"Spansion, Inc andCypress Semiconductor Corp have merged together to deliver high-performance, high-quality solutions
at the heart of today's most advanced embedded systems, from automotive, industrial and networking platforms to highly
interactive consumer and mobile devices. The new company Cypress Semiconductor Corp will continue to offerSpansion,
Inc products to new and existing customers.
Continuity of Specifications
There is no change to this document as a result of offering the device as a Cypress product. Any changes that have been made
are the result of normal document improvements and are noted in the document history page, where supported. Future
revisions will occur when appropriate, and changes will be noted in a document history page.
Continuity of Ordering Part Numbers
Cypress continues to support existing part numbers. To order these products, please use only the Ordering Part Numbers listed
in this document.
For More Information
Please contact your local sales office for additional information about Cypress products and solutions.S25FL128S, S25FL256S
128 Mbit (16 Mbyte), 256 Mbit (32 Mbyte)
3.0V SPI Flash Memory
Features
CMOS 3.0 Volt Core with Versatile I/O Data Retention
20 Year Data Retention typical
Serial Peripheral Interface (SPI) with Multi-I/O
SPI Clock polarity and phase modes 0 and 3 Security features
Double Data Rate (DDR) option One Time Program (OTP) array of 1024 bytes
Extended Addressing: 24- or 32-bit address options Block Protection:
Serial Command set and footprint compatible with S25FL-A, Status Register bits to control protection against program or erase
S25FL-K, and S25FL-P SPI families of a contiguous range of sectors.
Hardware and software control options
Multi I/O Command set and footprint compatible with
S25FL-P SPI family Advanced Sector Protection (ASP)
Individual sector protection controlled by boot code or password
READ Commands
Cypress 65 nm MirrorBit Technology with Eclipse Architecture
Normal, Fast, Dual, Quad, Fast DDR, Dual DDR, Quad DDR
AutoBoot - power up or reset and execute a Normal or Quad read Core Supply Voltage: 2.7V to 3.6V
command automatically at a preselected address
I/O Supply Voltage: 1.65V to 3.6V
Common Flash Interface (CFI) data for configuration information.
SO16 and FBGA packages
Programming (1.5 Mbytes/s)
Temperature Range:
256 or 512 Byte Page Programming buffer options
Industrial (-40C to +85C)
Quad-Input Page Programming (QPP) for slow clock systems
Industrial Plus (-40C to +105C)
Erase (0.5 to 0.65 Mbytes/s)
Extended (-40C to +125C)
Hybrid sector size option - physical set of thirty two 4-kbyte sectors
Packages (all Pb-free)
at top or bottom of address space with all remaining sectors of
16-lead SOIC (300 mil)
64 kbytes, for compatibility with prior generation S25FL devices
WSON 6 x 8 mm
Uniform sector option - always erase 256-kbyte blocks for software
BGA-24 6 x 8 mm
compatibility with higher density and future devices.
5 x 5 ball (FAB024) and 4 x 6 ball (FAC024) footprint options
Cycling Endurance
Known Good Die and Known Tested Die
100,000 Program-Erase Cycles on any sector typical
Performance Summary
Maximum Read Rates with the Same Core and I/O Voltage Maximum Read Rates DDR (V = V = 3V to 3.6V)
IO CC
(V = V = 2.7V to 3.6V)
IO CC
Command Clock Rate (MHz) Mbytes/s
Command Clock Rate (MHz) Mbytes/s
Fast Read DDR 80 20
Read 50 6.25
Dual Read DDR 80 40
Fast Read 133 16.6
Quad Read DDR 80 80
Dual Read 104 26
Quad Read 104 52
Typical Program and Erase Rates
Maximum Read Rates with Lower I/O Voltage (V = 1.65V
IO
Operation kbytes/s
to 2.7V, V = 2.7V to 3.6V)
CC
Page Programming (256-byte page buffer - Hybrid
1000
Sector Option)
Command Clock Rate (MHz) Mbytes/s
Page Programming (512-byte page buffer - Uniform
Read 50 6.25 1500
Sector Option)
Fast Read 66 8.25
4-kbyte Physical Sector Erase (Hybrid Sector Option) 30
Dual Read 66 16.5
64-kbyte Physical Sector Erase (Hybrid Sector Option) 500
Quad Read 66 33
256-kbyte Logical Sector Erase (Uniform Sector Option) 500
Cypress Semiconductor Corporation 198 Champion Court San Jose, CA 95134-1709 408-943-2600
Document Number: 001-98283 Rev. *I Revised August 24, 2015