HYB25D256400B Datasheet, PDF(25/83 Page) Infineon Technologies AG

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HYB25D256400B Datasheet, PDF (25/83 Pages) Infineon Technologies AG – 256 Mbit Double Data Rate SDRAM

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HYB25D256[400/800/160]B[T/C](L)

256-Mbit Double Data Rate SDRAM

Functional Description

3.5.2 Reads

Subsequent to programming the mode register with CAS latency, burst type, and burst length, Read bursts are

initiated with a Read command, as shown on Figure 9 "Read Command" on Page 25.

The starting column and bank addresses are provided with the Read command and Auto Precharge is either

enabled or disabled for that burst access. If Auto Precharge is enabled, the row that is accessed starts precharge

at the completion of the burst, provided tRAS has been satisfied. For the generic Read commands used in the

following illustrations, Auto Precharge is disabled.

During Read bursts, the valid data-out element from the starting column address is available following the CAS

latency after the Read command. Each subsequent data-out element is valid nominally at the next positive or

negative clock edge (i.e. at the next crossing of CK and CK). Figure 10 "Read Burst: CAS Latencies (Burst

Length = 4)" on Page 26 shows general timing for each supported CAS latency setting. DQS is driven by the DDR

SDRAM along with output data. The initial low state on DQS is known as the read preamble; the low state

coincident with the last data-out element is known as the read postamble. Upon completion of a burst, assuming

no other commands have been initiated, the DQs goes High-Z. Data from any Read burst may be concatenated

with or truncated with data from a subsequent Read command. In either case, a continuous flow of data can be

maintained. The first data element from the new burst follows either the last element of a completed burst or the

last desired data element of a longer burst which is being truncated. The new Read command should be issued x

cycles after the first Read command, where x equals the number of desired data element pairs (pairs are required

by the 2n prefetch architecture). This is shown on Figure 11 "Consecutive Read Bursts: CAS Latencies (Burst

Length = 4 or 8)" on Page 27. A Read command can be initiated on any clock cycle following a previous Read

command. Nonconsecutive Read data is illustrated on Figure 12 "Non-Consecutive Read Bursts: CAS

Latencies (Burst Length = 4)" on Page 28. Full-speed Figure 13 "Random Read Accesses: CAS Latencies

(Burst Length = 2, 4 or 8)" on Page 29 within a page (or pages) can be performed as shown on Figure 13.

CKE

RAS

CAS

x4: A0-A9, A11

x8: A0-A9

x16: A0-A8

A10

BA0, BA1

HIGH

EN AP

DIS AP

CA = column address

BA = bank address

EN AP = enable Auto Precharge

DIS AP = disable Auto Precharge

Donât Care

Figure 9 Read Command

Data Sheet

Rev. 1.2, 2004-02

02102004-TSR1-4ZWW

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