S25FL512SAGMFIG13 Spansion, S25FL512SAGMFIG13 Datasheet - Page 23

S25FL512SAGMFIG13

Manufacturer Part Number

S25FL512SAGMFIG13

Description

Flash 512Mb 3V 133MHz Serial NOR Flash

Manufacturer

Spansion

Datasheet

1.S25FL512SAGMFI011.pdf (143 pages)

Specifications of S25FL512SAGMFIG13

Rohs

yes

Memory Type

Flash

Memory Size

512 MB

Architecture

Uniform

Timing Type

Asynchronous

Interface Type

SPI

Supply Voltage - Max

3.6 V

Supply Voltage - Min

2.7 V

Operating Temperature

- 40 C to + 85 C

Mounting Style

SMD/SMT

Package / Case

SO-16

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June 13, 2012 S25FL512S_00_04

 The address or mode bits may be followed by write data to be stored in the memory device or by a read

 Write data bit transfers occur on SCK rising edge, in SDR commands, or on every SCK edge, in DDR

 SCK continues to toggle during any read access latency period. The latency may be zero to several SCK

 If the command returns read data to the host, the device continues sending data transfers until the host

 At the end of a command that does not return data, the host drives the CS# input high. The CS# signal

 All instruction, address, and mode bits are shifted into the device with the Most Significant Bits (MSB) first.

 All attempts to read the flash memory array during a program, erase, or a write cycle (embedded

 Depending on the command, the time for execution varies. A command to read status information from an

command thus does not provide an instruction byte, only a new address and mode bits. This reduces the

time needed to send each command when the same command type is repeated in a sequence of

commands. The mode bit transfers occur on SCK rising edge, in SDR commands, or on every SCK edge,

in DDR commands.

latency period before read data is returned to the host.

commands.

cycles (also referred to as dummy cycles). At the end of the read latency cycles, the first read data bits are

driven from the outputs on SCK falling edge at the end of the last read latency cycle. The first read data

bits are considered transferred to the host on the following SCK rising edge. Each following transfer occurs

on the next SCK rising edge, in SDR commands, or on every SCK edge, in DDR commands.

takes the CS# signal high. The CS# signal can be driven high after any transfer in the read data sequence.

This will terminate the command.

must go high after the eighth bit, of a stand alone instruction or, of the last write data byte that is

transferred. That is, the CS# signal must be driven high when the number of clock cycles after CS# signal

was driven low is an exact multiple of eight cycles. If the CS# signal does not go high exactly at the eight

SCK cycle boundary of the instruction or write data, the command is rejected and not executed.

The data bits are shifted in and out of the device MSB first. All data is transferred in byte units with the

lowest address byte sent first. Following bytes of data are sent in lowest to highest byte address order i.e.

the byte address increments.

operations) are ignored. The embedded operation will continue to execute without any affect. A very

limited set of commands are accepted during an embedded operation. These are discussed in the

individual command descriptions.

executing command is available to determine when the command completes execution and whether the

command was successful.

D a t a

S h e e t

( P r e l i m i n a r y )

S25FL512S

S25FL512SAGMFIG13 Spansion, S25FL512SAGMFIG13 Datasheet - Page 23

S25FL512SAGMFIG13

Specifications of S25FL512SAGMFIG13

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