IS45S16400E-7TLA2-TR ISSI, Integrated Silicon Solution Inc, IS45S16400E-7TLA2-TR Datasheet - Page 4

IS45S16400E-7TLA2-TR

Manufacturer Part Number

IS45S16400E-7TLA2-TR

Description

IC SDRAM 64MBIT 143MHZ 50TSOP

Manufacturer

ISSI, Integrated Silicon Solution Inc

Type

SDRAMr

Datasheet

1.IS45S16400E-7TLA1-TR.pdf (55 pages)

Specifications of IS45S16400E-7TLA2-TR

Format - Memory

RAM

Memory Type

SDRAM

Memory Size

64M (4M x 16)

Speed

143MHz

Interface

Parallel

Voltage - Supply

3 V ~ 3.6 V

Operating Temperature

-40°C ~ 105°C

Package / Case

50-TSOPII

Organization

4Mx16

Density

64Mb

Address Bus

14b

Access Time (max)

6/5.4ns

Maximum Clock Rate

143MHz

Operating Supply Voltage (typ)

3.3V

Package Type

TSOP-II

Operating Supply Voltage (max)

3.6V

Operating Supply Voltage (min)

Supply Current

110mA

Pin Count

Mounting

Surface Mount

Operating Temperature Classification

Industrial

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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IS45S16400E

READ

The READ command selects the bank from BA0, BA1 inputs

and starts a burst read access to an active row. Inputs

A0-A7 provides the starting column location. When A10 is

HIGH, this command functions as an AUTO PRECHARGE

when AUTO PRECHARGE is not selected. DQ’s read

clocks earlier. When a given DQM signal was registered

HIGH, the corresponding DQ’s will be High-Z two clocks

later. DQ’s will provide valid data when the DQM signal

was registered LOW.

WRITE

A burst write access to an active row is initiated with the

WRITE command. BA0, BA1 inputs selects the bank,

and the starting column location is provided by inputs

A0-A7. Whether or not AUTO-PRECHARGE is used is

determined by A10.

The row being accessed will be precharged at the end of

the WRITE burst, if AUTO PRECHARGE is selected. If

AUTO PRECHARGE is not selected, the row will remain

open for subsequent accesses.

A memory array is written with corresponding input data

on DQ’s and DQM input logic level appearing at the same

time. Data will be written to memory when DQM signal is

LOW. When DQM is HIGH, the corresponding data inputs

PRECHARGE

The PRECHARGE command is used to deactivate the

open row in a particular bank or the open row in all banks.

BA0, BA1 can be used to select which bank is precharged

or they are treated as “Don’t Care”. A10 determined

whether one or all banks are precharged. After execut-

ing this command, the next command for the selected

banks(s) is executed after passage of the period t

is the period required for bank precharging. Once a bank

has been precharged, it is in the idle state and must be

activated prior to any READ or WRITE commands being

issued to that bank.

AUTO PRECHARGE

The AUTO PRECHARGE function ensures that the pre-

charge is initiated at the earliest valid stage within a burst.

This function allows for individual-bank precharge without

requiring an explicit command. A10 to enables the AUTO

PRECHARGE function in conjunction with a specific READ

or WRITE command. For each individual READ or WRITE

command, auto precharge is either enabled or disabled.

AUTO PRECHARGE does not apply except in full-page

command. When the auto precharge is selected, the row

being accessed will be precharged at the end of the READ

burst. The row will remain open for subsequent accesses

data is subject to the logic level on the DQM inputs two

will be ignored, and a WRITE will not be executed to that

byte/column location.

, which

burst mode. Upon completion of the READ or WRITE

burst, a precharge of the bank/row that is addressed is

automatically performed.

AUTO REFRESH COMMAND

This command executes the AUTO REFRESH operation.

The row address and bank to be refreshed are automatically

generatedduringthisoperation. Thestipulatedperiod(t

required for a single refresh operation, and no other com-

mands can be executed during this period. This command is

executed at least 4096 times every 64ms. During an AUTO

REFRESH command, address bits are “Don’t Care”. This

command corresponds to CBR Auto-refresh.

SELF REFRESH

During the SELF REFRESH operation, the row address to

be refreshed, the bank, and the refresh interval are gen-

erated automatically internally. SELF REFRESH can be

used to retain data in the SDRAM without external clocking,

even if the rest of the system is powered down. The SELF

REFRESH operation is started by dropping the CKE pin

from HIGH to LOW. During the SELF REFRESH operation

all other inputs to the SDRAM become “Don’t Care”. The

device must remain in self refresh mode for a minimum

period equal to t

for an indefinite period beyond that.The SELF-REFRESH

operation continues as long as the CKE pin remains LOW

and there is no need for external control of any other pins.

The next command cannot be executed until the device

internal recovery period (t

goes HIGH, the NOP command must be issued (minimum

of two clocks) to provide time for the completion of any

internal refresh in progress. After the self-refresh, since it

is impossible to determine the address of the last row to

be refreshed, an AUTO-REFRESH should immediately be

performed for all addresses.

BURST TERMINATE

The BURST TERMINATE command forcibly terminates

the burst read and write operations by truncating either

fixed-length or full-page bursts and the most recently

registered READ or WRITE command prior to the BURST

TERMINATE.

COMMAND INHIBIT

COMMAND INHIBIT prevents new commands from being

executed. Operations in progress are not affected, apart

from whether the CLK signal is enabled

NO OPERATION

When CS is low, the NOP command prevents unwanted

commands from being registered during idle or wait

states.

Integrated Silicon Solution, Inc. — www.issi.com

ras

or may remain in self refresh mode

) has elapsed. Once CKE

01/13/2010

Rev. F

) is

IS45S16400E-7TLA2-TR ISSI, Integrated Silicon Solution Inc, IS45S16400E-7TLA2-TR Datasheet - Page 4

IS45S16400E-7TLA2-TR

Specifications of IS45S16400E-7TLA2-TR

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