M25P10-AVMN6T Datasheet M25P10-AVMN6T | P19-P21

M25P10-A Instructions

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6.3 Read Identification (RDID)

The Read Identification (RDID) instruction is available in products with process technology

code X and Y.

The Read Identification (RDID) instruction allows the 8-bit manufacturer identification to be

read, followed by two bytes of device identification. The manufacturer identification is

assigned by JEDEC, and has the value 20h for STMicroelectronics. The device identification

is assigned by the device manufacturer, and indicates the memory type in the first byte

(20h), and the memory capacity of the device in the second byte (11h).

Any Read Identification (RDID) instruction while an Erase or Program cycle is in progress, is

not decoded, and has no effect on the cycle that is in progress.

The Read Identification (RDID) instruction should not be issued while the device is in Deep

Power-down mode.

The device is first selected by driving Chip Select (S

) Low. Then, the 8-bit instruction code

for the instruction is shifted in. This is followed by the 24-bit device identification, stored in

the memory, being shifted out on Serial Data output (Q), each bit being shifted out during

the falling edge of Serial Clock (C).

The instruction sequence is shown in Figure 9.

The Read Identification (RDID) instruction is terminated by driving Chip Select (S

) High at

any time during data output.

When Chip Select (S

) is driven High, the device is put in the Standby Power mode. Once in

the Standby Power mode, the device waits to be selected, so that it can receive, decode and

execute instructions.

Figure 9. Read Identification (RDID) instruction sequence and data-out sequence

Table 5. Read identification (RDID) data-out sequence

Manufacturer identification

Device identification

Memory type Memory capacity

20h 20h 11h

21 3456789101112131415

Instruction

AI06809b

Manufacturer Identification

High Impedance

MSB

15 1413 3210

Device Identification

MSB

16 17 18 28 29 30 31

Instructions M25P10-A

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6.4 Read Status Register (RDSR)

The Read Status Register (RDSR) instruction allows the Status Register to be read. The

Status Register may be read at any time, even while a Program, Erase or Write Status

check the Write In Progress (WIP) bit before sending a new instruction to the device. It is

also possible to read the Status Register continuously, as shown in Figure 10.

The status and control bits of the Status Register are as follows:

6.4.1 WIP bit

The Write In Progress (WIP) bit indicates whether the memory is busy with a Write Status

‘0’ no such cycle is in progress.

6.4.2 WEL bit

The Write Enable Latch (WEL) bit indicates the status of the internal Write Enable Latch.

When set to ‘1’ the internal Write Enable Latch is set, when set to ‘0’ the internal Write

Enable Latch is reset and no Write Status Register, Program or Erase instruction is

accepted.

6.4.3 BP1, BP0 bits

The Block Protect (BP1, BP0) bits are non-volatile. They define the size of the area to be

software protected against program and erase instructions. These bits are written with the

Write Status Register (WRSR) instruction. When one or both of the Block Protect (BP1,

BP0) bits is set to ‘1’, the relevant memory area (as defined in Table 2) becomes protected

against Page Program (PP) and Sector Erase (SE) instructions. The Block Protect (BP1,

BP0) bits can be written provided that the Hardware Protected mode has not been set. The

Bulk Erase (BE) instruction is executed if, and only if, both Block Protect (BP1, BP0) bits are

6.4.4 SRWD bit

The Status Register Write Disable (SRWD) bit is operated in conjunction with the Write

Protect (W

) signal. The Status Register Write Disable (SRWD) bit and Write Protect (W)

signal allow the device to be put in the Hardware Protected mode (when the Status Register

Write Disable (SRWD) bit is set to ‘1’, and Write Protect (W

) is driven Low). In this mode, the

Table 6. Status Register format

b7 b0

SRWD 0 0 0 BP1 BP0 WEL WIP

Status Register Write Protect

Block Protect bits

Write Enable Latch bit

Write In Progress bit

M25P10-A Instructions

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non-volatile bits of the Status Register (SRWD, BP1, BP0) become read-only bits and the

Write Status Register (WRSR) instruction is no longer accepted for execution.

Figure 10. Read Status Register (RDSR) instruction sequence and data-out

sequence

21 3456789101112131415

Instruction

AI02031E

7 6543210

Status Register Out

High Impedance

MSB

7 6543210

Status Register Out

MSB

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P42 P43-P45 P46-P48 P49-P51

M25P10-AVMN6T

Mfr. #:

Buy M25P10-AVMN6T

Manufacturer:

STMicroelectronics

Description:

IC FLASH 1M SPI 50MHZ 8SO

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