SST39VF160-70-4I-BK Microchip Technology, SST39VF160-70-4I-BK Datasheet - Page 2

SST39VF160-70-4I-BK

Manufacturer Part Number

SST39VF160-70-4I-BK

Description

Flash 1M X 16 70ns

Manufacturer

Microchip Technology

Datasheet

1.SST39VF160-70-4I-BK.pdf (24 pages)

Specifications of SST39VF160-70-4I-BK

Product Category

Flash

Data Bus Width

16 bit

Memory Type

NOR Flash

Memory Size

16 Mbit

Architecture

Sectored

Interface Type

Parallel

Supply Voltage - Max

3.6 V

Supply Voltage - Min

2.7 V

Maximum Operating Current

20 mA

Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

TFBGA

Organization

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Data Sheet

The SST39LF/VF160 also have the Auto Low Power

mode which puts the device in a near standby mode after

data has been accessed with a valid Read operation. This

reduces the I

typically 4 µA. The Auto Low Power mode reduces the typi-

cal I

read cycle time. The device exits the Auto Low Power

mode with any address transition or control signal transition

used to initiate another Read cycle, with no access time

penalty. Note that the device does not enter Auto Low

Power mode after power-up with CE# held steadily low until

the first address transition or CE# is driven high.

Read

The Read operation of the SST39LF/VF160 is controlled by

CE# and OE#, both have to be low for the system to obtain

data from the outputs. CE# is used for device selection.

When CE# is high, the chip is deselected and only standby

power is consumed. OE# is the output control and is used

to gate data from the output pins. The data bus is in high

impedance state when either CE# or OE# is high. Refer to

the Read cycle timing diagram for further details (Figure 3).

Word-Program Operation

The SST39LF/VF160 are programmed on a word-by-word

basis. Before programming, the sector where the word

exists must be fully erased. The Program operation is

accomplished in three steps. The first step is the three-byte

load sequence for Software Data Protection. The second

step is to load word address and word data. During the

Word-Program operation, the addresses are latched on the

falling edge of either CE# or WE#, whichever occurs last.

The data is latched on the rising edge of either CE# or

WE#, whichever occurs first. The third step is the internal

Program operation which is initiated after the rising edge of

the fourth WE# or CE#, whichever occurs first. The Pro-

gram operation, once initiated, will be completed within 20

µs. See Figures 4 and 5 for WE# and CE# controlled Pro-

gram operation timing diagrams and Figure 16 for flow-

charts. During the Program operation, the only valid reads

are Data# Polling and Toggle Bit. During the internal Pro-

gram operation, the host is free to perform additional tasks.

Any commands issued during the internal Program opera-

tion are ignored.

Sector-/Block-Erase Operation

The Sector- (or Block-) Erase operation allows the system

to erase the device on a sector-by-sector (or block-by-

block) basis. The SST39LF/VF160 offer both Sector-Erase

and Block-Erase modes. The sector architecture is based

on uniform sector size of 2 KWord. The Block-Erase mode

active read current to the range of 1 mA/MHz of

active read current from typically 15 mA to

is based on uniform block size of 32 KWord. The Sector-

Erase operation is initiated by executing a six-byte com-

mand sequence with Sector-Erase command (30H) and

sector address (SA) in the last bus cycle. The Block-Erase

operation is initiated by executing a six-byte command

sequence with Block-Erase command (50H) and block

address (BA) in the last bus cycle. The sector or block

address is latched on the falling edge of the sixth WE#

pulse, while the command (30H or 50H) is latched on the

rising edge of the sixth WE# pulse. The internal Erase

operation begins after the sixth WE# pulse. The End-of-

Erase operation can be determined using either Data#

Polling or Toggle Bit methods. See Figures 9 and 10 for tim-

ing waveforms. Any commands issued during the Sector-

or Block-Erase operation are ignored.

Chip-Erase Operation

The SST39LF/VF160 provide a Chip-Erase operation,

which allows the user to erase the entire memory array to

the “1” state. This is useful when the entire device must be

quickly erased.

The Chip-Erase operation is initiated by executing a six-

byte command sequence with Chip-Erase command (10H)

at address 5555H in the last byte sequence. The Erase

operation begins with the rising edge of the sixth WE# or

CE#, whichever occurs first. During the Erase operation,

the only valid read is Toggle Bit or Data# Polling. See Table

4 for the command sequence, Figure 8 for timing diagram,

and Figure 19 for the flowchart. Any commands issued dur-

ing the Chip-Erase operation are ignored.

Write Operation Status Detection

The SST39LF/VF160 provide two software means to

detect the completion of a Write (Program or Erase) cycle,

in order to optimize the system Write cycle time. The soft-

ware detection includes two status bits: Data# Polling

(DQ

mode is enabled after the rising edge of WE#, which ini-

tiates the internal Program or Erase operation.

The actual completion of the nonvolatile write is asynchro-

nous with the system; therefore, either a Data# Polling or

Toggle Bit read may be simultaneous with the completion

of the write cycle. If this occurs, the system may possibly

get an erroneous result, i.e., valid data may appear to con-

flict with either DQ

rejection, if an erroneous result occurs, the software routine

should include a loop to read the accessed location an

additional two (2) times. If both reads are valid, then the

device has completed the Write cycle, otherwise the rejec-

tion is valid.

) and Toggle Bit (DQ

16 Mbit Multi-Purpose Flash

SST39LF160 / SST39VF160

or DQ

). The End-of-Write detection

. In order to prevent spurious

S71145-04-000 11/03 399

SST39VF160-70-4I-BK Microchip Technology, SST39VF160-70-4I-BK Datasheet - Page 2

SST39VF160-70-4I-BK

Specifications of SST39VF160-70-4I-BK

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