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�W9725G6IB�
�36.� When� the� device� is� operated� with� input� clock� jitter,� this� parameter� needs� to� be� derated� by� the� actual� tJIT(per)� of� the� input�
�clock.� (output� deratings� are� relative� to� the� SDRAM� input� clock.)�
�Examples:�
�If� the� measured� jitter� into� a� DDR2-667� SDRAM� has� tJIT(per),min� =� -� 72� pS� and� tJIT(per),max� =� +� 93� pS,� then�
�tRPRE,min(derated)� =� tRPRE,min� +� tJIT(per),min� =� 0.9� x� tCK(avg)� -� 72� pS� =� +� 2178� pS� and� tRPRE,max(derated)� =�
�tRPRE,max� +� tJIT(per),max� =� 1.1� x� tCK(avg)� +� 93� pS� =� +� 2843� pS.� (Caution� on� the� min/max� usage!)�
�37.� When� the� device� is� operated� with� input� clock� jitter,� this� parameter� needs� to� be� derated� by� the� actual� tJIT(duty)� of� the� input�
�clock.� (output� deratings� are� relative� to� the� SDRAM� input� clock.)�
�Examples:�
�If� the� measured� jitter� into� a� DDR2-667� SDRAM� has� tJIT(duty),min� =� -� 72� pS� and� tJIT(duty),max� =� +� 93� pS,� then�
�tRPST,min(derated)� =� tRPST,min� +� tJIT(duty),min� =� 0.4� x� tCK(avg)� -� 72� pS� =� +� 928� pS� and� tRPST,max(derated)� =�
�tRPST,max� +� tJIT(duty),max� =� 0.6� x� tCK(avg)� +� 93� pS� =� +� 1592� pS.� (Caution� on� the� min/max� usage!)�
�38.� When� the� device� is� operated� with� input� clock� jitter,� this� parameter� needs� to� be� derated� by� {� -tJIT(duty),max� -� tERR(6-�
�10per),max� }� and� {� -� tJIT(duty),min� -� tERR(6-10per),min� }� of� the� actual� input� clock.� (output� deratings� are� relative� to� the�
�SDRAM� input� clock.)�
�Examples:�
�If� the� measured� jitter� into� a� DDR2-667� SDRAM� has� tERR(6-10per),min� =� -� 272� pS,� tERR(6-10per),max� =� +� 293� pS,�
�tJIT(duty),min� =� -� 106� pS� and� tJIT(duty),max� =� +� 94� pS,� then� tAOF,min(derated)� =� tAOF,min� +� {� -� tJIT(duty),max� -�
�tERR(6-10per),max� }� =� -� 450� pS� +� {� -� 94� pS� -� 293� pS}� =� -� 837� pS� and� tAOF,max(derated)� =� tAOF,max� +� {� -�
�tJIT(duty),min� -� tERR(6-10per),min� }� =� 1050� pS� +� {� 106� pS� +� 272� pS� }� =� +� 1428� pS.� (Caution� on� the� min/max�
�usage!)�
�39.� For� tAOFD� of� DDR2-667/800,� the� 1/2� clock� of� nCK� in� the� 2.5� x� nCK� assumes� a� tCH(avg),� average� input� clock� HIGH� pulse�
�width� of� 0.5� relative� to� tCK(avg).� tAOF,min� and� tAOF,max� should� each� be� derated� by� the� same� amount� as� the� actual�
�amount� of� tCH(avg)� offset� present� at� the� DRAM� input� with� respect� to� 0.5.�
�Example:�
�If� an� input� clock� has� a� worst� case� tCH(avg)� of� 0.48,� the� tAOF,min� should� be� derated� by� subtracting� 0.02� x� tCK(avg)�
�from� it,� whereas� if� an� input� clock� has� a� worst� case� tCH(avg)� of� 0.52,� the� tAOF,max� should� be� derated� by� adding�
�0.02� x� tCK(avg)� to� it.� Therefore,� we� have;�
�tAOF,min(derated)� =� tAC,min� -� [0.5� -� Min(0.5,� tCH(avg),min)]� x� tCK(avg)�
�tAOF,max(derated)� =� tAC,max� +� 0.6� +� [Max(0.5,� tCH(avg),max)� -� 0.5]� x� tCK(avg)�
�or�
�tAOF,min(derated)� =� Min(tAC,min,� tAC,min� -� [0.5� -� tCH(avg),min]� x� tCK(avg))�
�tAOF,max(derated)� =� 0.6� +� Max(tAC,max,� tAC,max� +� [tCH(avg),max� -� 0.5]� x� tCK(avg))�
�where� tCH(avg),min� and� tCH(avg),max� are� the� minimum� and� maximum� of� tCH(avg)� actually� measured� at� the� DRAM�
�input� balls.�
�Note� that� these� deratings� are� in� addition� to� the� tAOF� derating� per� input� clock� jitter,� i.e.� tJIT(duty)� and� tERR(6-10per).� However�
�tAC� values� used� in� the� equations� shown� above� are� from� the� timing� parameter� table� and� are� not� derated.�
�Thus� the� final� derated� values� for� tAOF� are;�
�tAOF,min(derated_final)� =� tAOF,min(derated)� +� {� -� tJIT(duty),max� -� tERR(6-10per),max� }�
�tAOF,max(derated_final)� =� tAOF,max(derated)� +� {� -� tJIT(duty),min� -� tERR(6-10per),min� }�
�40.� Timings� are� specified� with� command/address� input� slew� rate� of� 1.0� V/nS.�
�41.� Timings� are� specified� with� DQs� and� DM� input� slew� rate� of� 1.0V/nS.�
�42.� Timings� are� specified� with� CLK/� CLK� differential� slew� rate� of� 2.0� V/nS.� Timings� are� guaranteed� for� DQS� signals� with� a�
�differential� slew� rate� of� 2.0� V/nS� in� differential� strobe� mode.�
�Publication� Release� Date:� Oct.� 23,� 2009�
�-� 52� -�
�Revision� A04�
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