IC43R16160 Datasheet, PDF(8/56 Page) Integrated Circuit Solution Inc – 4M x 16 Bit x 4 Banks (256-MBIT) DDR SDRAM

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IC43R16160 Datasheet, PDF (8/56 Pages) Integrated Circuit Solution Inc – 4M x 16 Bit x 4 Banks (256-MBIT) DDR SDRAM

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IC43R16160

Bank Activate Command

The Bank Activate command is issued by holding CAS and WE high with CS and RAS low at the rising

edge of the clock. The DDR SDRAM has four independent banks, so two Bank Select addresses (BA0 and

BA1) are supported. The Bank Activate command must be applied before any Read or Write operation can

be executed. The delay from the Bank Activate command to the first Read or Write command must meet or

exceed the minimum RAS to CAS delay time (tRCD min). Once a bank has been activated, it must be pre-

charged before another Bank Activate command can be applied to the same bank. The minimum time interval

between interleaved Bank Activate commands (Bank A to Bank B and vice versa) is the Bank to Bank delay

time (tRRD min).

Bank Activation Timing

CK, CK

BA/Address

Command

tRAS(min)

tRCD(min)

Bank/Row

Activate/A

Bank/Col

Read/A

tRC

Tn+1

(CAS Latency = 2; Burst Length = Any)

Tn+2

Tn+3

Tn+4

Tn+5

tRP(min)

tRRD(min)

Bank

Pre/A

Bank/Row

Activate/A

Bank/Row

Activate/B

Begin Precharge Bank A

Read Operation

With the DLL enabled, all devices operating at the same frequency within a system are ensured to have

the same timing relationship between DQ and DQS relative to the CK input regardless of device density, pro-

cess variation, or technology generation.

The data strobe signal (DQS) is driven off chip simultaneously with the output data (DQ) during each read

cycle. The same internal clock phase is used to drive both the output data and data strobe signal off chip to

minimize skew between data strobe and output data. This internal clock phase is nominally aligned to the

input differential clock (CK, CK) by the on-chip DLL. Therefore, when the DLL is enabled and the clock fre-

quency is within the specified range for proper DLL operation, the data strobe (DQS), output data (DQ), and

the system clock (CK) are all nominally aligned.

Since the data strobe and output data are tightly coupled in the system, the data strobe signal may be de-

layed and used to latch the output data into the receiving device. The tolerance for skew between DQS and

DQ (tDQSQ) is tighter than that possible for CK to DQ (tAC) or DQS to CK (tDQSCK).

Integrated Circuit Solution Inc.

DDR001-0B 11/10/2004

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