HYS72D32300GBR Datasheet, PDF(37/38 Page) Infineon Technologies AG – 184-Pin Registered Double Data Rate SDRAM Module

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HYS72D32300GBR Datasheet, PDF (37/38 Pages) Infineon Technologies AG – 184-Pin Registered Double Data Rate SDRAM Module

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HYS72D[128/64/32][300/320]GBRâ[5/6]âC

Registered Double Data Rate SDRAM

Application Note

Self Refresh Exit (RESET low, clocks running) â Optional

1. The system applies valid logic levels to the data inputs of the register (address and controls at the DIMM

connector). CKE must be maintained low and all other inputs should be driven to a known state. In general

these commands can be determined by the system designer. One option is to apply an SDRAM âNOPâ

command (with CKE low), as this is the first command defined by the Self Refresh Exit sequence (ideally this

would be a âNOP Deselectâ command). A second option is to apply low levels on all of the register inputs to be

consistent with the state of the register outputs.

2. The system switches RESET to a logic 'high' level.

The SDRAM is now functional and prepared to receive commands. Since the RESET signal is asynchronous,

it does not need to be tied to a particular clock edge (during this period, register inputs must continue to remain

stable).

3. The system must maintain stable register inputs until normal register operation is attained.

The registers have an activation time that allows the clock receivers, input receivers, and output drivers

sufficient time to be turned on and become stable. During this time the system must maintain the valid logic

levels described in Step 1. It is also a functional requirement that the registers maintain a low state at the CKE

outputs in order to guarantee that the DDR SDRAMs continue to receive a low level on CKE. This activation

time, from asynchronous switching of RESET from low to high, until the registers are stable and ready to accept

an input signal, is t (ACT ) as specified in the register and DIMM documentation.

4. The system can begin JEDEC defined DDR SDRAM Self Refresh Exit Procedure.

Self Refresh Entry/Exit (RESET high, clocks running) â Optional

As this sequence does not involve the use of the RESET function, the JEDEC standard SDRAM specification

explains in detail the method for entering and exiting Self Refresh for this case.

Self Refresh Entry (RESET high, clocks powered off) â Not Permissible

In order to maintain a valid low level on the register output, it is required that either the clocks be running and the

system drive a low level on CKE, or the clocks are powered off and RESET is asserted low according to the

sequence defined in this application note. In the case where RESET remains high and the clocks are powered off,

the PLL drives a High-Z clock input into the register clock input. Without the low level on RESET an unknown DIMM

state will result.

Data Sheet

Rev. 1.0, 2004-03

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