AT49SV322AT-80CI [ATMEL]
Flash, 2MX16, 80ns, PBGA48, 7 X 10 MM, 1 MM HEIGHT, 0.80 MM PITCH, PLASTIC, CBGA-48;型号: | AT49SV322AT-80CI |
厂家: | ATMEL |
描述: | Flash, 2MX16, 80ns, PBGA48, 7 X 10 MM, 1 MM HEIGHT, 0.80 MM PITCH, PLASTIC, CBGA-48 |
文件: | 总32页 (文件大小:443K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Features
• Single Voltage Read/Write Operation: 1.65V to 1.95V
• Access Time – 80 ns
• Sector Erase Architecture
– Sixty-three 32K Word (64K Bytes) Sectors with Individual Write Lockout
– Eight 4K Word (8K Bytes) Sectors with Individual Write Lockout
• Fast Word Program Time – 12 µs
• Fast Sector Erase Time – 300 ms
• Suspend/Resume Feature for Erase and Program
– Supports Reading and Programming from Any Sector by Suspending Erase
of a Different Sector
32-megabit
(2M x 16/4M x 8)
1.8-volt Only
Flash Memory
– Supports Reading Any Byte/Word in the Non-suspending Sectors by Suspending
Programming of Any Other Byte/Word
• Low-power Operation
– 12 mA Active
– 13 µA Standby
• Data Polling, Toggle Bit, Ready/Busy for End of Program Detection
• VPP Pin for Write Protection
• RESET Input for Device Initialization
• Sector Lockdown Support
• TSOP and CBGA Package Options
• Top or Bottom Boot Block Configuration Available
• 128-bit Protection Register
AT49SV322A
AT49SV322AT
• Minimum 100,000 Erase Cycles
• Common Flash Interface (CFI)
Not
• Green (Pb/Halide-free) Packaging Option
Recommended
for New Design
1. Description
The AT49SV322A(T) is a 1.8-volt 32-megabit Flash memory organized as 2,097,152
words of 16 bits each or 4,194,304 bytes of 8 bits each. The x16 data appears on
I/O0 - I/O15; the x8 data appears on I/O0 - I/O7. The memory is divided into 71 sec-
tors for erase operations. The device is offered in a 48-lead TSOP and a 48-ball
CBGA package. The device has CE and OE control signals to avoid any bus conten-
tion. This device can be read or reprogrammed using a single power supply, making it
ideally suited for in-system programming.
The device powers on in the read mode. Command sequences are used to place the
device in other operation modes such as program and erase. The device has the
capability to protect the data in any sector (see “Sector Lockdown” on page 7).
To increase the flexibility of the device, it contains an Erase Suspend and Program
Suspend feature. This feature will put the erase or program on hold for any amount of
time and let the user read data from or program data to any of the remaining sectors
within the memory. The end of a program or an erase cycle is detected by the
READY/BUSY pin, Data Polling or by the toggle bit.
3360E–FLASH–10/05
The VPP pin provides data protection. When the VPP input is below 0.4V, the program and erase
functions are inhibited. When VPP is at 0.9V or above, normal program and erase operations can
be performed.
A six-byte command (Enter Single Pulse Program Mode) sequence to remove the requirement
of entering the three-byte program sequence is offered to further improve programming time.
After entering the six-byte code, only single pulses on the write control lines are required for writ-
ing into the device. This mode (Single Pulse Byte/Word Program) is exited by powering down
the device, or by pulsing the RESET pin low for a minimum of 500 ns and then bringing it back to
V
CC. Erase, Erase Suspend/Resume and Program Suspend/Resume commands will not work
while in this mode; if entered they will result in data being programmed into the device. It is not
recommended that the six-byte code reside in the software of the final product but only exist in
external programming code.
The BYTE pin controls whether the device data I/O pins operate in the byte or word configura-
tion. If the BYTE pin is set at logic “1”, the device is in word configuration, I/O0 - I/O15 are active
and controlled by CE and OE.
If the BYTE pin is set at logic “0”, the device is in byte configuration, and only data I/O pins
I/O0 -I/O7 are active and controlled by CE and OE. The data I/O pins I/O8 - I/O14 are tri-stated,
and the I/O15 pin is used as an input for the LSB (A-1) address function.
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AT49SV322A(T)
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AT49SV322A(T)
2. Pin Configurations
Pin Name
A0 - A20
CE
Function
Addresses
Chip Enable
OE
Output Enable
Write Enable
Reset
WE
RESET
RDY/BUSY
VPP
READY/BUSY Output
Write Protection
Data Inputs/Outputs
I/O0 - I/O14
I/O15 (A-1)
BYTE
I/O15 (Data Input/Output, Word Mode) A-1 (LSB Address Input, Byte Mode)
Selects Byte or Word Mode
No Connect
NC
2.1
TSOP Top View (Type 1)
A15
A14
A13
A12
A11
A10
A9
1
48
47
46
45
44
43
42
41
40
39
38
37
36
35
34
33
32
31
30
29
28
27
26
25
A16
2
BYTE
GND
I/O15/A-1
I/O7
3
4
5
6
I/O14
I/O6
7
A8
8
I/O13
I/O5
A19
A20
WE
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
I/O12
I/O4
RESET
NC
VCC
I/O11
I/O3
VPP
RDY/BUSY
A18
A17
A7
I/O10
I/O2
I/O9
I/O1
A6
I/O8
A5
I/O0
A4
OE
A3
GND
CE
A2
A1
A0
2.2
CBGA Top View (Ball Down)
1
2
3
4
5
6
A
B
C
D
E
F
A3
A7 RDY/BUSY WE
A9
A13
A12
A14
A15
A16
A4
A2
A1
A0
CE
OE
A17
A6
VPP
A18
RST
NC
A8
A10
A11
I/O7
A5
A20
A19
I/O5
I/O0
I/O8
I/O9
I/O1
I/O2
I/O10
I/O11
I/O3
I/O12 I/O14 BYTE
G
H
VCC
I/O4
I/O13 I/015/A-1
VSS
I/O6
VSS
3
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3. Block Diagram
I/O0 - I/O15/A-1
OUTPUT
BUFFER
INPUT
BUFFER
IDENTIFIER
REGISTER
INPUT
A0 - A20
BUFFER
STATUS
CE
REGISTER
WE
COMMAND
REGISTER
OE
RESET
BYTE
ADDRESS
LATCH
DATA
RDY/BUSY
VPP
COMPARATOR
WRITE STATE
MACHINE
PROGRAM/ERASE
VOLTAGE SWITCH
Y-DECODER
X-DECODER
Y-GATING
VCC
GND
MAIN
MEMORY
4. Device Operation
4.1
Read
The AT49SV322A(T) is accessed like an EPROM. When CE and OE are low and WE is high,
the data stored at the memory location determined by the address pins are asserted on the out-
puts. The outputs are put in the high impedance state whenever CE or OE is high. This dual-line
control gives designers flexibility in preventing bus contention.
4.2
Command Sequences
When the device is first powered on, it will be reset to the read or standby mode, depending
upon the state of the control line inputs. In order to perform other device functions, a series of
command sequences are entered into the device. The command sequences are shown in the
“Command Definition Table” on page 13 (I/O8 - I/O15 are don’t care inputs for the command
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AT49SV322A(T)
codes). The command sequences are written by applying a low pulse on the WE or CE input
with CE or WE low (respectively) and OE high. The address is latched on the falling edge of CE
or WE, whichever occurs last. The data is latched by the first rising edge of CE or WE. Standard
microprocessor write timings are used. The address locations used in the command sequences
are not affected by entering the command sequences.
4.3
Reset
A RESET input pin is provided to ease some system applications. When RESET is at a logic
high level, the device is in its standard operating mode. A low level on the RESET input halts the
present device operation and puts the outputs of the device in a high impedance state. When a
high level is reasserted on the RESET pin, the device returns to the read or standby mode,
depending upon the state of the control inputs.
4.4
Erasure
Before a byte/word can be reprogrammed, it must be erased. The erased state of memory bits is
a logical “1”. The entire device can be erased by using the Chip Erase command or individual
sectors can be erased by using the Sector Erase command.
4.4.1
Chip Erase
The entire device can be erased at one time by using the six-byte chip erase software code.
After the chip erase has been initiated, the device will internally time the erase operation so that
no external clocks are required. The maximum time to erase the chip is tEC.
If the sector lockdown has been enabled, the chip erase will not erase the data in the sector that
has been locked out; it will erase only the unprotected sectors. After the chip erase, the device
will return to the read or standby mode.
4.4.2
Sector Erase
As an alternative to a full chip erase, the device is organized into 71 sectors (SA0 - SA70) that
can be individually erased. The Sector Erase command is a six-bus cycle operation. The sector
address is latched on the falling WE edge of the sixth cycle while the 30H data input command is
latched on the rising edge of WE. The sector erase starts after the rising edge of WE of the sixth
cycle. The erase operation is internally controlled; it will automatically time to completion. The
maximum time to erase a sector is tSEC. When the sector programming lockdown feature is not
enabled, the sector will erase (from the same Sector Erase command). An attempt to erase a
sector that has been protected will result in the operation terminating immediately.
4.5
Byte/Word Programming
Once a memory block is erased, it is programmed (to a logical “0”) on a byte-by-byte or on a
word-by-word basis. Programming is accomplished via the internal device command register
and is a four-bus cycle operation. The device will automatically generate the required internal
program pulses.
Any commands written to the chip during the embedded programming cycle will be ignored. If a
hardware reset happens during programming, the data at the location being programmed will be
corrupted. Please note that a data “0” cannot be programmed back to a “1”; only erase opera-
tions can convert “0”s to “1”s. Programming is completed after the specified tBP cycle time. The
Data Polling feature or the Toggle Bit feature may be used to indicate the end of a program
cycle. If the erase/program status bit is a “1”, the device was not able to verify that the erase or
program operation was performed successfully.
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4.6
4.7
VPP Pin
The circuitry of the AT49SV322A(T) is designed so that the device cannot be programmed or
erased if the VPP voltage is less that 0.4V. When VPP is at 0.9V or above, normal program and
erase operations can be performed. The VPP pin cannot be left floating.
Program/Erase Status
The device provides several bits to determine the status of a program or erase operation: I/O2,
I/O3, I/O5, I/O6 and I/O7. The “Status Bit Table” on page 12 and the following four sections
describe the function of these bits. To provide greater flexibility for system designers, the
AT49SV322A(T) contains a programmable configuration register. The configuration register
allows the user to specify the status bit operation. The configuration register can be set to one of
two different values, “00” or “01”. If the configuration register is set to “00”, the part will automati-
cally return to the read mode after a successful program or erase operation. If the configuration
register is set to a “01”, a Product ID Exit command must be given after a successful program or
erase operation before the part will return to the read mode. It is important to note that whether
the configuration register is set to a “00” or to a “01”, any unsuccessful program or erase opera-
tion requires using the Product ID Exit command to return the device to read mode. The default
value (after power-up) for the configuration register is “00”. Using the four-bus cycle Set Config-
uration Register command as shown in the “Command Definition Table” on page 13, the value
of the configuration register can be changed. Voltages applied to the RESET pin will not alter the
value of the configuration register. The value of the configuration register will affect the operation
of the I/O7 status bit as described below.
4.7.1
Data Polling
The AT49SV322A(T) features Data Polling to indicate the end of a program cycle. If the status
configuration register is set to a “00”, during a program cycle an attempted read of the last
byte/word loaded will result in the complement of the loaded data on I/O7. Once the program
cycle has been completed, true data is valid on all outputs and the next cycle may begin. During
a chip or sector erase operation, an attempt to read the device will give a “0” on I/O7. Once the
program or erase cycle has completed, true data will be read from the device. Data Polling may
begin at any time during the program cycle. See “Status Bit Table” on page 12 for more details.
If the status bit configuration register is set to a “01”, the I/O7 status bit will be low while the
device is actively programming or erasing data. I/O7 will go high when the device has completed
a program or erase operation. Once I/O7 has gone high, status information on the other pins can
be checked.
The Data Polling status bit must be used in conjunction with the erase/program and VPP status
bit as shown in the algorithm in Figures 4-1 and 4-2.
4.7.2
Toggle Bit
In addition to Data Polling the AT49SV322A(T) provides another method for determining the end
of a program or erase cycle. During a program or erase operation, successive attempts to read
data from the memory will result in I/O6 toggling between one and zero. Once the program cycle
has completed, I/O6 will stop toggling and valid data will be read. Examining the toggle bit may
begin at any time during a program cycle. See “Status Bit Table” on page 12 for more details.
The toggle bit status bit should be used in conjunction with the erase/program and VPP status bit
as shown in the algorithm in Figures 4-3 and and 4-4.
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AT49SV322A(T)
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AT49SV322A(T)
4.7.3
Erase/Program Status Bit
The device offers a status bit on I/O5, which indicates whether the program or erase operation
has exceeded a specified internal pulse count limit. If the status bit is a “1”, the device is unable
to verify that an erase or a byte/word program operation has been successfully performed. If a
program (Sector Erase) command is issued to a protected sector, the protected sector will not
be programmed (erased). The device will go to a status read mode and the I/O5 status bit will be
set high, indicating the program (erase) operation did not complete as requested. Once the
erase/program status bit has been set to a “1”, the system must write the Product ID Exit com-
mand to return to the read mode. The erase/program status bit is a “0” while the erase or
program operation is still in progress. See “Status Bit Table” on page 12 for more details.
4.7.4
VPP Status Bit
The AT49SV322A(T) provides a status bit on I/O3, which provides information regarding the
voltage level of the VPP pin. During a program or erase operation, if the voltage on the VPP pin
is not high enough to perform the desired operation successfully, the I/O3 status bit will be a “1”.
Once the VPP status bit has been set to a “1”, the system must write the Product ID Exit com-
mand to return to the read mode. On the other hand, if the voltage level is high enough to
perform a program or erase operation successfully, the VPP status bit will output a “0”. See “Sta-
tus Bit Table” on page 12 for more details.
4.8
Sector Lockdown
Each sector has a programming lockdown feature. This feature prevents programming of data in
the designated sectors once the feature has been enabled. These sectors can contain secure
code that is used to bring up the system. Enabling the lockdown feature will allow the boot code
to stay in the device while data in the rest of the device is updated. This feature does not have to
be activated; any sector’s usage as a write-protected region is optional to the user.
At power-up or reset, all sectors are unlocked. To activate the lockdown for a specific sector, the
six-bus cycle Sector Lockdown command must be issued. Once a sector has been locked down,
the contents of the sector is read-only and cannot be erased or programmed.
4.8.1
Sector Lockdown Detection
A software method is available to determine if programming of a sector is locked down. When
the device is in the software product identification mode (“Software Product Identification
Entry/Exit” on page 26), a read from address location 00002H within a sector will show if pro-
gramming the sector is locked down. If the data on I/O0 is low, the sector can be programmed; if
the data on I/O0 is high, the program lockdown feature has been enabled and the sector cannot
be programmed. The software product identification exit code should be used to return to stan-
dard operation.
4.8.2
Sector Lockdown Override
The only way to unlock a sector that is locked down is through reset or power-up cycles. After
power-up or reset, the content of a sector that is locked down can be erased and reprogrammed.
4.9
Erase Suspend/Erase Resume
The Erase Suspend command allows the system to interrupt a sector or chip erase operation
and then program or read data from a different sector within the memory. After the Erase Sus-
pend command is given, the device requires a maximum time of 15 µs to suspend the erase
operation. After the erase operation has been suspended, the system can then read data or pro-
7
3360E–FLASH–10/05
gram data to any other sector within the device. An address is not required during the Erase
Suspend command. During a sector erase suspend, another sector cannot be erased. To
resume the sector erase operation, the system must write the Erase Resume command. The
Erase Resume command is a one-bus cycle command. The device also supports an erase sus-
pend during a complete chip erase. While the chip erase is suspended, the user can read from
any sector within the memory that is protected. The command sequence for a chip erase sus-
pend and a sector erase suspend are the same.
4.10 Program Suspend/Program Resume
The Program Suspend command allows the system to interrupt a programming operation and
then read data from a different byte/word within the memory. After the Program Suspend com-
mand is given, the device requires a maximum of 20 µs to suspend the programming operation.
After the programming operation has been suspended, the system can then read data from any
other byte/word that is not contained in the sector in which the programming operation was sus-
pended. An address is not required during the program suspend operation. To resume the
programming operation, the system must write the Program Resume command. The program
suspend and resume are one-bus cycle commands. The command sequence for the erase sus-
pend and program suspend are the same, and the command sequence for the erase resume
and program resume are the same.
4.11 Product Identification
The product identification mode identifies the device and manufacturer as Atmel. It may be
accessed by hardware or software operation. The hardware operation mode can be used by an
external programmer to identify the correct programming algorithm for the Atmel product.
For details, see “Operating Modes” on page 19 (for hardware operation) or (“Software Product
Identification Entry/Exit” on page 26). The manufacturer and device codes are the same for both
modes.
4.12 128-Bit Protection Register
The AT49SV322A(T) contains a 128-bit register that can be used for security purposes in sys-
tem design. The protection register is divided into two 64-bit blocks. The two blocks are
designated as block A and block B. The data in block A is non-changeable and is programmed
at the factory with a unique number. The data in block B is programmed by the user and can be
locked out such that data in the block cannot be reprogrammed. To program block B in the pro-
tection register, the four-bus cycle Program Protection Register command must be used as
shown in the “Command Definition Table” on page 13. To lock out block B, the four-bus cycle
Lock Protection Register command must be used as shown in the “Command Definition Table”
on page 13. Data bit D1 must be zero during the fourth bus cycle. All other data bits during the
fourth bus cycle are don’t cares. To determine whether block B is locked out, the Product ID
Entry command is given followed by a read operation from address 80H. If data bit D1 is zero,
block B is locked. If data bit D1 is one, block B can be reprogrammed. See “Protection Register
Addressing Table” on page 14 for the address locations in the protection register. To read the
protection register, the Product ID Entry command is given followed by a normal read operation
from an address within the protection register. After determining whether block B is protected or
not, or reading the protection register, the Product ID Exit command must be given prior to per-
forming any other operation.
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AT49SV322A(T)
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AT49SV322A(T)
4.13 RDY/BUSY
For the AT49SV322A(T), an open-drain READY/BUSY output pin provides another method of
detecting the end of a program or erase operation. RDY/BUSY is actively pulled low during the
internal program and erase cycles and is released at the completion of the cycle. The open-drain
connection allows for OR-tying of several devices to the same RDY/BUSY line. See “Status Bit
Table” on page 12 for more details.
4.14 Common Flash Interface (CFI)
CFI is a published, standardized data structure that may be read from a flash device. CFI allows
system software to query the installed device to determine the configurations, various electrical
and timing parameters, and functions supported by the device. CFI is used to allow the system
to learn how to interface to the flash device most optimally. The two primary benefits of using
CFI are ease of upgrading and second source availability. The command to enter the CFI Query
mode is a one-bus cycle command which requires writing data 98h to address 55h. The CFI
Query command can be written when the device is ready to read data or can also be written
when the part is in the product ID mode. Once in the CFI Query mode, the system can read CFI
data at the addresses given in “Common Flash Interface Definition Table” on page 27. To exit
the CFI Query mode, the product ID exit command must be given.
4.15 Hardware Data Protection
The Hardware Data Protection feature protects against inadvertent programs to the
AT49SV322A(T) in the following ways: (a) VCC sense: if VCC is below 1.65V (typical), the pro-
gram function is inhibited. (b) VCC power-on delay: once VCC has reached the VCC sense level,
the device will automatically time out 10 ms (typical) before programming. (c) Program inhibit:
holding any one of OE low, CE high or WE high inhibits program cycles. (d) Program inhibit: VPP
is less than VILPP. (e) VPP power-on delay: once VPP has reached 0.9V, program and erase oper-
ations are inhibited for 100 ns.
4.16 Input Levels
While operating with a 1.65V to 1.95V power supply, the address inputs and control inputs (OE,
CE and WE) may be driven from 0 to 5.5V without adversely affecting the operation of the
device. The I/O lines can only be driven from 0 to VCC + 0.6V.
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Figure 4-1. Data Polling Algorithm
Figure 4-2. Data Polling Algorithm
(Configuration Register = 00)
(Configuration Register = 01)
START
START
Read I/O7 - I/O0
Read I/O7 - I/O0
Read I/O7 - I/O0
Addr = VA
YES
I/O7 = Data?
NO
Toggle Bit =
Toggle?
NO
YES
NO
I/O3, I/O5 = 1?
NO
I/O3, I/O5 = 1?
YES
YES
Read I/O7 - I/O0
Addr = VA
Read I/O7 - I/O0
Twice
YES
I/O7 = Data?
Toggle Bit =
Toggle?
NO
NO
YES
Program/Erase
Operation Not
Successful, Write
Product ID
Program/Erase
Program/Erase
Program/Erase
Operation Not
Successful, Write
Product ID
Operation
Successful,
Device in
Operation
Successful, Write
Product ID Exit
Command
Exit Command
Exit Command
Read Mode
Notes: 1. VA = Valid address for programming. During a sector
erase operation, a valid address is any sector
address within the sector being erased. During chip
erase, a valid address is any non-protected sector
address.
Note:
1. VA = Valid address for programming. During a sector
erase operation, a valid address is any sector
address within the sector being erased. During chip
erase, a valid address is any non-protected sector
address.
2. I/O7 should be rechecked even if I/O5 = “1” because
I/O7 may change simultaneously with I/O5.
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AT49SV322A(T)
Figure 4-3. Toggle Bit Algorithm
(Configuration Register = 00)
Figure 4-4. Toggle Bit Algorithm
(Configuration Register = 01)
START
START
Read I/O7 - I/O0
Read I/O7 - I/O0
Read I/O7 - I/O0
Read I/O7 - I/O0
NO
NO
Toggle Bit =
Toggle?
Toggle Bit =
Toggle?
YES
YES
NO
NO
I/O3, I/O5 = 1?
I/O3, I/O5 = 1?
YES
YES
Read I/O7 - I/O0
Twice
Read I/O7 - I/O0
Twice
Toggle Bit =
Toggle?
NO
Toggle Bit =
Toggle?
NO
YES
YES
Program/Erase
Operation Not
Successful, Write
Product ID
Program/Erase
Operation Not
Successful, Write
Product ID
Program/Erase
Operation
Successful,
Write Product ID
Exit Command
Program/Erase
Operation
Successful, Device
in Read Mode
Exit Command
Exit Command
Note:
1. The system should recheck the toggle bit even if
I/O5 = “1” because the toggle bit may stop toggling
as I/O5 changes to “1”.
Note:
1. The system should recheck the toggle bit even if
I/O5 = “1” because the toggle bit may stop toggling
as I/O5 changes to “1”.
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3360E–FLASH–10/05
5. Status Bit Table
Status Bit
I/O7
00
I/O7
01
0
I/O6
I/O5(1)
I/O3(2)
I/O2
00/01
1
RDY/BUSY
Configuration Register
Programming
00/01
00/01
00/01
00/01
I/O7
0
TOGGLE
TOGGLE
0
0
0
0
0
0
Erasing
0
TOGGLE
Erase Suspended & Read
Erasing Sector
1
1
DATA
0
1
0
DATA
0
0
DATA
0
TOGGLE
DATA
1
1
0
Erase Suspended & Read
Non-erasing Sector
DATA
I/O7
DATA
Erase Suspended &
Program Non-erasing Sector
TOGGLE
TOGGLE
Erase Suspended &
Program Suspended and
Reading from Non-
suspended Sectors
DATA
DATA
DATA
DATA
DATA
DATA
1
Program Suspended & Read
Programming Sector
I/O7
1
1
0
0
TOGGLE
DATA
1
1
Program Suspended & Read
Non-programming Sector
DATA
DATA
DATA
DATA
DATA
Notes: 1. I/O5 switches to a “1” when a program or an erase operation has exceeded the maximum time limits or when a program or
sector erase operation is performed on a protected sector.
2. I/O3 switches to a “1” when the VPP level is not high enough to successfully perform program and erase operations.
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AT49SV322A(T)
6. Command Definition Table
1st Bus
Cycle
2nd Bus
Cycle
3rd Bus
Cycle
4th Bus
Cycle
5th Bus
Cycle
6th Bus
Cycle
Command
Sequence
Bus
Cycles
Addr
Addr
555
Data
DOUT
AA
Addr
Data
Addr
Data
Addr
Data
Addr
Data
Addr
Data
Read
1
6
6
4
Chip Erase
AAA(2)
AAA
55
55
55
555
555
555
80
80
A0
555
555
AA
AA
DIN
AAA
AAA
55
55
555
10
30
Sector Erase
Byte/Word Program
555
AA
SA(3)(4)
555
AA
AAA
Addr
Dual Byte/Word
Program(9)
5
6
555
555
AA
AA
AAA
AAA
55
55
555
555
E0
80
Addr1
555
DIN1
AA
Addr2
AAA
DIN2
55
Enter Single Pulse
Program Mode
555
A0
60
Single Pulse
Byte/Word Program
1
6
1
Addr
555
DIN
AA
B0
Sector Lockdown
AAA(2)
55
555
80
555
AA
AAA
55
SA(3)(4)
Erase/Program
Suspend
XXX
Erase/Program
Resume
1
XXX
30
Product ID Entry
Product ID Exit(5)
Product ID Exit(5)
3
3
1
555
555
XXX
AA
AA
AAA
AAA
55
55
555
555
90
F0(8)
F0(8)
Program Protection
Register
4
4
4
555
555
555
AA
AA
AA
AAA
AAA
AAA
AAA
55
55
55
55
555
555
555
555
C0
C0
90
Addr
080
80
DIN
X0
Lock Protection
Register - Block B
Status of Block B
Protection
(6)
DOUT
Set Configuration
Register
4
1
555
X55
AA
98
D0
XXX
00/01(7)
CFI Query
Notes: 1. The DATA FORMAT shown for each bus cycle is as follows; I/O7 - I/O0 (Hex). In word operation I/O15 - I/O8
are don’t care. The ADDRESS FORMAT shown for each bus cycle is as follows: A11 - A0 (Hex). Address A20 through A11
are don’t care in the word mode. Address A20 through A11 and A-1 are don’t care in the byte mode.
2. Since A11 is a Don’t Care, AAA can be replaced with 2AA.
3. SA = sector address. Any byte/word address within a sector can be used to designate the sector address (see pages 15 - 18
for details).
4. Once a sector is in the lockdown mode, data in the protected sector cannot be changed unless the chip is reset or power
cycled.
5. Either one of the Product ID Exit commands can be used.
6. If data bit D1 is “0”, block B is locked. If data bit D1 is “1”, block B can be reprogrammed.
7. The default state (after power-up) of the configuration register is “00”.
8. Bytes of data other than F0 may be used to exit the Product ID mode. However, it is recommended that F0 be used.
9. This fast programming option enables the user to program two words in parallel only when VPP = 12V. The Addresses, Addr1
and Addr2, of the two words, DIN1 and DIN2, must only differ in address A0. This command should be used during manufac-
turing purposes only.
13
3360E–FLASH–10/05
7. Absolute Maximum Ratings*
*NOTICE:
Stresses beyond those listed under “Absolute
Maximum Ratings” may cause permanent dam-
age to the device. This is a stress rating only and
functional operation of the device at these or any
other conditions beyond those indicated in the
operational sections of this specification is not
implied. Exposure to absolute maximum rating
conditions for extended periods may affect device
reliability.
Temperature under Bias................................ -55°C to +125°C
Storage Temperature..................................... -65°C to +150°C
All Input Voltages
(including NC Pins)
with Respect to Ground ...................................-0.6V to +6.25V
All Output Voltages
with Respect to Ground .............................-0.6V to VCC + 0.6V
Voltage on VPP
with Respect to Ground ...................................-0.6V to +13.0V
8. Protection Register Addressing Table
Word
Use
Factory
Factory
Factory
Factory
User
Block
A7
A6
A5
0
A4
0
A3
0
A2
0
A1
0
A0
1
0
1
2
3
4
5
6
7
A
A
A
A
B
B
B
B
1
0
1
0
0
0
0
0
1
0
1
0
0
0
0
0
1
1
1
0
0
0
0
1
0
0
1
0
0
0
0
1
0
1
User
1
0
0
0
0
1
1
0
User
1
0
0
0
0
1
1
1
User
1
0
0
0
1
0
0
0
Note:
All address lines not specified in the above table must be “0” when accessing the protection register, i.e., A20 - A8 = 0.
14
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
9. AT49SV322A – Sector Address Table
x8
x16
Sector
SA0
Size (Bytes/Words)
8K/4K
Address Range (A20 - A-1)
000000 - 001FFF
002000 - 003FFF
004000 - 005FFF
006000 - 007FFF
008000 - 009FFF
00A000 - 00BFFF
00C000 - 00DFFF
00E000 - 00FFFF
010000 - 01FFFF
020000 - 02FFFF
030000 - 03FFFF
040000 - 04FFFF
050000 - 05FFFF
060000 - 06FFFF
070000 - 07FFFF
080000 - 08FFFF
090000 - 09FFFF
0A0000 - 0AFFFF
0B0000 - 0BFFFF
0C0000 - 0CFFFF
0D0000 - 0DFFFF
0E0000 - 0EFFFF
0F0000 - 0FFFFF
100000 - 10FFFF
110000 - 11FFFF
120000 - 12FFFF
130000 - 13FFFF
140000 - 14FFFF
150000 - 15FFFF
160000 - 16FFFF
170000 - 17FFFF
180000 - 18FFFF
190000 - 19FFFF
1A0000 - 1AFFFF
1B0000 - 1BFFFF
1C0000 - 1CFFFF
1D0000 - 1DFFFF
Address Range (A20 - A0)
00000 - 00FFF
01000 - 01FFF
02000 - 02FFF
03000 - 03FFF
04000 - 04FFF
05000 - 05FFF
06000 - 06FFF
07000 - 07FFF
08000 - 0FFFF
10000 - 17FFF
18000 - 1FFFF
20000 - 27FFF
28000 - 2FFFF
30000 - 37FFF
38000 - 3FFFF
40000 - 47FFF
48000 - 4FFFF
50000 - 57FFF
58000 - 5FFFF
60000 - 67FFF
68000 - 6FFFF
70000 - 77FFF
78000 - 7FFFF
80000 - 87FFF
88000 - 8FFFF
90000 - 97FFF
98000 - 9FFFF
A0000 - A7FFF
A8000 - AFFFF
B0000 - B7FFF
B8000 - BFFFF
C0000 - C7FFF
C8000 - CFFFF
D0000 - D7FFF
D8000 - DFFFF
E0000 - E7FFF
E8000 - EFFFF
SA1
8K/4K
SA2
8K/4K
SA3
8K/4K
SA4
8K/4K
SA5
8K/4K
SA6
8K/4K
SA7
8K/4K
SA8
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
SA9
SA10
SA11
SA12
SA13
SA14
SA15
SA16
SA17
SA18
SA19
SA20
SA21
SA22
SA23
SA24
SA25
SA26
SA27
SA28
SA29
SA30
SA31
SA32
SA33
SA34
SA35
SA36
15
3360E–FLASH–10/05
9. AT49SV322A – Sector Address Table (Continued)
x8
x16
Sector
SA37
SA38
SA39
SA40
SA41
SA42
SA43
SA44
SA45
SA46
SA47
SA48
SA49
SA50
SA51
SA52
SA53
SA54
SA55
SA56
SA57
SA58
SA59
SA60
SA61
SA62
SA63
SA64
SA65
SA66
SA67
SA68
SA69
SA70
Size (Bytes/Words)
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
Address Range (A20 - A-1)
1E0000 - 1EFFFF
1F0000 - 1FFFFF
200000 - 20FFFF
210000 - 21FFFF
220000 - 22FFFF
230000 - 23FFFF
240000 - 24FFFF
250000 - 25FFFF
260000 - 26FFFF
270000 - 27FFFF
280000 - 28FFFF
290000 - 29FFFF
2A0000 - 2AFFFF
2B0000 - 2BFFFF
2C0000 - 2CFFFF
2D0000 - 2DFFFF
2E0000 - 2EFFFF
2F0000 - 2FFFFF
300000 - 30FFFF
310000 - 31FFFF
320000 - 32FFFF
330000 - 33FFFF
340000 - 34FFFF
350000 - 35FFFF
360000 - 36FFFF
370000 - 37FFFF
380000 - 38FFFF
390000 - 39FFFF
3A0000 - 3AFFFF
3B0000 - 3BFFFF
3C0000 - 3CFFFF
3D0000 - 3DFFFF
3E0000 - 3EFFFF
3F0000 - 3FFFFF
Address Range (A20 - A0)
F0000 - F7FFF
F8000 - FFFFF
100000 - 107FFF
108000 - 10FFFF
110000 - 117FFF
118000 - 11FFFF
120000 - 127FFF
128000 - 12FFFF
130000 - 137FFF
138000 - 13FFFF
140000 - 147FFF
148000 - 14FFFF
150000 - 157FFF
158000 - 15FFFF
160000 - 167FFF
168000 - 16FFFF
170000 - 177FFF
178000 - 17FFFF
180000 - 187FFF
188000 - 18FFFF
190000 - 197FFF
198000 - 19FFFF
1A0000 - 1A7FFF
1A8000 - 1AFFFF
1B0000 - 1B7FFF
1B8000 - 1BFFFF
1C0000 - 1C7FFF
1C8000 - 1CFFFF
1D0000 - 1D7FFF
1D8000 - 1DFFFF
1E0000 - 1E7FFF
1E8000 - 1EFFFF
1F0000 -1F7FFF
1F8000 - 1FFFF
16
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
10. AT49SV322AT – Sector Address Table
x8
x16
Sector
SA0
Size (Bytes/Words)
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
Address Range (A20 - A-1)
000000 - 00FFFF
010000 - 01FFFF
020000 - 02FFFF
030000 - 03FFFF
040000 - 04FFFF
050000 - 05FFFF
060000 - 06FFFF
070000 - 07FFFF
080000 - 08FFFF
090000 - 09FFFF
0A0000 - 0AFFFF
0B0000 - 0BFFFF
0C0000 - 0CFFFF
0D0000 - 0DFFFF
0E0000 - 0EFFFF
0F0000 - 0FFFFF
100000 - 10FFFF
110000 - 11FFFF
120000 - 12FFFF
130000 - 13FFFF
140000 - 14FFFF
150000 - 15FFFF
160000 - 16FFFF
170000 - 17FFFF
180000 - 18FFFF
190000 - 19FFFF
1A0000 - 1AFFFF
1B0000 - 1BFFFF
1C0000 - 1CFFFF
1D0000 - 1DFFFF
IE0000 - IEFFFF
1F0000 - 1FFFFF
200000 - 20FFFF
210000 - 21FFFF
220000 - 22FFFF
230000 - 23FFFF
240000 - 24FFFF
Address Range (A20 - A0)
00000 - 07FFF
08000 - 0FFFF
10000 - 17FFF
18000 - 1FFFF
20000 - 27FFF
28000 - 2FFFF
30000 - 37FFF
38000 - 3FFFF
40000 - 47FFF
48000 - 4FFFF
50000 - 57FFF
58000 - 5FFFF
60000 - 67FFF
68000 - 6FFFF
70000 - 77FFF
78000 - 7FFFF
80000 - 87FFF
88000 - 8FFFF
90000 - 97FFF
98000 - 9FFFF
A0000 - A7FFF
A8000 - AFFFF
B0000 - B7FFF
B8000 - BFFFF
C0000 - C7FFF
C8000 - CFFFF
D0000 - D7FFF
D8000 - DFFFF
E0000 - E7FFF
E8000 - EFFFF
F0000 - F7FFF
F8000 - FFFFF
100000 - 107FFF
108000 - 10FFFF
110000 - 117FFF
118000 - 11FFFF
120000 - 127FFF
SA1
SA2
SA3
SA4
SA5
SA6
SA7
SA8
SA9
SA10
SA11
SA12
SA13
SA14
SA15
SA16
SA17
SA18
SA19
SA20
SA21
SA22
SA23
SA24
SA25
SA26
SA27
SA28
SA29
SA30
SA31
SA32
SA33
SA34
SA35
SA36
17
3360E–FLASH–10/05
10. AT49SV322AT – Sector Address Table (Continued)
x8
x16
Sector
SA37
SA38
SA39
SA40
SA41
SA42
SA43
SA44
SA45
SA46
SA47
SA48
SA49
SA50
SA51
SA52
SA53
SA54
SA55
SA56
SA57
SA58
SA59
SA60
SA61
SA62
SA63
SA64
SA65
SA66
SA67
SA68
SA69
SA70
Size (Bytes/Words)
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
64K/32K
8K/4K
Address Range (A20 - A-1)
250000 - 25FFFF
260000 - 26FFFF
270000 - 27FFFF
280000 - 28FFFF
290000 - 29FFFF
2A0000 - 2AFFFF
2B0000 - 2BFFFF
2C0000 - 2CFFFF
2D0000 - 2DFFFF
2E0000 - 2EFFFF
2F0000 - 2FFFFF
300000 - 30FFFF
310000 - 31FFFF
320000 - 32FFFF
330000 - 33FFFF
340000 - 34FFFF
350000 - 35FFFF
360000 - 36FFFF
370000 - 37FFFF
380000 - 38FFFF
390000 - 39FFFF
3A0000 - 3AFFFF
3B0000 - 3BFFFF
3C0000 - 3CFFFF
3D0000 - 3DFFFF
3E0000 - 3EFFFF
3F0000 - 3F1FFF
3F2000 - 3F3FFF
3F4000 - 3F5FFF
3F6000 - 3F7FFF
3F8000 - 3F9FFF
3FA000 - 3FBFFF
3FC000 - 3FDFFF
3FE000 - 3FFFFF
Address Range (A20 - A0)
128000 - 12FFFF
130000 - 137FFF
138000 - 13FFFF
140000 - 147FFF
148000 - 14FFFF
150000 - 157FFF
158000 - 15FFFF
160000 - 167FFF
168000 - 16FFFF
170000 - 177FFF
178000 - 17FFFF
180000 - 187FFF
188000 - 18FFFF
190000 - 197FFF
198000 - 19FFFF
1A0000 - 1A7FFF
1A8000 - 1AFFFF
1B0000 - 1B7FFF
1B8000 - 1BFFFF
1C0000 - 1C7FFF
1C8000 - 1CFFFF
1D0000 - 1D7FFF
1D8000 - 1DFFFF
1E0000 - 1E7FFF
1E8000 - 1EFFFF
1F0000 - 1F7FFF
1F8000 - 1F8FFF
1F9000 - 1F9FFF
1FA000 - 1FAFFF
1FB000 - 1FBFFF
1FC000 - 1FCFFF
1FD000 - 1FDFFF
1FE000 - 1FEFFF
1FF000 - 1FFFFF
8K/4K
8K/4K
8K/4K
8K/4K
8K/4K
8K/4K
8K/4K
18
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
11. DC and AC Operating Range
AT49SV322A(T)-80
-40°C - 85°C
Operating Temperature (Case)
VCC Power Supply
Ind.
1.65V to 1.95V
12. Operating Modes
Mode
CE
VIL
VIL
VIH
X
OE
VIL
VIH
X(1)
X
WE RESET
VPP
Ai
Ai
Ai
X
I/O
DOUT
DIN
Read
VIH
VIL
X
VIH
VIH
VIH
VIH
VIH
VIH
VIH
VIL
X
(6)
Program/Erase(2)
VIHPP
Standby/Program Inhibit
X
X
X
High-Z
VIH
X
Program Inhibit
X
VIL
X
(7)
X
X
VILPP
X
Output Disable
Reset
X
VIH
X
X
High-Z
High-Z
X
X
X
X
Product Identification
A1 - A20 = VIL, A9 = VH(3), A0 = VIL Manufacturer Code(4)
Hardware
VIL
VIL
VIH
VIH
VIH
A1 - A20 = VIL, A9 = VH(3), A0 = VIH
Device Code(4)
Manufacturer Code(4)
Device Code(4)
A0 = VIL, A1 - A20 = VIL
Software(5)
A0 = VIH, A1 - A20 = VIL
Notes: 1. X can be VIL or VIH.
2. Refer to “Program Cycle Waveforms” on page 24.
3. VH = 12.0V 0.5V.
4. Manufacturer Code: 1FH (x8); 001FH (x16), Device Code: DBH (x8)-AT49SV322A; 00DBH (x16)-AT49SV322A;
D1H (x8)-AT49SV322AT; 00D1H (x16)-AT49SV322AT.
5. See details under “Software Product Identification Entry/Exit” on page 26.
6. VIHPP (min) = 0.9V; VIHPP (max) = 1.95V.
7. VILPP (max) = 0.4V.
19
3360E–FLASH–10/05
13. DC Characteristics
Symbol
Parameter
Condition
Min
Typ
Max
2
Units
µA
µA
µA
mA
mA
µA
V
ILI
Input Load Current
VIN = 0V to VCC
ILO
Output Leakage Current
VCC Standby Current CMOS
VCC Active Read Current
VCC Programming Current
VPP Input Load Current
Input Low Voltage
VI/O = 0V to VCC
10
25
25
40
5
ISB
CE = VCC - 0.3V to VCC
f = 5 MHz; IOUT = 0 mA
13
12
(1)
ICC
ICC1
IPP1
VIL
0.4
VIH
Input High Voltage
VCC - 0.2
V
VOL1
VOL2
VOH1
VOH2
Output Low Voltage
Output Low Voltage
Output High Voltage
Output High Voltage
IOL = 2.1 mA
IOL = 100 µA
IOH = -400 µA
IOH = -100 µA
0.25
0.10
V
V
1.4
V
VCC - 0.1
V
Note:
1. In the erase mode, ICC is 45 mA.
20
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
14. AC Read Characteristics
AT49SV322A(T)-80
Symbol
tRC
Parameter
Min
Max
Units
ns
Read Cycle Time
80
tACC
Address to Output Delay
CE to Output Delay
80
80
20
25
ns
(1)
tCE
ns
(2)
tOE
OE to Output Delay
0
0
0
ns
(3)(4)
tDF
CE or OE to Output Float
Output Hold from OE, CE or Address, Whichever Occurred First
RESET to Output Delay
ns
tOH
tRO
ns
100
ns
15. AC Read Waveforms(1)(2)(3)(4)
tRC
ADDRESS
CE
ADDRESS VALID
tCE
tOE
OE
tDF
tOH
tACC
tRO
RESET
HIGH Z
OUTPUT
VALID
OUTPUT
Notes: 1. CE may be delayed up to tACC - tCE after the address transition without impact on tACC
2. OE may be delayed up to tCE - tOE after the falling edge of CE without impact on tCE or by tACC - tOE after an address change
without impact on tACC
.
.
3. tDF is specified from OE or CE, whichever occurs first (CL = 5 pF).
4. This parameter is characterized and is not 100% tested.
21
3360E–FLASH–10/05
16. Input Test Waveforms and Measurement Level
1
0.9V
tR, tF < 5 ns
17. Output Test Load
VCC
18. Pin Capacitance
f = 1 MHz, T = 25°C(1)
Symbol
CIN
Typ
4
Max
6
Units
pF
Conditions
VIN = 0V
COUT
8
12
pF
VOUT = 0V
Note:
This parameter is characterized and is not 100% tested.
22
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
19. AC Byte/Word Load Characteristics
Symbol
tAS, tOES
tAH
Parameter
Min
0
Max
Units
ns
Address, OE Setup Time
Address Hold Time
35
0
ns
tCS
Chip Select Setup Time
Chip Select Hold Time
Write Pulse Width (WE or CE)
Data Setup Time
ns
tCH
0
ns
tWP
35
35
0
ns
tDS
ns
tDH, tOEH
tWPH
Data, OE Hold Time
Write Pulse Width High
ns
35
ns
20. AC Byte/Word Load Waveforms
20.1 WE Controlled
20.2 CE Controlled
23
3360E–FLASH–10/05
21. Program Cycle Characteristics
Symbol
Parameter
Min
Typ
12
6
Max
200
100
Units
tBP
Byte/Word Programming Time
Byte/Word Programming Time in Dual Programming Mode
Address Setup Time
µs
µs
tBPD
tAS
0
35
35
0
ns
tAH
Address Hold Time
ns
tDS
Data Setup Time
ns
tDH
Data Hold Time
ns
tWP
Write Pulse Width
35
35
70
500
ns
tWPH
tWC
Write Pulse Width High
Write Cycle Time
ns
ns
tRP
Reset Pulse Width
ns
tEC
Chip Erase Cycle Time
50
0.3
1.0
seconds
seconds
seconds
µs
tSEC1
tSEC2
tES
Sector Erase Cycle Time (4K Word Sectors)
Sector Erase Cycle Time (32K Word Sectors)
Erase Suspend Time
3.0
5.0
15
tPS
Program Suspend Time
10
µs
22. Program Cycle Waveforms
PROGRAM CYCLE
OE
CE
t
t
BP
t
WP
WPH
WE
t
t
t
DH
AS
AH
555
AAA
555
ADDRESS
555
A0 - A20
DATA
t
WC
t
DS
INPUT
DATA
AA
55
A0
AA
23. Sector or Chip Erase Cycle Waveforms
(1)
OE
CE
t
t
WP
WPH
WE
A0-A20
DATA
t
t
t
DH
AS
AH
555
t
AAA
555
555
AAA
Note
2
WC
t
t
EC
DS
AA
WORD
55
WORD
80
WORD
AA
WORD
55
Note 3
0
1
2
3
WORD
4
WORD 5
Notes: 1. OE must be high only when WE and CE are both low.
2. For chip erase, the address should be 555. For sector erase, the address depends on what sector is to be erased.
(See note 3 under “Command Definition Table” on page 13.)
3. For chip erase, the data should be 10H, and for sector erase, the data should be 30H.
24
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
24. Data Polling Characteristics(1)
Symbol
Parameter
Min
10
Typ
Max
Units
ns
tDH
Data Hold Time
tOEH
tOE
OE Hold Time
10
ns
OE to Output Delay(2)
Write Recovery Time
ns
tWR
0
ns
Notes: 1. These parameters are characterized and not 100% tested.
2. See tOE spec in “AC Read Characteristics” on page 21.
25. Data Polling Waveforms
WE
CE
tOEH
OE
tDH
tWR
tOE
HIGH Z
I/O7
An
An
An
An
An
A0-A20
26. Toggle Bit Characteristics(1)
Symbol
Parameter
Min
10
Typ
Max
Units
ns
tDH
Data Hold Time
tOEH
tOE
tOEHP
tWR
OE Hold Time
10
ns
OE to Output Delay(2)
OE High Pulse
ns
50
0
ns
Write Recovery Time
ns
Notes: 1. These parameters are characterized and not 100% tested.
2. See tOE spec in “AC Read Characteristics” on page 21.
27. Toggle Bit Waveforms(1)(2)(3)
Notes: 1. Toggling either OE or CE or both OE and CE will operate toggle bit. The tOEHP specification must be met by the toggling
input(s).
2. Beginning and ending state of I/O6 will vary.
3. Any address location may be used but the address should not vary.
25
3360E–FLASH–10/05
AT49SV322A(T)
28. Software Product Identification
Entry(1)
30. Sector Lockdown Enable
Algorithm(1)
LOAD DATA AA
TO
LOAD DATA AA
TO
ADDRESS 555
ADDRESS 555
LOAD DATA 55
TO
LOAD DATA 55
TO
ADDRESS AAA
ADDRESS AAA
LOAD DATA 80
TO
LOAD DATA 90
TO
ADDRESS 555
ADDRESS 555
LOAD DATA AA
TO
ENTER PRODUCT
IDENTIFICATION
ADDRESS 555
(2)(3)(5)
MODE
LOAD DATA 55
TO
29. Software Product Identification
ADDRESS AAA
Exit(1)(6)
OR
LOAD DATA AA
LOAD DATA F0
TO
TO
LOAD DATA 60
TO
ADDRESS 555
ANY ADDRESS
SECTOR ADDRESS
EXIT PRODUCT
IDENTIFICATION
LOAD DATA 55
TO
(4)
MODE
ADDRESS AAA
PAUSE 200 µs(2)
Notes:
1. Data Format: I/O15 - I/O8 (Don’t Care); I/O7 - I/O0 (Hex)
Address Format: A11 - A0 (Hex), A-1, and A11 - A20 (Don’t
Care).
LOAD DATA F0
TO
ADDRESS 555
2. Sector Lockdown feature enabled.
EXIT PRODUCT
IDENTIFICATION
(4)
MODE
Notes:
1. Data Format: I/O15 - I/O8 (Don’t Care); I/O7 - I/O0 (Hex)
Address Format: A11 - A0 (Hex), A-1, and A11 - A20 (Don’t
Care).
2. A1 - A20 = VIL. Manufacturer Code is read for A0 = VIL;
Device Code is read for A0 = VIH
.
3. The device does not remain in identification mode if pow-
ered down.
4. The device returns to standard operation mode.
5. Manufacturer Code: 1FH(x8); 001FH(x16)
Device Code:DBH (x8) - AT49SV322A;
00DBH (x16) - AT49SV322A;
D1H (x8) - AT49SV322AT;
00D1H (x16) - AT49SV322AT.
6. Either one of the Product ID Exit commands can be used.
26
3360E–FLASH–10/05
AT49SV322A(T)
31. Common Flash Interface Definition Table
Address
Data
AT49SV322A(T)
(x16 Mode)
AT49SV322A(T)
(x8 Mode)
AT49SV322A(T)
0051h
0052h
0059h
0002h
0000h
0041h
0000h
0000h
0000h
0000h
0000h
0017h
0019h
00B5h
00C5h
0004h
0000h
000Ah
0010h
0004h
0000h
0002h
0002h
0016h
0002h
0000h
0000h
0000h
0002h
003Eh
0000h
0000h
0001h
0007h
0000h
0020h
0000h
Comments
10h
11h
12h
13h
14h
15h
16h
17h
18h
19h
1Ah
1Bh
1Ch
1Dh
1Eh
1Fh
20h
21h
22h
23h
24h
25h
26h
27h
28h
29h
2Ah
2Bh
2Ch
2Dh
2Eh
2Fh
30h
31h
32h
33h
34h
20h
22h
24h
26h
28h
2Ah
2Ch
2Eh
30h
32h
34h
36h
38h
3Ah
3Ch
3Eh
40h
42h
44h
46h
48h
4Ah
4Ch
4Eh
50h
52h
54h
56h
58h
5Ah
5Ch
5Eh
60h
62h
64h
66h
68h
“Q”
“R”
“Y”
VCC min write/erase
VCC max write/erase
VPP min voltage
VPP max voltage
Typ word write – 12 µs
Typ block erase, 1000 ms
Typ chip erase, 50,000 ms
Max word write/typ time
n/a
Max block erase/typ block erase
Max chip erase/ typ chip erase
Device size
x8/x16 device
x8/x16 device
Multiple byte write not supported
Multiple byte write not supported
2 regions, x = 2
64K bytes, Y = 62
64K bytes, Y = 62
64K bytes, Z = 256
64K bytes, Z = 256
8K bytes, Y = 7
8K bytes, Y = 7
8K bytes, Z = 32
8K bytes, Z = 32
27
3360E–FLASH–10/05
31. Common Flash Interface Definition Table (Continued)
Address
Data
AT49SV322A(T)
(x16 Mode)
AT49SV322A(T)
(x8 Mode)
AT49SV322A(T)
Comments
VENDOR SPECIFIC EXTENDED QUERY
41h
42h
43h
44h
45h
82h
84h
86h
88h
8Ah
0050h
0052h
0049h
0031h
0030h
“P”
“R”
“I”
Major version number, ASCII
Minor version number, ASCII
Bit 0 – chip erase supported, 0 – no, 1 – yes
Bit 1 – erase suspend supported, 0 – no, 1 – yes
Bit 2 – program suspend supported, 0 – no, 1 – yes
Bit 3 – simultaneous operations supported,
0 – no, 1 – yes
46h
8Ch
0087h
Bit 4 – burst mode read supported, 0 – no, 1 – yes
Bit 5 – page mode read supported, 0 – no, 1 – yes
Bit 6 – queued erase supported, 0 – no, 1 – yes
Bit 7 – protection bits supported, 0 – no, 1 – yes
0000h (top)
or
0001h (bottom)
Bit 8 – top (“0”) or bottom (“1”) boot block device undefined bits
are “0”
47h
48h
8Eh
90h
Bit 0 – 4 word linear burst with wrap around,
0 – no, 1 – yes
Bit 1 – 8 word linear burst with wrap around,
0 – no, 1 – yes
0000h
Bit 2 – continuos burst, 0 - no, 1 - yes
Undefined bits are “0”
Bit 0 – 4 word page, 0 – no, 1 – yes
Bit 1 – 8 word page, 0 – no, 1 – yes
Undefined bits are “0”
49h
92h
0000h
4Ah
4Bh
4Ch
94h
96h
98h
0080h
0003h
0003h
Location of protection register lock byte, the section’s first byte
# of bytes in the factory prog section of prot register – 2*n
# of bytes in the user prog section of prot register – 2*n
28
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
32. Ordering Information
32.1 Standard Package
I
CC (mA)
tACC
(ns)
Active
Standby
Ordering Code
Package
Operation Range
AT49SV322A-80CI
AT49SV322A-80TI
Industrial
48C17
48T
80
25
0.025
(-40° to 85°C)
AT49SV322AT-80CI
AT49SV322AT-80TI
32.2 Green Package Option (Pb/Halide-free)
I
CC (mA)
tACC
(ns)
Active
Standby
Ordering Code
Package
Operation Range
AT49SV322A-80CU
AT49SV322A-80TU
Industrial
48C17
48T
80
25
0.025
(-40° to 85°C)
Package Type
48C17
48T
48-ball, Plastic Chip-Size Ball Grid Array Package (CBGA)
48-lead, Plastic Thin Small Outline Package (TSOP)
29
3360E–FLASH–10/05
33. Packaging Information
33.1 48C17 – CBGA
E
A1 Ball ID
D
A1
Top View
A
Side View
1.50 REF
E1
A1 Ball Corner
e
2.20 REF
A
COMMON DIMENSIONS
(Unit of Measure = mm)
B
C
D
E
F
MIN
MAX
NOM
7.0
NOTE
SYMBOL
D1
E
6.9
7.1
E1
D
4.0 TYP
10.0
G
H
9.9
10.1
D1
A
5.6 TYP
–
e
–
1.0
–
6
5
4
3
2
1
A1
e
0.20
–
b
0.80 BSC
0.35 TYP
Bottom View
b
10/26/05
DRAWING NO. REV.
48C17
TITLE
2325 Orchard Parkway
San Jose, CA 95131
48C17, 48-ball (6 x 8 Array), 0.80 mm Pitch,
7.0 x 10.0 x 1.0 mm Chip-scale Ball Grid Array Package (CBGA)
B
R
30
AT49SV322A(T)
3360E–FLASH–10/05
AT49SV322A(T)
33.2 48T – TSOP
PIN 1
0º ~ 8º
c
Pin 1 Identifier
D1
D
L
b
L1
e
A2
E
GAGE PLANE
A
SEATING PLANE
COMMON DIMENSIONS
(Unit of Measure = mm)
A1
MIN
–
MAX
1.20
0.15
1.05
20.20
NOM
–
NOTE
SYMBOL
A
A1
A2
D
0.05
0.95
19.80
18.30
11.90
0.50
–
1.00
Notes:
1. This package conforms to JEDEC reference MO-142, Variation DD.
2. Dimensions D1 and E do not include mold protrusion. Allowable
protrusion on E is 0.15 mm per side and on D1 is 0.25 mm per side.
3. Lead coplanarity is 0.10 mm maximum.
20.00
18.40
12.00
0.60
D1
E
18.50 Note 2
12.10 Note 2
0.70
L
L1
b
0.25 BASIC
0.22
0.17
0.10
0.27
0.21
c
–
e
0.50 BASIC
10/18/01
DRAWING NO. REV.
48T
TITLE
2325 Orchard Parkway
San Jose, CA 95131
48T, 48-lead (12 x 20 mm Package) Plastic Thin Small Outline
Package, Type I (TSOP)
B
R
31
3360E–FLASH–10/05
Atmel Corporation
Atmel Operations
2325 Orchard Parkway
San Jose, CA 95131, USA
Tel: 1(408) 441-0311
Fax: 1(408) 487-2600
Memory
RF/Automotive
Theresienstrasse 2
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Tel: (49) 71-31-67-0
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Tel: 1(408) 441-0311
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Fax: (44) 1355-242-743
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Printed on recycled paper.
3360E–FLASH–10/05
/xM
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