1GB-DDR3L-AS4C128M8D3L Datasheet, PDF(40/88 Page) Alliance Semiconductor Corporation

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

1GB-DDR3L-AS4C128M8D3L Datasheet, PDF (40/88 Pages) Alliance Semiconductor Corporation – internal banks for concurrent operation

◁

1Gb DDR3L â AS4C128M8D3L

ï¬ DRAM setting for write leveling and DRAM termination unction in that mode

DRAM enters into Write leveling mode if A7 in MR1 set âHighâ and after finishing leveling, DRAM exits from write

leveling mode if A7 in MR1 set âLowâ. Note that in write leveling mode, only DQS/DQS# terminations are activated

and deactivated via ODT pin not like normal operation.

Table 22. DRAM termination function in the leveling mode

ODT pin at DRAM

DQS, DQS# termination

DQs termination

De-asserted

off

Asserted

off

Note 1: In write leveling mode with its output buffer disabled (MR1[bit7]=1 with MR1[bit12]=1) all RTT_Nom settings are

allowed; in Write Leveling Mode with its output buffer enabled (MR1[bit7]=1 with MR1[bit12]=0) only RTT_Nom

settings of RZQ/2, RZQ/4, and RZQ/6 are allowed.

ï¬ Procedure Description

Memory controller initiates Leveling mode of all DRAMs by setting bit 7 of MR1 to 1. With entering write leveling

mode, the DQ pins are in undefined driving mode. During write leveling mode, only NOP or Deselect commands are

allowed. As well as an MRS command to exit write leveling mode. Since the controller levels one rank at a time, the

output of other rank must be disabled by setting MR1 bit A12 to 1. Controller may assert ODT after tMOD, time at

which DRAM is ready to accept the ODT signal.

Controller may drive DQS low and DQS# high after a delay of tWLDQSEN, at which time DRAM has applied on-die

termination on these signals. After tDQSL and tWLMRD controller provides a single DQS, DQS# edge which is used

by the DRAM to sample CK â CK# driven from controller. tWLMRD(max) timing is controller dependent.

DRAM samples CK â CK# status with rising edge of DQS and provides feedback on all the DQ bits asynchronously

after tWLO timing. There is a DQ output uncertainty of tWLOE defined to allow mismatch on DQ bits; there are no

read strobes (DQS/DQS) needed for these DQs. Controller samples incoming DQ and decides to increment or

decrement DQS â DQS# delay setting and launches the next DQS/DQS# pulse after some time, which is controller

dependent. Once a 0 to 1 transition is detected, the controller locks DQS â DQS# delay setting and write leveling is

achieved for the device.

Confidential

Rev. 2.0

Aug. /2014

▷