SST39SF010A/020A/040 provide two software means to detect the completion of a Write (Pro-
gram or Er ase) cycle, in order to optimize the system Write cycle time. The softw are detection includes
two status bits: Data# Polling (DQ7) and Toggle Bit (DQ6). The En d-of -Write detectio n mode is en ab led
after the rising edge of WE# which initiate s the internal Progr am or Erase operation.
The actual completion of the nonvolatile write is asynchronous with the system; therefore, either a
Data# Polling or Toggle Bit 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.
Data# Polling (DQ7)
When the SST39SF010 A/020A/04 0 are in the internal Progr am oper ation, any att empt to read DQ7 will
produce the complement of the true data. Once the Program operation is completed, DQ7 will produce
true data. Note that even though DQ7 may have valid dat a immediately following the completion of an
internal Write operation, the remaining data outputs may still be invalid: valid data on the entire data
bus will appear in subsequent successive Read cycles after an interval of 1 µs. During inter nal 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 CE#) pulse for
Program operation. For Sector- or Chip-Erase, the Data# Polling is valid after the rising edge of sixth
WE# (or CE#) pulse. See Figure 8 for Data# Polling timing diagram and Figure 17 for a flowchart.
Toggle Bit (DQ6)
During the internal Program or Erase operation, any consecutive attempts to read DQ6 will produce
alternating 0s and 1s, i.e., toggling between 0 and 1. When the internal Program or Erase operation is
completed, the toggling will stop. The de vice is then ready f or the ne xt oper ation. The Toggle Bit is valid
after the rising edge of four th WE# (or CE#) pulse for Program operation. For Sector- or Chip-Erase,
the Toggle Bit is valid after the rising edge of sixth WE# (o r CE#) pulse. See Figure 9 for Toggle Bit tim-
ing diagram and Figure 17 for a flowchart.
Data Protection
The SST39SF010A/020A/040 provide both hardware and software features to protect nonvolatile data
from inadvertent writes.
Hardware Data Protection
Noise/Glitch Protection: A WE# or CE# 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 2.5V.
Write Inhibit Mode: Forcing OE# low, CE# high, or WE# high will inhibit the Write operation. This pre-
vents inadvertent writes during power-up or power-down .
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
9
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Software Data Protection (SDP)
The SST39SF010A/020A/040 provide the JEDEC approved Software Data Protection scheme for all
data alteration operations, i.e., Program and Erase. Any Program operation requires the inclusion of a
series of three-byte sequence. The th ree- byte load sequence is used to in itiat e the Pr ogram ope r at ion ,
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 load sequence. The
SST39SF010A/020A/040 devices are shipped with the Software Data Protection permanently
enabled. See Table 4 for the specific software command codes. During SDP command sequence,
invalid commands will abort the device to read mode, within TRC.
Product Identification
The Product Identification mode identifies the device as the SST39SF040, SST39SF010A, or
SST39SF020A and manufacturer as SST. This mode may be accessed by software operations. Users
may wish to 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, Table 4 for software operation,
Figure 12 for the software ID entry and read timing diagram and Figure 18 for the ID entry command
sequence flowchart.
Product Identification Mode Exit/Reset
In order to retu rn to the standard Read mode, t he Softwa re Product Identi fication mode m ust be e xited.
Exit is accomplished by issuing the Exit ID command sequence, which returns the device to the Read
operation. Please note that the software reset command is ignored during an internal Program or
Erase operation. See Table 4 for software command codes, Figure 13 for timing waveform and Figure
18 for a flowchart.
Table 2: Product Identification
Address Data
Manufacturer’s ID 0000H BFH
Device ID
SST39SF010A 0001H B5H
SST39SF020A 0001H B6H
SST39SF040 0001H B7H
T2.2 25022
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Operations
Table 3: Operation Modes Selection
Mode CE# OE# WE# DQ Address
Read VIL VIL VIH DOUT AIN
Program VIL VIH VIL DIN AIN
Erase VIL VIH VIL X1
1. X can be VIL or VIH, but no other value.
Sector address, XXH for Chip-Erase
Standby VIH X X High Z X
Write Inhibit X VIL X High Z/ DOUT X
XXV
IH High Z/ DOUT X
Product Identification
Software Mode VIL VIL VIH See Table 4
T3.3 25022
Table 4: 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
Addr
1
1. Address format A14-A0 (Hex), Addresses AMS-A15 can be VIL or VIH, but no other value, for the Command sequence.
AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
Data Addr
1
Data Addr
1
Data Addr
1
Data Addr
1
Data Addr
1
Data
Byte-Program 5555H AAH 2AAAH 55H 5555H A0H BA
2
2. BA = Program Byte address
Data
Sector-Erase 5555H AAH 2AAAH 55H 5555H 80H 5555H AAH 2AAAH 55H SA
X3
3. SAX for Sector-Erase; uses AMS-A12 address lines
30H
Chip-Erase 5555H AAH 2AAAH 55H 5555H 80H 5555H AAH 2AAAH 55H 5555H 10H
Softwa re ID Entry
4,5
4. The device does not remain in Software Product ID mode if powered down.
5. With AMS-A1 = 0; SST Manufacturer’s ID = BFH, is read with A0 = 0,
SST39SF010A Device ID = B5H, is read with A0 = 1
SST39SF020A Device ID = B6H, is read with A0 = 1
SST39SF040 Device ID = B7H, is read with A0 = 1
5555H AAH 2AAAH 55H 5555H 90H
Softwa re ID Exit
6
6. Both Software ID Exit operations are equivalent
XXH F0H
Softwa re ID Exit
6
5555H AAH 2AAAH 55H 5555H F0H
T4.2 25022
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
11
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Absolute Maximum Stress Ratings (Applied conditions greater than those listed under “Absolute
Maximum Stress Rat ings” ma y cause permanent damage to the de vice . This is a stress rating only and
functional operation of the device at these conditions or conditions greater than those defined in the
operational sectio ns of this data sheet is not implied. Exposu re to absolute maxim um stress rat ing con-
ditions may affect device reliability.)
Temperature Under Bias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -55°C to +125°C
Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -65°C to +150°C
D. C. Voltage on Any Pin to Ground Potential . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-0.5V to VDD+0.5V
Transient Voltage (<20 ns) on Any Pin to Ground Potential . . . . . . . . . . . . . . . . . . -2.0V to VDD+2.0V
Voltage on A9 Pin to Ground Potential . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.5V to 13.2V
Package Power Dissipation Capability (Ta = 25°C) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1.0W
Through Hold Lead Soldering Temperature (10 Seconds) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .300°C
Surface Mount Lead Soldering Temperature (3 Seconds) . . . . . . . . . . . . . . . . . . . . . . . . . . . . .240°C
Output Short Circuit Current1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 100 mA
1. Outputs shorted for no more than one second. No more than one output shorted at a time.
Table 5: Operating Range
Range Ambient Temp VDD
Commercial 0°C to +70°C 4.5-5.5V
Industrial -40°C to +85°C 4.5-5.5V
T5.1 25022
Table 6: AC Conditions of Test1
1. See Figures 14 and 15
Input Rise/Fall Time Output Load
5ns CL = 30 pF for 55 ns
CL = 100 pF for 70 ns
T6.1 25022
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
12
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Table 7: DC Operating Characteristics VDD = 4.5-5.5V1
Symbol Parameter
Limits
Test ConditionsMin Max Units
IDD Power Supply Current Address input=VILT/VIHT, at f=1/TRC Min
VDD=VDD Max
Read225 mA CE#=VIL, OE#=WE#=VIH, all I/Os open
Program and Erase 35 mA CE#=WE#=VIL, OE#=VIH
ISB1 Standby VDD Current
(TTL input) 3mACE#=V
IH, VDD=VDD Max
ISB2 Standby VDD Current
(CMOS input) 100 µA CE#=VIHC, VDD=VDD Max
ILI Input Leakage Current 1 µA VIN=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
VIH Input High Voltage 2.0 V VDD=VDD Max
VIHC Input High Voltage (CMOS) VDD-0.3 V VDD=VDD Max
VOL Output Low Voltage 0.4 V IOL=2.1 mA, VDD=VDD Min
VOH Output High Voltage 2.4 V IOH=-400 µA, VDD=VDD Min
T7.10 25022
1. Typical conditions for the Active Current shown on the front data sheet page are average values at 25°C
(room temperature), and VDD = 5V for SF devices. Not 100% tested.
2. Values are for 70 ns conditions. See the Multi-Purpose Flash Power Rating application note for further information.
Table 8: 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 Program/Er ase Operation 100 µs
T8.1 25022
Table 9: 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 12 pF
CIN1Input Capacitance VIN = 0V 6 pF
T9.0 25022
Table 10: Reliability Characteristics
Symbol Parameter Minimum Specification Units Test Method
NEND1,2
1. This parameter is measured only for initial qualification and after a design or process change that could aff ect this parameter.
2. NEND endurance rating is qualified as a 10,000 cycle minimum f or the whole de vice. A se ctor- or block-le v el rating would
result in a higher minimum specification.
Endurance 10,000 Cycles JEDEC Standard A117
TDR1Data Retention 100 Years JEDEC Standard A103
ILTH1Latch Up 100 + IDD mA JEDEC Standard 78
T10.2 25022
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
13
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
AC Characteristics
Table 11: Read Cycle Timing Parameters VDD = 4.5-5.5V
Symbol Parameter
SST39SF010A/020A/040-55 SST39SF010A/020A/040-70
UnitsMin Max Min Max
TRC Read Cycle Time 55 70 ns
TCE Chip Enable Access Time 55 70 ns
TAA Address Access Time 55 70 ns
TOE Output Enable Access Time 35 35 ns
TCLZ1
1. This parameter is measured only for initial qualification and after a design or process change that could affect this
parameter.
CE# Low to Active Output 0 0 ns
TOLZ1OE# Low to Active Output 0 0 ns
TCHZ1CE# High to High-Z Output 20 25 ns
TOHZ1OE# High to High-Z Output 2 0 25 ns
TOH1Output Hold from Address Change 0 0 ns
T11.4 25022
Table 12: Program/Erase Cycle Timing Parameters
Symbol Parameter Min Max Units
TBP Byte-Program Time 20 µs
TAS Address Setup Time 0 ns
TAH Address Hold Time 30 ns
TCS WE# and CE# Setup Time 0 ns
TCH WE# and CE# Hold Time 0 ns
TOES OE# High Setup Time 0 ns
TOEH OE# High Hold Time 10 ns
TCP CE# 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
TCPH1CE# Pulse Width High 30 ns
TDS Data Setup Time 40 ns
TDH1Data Hold Time 0 ns
TIDA1Software ID Access and Exit Time 150 ns
TSE Sector-Erase 25 ms
TSCE Chip-Erase 100 ms
T12.1 25022
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
14
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 5: Read Cycle Timing Diagram
Figure 6: WE# Controlled Program Cycle Timing Diagram
1147 F03.1
ADDRESS AMS-0
DQ7-0
WE#
OE#
CE#
TCE
TRC TAA
TOE
TOLZ
VIH
HIGH-Z
TCLZ TOH TCHZ HIGH-Z
DATA VALIDDATA VALID
TOHZ
Note: AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
1147 F04.1
ADDRESS AMS-0
DQ7-0
TDH
TWPH TDS
TWP
TAH
TAS
TCH
TCS
CE#
SW0 SW1 SW2
5555 2AAA 5555 ADDR
AA 55 A0 DATA
INTERNAL PROGRAM OPERATION STARTS
BYTE
(ADDR/DATA)
OE#
WE#
TBP
Note: AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
15
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 7: CE# Controlled Program Cycle Timing Diagram
Figure 8: Data# Polling Timing Diagram
1147 F05.1
ADDRESS AMS-0
DQ7-0
TDH
TCPH TDS
TCP
TAH
TAS
TCH
TCS
WE#
SW0 SW1 SW2
5555 2AAA 5555 ADDR
AA 55 A0 DATA
INTERNAL PROGRAM OPERATION STARTS
BYTE
(ADDR/DATA)
OE#
CE#
TBP
Note: AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
1147 F06.1
ADDRESS A
MS-0
DQ
7
DD# D# D
WE#
OE#
CE#
T
OEH
T
OE
T
CE
T
OES
Note: AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
16
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 9: Toggle Bit Timing Diagram
Figure 10: WE# Controlled Sector-Erase Timing Diagram
1147 F07.1
ADDRESS AMS-0
DQ6
WE#
OE#
CE#
TOE
TOEH
TCE
TOES
TWO READ CYCLES
WITH SAME OUTPUTS
Note
Note: Toggled bit output is always high first.
AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
1147 F08.1
ADDRESS AMS-0
DQ7-0
WE#
SW0 SW1 SW2 SW3 SW4 SW5
5555 2AAA 2AAA5555 5555
55 3055AA 80 AA
SAX
OE#
CE#
SIX-BYTE CODE FOR SECTOR-ERASE
TSE
TWP
Note: This device also supports CE# controlled Sector-Erase operation. The WE# and CE# signals are interchangeable
as long as minimum timings are met. (See Table 10)
SAXX = Sector Address
Toggled bit output is always high first.
AMS = Most significant address
AMS = A16 for SST39SF010A, A17 for SST39SF020A, and A18 for SST39SF040
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
17
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 11: WE# Controlled Chip-Erase Timing Diagram
Figure 12: Software ID Entry and Read
1147 F17.1
ADDRESS AMS-0
DQ7-0
WE#
SW0 SW1 SW2 SW3 SW4 SW5
5555 2AAA 2AAA5555 5555
55 1055AA 80 AA
5555
OE#
CE#
SIX-BYTE CODE FOR CHIP-ERASE
TSCE
TWP
Note: This device also supports CE# controlled Sector-Erase operation. The WE# and CE# signals are interchangeable
as long as minimum timings are met. (See Table 10)
SAXX = Sector Address
Toggled bit output is always high first.
AMS = Most significant address
1147 F09.2
ADDRESS A14-0
TIDA
DQ7-0
WE#
SW0 SW1 SW2
5555 2AAA 5555 0000 0001
OE#
CE#
Three-byte Sequence for
Software ID Entry
TWP
TWPH TAA
BF De vice ID55AA 90
Note: Device ID = B5H for SST39SF010A, B6H for SST39SF020A, and B7H for SST39SF040
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
18
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 13: Software ID Exit and Reset
Figure 14: AC Input/Output Reference Waveforms
Figure 15: A Test Load Example
1147 F10.0
ADDRESS A
14-0
DQ
7-0
T
IDA
T
WP
T
WHP
WE#
SW0 SW1 SW2
5555 2AAA 5555
THREE-BYTE SEQUENCE FOR
SOFTWARE ID EXIT AND RESET
OE#
CE#
AA 55 F0
1147 F11.1
REFERENCE POINTS OUTPUTINPUT
V
IT
V
IHT
V
ILT
V
OT
A C test in puts a re d riven at VIHT (3.0V) for a logic “1” and VILT (0V) fo r a logic “ 0”.
Measurement reference points f or inputs and outpu ts are VIT (1 .5V) an d V OT (1.5V). Input rise
and fall times (10% 90%) are <5 ns . Note: VIT - VINPUT Test
VOT - VOUTPUT Test
VIHT - VINPUT HIGH Test
VILT - VINPUT LOW Test
1147 F12.0
T O TESTER
TO DUT
CLRL LOW
RL HIGH
VDD
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
19
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 16: Byte-Program Algorithm
1147 F13.1
Start
Load data: AAH
Address: 5555H
Load data: 55H
Address: 2AAAH
Load data: A0H
Address: 5555H
Load Byte
Address/Byte
Data
Wait for end of
Program (TBP,
Data# Polling
bit, or Toggle bit
operation)
Program
Completed
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
20
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 17: Wait Options
1147 F14.0
W ait TBP,
TSCE, or TSE
Byte
Program/Erase
Initiated
Internal Timer Toggle Bit
Yes
Yes
No
No
Program/Erase
Completed
Does DQ6
match?
Read same
byte
Data# Polling
Program/Erase
Completed
Program/Erase
Completed
Read byte
Is DQ7 =
true data?
Read DQ7
Byte
Program/Erase
Initiated
Byte
Program/Erase
Initiated
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
21
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 18: Software Product Command Flowchar ts
1147 F15.1
Load data: AAH
Address: 5555H
Software Product ID Entry
Command Sequence
Load data: 55H
Address: 2AAAH
Load data: 90H
Address: 5555H
W ait TIDA
Read Software ID
Load data: AAH
Address: 5555H
Software Product ID Exit &
Reset Command Sequence
Load data: 55H
Address: 2AAAH
Load data: F0H
Address: 5555H
Load data: F0H
Address: XXH
Return to normal
operation
W ait TIDA
W ait TIDA
Return to normal
operation
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
22
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 19: Erase Command Sequence
1147 F16.1
Load data: AAH
Address: 5555H
Chip-Erase
Command Sequence
Load data: 55H
Address: 2AAAH
Load data: 80H
Address: 5555H
Load data: 55H
Address: 2AAAH
Load data: 10H
Address: 5555H
Load data: AAH
Address: 5555H
W ait TSCE
Chip erased
to FFH
Load data: AAH
Address: 5555H
Sector-Erase
Command Sequence
Load data: 55H
Address: 2AAAH
Load data: 80H
Address: 5555H
Load data: 55H
Address: 2AAAH
Load data: 30H
Address: SAX
Load data: AAH
Address: 5555H
W ait TSE
Sector erased
to FFH
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Product Ordering Information
SST 39 SF 010A - 70 - 4C - NHE
XX XX XXXX -XX-XX-XXX
Environmental Attribute
E1 = non-Pb
Package Modifier
H = 32 pins or leads
Package Type
N = PLCC
P = PDIP
W = TSOP (type 1, die up , 8mm x 14mm)
Temperature Range
C = Commercial = 0°C to +70°C
I = Industrial = -40°C to +85°C
Minimum Endurance
4 = 10,000 cycles
Read Access Speed
55 = 55 ns
70 = 70 ns
Version
A = Special Feature Version
Device Density
040 = 4 Mbit
020 = 2 Mbit
010 = 1 Mbit
Voltage
S = 4.5-5.5V
Product Series
39 = Multi-Purpose Flash
1. Environmental suffix “E” denotes non-Pb solder.
SST non-Pb solder devices are “RoHS Compli-
ant”.
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Note:Valid combinations are thos e products in mass production or will be in mass production. Consult your SST
sales representative to confirm availability of v alid combinations and to determine av ailability of new combi-
nations.
Valid combinations for SST39SF010A
SST39SF010A-55-4C-NHE SST39SF010A-55-4C-WHE
SST39SF010A-70-4C-NHE SST39SF010A-70-4C-WHE SST39SF010A-70-4C-PHE
SST39SF010A-55-4I-NHE SST39SF010A-55-4I-WHE
SST39SF010A-70-4I-NHE SST39SF010A-70-4I-WHE
Valid combinations for SST39SF020A
SST39SF020A-55-4C-NHE SST39SF020A-55-4C-WHE
SST39SF020A-70-4C-NHE SST39SF020A-70-4C-WHE SST39SF020A-70-4C-PHE
SST39SF020A-55-4I-NHE SST39SF020A-55-5I-WHE
SST39SF020A-70-4I-NHE SST39SF020A-70-4I-WHE
Valid combinations for SST39SF040
SST39SF040-55-4C-NHE SST39SF040-55-4C-WHE
SST39SF040-70-4C-NHE SST39SF040-70-4C-WHE SST39SF040-70-4C-PHE
SST39SF040-55-4I-NHE SST39SF040-55-4I-WHE
SST39SF040-70-4I-NHE SST39SF040-70-4I-WHE
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Packaging Diagrams
Figure 20: 32-lead Plastic Lead Chip Carrier (PLCC)
SST Package Code: NH
.040
.030
.021
.013 .530
.490
.095
.075
.140
.125
.032
.026
.032
.026
.029
.023
.453
.447
.553
.547
.595
.585
.495
.485 .112
.106
.042
.048
.048
.042
.015 Min.
T OP VIEW SIDE VIEW BO TT OM VIEW
1232
.400
BSC
32-plcc-NH-3
Note: 1. Complies with JEDEC publication 95 MS-016 AE dimensions, although some dimensions may be more stringent.
2. All linear dimensions are in inches (max/min).
3. Dimensions do not include mold flash. Maximum allowable mold flash is .008 inches.
4. Coplanarity: 4 mils.
.050
BSC
.050
BSC
Optional
Pin #1
Identifier .020 R.
MAX. R.
x 30°
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 21: 32-lead Thin Small Outline Package (TSOP) 8mm x 14mm
SST Package Code: WH
32-tsop-WH-7
Note: 1. Complies with JEDEC publication 95 MO-142 BA dimensions,
although some dimensions may be more stringent.
2. All linear dimensions are in millimeters (max/min).
3. Coplanarity: 0.1 mm
4. Maximum allowable mold flash is 0.15 mm at the package ends, and 0.25 mm between leads.
1.20
max.
1mm
Pin # 1 Identifier
12.50
12.30
14.20
13.80
0.70
0.50
8.10
7.90 0.27
0.17
0.50
BSC
1.05
0.95
0.15
0.05
0.70
0.50
0°- 5°
DETAIL
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
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1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Figure 22: 32-pin Plastic Dual In-line Pins (PDIP)
SST Package Code: PH
32-pdip-PH-3
Pin #1 Identifier
C
L
32
1
Base
Plane
Seating
Plane
Note: 1. Complies with JEDEC publication 95 MO-015 AP dimensions, although some dimensions may be more stringent.
2. All linear dimensions are in inches (max/min).
3. Dimensions do not include mold flash. Maximum allowable mold flash is .010 inches.
.200
.170
4 PLCS.
.600 BSC
.100 BSC .150
.120
.022
.016
.065
.045
.080
.070
.050
.015
.075
.065 1.655
1.645
.012
.008
15°
.625
.600
.550
.530
©2013 Silicon Storage Technology, Inc. DS25022B 04/13
28
1 Mbit / 2 Mbit / 4 Mbit Multi-Purpose Flash
SST39SF010A / SST39SF020A / SST39SF040
Data Sheet
Table 13: Revision History
Revision Description Date
02 2002 Data Book Ma y 2002
03 Changes to Table 7 on page 12
Added footnote for MPF power usage and Typical conditions
Clarified the Test Conditions for Power Supply Current and Read
parameters
Clarified IDD Write to be Program and Erase
Mar 2003
04 Document status changed from “Preliminary Specification” to “Data
Sheet”
Changed IDD Program and Erase max values from 25 to 35 in Table 7
on page 12
Oct 2003
05 2004 Data Book
Added non-Pb MPNs and removed footnote (See page 24) Nov 2003
06 Corrected Revision History for Version 04:
IDD max value was incorrectly stated as 30 mA instead of 35 mA A ug 2004
07 Removed leaded parts from valid combinations. See PSN-D0PB0001 Mar 2009
08 Changed endurance from 10,000 to 100,000 in Product Description,
page 1 Sep 2009
09 End of Life for all 45 ns v alid combinations. See S71147(02).
Added replacement 55 ns va lid combinations Ja n 2010
AAll 45 ns parts reinstated.
Applied new document format
Released document under letter revision system
Updated spec number from S71147 to DS25022
Jul 2011
BEnd of Lif e for all 45 ns valid combinations.
Updated Table 6 and Table 11 Apr 2013
Silicon Storage Technology, Inc.
A Microchip Technology Company
www.microchip.com
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Authorized Distributor
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SST39SF010A-55-4I-WHE