AT45DB161D-SU Atmel, AT45DB161D-SU Datasheet - Page 16
AT45DB161D-SU
Manufacturer Part Number
AT45DB161D-SU
Description
IC FLASH 16MBIT 66MHZ 8SOIC
Manufacturer
Atmel
Datasheets
1.AT45DB161D-CU.pdf
(51 pages)
2.AT45DB161D-SU.pdf
(6 pages)
3.AT45DB161D-SU.pdf
(53 pages)
Specifications of AT45DB161D-SU
Format - Memory
FLASH
Memory Type
DataFLASH
Memory Size
16M (4096 pages x 528 bytes)
Speed
66MHz
Interface
SPI, 3-Wire Serial
Voltage - Supply
2.7 V ~ 3.6 V
Operating Temperature
-40°C ~ 85°C
Package / Case
8-SOIC (5.3mm Width), 8-SOP, 8-SOEIAJ
Architecture
Sectored
Interface Type
SPI
Supply Voltage (max)
3.6 V
Supply Voltage (min)
2.7 V
Maximum Operating Current
15 mA
Mounting Style
SMD/SMT
Organization
128 KB x 16
Current, Input, Leakage
1 μA
Current, Operating
11 mA (Read), 12 mA (Program/Erase)
Current, Output, Leakage
1
Data Retention
20 yrs.
Density
16M
Package Type
EIAJ SOIC
Temperature, Operating
-40 to +85 °C
Time, Access
6 ns
Time, Address Hold
5
Time, Address Setup
5
Time, Fall
6.8 ns
Time, Rise
6.8 ns
Voltage, Input, High
1.89 to 2.52 V
Voltage, Input, Low
0.81 to 1.08 V
Voltage, Output, High
2.5 V
Voltage, Output, Low
0.4 V
Voltage, Supply
2.7 to 3.6 V
Memory Configuration
4096 Pages X 528 Bytes
Clock Frequency
66MHz
Supply Voltage Range
2.5V To 3.6V, 2.7V To 3.6V
Rohs Compliant
Yes
Access Time (max)
6ns
Boot Type
Not Required
Address Bus
1b
Operating Supply Voltage (typ)
3/3.3V
Operating Temp Range
-40C to 85C
Program/erase Volt (typ)
2.7 to 3.6V
Sync/async
Synchronous
Operating Temperature Classification
Industrial
Operating Supply Voltage (min)
2.7V
Operating Supply Voltage (max)
3.6V
Supply Current
15mA
Mounting
Surface Mount
Pin Count
8
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
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Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
AT45DB161D-SU
Manufacturer:
ATMEL
Quantity:
106 020
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AT45DB161D-SU
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Manufacturer:
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Quantity:
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Part Number:
AT45DB161D-SU-2.5
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Manufacturer:
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9.1.4
10.
10.1
Figure 10-1. Sector Lockdown
16
Various Aspects About the Sector Protection Register
The Sector Protection Register is subject to a limit of 10,000 erase/program cycles. Users are encouraged to
carefully evaluate the number of times the Sector Protection Register will be modified during the course of the
applications’ life cycle. If the application requires that the Sector Protection Register be modified more than the
specified limit of 10,000 cycles because the application needs to temporarily unprotect individual sectors (sector
protection remains enabled while the Sector Protection Register is reprogrammed), then the application will need
to limit this practice. Instead, a combination of temporarily unprotecting individual sectors along with disabling
sector protection completely will need to be implemented by the application to ensure that the limit of 10,000 cycles
is not exceeded.
Security Features
Sector Lockdown
The device incorporates a Sector Lockdown mechanism that allows each individual sector to be permanently
locked so that it becomes read only. This is useful for applications that require the ability to permanently protect a
number of sectors against malicious attempts at altering program code or security information. Once a sector is
locked down, it can never be erased or programmed, and it can never be unlocked.
To issue the Sector Lockdown command, the CS pin must first be asserted as it would be for any other command.
Once the CS pin has been asserted, the appropriate 4-byte opcode sequence must be clocked into the device in
the correct order. The 4-byte opcode sequence must start with 3DH and be followed by 2AH, 7FH, and 30H. After
the last byte of the command sequence has been clocked in, then three address bytes specifying any address
within the sector to be locked down must be clocked into the device. After the last address bit has been clocked in,
the CS pin must then be deasserted to initiate the internally self-timed lockdown sequence.
The lockdown sequence should take place in a maximum time of t
indicate that the device is busy. If the device is powered-down before the completion of the lockdown sequence,
then the lockdown status of the sector cannot be guaranteed. In this case, it is recommended that the user read the
Sector Lockdown Register to determine the status of the appropriate sector lockdown bits or bytes and reissue the
Sector Lockdown command if necessary.
Table 10-1.
Command
Sector Lockdown
Atmel AT45DB161D
CS
SI
Each transition
represents eight bits
Sector Lockdown
Opcode
Byte 1
Opcode
Byte 2
Byte 1
3DH
Opcode
Byte 3
Byte 2
Opcode
2AH
Byte 4
Address
Bytes
Byte 3
P
7FH
, during which time the Status Register will
Address
Bytes
Byte 4
30H
Address
Bytes
3500N–DFLASH–05/10
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