E
November 1996 Order Number: 290489-004
User-Selectable 3.3V or 5V V
CC
User-Configurable x8 or x16 Operation
70 ns Maximum Access Time
28.6 MB/sec Burst Write Transfer Rate
1 Million Typical Erase Cycles per
Block
56-Lead, 1.2 mm x 14 mm x 20 mm
TSOP Package
56-Lead, 1.8 mm x 16 mm x 23.7 mm
SSOP Package
Revolutionary Architecture
Pipelined Command Execution
Program during Erase
Command Superset of Intel
28F008SA
1 mA Typical I
CC
in Static Mode
1 µA Typical Deep Power-Down
32 Independently Lockable Blocks
State-of-the-Art 0.6 µm ETOX™ IV Flash
Technology
Intel’s 28F016SA 16-Mbit FlashFile™ memory is a revolutionary architecture which is the ideal choice for
designing embedded di rect-execut e code and mass s torage data/fi le flash mem ory systems. With innovative
capabilities, low-power, extended temperat ure operation and high read/program performance, the 28F016SA
enables the design of truly mobile, high-performance communications and computing products.
The 28F016SA is the highest density, highest performance nonvolatile read/program solution for solid-state
storage applications. Its symmetrically-blocked architecture (100% compatible with the 28F008SA 8-Mbit
FlashFile memory), extended cycling, extended temperature operation, flexible V
CC
, fast program and read
performance and selective block locking provide highly flexible memory components suitable for Resident
Flash Arrays, high-density memory cards and PCMCIA-ATA flash drives. The 28F016SA dual read voltage
enables the design of mem ory cards whi ch can be interchangeably read/writ ten in 3.3V and 5. 0V systems. Its
x8/x16 architec ture allows optimi zation of the memory -to-processor int erface. It s high read performance and
flexible block locking enable both storage and execution of operating systems and application software.
Manufactured on Intel’s 0.6 µm ETOX IV process technology, the 28F016SA is the most cost-effective,
highest density monolithic 3.3V FlashFile memory.
28F016SA 16-MBIT
(1 MBIT X 16, 2 MBIT X 8)
FlashFile™ MEMORY
Includes Commercial and Extended Temperature Specifications