IS43R16800A-5TL-TR ISSI, Integrated Silicon Solution Inc, IS43R16800A-5TL-TR Datasheet - Page 15

IS43R16800A-5TL-TR

Manufacturer Part Number

IS43R16800A-5TL-TR

Description

IC DDR SDRAM 128MBIT 66TSOP

Manufacturer

ISSI, Integrated Silicon Solution Inc

Datasheet

1.IS43R16800A-5TL-TR.pdf (46 pages)

Specifications of IS43R16800A-5TL-TR

Format - Memory

RAM

Memory Type

DDR SDRAM

Memory Size

128M (8Mx16)

Speed

200MHz

Interface

Parallel

Voltage - Supply

2.5 V ~ 2.7 V

Operating Temperature

0°C ~ 70°C

Package / Case

66-TSOPII

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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IS43R16800A

Auto Refresh (REF)

The DDR SDRAM is issued the Auto Refresh com-

mand during normal operation to maintain data in the

memory array. All the banks must be idle for the

command to be executed. The device has 4096

refresh cycles every 64ms.

Self Refresh (SELF)

To issue the Self Refresh command, CKE must be

Low. When the DDR SDRAM is in Self Refresh mode,

it retains the data contents without external clocking,

and ignores other input signals. The DLL is disabled

upon entering the Self Refresh mode, and is enabled

again upon leaving the mode. To exit Self Refresh, all

inputs must be stable prior to CKE going High. Next,

a NOP command command must be issued on each

clock cycle for at least t

operations are completed. To prepare for a memory

access, the DDR SDRAM must receive a DLL reset

followed by a NOP command for 200 clock cycles.

DEVICE OPERATION

Bank and Row Activation

An Active command must be issued to the DDR

SDRAM to open a bank and row prior to an access.

The row will be available for a Read or Write com-

mand once a time tRCD has occurred. The Active

command is depicted in the figure. As CLK goes

High, CS and RAS are Low, while CKE, WE, and CAS

are High. Upon issuing the Active command, the

values on the address inputs specify the row, and BA0

and BA1 specify the bank. When an Active command

is issued for a bank and row, another row in that same

bank may be activated after a time tRC. When an

Active command is issued for a bank and row, a row in

a different bank may be activated after a time tRRD.

(Note: to ensure that time requirement tRCD, tRC, or

tRRD is met, NOP commands should be issued for a

whole number of clock cycles that is greater than the

time requirement (ie. tRCD) divided by the clock

period.)

Read Operation

A Read command starts a burst from an activated row.

The Read command is depicted in the figure. As CLK

goes High, CS and CAS are Low, while RAS, CKE,

and WE are High. The values on the inputs BA0 and

BA1 specify the bank to access, and the address

inputs specify the starting column in the open row. If

Auto Pre-charge is enabled in the Read command, the

Integrated Silicon Solution, Inc. — 1-800-379-4774

Rev. 00A

07/11/05

SNR

to ensure that internal refresh

open row will be pre-charged after completion of the Read

burst. Unless stated otherwise, all timing diagrams for

Read operations have disabled Auto Pre-charge.

The Read command causes data to be retrieved and

placed in the pipeline. The subsequent command can

be NOP, Read, or Terminate Burst. The data from the

starting column specified in the Read command

appears on I/O pins following a CAS latency of after

the Read command. On each CLK and CLK crossing,

the data from the next column in the burst sequence is

output from the pipeline until the burst is completed

(see Read Burst, Non-consecutive Read Burst, and

Consecutive Read Burst). There are two cases in

which a full Read burst length is not completed. The

first is when the data retrieved from a subsequent

Read burst interrupts the previous burst (see Random

Read Accesses). The second is when a subsequent

Burst Terminate command truncates the burst (see

Terminating a Read Burst and Read to Write). The

Burst Terminate and Read commands obey the same

CAS latency timing such that they should be issued x

cycles after a previous Read command, where x is the

number of pairs of columns to output. By following a

desired command sequence, continuous data can be

output with either whole Read bursts or truncated

Read bursts. Whenever a Read burst finishes and no

other commands have been initiated, the I/O returns to

High-Z.

If Auto Pre-charge is not enabled in the Read burst,

the Pre-charge command can be issued separately

following the Read command. The Pre-charge com-

mand should be received by the device x cycles after

the Read command, where x is the desired number of

pairs of columns to output during the Read burst.

After the Pre-charge command, it is necessary to wait

until both tRAS and tRP have been met before issuing

a new command to the same bank.

Data Strobe output is driven synchronously with the

output data on the I/O pins. The Low portion of the

Data Strobe just prior to the first output data is the

Read Pre-amble; and the Low portion coinciding with

the last output data is the Read Post-amble. Before

any Write command can be executed, any previous

Read burst must have been completed normally or

truncated by a Burst Terminate command. In the

diagram Read to Write, a Burst Terminate command is

issued to truncate a Read Burst early, and begin a

Write operation. After the Write command, a time

tDQSS is required prior to latching the data on the I/O.

ISSI

IS43R16800A-5TL-TR ISSI, Integrated Silicon Solution Inc, IS43R16800A-5TL-TR Datasheet - Page 15

IS43R16800A-5TL-TR

Specifications of IS43R16800A-5TL-TR

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