AT25DQ321-SH-B Adesto Technologies, AT25DQ321-SH-B Datasheet - Page 49

AT25DQ321-SH-B

Manufacturer Part Number

AT25DQ321-SH-B

Description

Flash 32M 2.7-3.6V, 100Mhz Serial Flash

Manufacturer

Adesto Technologies

Datasheet

1.AT25DQ321-SH-B.pdf (64 pages)

Specifications of AT25DQ321-SH-B

Rohs

yes

Data Bus Width

8 bit

Memory Type

Flash

Memory Size

32 Mbit

Architecture

Flexible, Uniform Erase

Timing Type

Synchronous

Interface Type

SPI

Supply Voltage - Max

3.6 V

Supply Voltage - Min

2.7 V

Maximum Operating Current

19 mA

Operating Temperature

- 40 C to + 85 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8

Factory Pack Quantity

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12.2

Read Manufacturer and Device ID

Identification information can be read from the device to enable systems to electronically query and identify the device

while it is in system. The identification method and the command opcode comply with the JEDEC standard for

“Manufacturer and Device ID Read Methodology for SPI Compatible Serial Interface Memory Devices”. The type of

information that can be read from the device includes the JEDEC Defined Manufacturer ID, the vendor specific Device ID

and the vendor specific Extended Device Information.

The Read Manufacturer and Device ID command is limited to a maximum clock frequency of f

devices are capable of operating at very high clock frequencies, applications should be designed to read the

identification information from the devices at a reasonably low clock frequency to ensure that all devices to be used in the

application can be identified properly. Once the identification process is complete, the application can then increase the

clock frequency to accommodate specific Flash devices that are capable of operating at the higher clock frequencies.

To read the identification information, the CS pin must first be asserted and the opcode of 9Fh must be clocked into the

device. After the opcode has been clocked in, the device will begin outputting the identification data on the SO pin during

the subsequent clock cycles. The first byte that will be output will be the Manufacturer ID followed by two bytes of Device

ID information. The fourth byte output will be the Extended Device Information (EDI) String Length, which will be 01h

indicating that one byte of EDI data follows. After the one byte of EDI data is output, the SO pin will go into a

high-impedance state; therefore, additional clock cycles will have no affect on the SO pin and no data will be output. As

indicated in the JEDEC standard, reading the EDI String Length and any subsequent data is optional.

Deasserting the CS pin will terminate the Manufacturer and Device ID Read operation and put the SO pin into a

high-impedance state. The CS pin can be deasserted at any time and does not require that a full byte of data be read.

Table 12-1. Manufacturer and Device ID Information

Table 12-2. Manufacturer and Device ID Details

Table 12-3. EDI Data

Data Type

Manufacturer ID

Device ID (Part 1)

Device ID (Part 2)

Byte Number

Byte No.

Data Type

Manufacturer ID

Device ID (Part 1)

Device ID (Part 2)

[Optional to Read] Extended Device Information (EDI) String Length

[Optional to Read] EDI Byte 1

Bit 7

Family Code

Sub Code

Bit 6

RFU

Bit 5

JEDEC Assigned Code

Bit 4

Bit 3

Device Revision

Product Variant

Density Code

Bit 2

Bit 1

Bit 0

Value

Hex

00h

1Fh

87h

00h

Details

RFU:

Density Code: 00000 (Initial Version)

Details

JEDEC Code:

Family Code:

Density Code: 00111 (32-Mbit)

Sub Code:

Product Variant: 00000 (Standard Version)

AT25DQ321 [DATASHEET]

CLK

8718D–DFLASH–12/2012

100 (Quad-I/O or Rapid4

000 (Quad-I/O Series)

Reserved for Future Use

0001 1111 (1Fh for Adesto)

. Since not all Flash

Value

1Fh

87h

00h

01h

00h

™

)

AT25DQ321-SH-B Adesto Technologies, AT25DQ321-SH-B Datasheet - Page 49

AT25DQ321-SH-B

Specifications of AT25DQ321-SH-B

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