AT45DB081D-SU SL383 Atmel, AT45DB081D-SU SL383 Datasheet - Page 15

AT45DB081D-SU SL383

Manufacturer Part Number

AT45DB081D-SU SL383

Description

Manufacturer

Atmel

Datasheet

1.AT45DB081D-SU_SL383.pdf (53 pages)

Specifications of AT45DB081D-SU SL383

Density

8Mb

Access Time (max)

6ns

Interface Type

Serial (SPI)

Boot Type

Not Required

Address Bus

Operating Supply Voltage (typ)

3/3.3V

Operating Temp Range

-40C to 85C

Package Type

SOIC EIAJ

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

Lead Free Status / Rohs Status

Compliant

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9.1.2

3596M–DFLASH–5/10

Program Sector Protection Register Command

Table 9-4.

Figure 9-2.

Once the Sector Protection Register has been erased, it can be reprogrammed using the Pro-

gram Sector Protection Register command.

To program the Sector Protection Register, the CS pin must first be asserted and the appropri-

ate 4-byte opcode sequence must be clocked into the device via the SI pin. The 4-byte opcode

sequence must start with 3DH and be followed by 2AH, 7FH, and FCH. After the last bit of the

opcode sequence has been clocked into the device, the data for the contents of the Sector

Protection Register must be clocked in. As described in

ister contains 16-bytes of data, so 16-bytes must be clocked into the device. The first byte of

data corresponds to sector zero, the second byte corresponds to sector one, and so on with the

last byte of data corresponding to sector 15.

After the last data byte has been clocked in, the CS pin must be deasserted to initiate the inter-

nally self-timed program cycle. The programming of the Sector Protection Register should take

place in a time of t

the device is powered-down during the program cycle, then the contents of the Sector Protection

If the proper number of data bytes is not clocked in before the CS pin is deasserted, then the

protection status of the sectors corresponding to the bytes not clocked in can not be guaranteed.

For example, if only the first two bytes are clocked in instead of the complete 16-bytes, then the

protection status of the last 14 sectors cannot be guaranteed. Furthermore, if more than 16-

bytes of data is clocked into the device, then the data will wrap back around to the beginning of

the register. For instance, if 17-bytes of data are clocked in, then the 17

byte location zero of the Sector Protection Register.

If a value other than 00H or FFH is clocked into a byte location of the Sector Protection Register,

then the protection status of the sector corresponding to that byte location cannot be guaran-

teed. For example, if a value of 17H is clocked into byte location two of the Sector Protection

The Sector Protection Register can be reprogrammed while the sector protection enabled or dis-

abled. Being able to reprogram the Sector Protection Register with the sector protection enabled

allows the user to temporarily disable the sector protection to an individual sector rather than dis-

abling sector protection completely.

The Program Sector Protection Register command utilizes the internal SRAM buffer 1 for pro-

cessing. Therefore, the contents of the buffer 1 will be altered from its previous state when this

command is issued.

Command

Erase Sector Protection Register

Erase Sector Protection Register Command

Erase Sector Protection Register

, during which time the Status Register will indicate that the device is busy. If

Each transition

represents 8 bits

Opcode

Byte 1

Opcode

Byte 2

3DH

Opcode

Byte 3

Byte 2

Section

2AH

Atmel AT45DB081D

Opcode

Byte 4

9.1, the Sector Protection Reg-

Byte 3

7FH

byte will be stored at

Byte 4

CFH

AT45DB081D-SU SL383 Atmel, AT45DB081D-SU SL383 Datasheet - Page 15

AT45DB081D-SU SL383

Specifications of AT45DB081D-SU SL383

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