at45db081d-su-sl955 ATMEL Corporation, at45db081d-su-sl955 Datasheet - Page 23

at45db081d-su-sl955

Manufacturer Part Number

at45db081d-su-sl955

Description

8-megabit 2.5-volt Or 2.7-volt Dataflash

Manufacturer

ATMEL Corporation

Datasheet

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11.4

3596I–DFLASH–4/08

Status Register Read

If a sector is programmed or reprogrammed sequentially page by page, then the programming

algorithm shown in

page or several pages are programmed randomly in a sector, then the programming algorithm

shown in

updated/rewritten at least once within every 10,000 cumulative page erase/program operations

in that sector.

The status register can be used to determine the device’s ready/busy status, page size, a Main

Memory Page to Buffer Compare operation result, the Sector Protection status or the device

density. The Status Register can be read at any time, including during an internally self-timed

program or erase operation. To read the status register, the CS pin must be asserted and the

opcode of D7H must be loaded into the device. After the opcode is clocked in, the 1-byte status

the status register, starting with the MSB (bit 7), will be clocked out on the SO pin during the next

eight clock cycles. After the one byte of the status register has been clocked out, the sequence

will repeat itself (as long as CS remains low and SCK is being toggled). The data in the status

Ready/busy status is indicated using bit 7 of the status register. If bit 7 is a 1, then the device is

not busy and is ready to accept the next command. If bit 7 is a 0, then the device is in a busy

state. Since the data in the status register is constantly updated, the user must toggle SCK pin to

check the ready/busy status. There are several operations that can cause the device to be in a

busy state: Main Memory Page to Buffer Transfer, Main Memory Page to Buffer Compare,

Buffer to Main Memory Page Program, Main Memory Page Program through Buffer, Page

Erase, Block Erase, Sector Erase, Chip Erase and Auto Page Rewrite.

The result of the most recent Main Memory Page to Buffer Compare operation is indicated using

bit 6 of the status register. If bit 6 is a 0, then the data in the main memory page matches the

data in the buffer. If bit 6 is a 1, then at least one bit of the data in the main memory page does

not match the data in the buffer.

Bit 1 in the Status Register is used to provide information to the user whether or not the sector

protection has been enabled or disabled, either by software-controlled method or hardware-con-

trolled method. A logic 1 indicates that sector protection has been enabled and logic 0 indicates

that sector protection has been disabled.

Bit 0 in the Status Register indicates whether the page size of the main memory array is config-

ured for “power of 2” binary page size (256 bytes) or the DataFlash standard page size

(264 bytes). If bit 0 is a 1, then the page size is set to 256 bytes. If bit 0 is a 0, then the page size

is set to 264 bytes.

The device density is indicated using bits 5, 4, 3, and 2 of the status register. For the

AT45DB081D, the four bits are 1001 The decimal value of these four binary bits does not equate

to the device density; the four bits represent a combinational code relating to differing densities

of DataFlash devices. The device density is not the same as the density code indicated in the

JEDEC device ID information. The device density is provided only for backward compatibility.

Table 11-1.

RDY/BUSY

Bit 7

Figure 25-2 (page

Status Register Format

COMP

Bit 6

Figure 25-1 (page

Bit 5

46) is recommended. Each page within a sector must be

Bit 4

45) is recommended. Otherwise, if multiple bytes in a

Bit 3

Bit 2

PROTECT

Bit 1

AT45DB081D

PAGE SIZE

Bit 0

at45db081d-su-sl955 ATMEL Corporation, at45db081d-su-sl955 Datasheet - Page 23

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