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�W9816G6IH�
�7.14� Auto-precharge� Command�
�If� A10� is� set� to� high� when� the� Read� or� Write� Command� is� issued,� then� the� Auto-precharge� function� is�
�entered.� During� Auto-precharge,� a� Read� Command� will� execute� as� normal� with� the� exception� that� the�
�active� bank� will� begin� to� precharge� automatically� before� all� burst� read� cycles� have� been� completed.�
�Regardless� of� burst� length,� it� will� begin� a� certain� number� of� clocks� prior� to� the� end� of� the� scheduled�
�burst� cycle.� The� number� of� clocks� is� determined� by� CAS� Latency.�
�A� Read� or� Write� Command� with� Auto-precharge� can� not� be� interrupted� before� the� entire� burst�
�operation� is� completed.� Therefore,� use� of� a� Read,� Write,� or� Precharge� Command� is� prohibited� during�
�a� read� or� write� cycle� with� Auto-precharge.� Once� the� precharge� operation� has� started,� the� bank� cannot�
�be� reactivated� until� the� Precharge� time� (t� RP� )� has� been� satisfied.� Issue� of� Auto-precharge� command� is�
�illegal� if� the� burst� is� set� to� full� page� length.� If� A10� is� high� when� a� Write� Command� is� issued,� the� Write�
�with� Auto-precharge� function� is� initiated.� The� SDRAM� automatically� enters� the� precharge� operation�
�two� clock� delay� from� the� last� burst� write� cycle.� This� delay� is� referred� to� as� Write� t� WR� .� The� bank�
�undergoing� Auto-precharge� can� not� be� reactivated� until� t� WR� and� t� RP� are� satisfied.� This� is� referred� to� as�
�t� DAL� ,� Data-in� to� Active� delay� (t� DAL� =� t� WR� +� t� RP� ).� When� using� the� Auto-precharge� Command,� the� interval�
�between� the� Bank� Activate� Command� and� the� beginning� of� the� internal� precharge� operation� must�
�satisfy� t� RAS� (min).�
�7.15� Precharge� Command�
�The� Precharge� Command� is� used� to� precharge� or� close� a� bank� that� has� been� activated.� The�
�Precharge� Command� is� entered� when� CS� ,� RAS� and� WE� are� low� and� CAS� is� high� at� the� rising�
�edge� of� the� clock.� The� Precharge� Command� can� be� used� to� precharge� each� bank� separately� or� all�
�banks� simultaneously.� The� address� bits,� A10,� and� BA,� are� used� to� define� which� bank(s)� is� to� be�
�precharged� when� the� command� is� issued.� After� the� Precharge� Command� is� issued,� the� precharged�
�bank� must� be� reactivated� before� a� new� read� or� write� access� can� be� executed.� The� delay� between� the�
�Precharge� Command� and� the� Activate� Command� must� be� greater� than� or� equal� to� the� Precharge� time�
�(t� RP� ).�
�7.16� Self� Refresh� Command�
�The� Self-Refresh� Command� is� defined� by� having� CS� ,� RAS� ,� CAS� and� CKE� held� low� with� WE�
�high� at� the� rising� edge� of� the� clock.� All� banks� must� be� idle� prior� to� issuing� the� Self-Refresh� Command.�
�Once� the� command� is� registered,� CKE� must� be� held� low� to� keep� the� device� in� Self-Refresh� mode.�
�When� the� SDRAM� has� entered� Self� Refresh� mode� all� of� the� external� control� signals,� except� CKE,� are�
�disabled.� The� clock� is� internally� disabled� during� Self-Refresh� Operation� to� save� power.� The� device� will�
�exit� Self-Refresh� operation� after� CKE� is� returned� high.� Any� subsequent� commands� can� be� issued�
�after� t� XSR� from� the� end� of� Self� Refresh� command.�
�If,� during� normal� operation,� Auto-Refresh� cycles� are� issued� in� bursts� (as� opposed� to� being� evenly�
�distributed),� a� burst� of� 2,048� Auto-Refresh� cycles� should� be� completed� just� prior� to� entering� and� just�
�after� exiting� the� Self-Refresh� mode.�
�Publication� Release� Date:� Mar.� 22,� 2010�
�-� 10� -�
�Revision� A02�
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