HYB25D256800BT Datasheet, PDF(15/29 Page) Infineon Technologies AG

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HYB25D256800BT Datasheet, PDF (15/29 Pages) Infineon Technologies AG – 256MBit Double Data Rata SDRAM

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HYB25D256[800/160]BT(L)-[5/5A]

256MBit Double Data Rata SDRAM

Preliminary DDR400 Data Sheet Addendum

Read or Write commands being issued to that bank. A precharge command is treated as a NOP if there is no

open row in that bank, or if the previously open row is already in the process of precharging.

Auto Precharge

Auto Precharge is a feature which performs the same individual-bank precharge functions described above,

but without requiring an explicit command. This is accomplished by using A10 to enable Auto Precharge in

conjunction with a specific Read or Write command. A precharge of the bank/row that is addressed with the

Read or Write command is automatically performed upon completion of the Read or Write burst. Auto Pre-

charge is nonpersistent in that it is either enabled or disabled for each individual Read or Write command.

Auto Precharge ensures that the precharge is initiated at the earliest valid stage within a burst. The user must

not issue another command to the same bank until the precharge (tRP) is completed. This is determined as if

an explicit Precharge command was issued at the earliest possible time, as described for each burst type in

the Operation section of this data sheet.

Burst Terminate

The Burst Terminate command is used to truncate read bursts (with Auto Precharge disabled). The most re-

cently registered Read command prior to the Burst Terminate command is truncated, as shown in the Opera-

tion section of this data sheet.

Auto Refresh

Auto Refresh is used during normal operation of the DDR SDRAM and is analogous to CAS Before RAS

(CBR) Refresh in previous DRAM types. This command is nonpersistent, so it must be issued each time a

refresh is required.

The refresh addressing is generated by the internal refresh controller. This makes the address bits âDonât

Careâ during an Auto Refresh command. The 256Mb DDR SDRAM requires Auto Refresh cycles at an aver-

age periodic interval of 7.8 ms (maximum).

To allow for improved efficiency in scheduling and switching between tasks, some flexibility in the absolute

refresh interval is provided. A maximum of eight Auto Refresh commands can be posted in the system,

meaning that the maximum absolute interval between any Auto Refresh command and the next Auto Refresh

command is 9 * 7.8 ms (70.2ms). This maximum absolute interval is short enough to allow for DLL updates

internal to the DDR SDRAM to be restricted to Auto Refresh cycles, without allowing too much drift in tAC

between updates.

Self Refresh

The Self Refresh command can be used to retain data in the DDR SDRAM, even if the rest of the system is

powered down. When in the self refresh mode, the DDR SDRAM retains data without external clocking. The

Self Refresh command is initiated as an Auto Refresh command coincident with CKE transitioning low. The

DLL is automatically disabled upon entering Self Refresh, and is automatically enabled upon exiting Self

Refresh (200 clock cycles must then occur before a Read command can be issued). Input signals except

CKE (low) are âDonât Careâ during Self Refresh operation.

The procedure for exiting self refresh requires a sequence of commands. CK (and CK) must be stable prior to

CKE returning high. Once CKE is high, the SDRAM must have NOP commands issued for tXSNR because

time is required for the completion of any internal refresh in progress. A simple algorithm for meeting both

refresh and DLL requirements is to apply NOPs for 200 clock cycles before applying any other command.

2003-01-10, V0.9

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