SST49LF080A-33-4C-NHE-T Microchip Technology, SST49LF080A-33-4C-NHE-T Datasheet - Page 10

SST49LF080A-33-4C-NHE-T

Manufacturer Part Number

SST49LF080A-33-4C-NHE-T

Description

3.0V To 3.6V 8Mbit LPC Firmware Flash 32 PLCC T/R

Manufacturer

Microchip Technology

Datasheets

1.SST49LF080A-33-4C-NHE.pdf (49 pages)

2.SST49LF080A-33-4C-NHE.pdf (2 pages)

3.SST49LF080A-33-4C-NHE.pdf (2 pages)

Specifications of SST49LF080A-33-4C-NHE-T

Format - Memory

FLASH

Memory Type

FLASH

Memory Size

8M (1M x 8)

Speed

33MHz

Interface

Parallel

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

0°C ~ 85°C

Package / Case

32-PLCC

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Manufacturer

Quantity

Price

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Part Number:

SST49LF080A-33-4C-NHE-T

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Quantity:

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Part Number:

SST49LF080A-33-4C-NHE-T

Manufacturer:

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Data Sheet

DESIGN CONSIDERATIONS

SST recommends a high frequency 0.1 µF ceramic capac-

itor to be placed as close as possible between V

Additionally, a low frequency 4.7 µF electrolytic capacitor

from V

pin. If you use a socket for programming purposes add an

additional 1-10 µF next to each socket.

PRODUCT IDENTIFICATION

The Product Identification mode identifies the device as the

SST49LF080A and manufacturer as SST.

TABLE 2: Product Identification

MODE SELECTION

The SST49LF080A flash memory devices can operate in

two distinct interface modes: the LPC mode and the Parallel

Programming (PP) mode. The mode pin is used to set the

interface mode selection. If the mode pin is set to logic High,

the device is in PP mode. If the mode pin is set Low, the

device is in the LPC mode. The mode selection pin must be

configured prior to device operation. The mode pin is inter-

nally pulled down if the pin is left unconnected. In LPC

mode, the device is configured to its host using standard

LPC interface protocol. Communication between Host and

the SST49LF080A occurs via the 4-bit I/O communication

signals, LAD [3:0] and LFRAME#. In PP mode, the device

is programmed via an 11-bit address and an 8-bit data I/O

parallel signals. The address inputs are multiplexed in row

and column selected by control signal R/C# pin. The row

addresses are mapped to the lower internal addresses

higher internal addresses (A

Device Memory Map, for address assignments.

TABLE 3: Address bits definition

Manufacturer’s ID

Device ID

10-0

1. The top 32MByte address range FFFF FFFFH to FE00 0000H and the bottom 128 KByte memory access address 000F FFFFH to

2. See Table 7 for multiple device selection configuration

SST49LF080A

less than 1 cm away from the V

1111 111b or 0000 000b

), and the column addresses are mapped to the

000E 0000H are decoded.

to V

: A

should be placed within 5 cm of the V

MS-11

Address

0000H

0001H

). See Figure 4, the

ID[3:2]

pin of the device.

Data

BFH

5BH

T2.0 1235

1 = Memory Access

0 = Register access

and

LPC MODE

Device Operation

The LPC mode uses a 5-signal communication interface, a

4-bit address/data bus, LAD[3:0], and a control line,

LFRAME#, to control operations of the SST49LF080A.

Cycle type operations such as Memory Read and Memory

Write are defined in Intel Low Pin Count Interface Specifi-

cation, Revision 1.0. JEDEC Standard SDP (Software

Data

sequences are incorporated into the standard LPC mem-

ory cycles. See Figures 7 through 12 for command

sequences.

LPC signals are transmitted via the 4-bit Address/Data bus

(LAD[3:0]), and follow a particular sequence, depending on

whether they are Read or Write operations. LPC memory

Read and Write cycle is defined in Tables 5 and 6.

Both LPC Read and Write operations start in a similar way

as shown in Figures 5 and 6. The host (which is the term

used here to describe the device driving the memory)

asserts LFRAME# for two or more clocks and drives a start

value on the LAD[3:0] bus.

At the beginning of an operation, the host may hold the

LFRAME# active for several clock cycles, and even change

the Start value. The LAD[3:0] bus is latched every rising

edge of the clock. On the cycle in which LFRAME# goes

inactive, the last latched value is taken as the Start value.

CE# must be asserted one cycle before the start cycle to

select the SST49LF080A for Read and Write operations.

Once the SST49LF080A identifies the operation as valid (a

start value of all zeros), it next expects a nibble that indi-

cates whether this is a memory Read or Write cycle. Once

this is received, the device is now ready for the Address

cycles. The LPC protocol supports a 32-bit address phase.

The SST49LF080A encodes ID and register space access

in the address field. See Table 3 for address bits definition.

For Write operation the Data cycle will follow the Address

cycle, and for Read operation TAR and SYNC cycles occur

between the Address and Data cycles. At the end of every

operation, the control of the bus must be returned to the

host by a 2-clock TAR cycle.

Protection)

ID[1:0]

: A

Program

Device Memory address

8 Mbit LPC Flash

and

SST49LF080A

Erase

S71235-02-000

commands

T3.1 1235

5/06

SST49LF080A-33-4C-NHE-T Microchip Technology, SST49LF080A-33-4C-NHE-T Datasheet - Page 10

SST49LF080A-33-4C-NHE-T

Specifications of SST49LF080A-33-4C-NHE-T

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