MT47H32M16HR-25E AIT:G Micron, MT47H32M16HR-25E AIT:G Datasheet - Page 88

MT47H32M16HR-25E AIT:G

Manufacturer Part Number

MT47H32M16HR-25E AIT:G

Description

DRAM Chip DDR2 SDRAM 512M-Bit 32Mx16 1.8V 84-Pin FBGA

Manufacturer

Micron

Datasheet

1.MT47H64M8CF-25E_ITG.pdf (129 pages)

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PDF: 09005aef8440dbbc

512mbddr2_ait_aat.pdf – Rev. C 7/11 EN

READ bursts are initiated with a READ command. The starting column and bank ad-

dresses 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 being accessed is

automatically precharged at the completion of the burst. If auto precharge is disabled,

the row will be left open after the completion of the burst.

During READ bursts, the valid data-out element from the starting column address will

be available READ latency (RL) clocks later. RL is defined as the sum of AL and CL:

RL = AL + CL. The value for AL and CL are programmable via the MR and EMR com-

mands, respectively. Each subsequent data-out element will be valid nominally at the

next positive or negative clock edge (at the next crossing of CK and CK#). Figure 43

(page 89) shows examples of RL based on different AL and CL settings.

DQS/DQS# is driven by the DDR2 SDRAM along with output data. The initial LOW state

on DQS and the HIGH state on DQS# are known as the read preamble (

LOW state on DQS and the HIGH state on DQS# coincident with the last data-out ele-

ment are known as the read postamble (

Upon completion of a burst, assuming no other commands have been initiated, the DQ

will go High-Z. A detailed explanation of

window hold), and the valid data window are depicted in Figure 52 (page 97) and Fig-

ure 53 (page 98). A detailed explanation of

Data from any READ burst may be concatenated with data from a subsequent READ

command to provide a continuous flow of data. The first data element from the new

burst follows the last element of a completed burst. The new READ command should be

issued x cycles after the first READ command, where x equals BL/2 cycles (see Figure 44

(page 90)).

Nonconsecutive read data is illustrated in Figure 45 (page 91). Full-speed random read

accesses within a page (or pages) can be performed. DDR2 SDRAM supports the use of

concurrent auto precharge timing (see Table 41 (page 94)).

DDR2 SDRAM does not allow interrupting or truncating of any READ burst using BL = 4

operations. Once the BL = 4 READ command is registered, it must be allowed to com-

plete the entire READ burst. However, a READ (with auto precharge disabled) using BL =

8 operation may be interrupted and truncated only by another READ burst as long as

the interruption occurs on a 4-bit boundary due to the 4n prefetch architecture of

DDR2 SDRAM. As shown in Figure 46 (page 92), READ burst BL = 8 operations may

not be interrupted or truncated with any other command except another READ com-

mand.

Data from any READ burst must be completed before a subsequent WRITE burst is al-

lowed. An example of a READ burst followed by a WRITE burst is shown in Figure 47

(page 92). The

fined in Figure 55 (page 101)).

AC (data-out transition skew to CK) is shown in Figure 54 (page 99).

Micron Confidential and Proprietary

DQSS (NOM) case is shown (

512Mb: x8, x16 Automotive DDR2 SDRAM

Micron Technology, Inc. reserves the right to change products or specifications without notice.

RPST).

DQSQ (valid data-out skew),

DQSCK (DQS transition skew to CK) and

DQSS [MIN] and

DQSS [MAX] are de-

QH (data-out

RPRE). The

READ

MT47H32M16HR-25E AIT:G Micron, MT47H32M16HR-25E AIT:G Datasheet - Page 88

MT47H32M16HR-25E AIT:G

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