AT45DB081D-MU-2.5 View Datasheet(PDF) - Atmel Corporation

Part Name

Description

MFG CO.

AT45DB081D-MU-2.5

8-megabit 2.5V or 2.7V Atmel DataFlash

Atmel Corporation 

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Table 9-5. Program Sector Protection Register Command

Command

Program Sector Protection Register

Byte 1

3DH

Byte 2

2AH

Byte 3

7FH

Byte 4

FCH

Figure 9-3. Program Sector Protection Register

CS

SI

Opcode

Byte 1

Each transition

represents 8 bits

Opcode

Byte 2

Opcode

Byte 3

Opcode

Byte 4

Data Byte

n

Data Byte

n+1

Data Byte

n + 15

9.1.3

Read Sector Protection Register Command

To read the Sector Protection Register, the CS pin must first be asserted. Once the CS pin has

been asserted, an opcode of 32H and three dummy bytes must be clocked in via the SI pin. After

the last bit of the opcode and dummy bytes have been clocked in, any additional clock pulses on

the SCK pins will result in data for the content of the Sector Protection Register being output on

the SO pin. The first byte corresponds to sector 0 (0a, 0b), the second byte corresponds to sec-

tor one and the last byte (byte 16) corresponds to sector 15. Once the last byte of the Sector

Protection Register has been clocked out, any additional clock pulses will result in undefined

data being output on the SO pin. The CS must be deasserted to terminate the Read Sector Pro-

tection Register operation and put the output into a high-impedance state.

Table 9-6. Read Sector Protection Register Command

Command

Read Sector Protection Register

Note: xx = Dummy Byte

Byte 1

32H

Byte 2

xxH

Byte 3

xxH

Byte 4

xxH

Figure 9-4. Read Sector Protection Register

CS

SI

Opcode

X

X

X

9.1.4

SO

Each transition

represents 8 bits

Data Byte

n

Data Byte

n+1

Data Byte

n + 15

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 Sec-

tor 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 dis-

abling sector protection completely will need to be implemented by the application to ensure that

the limit of 10,000 cycles is not exceeded.

16 Atmel AT45DB081D

3596M–DFLASH–5/10

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