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logic devices incorporated www.logicdevices.com 1 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga fast, low power, high density, wide word memory ddr2 25mm2 module [imod]: x0zrugv x[[[zrugzlgwkv +ljkshuirupdqfh x0esv x7(03(5$785( &?&wr?& ,?&wr?& (?&wr?& 0?&wr?& /rzsrzhu x9vxsso\ x:dwwvpd[ 6sdfhvdylqjirrwsulqw xpp[pp[pdwul[z edoovppslwfk xpporzsurilohkhljkw features 7khupdoo\hqkdqfhg,pshgdqfh pdwfkhglqwhjudwhgsdfndjlqj 'liihuhqwldogdwdvwureh qelwsuhihwfkdufklwhfwxuh *e *elqwhuqdoedqnv 1rplqdodqgg\qdplfrqglhwhuplqd - wlrq2'7irugdwdvwurehdqgpdvn vljqdov 3urjudppdeoh&$6odwhqf\&/ dqg )l[hgexuvwohqjwk%/ridqgexuvw fkrs%&ri 6hohfwdeoh%&ru%/rqwkhio\ 27) 6hoi$xwr5hiuhvkprghv xpvf\fohuhiuhvk 2xwsxw'ulyhu&doleudwlrq $gmxvwdeohgulyhvwuhqjwk 5hgxfhg,2 5hgxfhgwudfhohqjwkvgxhwr wkhkljko\lqwhjudwhglpshgdqfh pdwfkhgsdfndjlqj 7khupdoo\hqkdqfhgsdfndjlqj whfkqrorj\doorzvlolfrqlqwhjudwlrq zlwkrxwshuirupdqfhghjudgdwlrqgxh wrsrzhuglvvlsdwlrqkhdw +ljk7&(rujdqlfodplqdwhlqwhu - srvhuirulpsuryhgjodvvvwdelolw\ ryhudzlghrshudwlqjwhpshudwxuh 6xlwdelolw\rixvhlq+ljk5holdelolw\ dssolfdwlrqvuhtxlulqj0lowhpsqrq khuphwlfghylfhrshudwlrq 5r+6frpsoldqw benefits l9d2xxmxxsbg5 product offerings: d ensity : *e *e *e *e *e *e d epth : 32m 32m 32m 0 0 0 p art n umber : l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 w ord w idths : [ [ [ [ [ [ ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga ddr2 10.5mm x 12.5mm 84 ball fbga l9d2xxmxxsbg5 available timings: c lock : 0+] 0+] 0+] d ata r ate : 0ev 0ev 0ev ddr2-800 ddr2-667 ddr2-533 c ycle t ime : qv qv qv integrated module products l9d264m80sbg5
gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl rfu dq0 dq14 dq15 vss vss a9 a10 a11 a8 vddq vddq dq16 dq17 dq31 vss a dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq19 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq a12 nc vss nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v sdl s v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v clk3\ cke3 vdd cs3\ clk2\ cke2 vss ras2\ cs2\ k nc clk3 vdd 2 k l c 2 s q d l \ 3 s a r \ 3 s a c vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs2 dq41 dq40 dq37 dq38 n p 5 3 q d 6 3 q d 2 4 q d 3 4 q d d d v d d v s s v s s v 2 5 q d 3 5 q d 9 5 q d 0 6 q d r 3 3 q d 4 3 q d 4 4 q d 5 4 q d s s v s s v d d v d d v 0 5 q d 1 5 q d 1 6 q d 2 6 q d t d d v 2 3 q d 6 4 q d 7 4 q d s s v s s v q d d v q d d v 8 4 q d 9 4 q d 3 6 q d s s v 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq nc nc ldqs2\ odt nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ rfu nc rfu nc c n c n rfu vdd rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu logic devices incorporated www.logicdevices.com 2 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.0 gb, ddr2, 32 m x 64 integrated memory module (imod) l9d232m64sbg5 high performance, integrated memory module product f igure 1a - sdram : ddr2 p inout t op v iew ball /signal location diagram:
gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl rfu dq0 dq14 dq15 vss vss a9 a10 a11 a8 vddq vddq dq16 dq17 dq31 vss a dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq19 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq a12 nc vss nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v sdl s v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v clk3\ cke3 vdd cs3\ ldqs4 clk2\ cke2 vss ras2\ cs2\ k nc clk3 vdd cas3\ ras3\ ldqs2 clk2 vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 cke4 clk4 cas4\ we4\ ras4\ cs4\ udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs4 clk4\ dq71 dq70 ldm4 udqs2 dq41 dq40 dq37 dq38 n dq60 dq59 dq53 dq52 vss vss dq69 dq68 vdd vdd dq43 dq42 dq36 dq35 p dq62 dq61 dq51 dq50 vdd vdd dq67 dq66 vss vss dq45 dq44 dq34 dq33 r vss dq63 dq49 dq48 vddq vddq dq65 dq64 vss vss dq47 dq46 dq32 vdd t 12345678910111213141516 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq ldqs4\ nc nc ldqs2\ rfu rfu rfu rfu rfu rfu rfu rfu odt udqs4\ nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ nc f igure 1b - sdram : ddr2 p inout t op v iew ball /signal location diagram: logic devices incorporated www.logicdevices.com 3 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.2 gb, ddr2, 32 m x 72 integrated memory module (imod) l9d232m72sbg5 high performance, integrated memory module product
dq0 dq14 dq15 vss vss a9 a10 a11 a8 dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq1 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v k \ 2 s c \ 2 s a r s s v 2 e k c \ 2 k l c 4 s q d l \ 3 s c d d v 3 e k c \ 3 k l c nc clk3 vdd 2 k l c 2 s q d l \ 3 s a r \ 3 s a c vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 cke4 udm4 clk4 cas4\ we4\ ras4\ cs4\ udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs4 clk4\ dq73 dq72 dq71 dq70 ldm4 udqs2 dq41 dq40 dq37 dq38 n dq60 dq59 dq53 dq52 vss vss dq75 dq74 dq69 dq68 vdd vdd dq43 dq42 dq36 dq35 p dq62 dq61 dq51 dq50 vdd vdd dq77 dq76 dq67 dq66 vss vss dq45 dq44 dq34 dq33 r vss dq63 dq49 dq48 dq79 dq78 dq65 dq64 vss vss dq47 dq46 dq32 vdd t 12345678910111213141516 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq ldqs4\ nc nc ldqs2\ odt udqs4\ nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ a12 vssdl vddq vddq dq16 dq17 dq31 vss a vddq vddq vss nc gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl f igure 1c - sdram : ddr2 p inout t op v iew ball /signal location diagram: logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.5 gb, ddr2, 32 m x 80 integrated memory module (imod) L9D232M80SBG5 high performance, integrated memory module product
gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl dq0 dq14 dq15 vss vss a9 a10 a11 a8 vddq vddq dq16 dq17 dq31 vss a dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq19 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq a12 nc ba2 nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v sdl s v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v clk3\ cke3 vdd cs3\ clk2\ cke2 vss ras2\ cs2\ k nc clk3 vdd 2 k l c 2 s q d l \ 3 s a r \ 3 s a c vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs2 dq41 dq40 dq37 dq38 n p 5 3 q d 6 3 q d 2 4 q d 3 4 q d d d v d d v s s v s s v 2 5 q d 3 5 q d 9 5 q d 0 6 q d r 3 3 q d 4 3 q d 4 4 q d 5 4 q d s s v s s v d d v d d v 0 5 q d 1 5 q d 1 6 q d 2 6 q d t d d v 2 3 q d 6 4 q d 7 4 q d s s v s s v q d d v q d d v 8 4 q d 9 4 q d 3 6 q d s s v 1 2 3 4 5 6 7 8 9 10111213141516 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq nc nc ldqs2\ rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu rfu odt nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ rfu nc rfu nc rfu c n c n rfu rfu rfu rfu rfu vdd rfu rfu rfu rfu rfu f igure 1d- sdram : ddr2 p inout t op v iew ball /signal location diagram: logic devices incorporated www.logicdevices.com 5 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 4.0 gb, ddr2, 64 m x 64 integrated memory module (imod) l9d264m64sbg5 high performance, integrated memory module product
gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl rfu dq0 dq14 dq15 vss vss a9 a10 a11 a8 vddq vddq dq16 dq17 dq31 vss a dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq19 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq a12 nc ba2 nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v sdl s v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v clk3\ cke3 vdd cs3\ ldqs4 clk2\ cke2 vss ras2\ cs2\ k nc clk3 vdd cas3\ ras3\ ldqs2 clk2 vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 cke4 clk4 cas4\ we4\ ras4\ cs4\ udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs4 clk4\ dq71 dq70 ldm4 udqs2 dq41 dq40 dq37 dq38 n dq60 dq59 dq53 dq52 vss vss dq69 dq68 vdd vdd dq43 dq42 dq36 dq35 p dq62 dq61 dq51 dq50 vdd vdd dq67 dq66 vss vss dq45 dq44 dq34 dq33 r vss dq63 dq49 dq48 vddq vddq dq65 dq64 vss vss dq47 dq46 dq32 vdd t 1 2 3 4 5 6 7 8 9 10111213141516 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq ldqs4\ nc nc ldqs2\ rfu rfu rfu rfu rfu rfu rfu rfu odt udqs4\ nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ vdd f igure 1e- sdram : ddr2 p inout t op v iew ball /signal location diagram: logic devices incorporated www.logicdevices.com 6 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 4.5 gb, ddr2, 64 m x 72 integrated memory module (imod) l9d264m72sbg5 high performance, integrated memory module product
gnd (core) gnd (i/o) data (i/o) v+ (core power) v+ (i/o power) unpopulated nc cntrl ref level address dnu vssdl vddl dq0 dq14 dq15 vss vss a9 a10 a11 a8 dq1 dq2 dq12 dq13 vss vss a0 a7 a6 a1 vdd vdd dq18 dq19 dq29 dq30 b dq3 dq4 dq10 dq11 vdd vdd a2 a5 a4 a3 vss vss dq20 dq21 dq27 dq28 c dq6 dq5 dq8 dq9 vddq vddq nc ba2 nc vss vss dq22 dq23 dq26 dq25 d dq7 ldm0 vdd udm0 udqs3 ldqs0 udqs0 ba0 ba1 ldqs1 udqs1 vref ldm1 vss nc dq24 e cas0\ we0\ vdd \ 1 e w \ 1 s a r 3 s q d l 0 k l c vss udm1 clk1 f g 1 e k c \ 1 k l c s s v \ 1 s c \ 1 s a c \ 0 k l c 0 e k c d d v \ 0 s a r \ 0 s c h d d v q d d v s s v s s v dl d v q d d v d d v s s v s s v j d d v q d d v s s v s s v d d v s s v q d d v d d v s s v s s v k \ 2 s c \ 2 s a r s s v 2 e k c \ 2 k l c 4 s q d l \ 3 s c d d v 3 e k c \ 3 k l c nc clk3 vdd 2 k l c 2 s q d l \ 3 s a r \ 3 s a c vss we2\ cas2\ l dq56 udm3 vdd we3\ ldm3 cke4 udm4 clk4 cas4\ we4\ ras4\ cs4\ udm2 vss ldm2 dq39 m dq57 dq58 dq55 dq54 udqs4 clk4\ dq73 dq72 dq71 dq70 ldm4 udqs2 dq41 dq40 dq37 dq38 n dq60 dq59 dq53 dq52 vss vss dq75 dq74 dq69 dq68 vdd vdd dq43 dq42 dq36 dq35 p dq62 dq61 dq51 dq50 vdd vdd dq77 dq76 dq67 dq66 vss vss dq45 dq44 dq34 dq33 r vss dq63 dq49 dq48 dq79 dq78 dq65 dq64 vss vss dq47 dq46 dq32 vdd t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 a b c d e f g h j k l m n p r t 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq vssq ldqs4\ nc nc ldqs2\ odt udqs4\ nc nc ldqs3\ udqs3\ ldqs0\ udqs0\ dnu udqs1\ ldqs1\ nc nc nc dnu udqs2\ a12 vssdl vddq vddq dq16 dq17 dq31 vss a vddq vddq f igure 1f- sdram : ddr2 p inout t op v iew ball /signal location diagram: logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 5.0 gb, ddr2, 64 m x 80 integrated memory module (imod) l9d264m80sbg5 high performance, integrated memory module product
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 1: p in /b all l ocations and d escriptions ball assignments symbol type description l6 )*)* l13, k12, l2, k1 01 **. k2, m6 g1, g13, k16 .0 g2, f12, k15 l5, m11 f1, g12, l16 /0 f2, f13, l15 00 () 000 e2, e13 m15, m5, n11 (( n12, e5 n5 )) l11, f6 k6 e6, e10 l12, f5 k5 )) l10, g6 / %%&& &&%% $$$$' ''' ((>'@ e12 b11,b12,c5,c6,e3,f3, g3,h3,h16,j3,j12, -./033 557 $$''++ --77 $$$%%& &''() *++++ -----. /0335 2'7 clk0, clk0\, clk1, ck1\ clk2, clk2\, clk3, clk3\ &/.&/.? cke0, cke1, cke2 &.(&.( cs0\, cs1\, cs2\ &6?&6? 5$6?5$6?5$6? 5$6?5$6? &$6?&$6?&$6? &$6?&$6? :(?:(?:(? :(?:(? 8'08'0 8'08'08'0 ldm0, ldm1 /'0/'0/'0 8'468'46 8'468'46 8'46 8'46?8'46? 8'46?8'46? 8'46? /'46/'46 /'46/'46 /'46 /'46?/'46? /'46?/'46? /'46? $$$$ $$$$ $$$$$ 5)8 %$%$>%$@ 9uhi 9 dd 9 dd 4 9vv on-die termination: 5hjlvwhuhg+ljkhqdeohvrqgdwdexvwhuplqdwlrq 'liihuhqwldolqsxwforfnvrqhvhwiruhdfk[elwv &orfnhqdeohzklfkdfwlydwhvdoorqvlolfrqforfnlqjflufxlw &kls6hohfwvrqhiruhdfkelwvriwkhgdwdexvzlgwk &rppdqglqsxwzklfkdorqjzlwk&$6?:(?dqg&6?ghilqhrshudwl rqv &rppdqglqsxwzklfkdorqjzlwk5$6?:(?dqg&6?ghilqhrshudwl rqv &rppdqglqsxwzklfkdorqjzlwk5$6?&$6?dqg&6?ghilqhrshudw lrqv 2qh'dwd0dvnfqwoiruhdfkxsshuelwvrid[zrug 2qh'dwd0dvnfqwoiruhdfkorzhuelwvrid[zrug 'dwd6wurehlqsxwiruxsshue\whrihdfk[zrug 'liihuhqwldolqsxwri8'46[rqo\xvhgzkhq'liihuhqwldo'46pr ghlvhqdeohg 'dwd6wurehlqsxwiruorzhue\whrihdfk[zrug 'liihuhqwldolqsxwri/'46[rqo\xvhgzkhq'liihuhqwldo'46pr ghlvhqdeohg $uud\$gguhvvlqsxwvsurylglqj52:dgguhvvhviru$fwlyhfrppdqg vdqgwkh froxpqdgguhvvdqgdxwrsuhfkdujhelw$iru5($':5,7(frpp dqgv )xwxuh$gguhvv%dqn$gguhvvlqsxwv %dqn$gguhvvlqsxwv%$rq*erqo\ 667/b9rowdjh5hihuhqfh 3rzhu6xsso\ ,23rzhu6xsso\ *urxqguhwxuq cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input cntl input input future input input supply supply supply supply
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 9 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 9vv4 966'/ 9''/ d0, d1, d2, d3 '''' '''' '''' '''' d20, d21, d22, d23 '''' '''' '''' '''' '''' '''' '''' '''' '''' d60, d61, d62, d63 '''' '''' '''' '''' nc do not use unpopulated supply supply supply input/output t able 1: p in /b all l ocations and d escriptions c ontinued ball assignments symbol type description 5777 ****++ ++---- .... h5 h12 $%%& &''( ''&& %%$$ $$%% &&'' e16,d16,d15,c15 &%%$ 7553 3110 1133 5577 7755 3311 0113 3557 7755 3311 1133 5577 e15,g11,h6,h11,j6, -/// f9,k11 $ ,2*urxqguhwxuq '//3rzhu '//*urxqg 'dwdelgluhfwlrqdolqsxw2xwsxwslqv 1rfrqqhfwlrq 5(6(59(')2563(&,$/&216,'(5$7,213,16 8qsrsxodwhgedoopdwul[orfdwlrqorfdwlrquhjlvwudwlrqdlg
logic devices incorporated www.logicdevices.com 10 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.0 gb, ddr2, 32 m x 64 integrated memory module (imod) l9d232m64sbg5 high performance, integrated memory module product d0 512mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-1 a d2 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm a f igure 2a - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 11 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.2 gb, ddr2, 32 m x 72 integrated memory module (imod) l9d232m72sbg5 high performance, integrated memory module product 1. d0 512mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-1 a d2 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d4 256mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 64 ! ! ! dq 71 cs4\ cke4 clk4 clk4\ ras4\ cas4\ we4\ ldqs4 ldqs4\ udqs4 udqs4\ ldm4 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm a a f igure 2b - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 12 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2.5 gb, ddr2, 32 m x 80 integrated memory module (imod) L9D232M80SBG5 high performance, integrated memory module product d0 512mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-1 a d2 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d4 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 64 ! ! ! dq 71 dq 72 ! ! ! dq 79 cs4\ cke4 clk4 clk4\ ras4\ cas4\ we4\ ldqs4 ldqs4\ udqs4 udqs4\ ldm4 udm4 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm a a f igure 2c - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 13 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 4.0 gb, ddr2, 64 m x 64 integrated memory module (imod) l9d264m64sbg5 high performance, integrated memory module product d0 1024mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-2 a d2 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm a f igure 2d - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 4.5 gb, ddr2, 64 m x 72 integrated memory module (imod) l9d264m72sbg5 high performance, integrated memory module product d0 1024mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-2 a d2 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d4 512mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 64 ! ! ! dq 71 cs4\ cke4 clk4 clk4\ ras4\ cas4\ we4\ ldqs4 ldqs4\ udqs4 udqs4\ ldm4 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm a a f igure 2e - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 15 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 5.0 gb, ddr2, 64 m x 80 integrated memory module (imod) l9d264m80sbg5 high performance, integrated memory module product d0 1024mb aba vref odt vdd vddq vss vssq dq 0 dq 7 dq 8 dq 15 dq 0 dq 7 dq 8 dq 15 cs0\ cke0 clk0 clk0\ ras0\ cas0\ we0\ ldqs0 ldqs0\ udqs0 udqs0\ ldm0 udm0 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm vssq vss vddq vdd odt vref a0-a12, ba0-2 a d2 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 32 ! ! ! dq 39 dq 40 ! ! ! dq 47 cs2\ cke2 clk2 clk2\ ras2\ cas2\ we2\ ldqs2 ldqs2\ udqs2 udqs2\ ldm2 udm2 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d1 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 16 ! ! ! dq 23 dq 24 ! ! ! dq 31 cs1\ cke1 clk1 clk1\ ras1\ cas1\ we1\ ldqs1 ldqs1\ udqs1 udqs1\ ldm1 udm1 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d3 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 48 ! ! ! dq 55 dq 56 ! ! ! dq 63 cs3\ cke3 clk3 clk3\ ras3\ cas3\ we3\ ldqs3 ldqs3\ udqs3 udqs3\ ldm3 udm3 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm d4 1024mb aba vref odt vdd vddq vss vssq dq 0 ! ! ! dq 7 dq 8 ! ! ! dq 15 dq 64 ! ! ! dq 71 dq 72 ! ! ! dq 79 cs4\ cke4 clk4 clk4\ ras4\ cas4\ we4\ ldqs4 ldqs4\ udqs4 udqs4\ ldm4 udm4 cs\ cke ck ck\ ras\ cas\ we\ ldqs ldqs\ udqs udqs\ ldm udm a a f igure 2f - f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 16 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product command decode control logic mode registers cke ck ck# cs# ras# cas# we# odt refresh counter row- address mux row- address latch and decoder bank 1 bank 2 bank 3 13 sense amplifiers 64 bank control logic column decoder 8 2 column- address counter/ latch 2 address register a0-a12 ba0-ba1 16 13 10 16 13 8,192 16,384 3 i/o gating dm mask logic udm, ldm udqs, udqs# ldqs, ldqs# dq0-dq15 256 (x64) bank 1 bank 2 bank 3 memory array (8,192 x 256 x 64) sense amplifier bank 0 bank 0 64 read latch 16 16 16 16 mux col0, col1 16 drvrs dll ck, ck# dqs generator 4 data udqs, udqs# ldqs, ldqs# 64 write fifo and drivers ck out ck in ck, ck# 8 input registers 64 data 16 16 16 16 2 2 2 2 16 16 16 16 2 2 2 2 2 16 rcvrs 4 odt control sw1 sw2 sw3 sw1 v dd q sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 v ss q col0, col1 f igure 2g - 32 m eg x 16 i nternal d ie c onfiguration f unctional b lock d iagram
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product command decode control logic mode registers cke ck ck# cs# ras# cas# we# odt refresh counter row- address mux row- address latch and decoder bank 1 bank 2 bank 3 bank 4 bank 5 bank 6 bank 7 13 sense amplifiers 64 bank control logic column decoder 8 2 column- address counter/ latch 2 address register a0-a12 ba0-ba2 16 13 10 16 13 8,192 16,384 3 i/o gating dm mask logic udm, ldm udqs, udqs# ldqs, ldqs# dq0-dq15 256 (x64) bank 1 bank 2 bank 3 bank 4 bank 5 bank 6 bank 7 memory array (8,192 x 256 x 64) sense amplifier bank 0 bank 0 64 read latch 16 16 16 16 mux col0, col1 16 drvrs dll ck, ck# dqs generator 4 data udqs, udqs# ldqs, ldqs# 64 write fifo and drivers ck out ck in ck, ck# 8 input registers 64 data 16 16 16 16 2 2 2 2 16 16 16 16 2 2 2 2 2 16 rcvrs 4 odt control sw1 sw2 sw3 sw1 v dd q sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 v ss q col0, col1 f igure 2h - 64 m eg x 16 i nternal d ie c onfiguration f unctional b lock d iagram
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product command decode control logic mode registers cke ck ck# cs# ras# cas# we# odt refresh counter row- address mux row- address latch and decoder bank 1 bank 2 bank 3 14 sense amplifiers 32 bank control logic column decoder 8 2 column- address counter/ latch 2 address register a0-a12 ba0-ba1 17 14 10 17 14 16,384 8,192 3 i/o gating dm mask logic dm dqs, dqs# dq0-dq7 256 (x32) bank 1 bank 2 bank 3 memory array (16,384 x 256 x 32) sense amplifier bank 0 bank 0 32 read latch 8 8 8 8 mux col0, col1 8 drvrs dll ck, ck# dqs generator 2 data udqs, udqs# ldqs, ldqs# 32 write fifo and drivers ck out ck in ck, ck# 4 input registers 32 data 8 8 8 8 2 2 2 2 8 8 8 8 2 2 2 2 2 8 rcvrs 2 odt control sw1 sw2 sw3 sw1 v dd q sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 v ss q col0, col1 rdqs rdqs# f igure 2i - 64 m eg x 8 i nternal d ie c onfiguration f unctional b lock d iagram
logic devices incorporated www.logicdevices.com 19 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product command decode control logic mode registers cke ck ck# cs# ras# cas# we# odt refresh counter row- address mux row- address latch and decoder bank 1 bank 2 bank 3 bank 4 bank 5 bank 6 bank 7 14 sense amplifiers 32 bank control logic column decoder 8 2 column- address counter/ latch 2 address register a0-a12 ba0-ba2 17 14 10 17 14 16,384 8,192 3 i/o gating dm mask logic dm dqs, dqs# dq0-dq7 256 (x32) bank 1 bank 2 bank 3 bank 4 bank 5 bank 6 bank 7 memory array (16,384 x 256 x 32) sense amplifier bank 0 bank 0 32 read latch 8 8 8 8 mux col0, col1 8 drvrs dll ck, ck# dqs generator 2 data udqs, udqs# ldqs, ldqs# 32 write fifo and drivers ck out ck in ck, ck# 4 input registers 32 data 8 8 8 8 2 2 2 2 8 8 8 8 2 2 2 2 2 8 rcvrs 2 odt control sw1 sw2 sw3 sw1 v dd q sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 sw1 sw2 sw3 r1 r2 r3 r1 r2 r3 v ss q col0, col1 rdqs rdqs# f igure 2j - 128 m eg x 8 i nternal d ie c onfiguration f unctional b lock d iagram
c = commercial &rpphufldofodvvlqwhjudwhgfrpsrqhqwixoo\dfurvv?&wr ?& i = industrial ,qgxvwuldofodvvlqwhjudwhgfrpsrqhqwixoo\dfurvv?&wr ?& e = extended ([whqghgfodvvlqwhjudwhgfrpsrqhqwrshudeohdfurvv?&wr ?& m = mil-temp 0lo7hpshudwxuhrqo\fodvvlqwhjudwhgfrpsrqhqwrshudeohdfu rvv?&wr?& logic devices incorporated www.logicdevices.com 20 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product features &rqiljxudwlrq 5hiuhvk&rxqw 52:$gguhvvlqj %dfn$gguhvvlqj &roxpq$gguhvvlqj >0hj[edqnv[@[l02' . .$>@ %$>@%$>@ .$>@ ldi imod addressing t able 2: a ddressing 25 3 qv qv qv 533 533 533 ldi part number speed grade t ck avg t able 3: k ey p arameters cl=3 cl=4 cl=5 cl=6 data rate [mbps] l9d2xxmxxsbg5[c, i, e, m]25 l9d2xxmxxsbg5[c, i, e, m]3 /'[[0[[6%*>&,(0@
sample part number: l9d2xxmxxsbg5 core frequency mhz 333 400 38 3 25 l9d2 note: not all options can be combined. please see our part catalog for available offerings. bg5 logic ddr2 integrated module 25 x 25 x 1.7mm 255 ball array clk temperature commercial (0 o c to 70 o c) industrial (-40 o c to 85 o c) extended (-40 o c to 105 o c) c i e code m military (-55 o c to 125 o c) temp speed data rate mbs 667 800 word = 32m 64m xxm xxs wordwidth = x64 x72 x80 s= single channel 267 533 features f igure 3 - ddr2 p art n umbers logic devices incorporated www.logicdevices.com 21 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product
logic devices incorporated www.logicdevices.com 22 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product functional description general description 7kh /2*,& 'hylfhv *e ''5 6'5$0 ,qwhjudwhg 0hpru\ 0rgxoh ,02' duh vl[ phpehuv ri rxu ,qwhjudwhg 0rgxoh idplo\ 7klv idplo\ ri ,qwhjudwhg phpru\ prgxohv frqwdlqv ''5''5 dqg ixwx uh ''5 ghylfh ghilqlwlrqv 7klv ''5 surgxfw ghilqlwlrq lv sdfndj hg lq d pp[ppyedoo3%*$irrwsulqwzlwkdppedooslwfk 7klv ghylfh d kljk vshhg &026 udqgrpdffhvv lqwhjudwhg phpru\ ghyl fh edvhg rq xvh ri vlolfrq ghylfhv hdfk frqwdlqlqj 0 elwv (dfk fkls lv lqwhuqdoo\ frqiljxuhg dv dq edqn 6'5$0 (dfk ri wkh fklsvelwedqnvlvrujdql]hgdvurzve\ froxpqv 7kh*e''5l02'xvhvwkhgrxeohgdwdudwh''5dufklwh fwxuh wr dfklhyh kljkvshhg rshudwlrq 7kh grxeohgdwdudwh dufklwhfw xuh lv d qsuhihwfk dufklwhfwxuh zlwk dq lqwhuidfh ghvljqhg wr wudqvihu wzr gdwd zrugvshuforfnf\fohyldwkh,2slqv$vlqjoh5($'ru:5,7( dffhvv iruwkh*e''5l02'hiihfwlyho\frqvlvwvridvlqjohqelw zlghrqh forfnf\fohwudqvihu $elgluhfwlrqdogdwdvwurehrqhshuxsshudqgorzhue\wh/'46 [/'46[? 8'46[dqg8'46[?lvwudqvplwwhgh[whuqdoo\dorqjzlwkgdwd iruxvhlq gdwdfdswxuhdwwkhhqgsrlqwuhfhlyhu'dwd6wurehvduhwudqvp lwwhge\wkh ''56'5$0gxulqj5($'rshudwlrqvdqge\wkhphpru\frqwuroohug xulqj :5,7(rshudwlrqv(dfkvwurehfrqwurovhdfkriwzre\whvfrqwdl qhgzlwklq hdfkriwkhvlolfrqfklsvfrqwdlqhglq/',uv,02' 7kh *e ''5 6'5$0 rshudwhg iurp d gliihuhqwldo forfn &/ .[ &/.[? wkh furvvlqj ri &/.[ jrlqj +,*+ dqg &/.[? jrlqj /2: zlo o eh uhihuuhgwrdvwkhsrvlwlyhhgjhri&/.&rppdqgvdgguhvvdqg frqwuro vljqdovduhuhjlvwhuhgdwhyhu\srvlwlyhhgjhri&/.,qsxwg dwdlvuhjlv - whuhgrqerwkhgjhvri['46dqgrxwsxwgdwdlvuhihuhqfhgwre rwkhgjhv ri['46dvzhoodvwrerwkhgjhvri&/.5($'dqg:5,7(dffhv vhv wrwkh''5phpru\duhexuvwrulhqwhgdffhvvhvvwduwdwdvhoh fwhgorfd - wlrqdqgfrqwlqxhirudsurjudpphgqxpehuriorfdwlrqvlqdsu rjudpphg vhtxhqfh$ffhvvhvehjlqzlwkwkhuhjlvwudwlrqridq$&7,9(frp pdqg zklfklvwkhqiroorzhge\d5($'ru:5,7(frppdqg7khdgguhvv elwv uhjlvwhuhg frlqflghqw zlwk wkh 5($' ru :5,7( frppdqg duh xvhg w r vhohfwwkhedqndqgwkhvwduwlqjfroxpqorfdwlrqiruwkhexuvw dffhvv 7kh ''5 6'5$0 surylghv iru surjudppdeoh 5($' ru :5,7( exuvw ohqjwkvriirxuruhljkworfdwlrqv''56'5$0vvxssruw irulqwhu - uxswlqj d %8567 5($' ri hljkw zlwk dqrwkhu 5($' ru %8567 :5,7( ri hljkw wkhq dqrwkhu :5,7( $q $872 35(&+$5*( ixqfwlrq pd\ eh hqdeohgwrsurylgh6(/)7,0('urz35(&+$5*(wkdwlvlqlwldwhgd wwkh hqgriwkhexuvwdffhvv 7khslsholqhgpxowledqnhgdufklwhfwxuhriwkh''56'5$0dufk lwhfwxuh doorzvirufrqfxuuhqwrshudwlrqvwkhuhiruhsurylglqjkljkhiih fwlyhedqg - zlgwke\klglqjurz35(&+$5*(dqgdfwlydwlrqwlph general notes x7khixqfwlrqdolw\dqgwkhwlplqjolvwhglq/',uv/'[[*[[%* gdwdvkhhw duhiruwkh'//hqdeohgprghrirshudwlrq x7kurxjkrxwwkhgdwdvkhhwwkhydulrxviljxuhvdqgwh[wuhihu wr'4'4[[ dvv'4w7kh'4whuplvwrehlqwhusuhwhgdvdq\rudooriwkh v>@>@w '4olqhvsuhvhqwlqwklvsurgxfwghilqlwlrq x,qihuhqfhwrfrpsohwhixqfwlrqdolw\lvghvfulehgwkurxjkrxww klvgrfxphqw $q\sdjhruglvfxvvlrqzlwklqdsdjhpd\kdyhehhqvlpsolilhgw rfrqyh\ vwkhwwrslfdqgpd\qrwehlqfoxvlyhridoouhtxluhphqwv e\ elwv (dfk ri wkh 6lolfrq ghylfhv frqwdlqhg lq /2*,&u v l02' ghylfhhtxdwhvwrd:25'ru'8$/%<7(6hdfk%<7(frqwdlqlqj' dwd 0dvn dqg 'dwd 6wurehv 7klv prgxohuv frqwuro vwuxfwxuh lv ghilq hg zlwk hdfkriwkhvlolfrqglhlqwhuqdowrwkhl02'kdylqj&6?&. (&/.&/.? 5$6? &$6? dqg :( dv zhoo dv wkh 'dwd 0dvn dqg 6wureh frqwuro e xv iru wkh ,2 7khvh frqwurov duh /'46 /'46? 8'46 8'46? /'0 d qg 8'0
logic devices incorporated www.logicdevices.com 23 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product bank active reading writing activating refreshing self refresh idle active power- down zq calibration from any state power applied reset procedure power on initialization mrs, mpr, write leveling preharge power- down writing automatic sequence command sequence preharging read read read read ap read ap read ap pre, prea pre, prea pre, prea write write cke l cke l cke l write write ap write ap write ap pde pde pdx pdx srx sre ref mrs act reset zqcl zqcl/zqcs reading act = activate prea=precharge all srx = self refresh exit mpr = multipurpose register read = rd, rds4, rds8 write = wr, wrs4, wrs8 mrs = mode register set read ap = rdap, rdaps4, rdaps8 write ap = wrap, wraps4, wraps8 pde = power-down entry ref = refresh zqcl = zq long calibration pdx = power-down exit reset = start reset procedure zqcs = zq short calibration pre = precharge sre = self refresh entry state diagram f igure 4 - s implified s tate d iagram
1rwh$ooglphqvlrqvlqpp l9d264m80sbg5 255 x 0.75 nom 25 0.1 0.6 0.1 2.975 nom 25 0.1 1.2 max 19.05 nom 1.27 nom 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 t r p n m l k j h g f e d c b a 1.27 nom 2.975 nom 2.975 nom 2.975 nom logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 5 - m echanical d rawing
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 25 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product symbol parameter min max uni t 9 dd 9 in 9 287 7 67* 7 &$6( i i i 4= i 95() 9 9 c c ?$ ?$ ?$ ?$ ?$ t able 4: a bsolute m aximum dc r atings -5 -5 9rowdjhrq9 dd slquhodwlyhwr9 vv 9rowdjhrqdq\slquhodwlyhwr9 vv 6wrudjh7hpshudwxuh 'hylfh2shudwlqj7hpshudwxuh ,qsxw/hdndjhfxuuhqw$q\lqsxw99 in 9 dd 9 ref lqsxw99 in 92wkhuslqvqrwxqghu whvw 9 &0'$'55$6?&$6?:(?&6?&.( ck, ck\ dm 5 5 p ackage o utline d imensions parameter symbol min typ max units 6xsso\9rowdjh ,25hihuhqfh9rowdjh ,27huplqdwlrq9rowdjh t able 5: r ecommended dc o perating c onditions [9 dd 9 5()'& 9 9 9 9 dd 9 5()'& 9 77 [9 dd 9 5()'& [9 dd 9 5()'& 127(6 /',uv''53%*$l02'lqwhuqdoo\wlhv9 dd dqg9 dd 4 wrjhwkhudvzhoodv9 vv dqg9 vv4 9 ref lvh[shfwhgwrhtxdo9 dd riwkhwudqvplwwlqjghylfhdqgwrwudfnyduldwlrqvlqwkh'& ohyhoriwkhvdph3hdnwr3hdn yduldwlrqvlqwkh'&ohyhoriwkhvdph3hdnwr3hdnq rlvhqrqfrpprqprghrq9 ref pd\qrwh[fhhg?shufhqwriwkh'& ydoxh3hdnwr3hdn$&qrlvhrq9 ref pd\qrwh[fhhg?shufhqwri9 ref '&7klvphdvxuhphqwlvwrehwdnhqdwwkh qhduhvw9 ref e\sdvvfdsdflwru 9 77 lvqrwdssolhggluhfwo\wrwkhghylfh9 77 lvdv\vwhpvxsso\iruvljqdowhuplqdwlrquhvlvwruvlvh[shfw hgwrehvhwhtxdowr9 ref , dqgpxvwwudfnyduldwlrqvlqwkh'&ohyhori9 ref
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 26 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product i dd parameters cl (i dd t rcd (i dd t rc (i dd trrd (i dd t ck (i dd t 5$6, dd t 53, dd t rfc (i dd t )$:, dd t able 7: g eneral i dd p arameters t ck qv qv qv qv qv qv qv qv 5 15 60 10 3 15 105 25 800mbps 3 667mbps 6 15 60 10 15 105 units 25 3 $ 0 5$ 0 ''$ 1 5$ 1 ''$ 2 5$ 2 ''$ 3 5$ 3 d d d d d d d d d d $ 0 5$ 0 ''$ 1 5$ 1 ''$ 2 5$ 2 ''$ 3 5$ 3 d d d d d d speed grade t able 8: i dd7 t iming p atterns (4 - b ank interleave read o peration ) i dd7 timing patterns p ackage o utline d imensions parameter symbol min typ max units notes ,qsxwfdsdflwdqfh&.[dqg&.[? ,qsxwfdsdflwdqfh$[%$[2'7 ,qsxw2xwsxwfdsdflwdqfh '4[/'46[/'46[?8'46[8'46[?/'0[8'0[ &6[?5$6[?&$6[?:([?&.([ t able 6: i nput , i nput /o utput c apacitance c ck c i c io 30 1 1 1 127(6 7klvsdudphwhulvvdpsohg9 dd 9?99 dd 4 9 dd lqwhuqdoo\wlhg9 ref 9vvi 0+]7f ?& 9 287 '& 9 dd 9rxwshdnwrshdn 9['0[lqsxwlvjurxshgzlwk,2edo ovuhiohfwlqjwkhidfwwkdwwkh\duhpdwfkhglqordglqj 7khfdsdflwdqfhshuedoojurxszlooqrwgliihue\pruhwkdq wklvpd[lpxpdprxqwirudq\jlyhql02'ghylfh 20 25 pf pf pf
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 9: ddr2 i dd s pecifications and c onditions parameter t cl= t ck(i dd t rc= t rc(i dd t 5$6 t 5$60,1, dd &.(lv+,*+&6?lv+,*+ ehwzhhqydolgfrppdqgv$gguhvvexvvzlwfklqj'dwdexvvzlwfkl qj i 287 pd%/ &/ &/ i dd $/ t ck = t ck(i dd t rc t rc(i dd t 5$6 t 5$6 min(i dd t rcd= t rcd(i dd &.(lv+,*+&6?lv+,*+ehwzhhqydolgfrp - pdqgv$gguhvvexvlvvzlwfklqj'dwdexvlvvzlwfklqj $ooedqnvlgoh t ck- t ck(i dd &.(lv/2:2wkhufrqwurodqgdgguhvvexv lqsxwvduhvwdeoh'dwdexvlqsxwvduhiordwlqj $ooedqnvlgoh t ck= t ck(i dd &.(lv+,*+&6?lv+,*+2wkhufrqwurodqg dgguhvvexvlqsxwvduhvwdeoh'dwdexvlqsxwvduhiordwlqj $ooedqnvlgoh t ck-= t ck(i dd &.(lv+,*+&6?lv+,*+2wkhufrqwurodqg dgguhvvexvlqsxwvduhvzlwfklqj'dwdexvlqsxwvduhvzlwfklqj $ooedqnvrshq t ck= t ck(i dd t 5$60$;, dd t 53 t 53, dd &.(lv+,*+ &6?lv+,*+ehwzhhqydolgfrppdqgv2wkhufrqwurodqgdgguhvve xvlqsxwv duhvzlwfklqj'dwdexvlqsxwvduhvzlwfklqj $ooedqnvrshqfrqwlqxrxvexuvwzulwhv%/ &/ &/, dd t 53 t 53, dd &.(lv+,*+&6?lv+,*+ehwzhhqydolgfrppdqgv$gguhvvexvlq sxwvduh vzlwfklqj'dwdexvlqsxwvduhvzlwfklqj $ooedqnvrshqfrqwlqxrxvexuvw5($'6,rxw p$%/ &/ &/ i dd $/ t cl= t ck(i dd t 5$6 t 5$60$; i dd t 53 t 53 i dd &.(lv+,*+ cs\ lv+,*+ewzydolgfrppdqgv$gguhvvdqg'dwdexvlqsxwvvzlwfk lqj t ck= t ck(i dd uhiuhvkfrppdqgdwhyhu\ t rfc(i dd lqwhuydo&.(lv+,*+ &6?lv+,*+ewzydolgfrppdqgv2wkhufrqwuro$gguhvvdqg'dw dexv lqsxwvduhvzlwfklqj &.dqg&.?dw9&.( d 92wkhufrqwurodgguhvvdqggdwdlqsxwvduh iordwlqj $ooedqnlqwhuohdylqj5($'6, 287 p$%/ &/ &/, dd $/ t rcd(i dd 1x t ck(i dd t ck= t ck(i dd t rc= t rc(i dd t rrd= t rrd(i dd &.(lv+,*+ &6?lv+,*+ehwzhhqydolgfrppdqgv$gguhvvexvlqsxwvduhvwde ohgxulqj ghvhohfwv'dwdexvlqsxwvduhvzlwfklqj 2shudwlqj&xuuhqw2qhedqndfwlyhsuhfkdujh symbol 0esv 25 0esv 3 mrs[12]=0 mrs[12]=1 idd0 idd1 ,''3 ,''4 idd2n ,''3 idd3n ,'': ,''5 idd5 idd6 idd6l ,'' 35 130 150 100 50 35 25 1300 35 130 130 50 160 625 35 25 1150 units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ 3uhfkdujh67$1'%<fxuuhqw 3uhfkdujhtxlhw67$1'%<fxuuhqw 3uhfkdujh32:(5'2:1fxuuhqw 2shudwlqj&xuuhqw2qhedqndfwlyh5($'suhfkdujhfxuuhqw $fwlyh32:(5'2:1fxuuhqw $fwlyh67$1'%<fxuuhqw 2shudwlqj%xuvw:5,7(fxuuhqw 2shudwlqj%xuvw5($'fxuuhqw %xuvw5()5(6+fxuuhqw 6hoi5()5(6+fxuuhqw 2shudwlqjedqn,qwhuohdyh5($'fxuuhqw
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 3 -125 -125 -250 -350 - - 100 300 300 125 125 250 350 - - - - [i] 25 0+] 0esv [i, e, m] 3 0+] 0esv parameter symbol min max min max units notes &orfn&\foh7lph &orfn+ljk7lph &orfn/rz7lph +doi&orfn3hulrg $evroxwh t ck $evroxwh t &.kljkohyhozlgwk $evroxwh t &.orzohyhozlgwk &orfn-lwwhu3hulrg &orfn-lwwhu+doi3hulrg &orfn-lwwhu&\fohwr&\foh &xpxodwlyh-lwwhuhuuruf\fohv &xpxodwlyh-lwwhuhuuruf\fohv &xpxodwlyh-lwwhuhuuruf\fohv &xpxodwlyh-lwwhuhuuruf\fohv '46rxwsxwdffhvvwlphiurp&.&.? '465($'suhdpeoh '465($'srvwdpeoh '46/rz=zlqgrziurp&.&.? 3rvlwlyh'46odwfklqjhgjhwrdvvrf&orfnhgjh '46lqsxwkljksxovhzlgwk '46lqsxworzsxovhzlgwk '46idoolqjhgjhwr&.ulvlqjvhwxswlph '46idoolqjhgjhiurp&.ulvlqjkrogwlph :5,7(suhdpeohvhwxswlph '46:5,7(suhdpeoh '46:5,7(srvwdpeoh :5,7(frppdqgwriluvw'46odwfklqjwudqvlwlrq '4rxwsxwdffhvvwlphiurp&.&.? '46'4vnhz'46wrodvw'4ydolg shujurxsshudffhvv '4krogiurpqh[w'46vwureh '4'46+rog'46 wriluvw '4 wrjrqrqydolgshudffhvv 'dwdrxw+ljk=zlqgrziurp&.&.? '4/rz=zlqgrziurp&.&.? 'dwdydolgrxwsxwzlqgrz'9: '4dqg'0lqsxwvhwxswlphuhodwlyhwr'46 '4dqg'0lqsxwkrogwlphuhodwlyhwr'46 '4dqg'0lqsxwvhwxswlphuhodwlyhwr'46 '4dqg'0lqsxwkrogwlphuhodwlyhwr'46 '4dqg'0lqsxwsxovhzlgwk iruhdfklqsxw cl=6 cl=5 &/ t ck $9* t ck $9* t ck $9* t ch $9* t cl $9* t +3 t ck dev t ch dev t cl dev t -,7 3(5 t -,7 '7< t -,7 cc t err 3(5 t err 3(5 t err 3(5 t err 3(5 t '46&. t 535( t 5367 t /= t '466 t '46+ t '46/ t dss t dsh t :35(6 t :35( t :367 - t $& t '464 t 4+6 t 4+ t += t /= t '9: t ds b t dh b t ds $ t dh $ t ',3: data-in data-out data strobe-in strobe-out clock jitter clock d ata 3 -100 -100 -150 -200 -300 -350 - - 50 125 250 250 100 100 150 200 300 350 200 300 - - - - qv t ck sv sv sv sv sv sv sv sv sv sv sv sv t ck t ck sv t ck t ck t ck t ck t ck sv t ck t ck t ck sv sv sv sv sv sv sv sv sv sv sv t ck 6-9 10 11 12 13 15 15 15,16 15 19 19,21,22 19 19,21,29 19,21,22 26,30,31 26,30,31 26,30,31 26,30,31 0,1 /hvvhuri t &+dqg t &/0$; qd min = t &.$9*0,1 t -,7 3(5 0,10$; t &.$9*0$; t -,7 3(5 0$; min = t &.$9*0,1[ t &+$9*0,1 t -,7 3(5 0,1 0$; t &.$9*0$;[ t &+$9*0$; t -,7 '7< 0$; min = t &.$9*0,1[ t &+$9*0,1 t -,7 3(5 0,1 0$; t &.$9*0$;[ t &+$9*0$; t -,7 '7< 0$; 200 250 0,1 [ t &.0$; [ t ck 0,1 [ t &.0$; [ t ck min = t $&0,10$; t $&0$; 0,1 [ t &.0$; [ t ck 0,1 [ t &.0$; qd 0,1 [ t &.0$; qd 0,1 [ t &.0$; qd 0,1 [ t &.0$; qd 0,1 0$; qd 0,1 [ t &.0$; qd 0,1 [ t &.0$; [ t ck 0,1 :/ t '4660$; :/ t '466 min = t +3 t 4+60$; qd 0,1 qd0$; t $&0$; min = 2 x t $&0,10$; t $&0$; min = t 4+ t '4640$; qd 0,1 [ t &.0$; qd units notes t able 10: ac t iming s pecifications
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 29 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product min limit = t 5)&0,10$;olplw qd 0,1olplw 0$;olplw qd min limit = t ,60$;olplw qd 2 min limit = t $&0,10$;olplw t $&0$; min limit = t $&0,10$;olplw [ t &. t $&0$; min limit = t $&0,10$;olplw [ t &. t $&0$; t able 10: ac t iming s pecifications c ontinued [i] 25 0+] 0esv [i, e, m] 3 0+] 0esv parameter symbol min max min max units notes $gguhvvdqg&rqwurolqsxwsxovhzlgwkiruhdfklqsxw $gguhvvdqg&rqwurolqsxwvhwxswlph $gguhvvdqg&rqwurolqsxwkrogwlph $gguhvvdqg&rqwurolqsxwvhwxswlph $gguhvvdqg&rqwurolqsxwkrogwlph &$6?wr&$6?frppdqgghod\ $&7,9(wr$&7,9(frppdqgvdphedqn $&7,9(edqndwr$&7,9(edqne&rppdqg $&7,9(wr5($'ru:5,7(ghod\ %dqndfwlydwhshulrg $&7,9(wr35(&+$5*( ,qwhuqdo5($'wr35(&+$5*(frppdqgghod\ :5,7(uhfryhu\wlph $xwr35(&+$5*(:5,7(uhfryhu\35(&+$5*(wlph ,qwhuqdo:5,7(wr5($'frppdqgghod\ 35(&+$5*(frppdqgshulrg 35(&+$5*($//frppdqgshulrg /2$'02'(frppdqg&\fohwlph &.(/2:wr&.&.?xqfhuwdlqw\ 5()5(6+wr$&7,9(ru5()5(6+wr5()5(6+ frppdqglqwhuydo $yhudjhshulrglf5()5(6+lqwhuydo>lqgxvwuldowhps@ $yhudjhshulrglf5()5(6+lqwhuydo>h[whqghgwhps@ $yhudjhshulrglf5()5(6+lqwhuydo>plolwdu\whps@ ([lw6(/)5()5(6+wr1215($'frppdqg ([lw6(/)5()5(6+wr5($'frppdqg ([lw6(/)5()5(6+wlplqjuhihuhqfh 2'7wxuqrqghod\ 2'7wxuqrqghod\ 2'7wxuqriighod\ 2'7wxuqriighod\ 2'7wxuqrqsrzhugrzqprgh 2'7wxuqriisrzhugrzqprgh 2'7wrsrzhugrzqhqwu\odwhqf\ 2'7wrsrzhugrzqh[lwodwhqf\ 2'7hqdeohiurp056frppdqg ([lwdfwlyh32:(5'2:1wr5($'frppdqg05>@ ([lwdfwlyh32:(5'2:1wr5($'frppdqg05>@ ([lw35(&+$5*(32:(5'2:1wrdq\qrq5($' &.(0lq+,*+/2:wlph t ,3: t is b t ih b t is $ t ih $ t ccd t rc t rrd t rcd t )$: t 5$6 t 573 t :5 t '$/ t :75 t 53 t 53$ t mrd t '(/$< t rfc t ref[i] t ref[e] t ref[m] t ;615 t ;65' t ,6;5 t $21' t $21 t $23' t $2) t $213' t $2)3' t $13' t $;3' t mod t ;$5' t ;$5' t ;3 v cke pwr-dn odt s. refresh refresh command and address 250 2 55 10 15 15 15 2 - - - t $& 0,1 3 10 12 2 $/ 2 3 - - - - - - - - - - - - - - - - - t $& 0$; - - - - - - - 200 2 55 10 15 50 15 15 2 - - - t $& 0,1 3 12 2 $/ 2 3 - - - - - - - - - - - - - - - - - t $& 0$; - - - - - - - t ck sv sv sv sv t ck qv t ck qv qv qv qv qv qv qv qv qv t ck qv qv ?v ?v ?v qv t ck sv t ck sv t ck sv sv sv t ck t ck qv t ck t ck t ck t ck 31,33 31,33 31,33 31,33 min = t :5 t 530$; qd min limit = t ,6 t &. t ,+0$;olplw qd
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logic devices incorporated www.logicdevices.com 32 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions 127(6 r 77 hiidqg5 77 hiiduhghwhuplqhge\vhsdudwho\dsso\lqj9 ih $& dqg9 il '&wrwkhedooehlqjwhvwhgdqgwkhqphdvxulqjfxuuhqw,9 ih >$&@dqg,9 il >$&@uhvshfwlyho\ 0lqlpxp,lqgxvwuldo(h[whqghgdqg00lo7hpsduhghudw hge\vl[ shufhqwzkhqwkhghylfhvrshudwhehwzhhq?&dqg?&dqgs hu - fhqwzkhqwkhghylfhvrshudwhgehwzhhq?&dqg?& 0hdvxuhyrowdjh90dwwhvwhgedoozlwkqrordg parameter/condition symbol min typ ma x units notes r tt effective impedance value for 75 : setting (05$$ r tt effective impedance value for 150 : setting (05$$ r tt effective impedance value for 50 : setting (05$$ deviation of vm with respect to v dd q/2 : : : 1,2 1,2 1,2 3 t able 11: odt e lectrical c haracteristics 90 60 6 150 50 - 60 120 -6 r 77 hii r 77 hii r 77 hii ' 90 [90 9 dd 4 ' 90 -1 x 100 p ackage o utline d imensions 127(69 dd 4pydoorzhgsurylghg9lvqrwh[fhhghg parameter/condition symbol min max units ,qsxw+,*+orjlfyrowdjh ,qsxw/2:orjlfyrowdjh p9 p9 t able 12: i nput dc l ogic l evels 9 dd 4 9 ref '& 9 ref '& -300 9 ih '& 9 ih '& p ackage o utline d imensions 127(69 dd 4pydoorzhgsurylghg9lvqrwh[fhhghg parameter/condition symbol min max units ,qsxw+,*+orjlfyrowdjh ,qsxw+,*+orjlfyrowdjh ,qsxw/2:orjlfyrowdjh ,qsxw/2:orjlfyrowdjh p9 p9 p9 p9 t able 13: i nput ac l ogic l evels 9 dd 4 9 dd 4 9 ref ( dc 9 ref ( dc 9 ref ( dc 9 ref ( dc -300 -300 9 ih $& 9 ih $& 9 il $& 9 il $&
650mv 775mv 864mv 882mv 900mv 918mv 936mv 1,025mv v ref + ac noise v ref + dc error v ref - dc error v ref - ac noise 1,150mv v ih (ac) v ih (dc) v il (dq) v il (ac) operating conditions f igure 6 - s ingle e nded i nput s ignal l evels 1rwh1xpehuvlqgldjudpuhiohfwqrplqdo''5''5 ydoxhv logic devices incorporated www.logicdevices.com 33 september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product
p ackage o utline d imensions parameter/condition symbol min max units notes '&lqsxwvljqdo9rowdjh '&gliihuhqwldolqsxw9rowdjh $&gliihuhqwldolqsxw9rowdjh $&gliihuhqwldofurvvsrlqw9rowdjh ,qsxwplgsrlqw9rowdjh p9 p9 p9 p9 p9 1,6 2,6 3,6 5 t able 14: d ifferential i nput l ogic l evel 9 dd 4 9 dd 4 9 dd 4 [9 dd 4 950 -300 250 500 [9 dd 4 9 in '& 9 id '& 9 id $& 9 ,; $& 9 03 '& logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 127(6 9 in '&vshflilhvwkhdoorzdeoh'&h[hfxwlrqrihdfklqsxwriglii huhq - wldosdluvxfkdv&.[&.[?'46['46[?/'46[/'46[?8'46[ dqg8'46[? 9 id '&vshflilhvwkhlqsxwgliihuhqwldoyrowdjh>9759&3@uhtxluh giru vzlwfklqjzkhuhlqsxwvxfkdv&.[?'46[?/'46[?dqg8'46[? ohyho 7kh plqlpxp ydoxh lv htxdo wr 9 ih '&9 il '& 'liihuhqwldo lqsxwvljqdoohyhovduhvkrzlq)ljxuh 9 id $&vshflilhvwkhlqsxwgliihuhqwldoyrowdjh>9759&3@uhtxluh giru vzlwfklqj zkhuh 975 lv wkh wuxh lqsxw vxfk dv &.[ '46[ /'46 [ dqg8'46[ohyho7khplqlpxpydoxhlvhtxdowr9 ih '&lvhtxdowr 9 ih $&9 il $&dvvkrzqlq7deoh 7khw\slfdoydoxhri9 ,; $&lvh[shfwhgwrehderxw[9 dd 4riwkh wudqvplwwlqjghylfhdqg9 ,; $&lvh[shfwhgwrwudfnyduldwlrqvlq9 dd 4 9 ,; $& lqglfdwhv wkh yrowdjh dw zklfk gliihuhqwldo lqsxw vljqdov pxvw furvvdvvkrzqlq)ljxuh 9 03 '&vshflilhvwkhlqsxwgliihuhqwldofrpprqprghyrowdjh975 9&3zkhuh975lvwkhwuxhlqsxw&.['46[ohyhodqg9&3lv wkh frpsohphqwdu\lqsxw&.[?'46[? 9 dd 4pydoorzhgsurylghg9lvqrwh[fhhghg
tr 2 cp 2 2.1v v dd q = 1.8v v in (dc)max v in (dc)min 1 C0.30v 0.9v 1.075v 0.725v v id (ac) 6 v id (dc) 5 x v mp (dc) 3 v ix (ac) 4 x 1 . f igure 7 - d ifferential i nput s ignal l evels 1rwhv75dqg&3pd\qrwehpruhsrvl wlyhwkdq9 dd 49rupruhqhjdwlyhwkdq9;;9 75uhsuhvhqwvwkh&.'465'46/'46dqg8'46vljqdov& 3uhsuhvhqwv&.'46 5'46/'46dqg8'46vljqdov 7klvsurylghvdplqlpxprip9wrdpd[lpxprip9dqg lvh[shfwhgwreh9 dd 4 75dqg&3pxvwfurvvlqwklvuhjlrq 75dqg&3pxvwphhwdwohdvw9 id '&plqzkhqvwdwlfdqglvfhqwhuhgdurxqg9 03 '& 75dqg&3pxvwkdyhdplqlpxpp9shdnwrshdnvzlqj 1xpehuvlqgldjudpuhiohfwqrplqdoydoxhv9 dd 4 9 logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 35 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product
p ackage o utline d imensions parameter/condition symbol value units notes 2xwsxw0,1vrxufh'&fxuuhqw 2xwsxw0,1vlqn'&fxuuhqw p9 p9 t able 16: o utput dc c urrent d rive 9 dd '& 9 ref '& i oh i ol p ackage o utline d imensions parameter symbol min max unit s notes $&gliihuhqwldofurvvsrlqw9rowdjh $&gliihuhqwldo9rowdjhvzlqj p9 p9 1,6 t able 15: d ifferential ac o utput p arameters [9 dd 4 - [9 dd 4 1 9 2; $& 9 vzlqj crossing point v ox v ss q vswing v dd q v tr v cp logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 36 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 127(6 7khw\slfdoydoxhri9 2; $&lvh[shfwhgwrehderxw[9 dd 4riwkhwudqvplwwlqjghylfhdqg9 2; $&lvh[shfwhgwrwudfn yduldwlrqvlq9 dd 49 2; $&lqglfdwhvwkhyrowdjhdwzklfkgliihuhqwldorxwsxwvljqdov pxvwfurvv f igure 8 - d ifferential o utput s ignal l evels 127(6 for l oh '&9 dd 4 99 287 p99 287 9 dd 4, oh pxvw ehohvvwkdq : iruydoxhvri9 287 ehwzhhq9 dd 4dqg9 dd 4 p9 for l ol '&9 dd 4 99 287 p99rxwo ol pxvwehohvvwkdq 21 : iruydoxhvri9 287 ehwzhhq9dqgp9 7kh'&ydoxhri9 ref dssolhgwrwkhuhfhlylqjghylfhlvvhwwr9 77 7khydoxhvrio oh '&dqgo ol '&duhedvhgrqwkhfrqglwlrqvjlyhq lq1rwhvdqg7kh\duhxvhgwrwhvwghylfhgulyhfxuuhqw fdsdelolw\ wrhqvxuh9 ih 0,1soxvdqrlvhpdujlqdqg9 il 0$;plqxvdqrlvh pdujlqduhgholyhuhgwrdq667/buhfhlyhu7khdfwxdofxuuhqw ydoxhvduhghulyhge\vkliwlqjwkhghvluhggulyhurshudwlqjsrl qwvhh rxwsxw,9fxuyhvdorqjd : ordgolqhwrghilqhdfrqyhqlhqwgulyhu fxuuhqwiruphdvxuhphqw
p ackage o utline d imensions parameter min typ max units notes 2xwsxw,pshgdqfh 3xooxsdqgsxoogrzqplvpdwfk 2xwsxwvohzudwh t able 17: o utput c haracteristics 0 1,2 1,2,3 - - 5 : : 9qv 6hh2xwsxw'ulyhu&kdudfwhulvwlfv output (v out ) reference point 25 v tt = v dd q/2 logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 127(6 $evroxwhvshflilfdwlrqv?& d 7 c d ?&9 dd 4 9 9 dd 9?9 ,pshgdqfhphdvxuhphqwfrqglwlrqvirurxwsxwvrxufh'&fxuuhq w 9 dd 4 9rxw p99 287 9 dd 4o oh pxvwehohvvwkdq : iruydoxhvri9rxwehwzhhq9 dd 4dqg9 dd 4p97kh lpshgdqfhphdvxuhphqwfrqglwlrqirurxwsxwvlqn'&fxuuhqw9 dd 4 99rxw p99rxworopxvwehohvvwkdq : iruydoxhvri 9 287 ehwzhhq9dqgp9 0lvpdwfklvdqgdevroxwhydoxhehwzhhqsxooxsdqgsxoogrzq erwk duhphdvxuhgdwwkhvdphwhpshudwxuhdqgyrowdjh 2xwsxwvohzudwhiruidoolqjdqgulvlqjhgjhvlvphdvxuhgeh wzhhq 9 77 p9dqg9 77 p9iruvlqjohhqghgvljqdov)rugliihuhq - wldovljqdov'46['46[?rxwsxwvohzudwhlvphdvxuhgehwzhh q '46['46[? p92xwsxwvohzudwhlvjxdudqwhhge\ghvljq exwlvqrwqhfhvvdulo\whvwhgrqhdfkghylfh 7khdevroxwhydoxhriwkhvohzudwhdvphdvxuhgiurp9 il '&0$; wr9 ih '&0,1lvhtxdowrrujuhdwhuwkdqwkhvohzudwhdvphdvxuhg iurp9 il $&0$;wr9 ih $&0,17klvlvjxdudqwhhge\ghvljq $ooghylfhv,1'8675,$/(;7(1'('dqg0,/7(03ghylfhv uhtxluhdqdgglwlrqdo9qvlqwkh0$;olplwzkhq7flvehwzh hq ?&dqg?& f igure 9 - o utput s lew r ate l oad
v out (v) 0.0 0.5 1.0 1.5 120 100 80 60 40 20 0 i out (ma) logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions voltage (v) min typ max units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ t able 18: f ull s trength p ull -d own c urrent ( ma ) f igure 10 - f ull s trength p ull d own c haracteristics
v ddq - v out (v) 0 C20 C40 C60 C80 C100 C120 0 0.5 1.0 1.5 i out (ma) logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 39 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions voltage (v) min typ max units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ t able 19: f ull s trength p ull -u p c urrent ( ma ) f igure 11 - f ull s trength p ull u p c haracteristics
70 60 50 40 30 20 10 0 0.0 0.5 1.0 1.5 v out (v) i out (mv) logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions voltage (v) min typ max units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ t able 20: r educed s trength p ull -d own c urrent ( ma ) f igure 12 - r educed s trength p ull d own c haracteristics
0 C10 C20 C30 C40 C50 C60 C70 0.0 0.5 1.0 1.5 v ddq - v out (v) i out (mv) logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions voltage (v) min typ max units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ t able 21: r educed s trength p ull -u p c urrent ( ma ) f igure 13 - r educed s trength p ull u p c haracteristics
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions voltage (v) across clamp min power clamp current min ground clamp current units p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ p$ t able 22: i nput c lamp c haracteristics f igure 14 - i nput c lamp c haracteristics voltage across clamp (v) minimum clamp current (ma) 25 20 15 10 5 0 0.0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8
f igure 15 & 16: o vershoot /u ndershoot s pecifications maximum amplitude overshoot area v dd /v dd q time (ns) volts (v) maximum amplitude undershoot area time (ns) v ss /v ss q volts (v) v ss /v ss q figure 15: overshoot figure 16: undershoot logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions parameter 25 3 units 0d[lpxpshdndpsolwxghiruryhuvkrrwduhdvhh)ljxuh 0d[lpxpshdndpsolwxghdoorzhgiruxqghuvkrrwduhdvhh)ljxuh 0d[lpxpryhuvkrrwduhdderyh9 dd vhh)ljxuh 0d[lpxpxqghuvkrrwduhdehorz9 vv vhh)ljxuh t able 23: a ddress and c ontrols p ins 9 9 9qv 9qv specifications p ackage o utline d imensions parameter 25 3 units 0d[lpxpshdndpsolwxghiruryhuvkrrwduhdvhh)ljxuh 0d[lpxpshdndpsolwxghdoorzhgiruxqghuvkrrwduhdvhh)ljxuh 0d[lpxpryhuvkrrwduhdderyh9 dd 4vhh)ljxuh 0d[lpxpxqghuvkrrwduhdehorz9 vv 4vhh)ljxuh t able 24: c lock , d ata , s trobe , and m ask p ins 9 9 9qv 9qv specifications
see note 2 see note 5 9 ,; $& p ackage o utline d imensions parameter/condition symbol min max units notes ,qsxwvhwxswlplqjphdvxuhphqwuhihuhqfhohyhodgguhvvedoov edqndgguhvvedoov&6?5$6?&$6?:(?2'7'0 8'0/'0dqg&.( ,qsxwkrogwlplqjphdvxuhphqwuhihuhqfhohyhodgguhvvedoov edqndgguhvvedoov&6?5$6?&$6?:(?2'7'0 8'0/'0dqg&.( ,qsxwwlplqjphdvxuhphqwuhihuhqfhohyhovlqjohhqghg8'46[ /'46[ ,qsxwwlplqjphdvxuhphqwuhihuhqfhohyhogliihuhqwldo&.&.? 8'46[ 8'46[?/'46[/'46[? 9 9 t able 25: ac i nput t est c onditions 9 dd 4[ 9 dd 4[ 9 rs 9 rh 9 ref '& 9 rd 127(6 $ooyrowdjhvuhihuhqfhgwr9vv ,qsxwzdyhirupvhwxswlplqj t ,6elvuhihuhqfhgiurpwkhlqsxwvljqdo furvvlqjdwwkh9 ih $&ohyhoirudulvlqjvljqdodqg9 il $&irudidoolqj vljqdodssolhgwrwkhghylfhxqghuwhvwdvvkrzqlq)ljxuh 6hh,qsxw6ohz5dwh'hudwlqj 7khvohzudwhiruvlqjohhqghglqsxwvlvphdvxuhgiurp'&oh yhowr$& ohyho9 il '&wr9 ih $&rqwkhulvlqjhgjhdqg9 il $&wr9 ih '&rq wkhidoolqjhgjh)ruvljqdovuhihuhqfhgwr9 ref wkhydolglqwhuvhfwlrq lvzkhuhwkhvwdqjhqwwolqhlqwhuvhfwv9 ref dvvkrzqlq)ljxuh dqg ,qsxw zdyhirup krog t ,+e wlplqj lv uhihuhqfhg iurp wkh lqsxw vljqdo furvvlqjdwwkh9 il '&ohyhoirudulvlqjvljqdodqg9 ih '&irudidoolqj vljqdodssolhgwrwkhghylfhxqghuwhvwdvvkrzqlq)ljxuh ,qsxwzdyhirupvhwxswlplqj t '6dqgkrogwlplqj t '+zkhqvlqjoh hqghggdwdvwurehlvhqdeohglvuhihuhqfhgiurpwkhfurvvlqjri '46 8'46 ru /'46 wkurxjk wkh 9 ref ohyho dssolhg wr wkh ghylfh xqghu whvwdvvkrzqlq)ljxuh ,qsxwzdyhirupvhwxswlplqj t '6dqgkrogwlplqj t '+zkhqgliihuhq - wldogdwdvwurehlvhqdeohglvuhihuhqfhgiurpwkhfurvvsrlqw ri'46[ '46[?8'46[8'46[?/'46[/'46[?dvvkrzqlq)ljxuh ,qsxwzdyhirupwlplqjlvuhihuhqfhgwrwkhfurvvlqjsrlqwoh yho9l[ri wzrlqsxwvljqdov9wudqg9fsdssolhgwrwkhghylfhxqghuwhv wzkhuh 9wulvwkhwuxhlqsxwvljqdodqg9fslvwkhfrpsohphqwdu\lqsxw vljqdo dvvkrzqlq)ljxuh 7khvohzudwhirugliihuhqwldoo\hqghglqsxwvlvphdvxuhgiu rpwzlfhwkh '&ohyhowrwzlfhwkh$&ohyho[9 il '&wr[9 ih $&rqwkhidoolqj hgjh iru h[dpsoh wkh &.&.? zrxog eh p9 wr p9 iru &. ulvlqjhgjhdqgzrxogehp9wrp9iru&.idoolqjhgjh logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product i nput s lew r ate d erating )rudoolqsxwvljqdovwkhwrwdo t ,6vhwxswlphdqg t ,+krogwlphuhtxluhglv fdofxodwhge\dgglqjwkhgdwdvkhhw t ,6edvhdqg t ,+edvhydoxhwrwkh ' t ,6dqg ' t ,+ghudwlqjydoxhuhvshfwlyho\6hwxsdqgkrogwlphvduhedvh g rqphdvxuhphqwvdwwkhghylfh1rwhwkdwdgguhvvdqgfrqwurosl qvsuhv - hqwwkhfdsdflwdqfhripxowlsohglhwrwkhv\vwhp7klvfdsdflw dqfhlvohvv wkdqwkhhtxlydohqwqxpehuriglvfuhwhghylfhvgxhwrwkhkljkh uohyhori glhlqwhjudwlrqkrzhyhulwpxvwehdffrxqwhgiruzkhqgulylqj wkhvhslqv 6ohz udwhv rq wkhvh slqv zloo eh vorzhu wkdq slqv zlwk rqo\ rqh glh ordg xqohvvphdvxuhvduhpdghwrlqfuhdvhwkhvwuhqjwkriwkhvljqdo gulyhudqg orzhuwkhwudfhlpshgdqfhsursruwlrqdoo\rqvljqdovfrqqhfwlqj wrpxowlsoh lqwhuqdoglh t ,6 wkh qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wk h vohz udwh ehwzhhqwkhodvwfurvvlqjri9 ref '&dqgwkhiluvwfurvvlqjri9 ih $& 0,1 6hwxs qrplqdo vohz udwh t ,6 iru d idoolqj vljqdo lv ghilqhg dv wkh vohzudwhehwzhhqwkhodvwfurvvlqjri9 ref '&dqgwkhiluvwfurvvlqjri 9 il $&0$; ,i wkh dfwxdo vljqdo lv odwhu wkdq wkh qrplqdo vohz udwh olqh d q\zkhuh ehwzhhqwkhvkdghgv9 ref '&wr$&uhjlrqvxvhwkhqrplqdovohzudwh iruwkhghudwlqjydoxh,iwkhdfwxdovljqdolvodwhuwkdqwkh qrplqdovohzudwh olqhdq\zkhuhehwzhhqwkhvkdghgv9 ref '&wr$&uhjlrqwwkhvohzudwh ridwdqjhqwolqhwrwkhdfwxdovljqdoiurpwkh$&ohyhowr'& ohyholvxvhg iruwkhghudwlqjydoxh t ,+ wkh qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wk h vohz udwh ehwzhhqwkhodvwfurvvlqjri9 il '&0$;dqgwkhiluvwfurvvlqjri9 ref '& t ,+qrplqdovohzudwhirudidoolqjvljqdolvghilqhgdvwkhv ohzudwhehwzhhq wkhodvwfurvvlqjri9 ih '&0,1dqgwkhiluvwfurvvlqjri9 ref '& ,iwkhdfwxdovljqdolvdozd\vodwhuwkdqwkhqrplqdovohzudwh olqhehwzhhq vkdghgv'&wr9 ref '&uhjlrqwxvhwkhqrplqdovohzudwhiruwkhghudwlqj ydoxh ,iwkhdfwxdovljqdolvhduolhuwkdqwkhqrplqdovohzudwholqh dq\zkhuhehwzhhq vkdghgv'&wr9 ref '&uhjlrqvwkhvohzudwhridwdqjhqwolqhwrwkhdfwxdo vljqdoiurpwkh'&ohyhowr9 ref '&ohyholvxvhgiruwkhghudwlqjydoxh $owkrxjkwkhwrwdovhwxswlphpljkwehqhjdwlyhiruvorzvohzu dwhvdydolg lqsxw vljqdo zloo qrw kdyh uhdfkhg 9 ih >$&@9 il >$&@ dw wkh wlph ri wkh ulvlqj forfnwudqvlwlrqdydolglqsxwvljqdolvvwloouhtxluhgwrfr psohwhwkhwudqvlwlrq dqguhdfk9 ih $&9 il $& )ruvohzudwhvlqehwzhhqwkhydoxhvolvwhg7deohdqg7deoh wkhghudw - lqjydoxhvpd\ehrewdlqhge\olqhdulqwhusrodwlrq t able 26: ddr2-400/533 s etup and h old t ime d erating v alues ( t is/ t ih) cmd/addr slew rate v/ns 150 125 0 -11 -25 -110 -350 -525 21 0 -31 -125 -292 -500 -1125 209 155 113 30 19 5 -13 -255 -320 119 113 105 51 30 16 -1 -53 -95 -262 -1095 239 210 60 29 6 -23 -65 -232 -315 -1065 135 105 60 29 6 -23 -65 -232 -315 -1065 sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv 2.0v/ns 1.5v/ns 1.0v/ns ck, ck\ differential slew rate units ' t is ' t ih ' t is ' t ih ' t is ' t ih
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 27: ddr2-667/800 s etup and h old t ime d erating v alues ( t is/ t ih) cmd/addr slew rate v/ns 150 133 120 100 0 -5 -13 -22 -60 -100 -200 -325 -1000 21 0 -31 -125 -292 -500 -1125 163 150 30 25 -30 -295 119 113 105 51 30 16 -1 -53 -95 -262 -1095 210 203 193 160 60 55 36 0 -265 135 105 60 29 6 -23 -65 -232 -315 -1065 sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv sv 2.0v/ns 1.5v/ns 1.0v/ns ck, ck\ differential slew rate units ' t is ' t ih ' t is ' t ih ' t is ' t ih
v ss ck# ck t ih t is t ih setup slew rate rising signal setup slew rate falling signal tf tr tf = v ih(ac)min - v ref (dc) tr = v ddq t is nominal slew rate v ref to ac region v ref to ac region v ref (dc) - v il(ac)max v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min nominal slew rate setup slew rate rising signal tf tr tangent li ne (v ih[ac]min - v ref[dc] ) tr = tangent line tangent line v ref to ac region nominal line t ih t is t ih t is v ss ck# ck v ddq v ih(ac)min v ih(dc)min v ref(dc) v il(dc)max v il(ac)max v ref to ac region nominal line logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 17 - n ominal s lew r ate for t is f igure 18 - t angent l ine for t is
tr tf nominal slew rate dc to v ref region t ih t is t is v ss ck# ck v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min dc to v ref region nominal slew rate t ih tangent line dc to v ref region t ih t is t is v ss v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min dc to v ref region tangent line t ih ck ck# hold slew rate falling signal tf tr (v ih [dc ]min - v ref[dc] ) tf = nominal line hold slew rate rising signal tangent line (v ref[dc] - v il [dc] max ) tr = nominal line tangent line logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 19 - n ominal s lew r ate for t ih f igure 20 - t angent l ine for t ih
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 28 - ddr2-400/533 t ds, t dh d erating values with d ifferential s trobe dq slew rate v/ns 125 0 -11 - - - - 21 0 - - - - 125 0 -11 -25 - - - - 21 0 -31 - - - - - 95 12 1 -13 -31 - - - - 33 12 -2 -19 - - - - - 13 -1 -19 - - - - 10 -30 -59 - - - - - 25 11 -31 - - - - 22 5 - - - - - 23 5 -19 -62 - - - - -6 -35 - - - - - -50 -115 - - - - - 6 -23 -65 - - - - - - 5 -103 - - - - - - -11 -53 -116 4.0v/ns 3.0v/ns 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns dqsx, dqsx\ differential slew rate 21 0 - - - - - 125 0 - - - - - 127(6 )ru doo lqsxw vljqdov wkh wrwdo t '6 dqg t '+ uhtxluhg lv fdofxodwhg e\ dgglqj wkh gdwdvkhhw ydoxh wr wkh ghudwlqj ydoxh olvwhg lq wkh deryh wdeoh t '6 qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wkh vohz udwh ehwzhhqwkhodvwfurvvlqjri9 ref '&dqgwkhiluvwfurvvlqjri9 ih $& 0,1 t '6qrplqdovohzudwhirudiluvwfurvvlqjri9 il $&0$;)ljxuh liwkhdfwxdovljqdolv dozd\vhduolhuwkdqwkhqrplqdovo hzudwholqh ehwzhhq wkh vkdghg v9 ref '& wr $& uhjlrqw xvh wkh qrplqdo vohz udwhiruwkhghudwlqjydoxh,iwkhdfwxdovljqdolvodwhuwkdq wkhqrplqdo vohzudwholqhdq\zkhuhehwzhhqwkhvkdghgv9 ref '&wr$&uhjlrqw wkhvohzudwhridwdqjhqwolqhwrwkhdfwxdovljqdoiurpwkh$ &ohyhowr wkh'&ohyholvxvhgiruwkhghudwlqjydoxh)ljxuh t '+ qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wkh vohz udwh ehwzhhq wkh odvw furvvlqj ri 9 il '& 0$; dqg wkh iluvw furvvlqj ri 9 ref '& t '+qrplqdovohzudwhirudidoolqjvljqdolvghilqhgdvwkh vohzudwhehwzhhqwkhodvwfurvvlqjri9 ih '&0,1dqgwkhiluvwfurvv - lqjri9 ref '&,iwkhdfwxdovljqdolvdozd\vodwhuwkdqwkhqrplqdo vohzudwholqhehwzhhqwkhvkdghgv'&ohyhowr9 ref '&uhjlrqwxvh wkhqrplqdovohzudwhirughudwlqjydoxh)ljxuh,iwkhdf wxdovljqdo lv hduolhu wkdq wkh qrplqdo vohz udwh olqh dq\zkhuh ehwzhhq vkd ghg v'&wr9 ref '&uhjlrqwwkhudwhridwdqjhqwolqhwrwkhdfwxdovljqdo iurpwkh'&ohyhowr9 ref '&ohyholvxvhgiruwkhghudwlqjydoxhvhh )ljxuh $owkrxjkwkhwrwdovhwxswlphpljkwehqhjdwlyhiruvorzvoh zudwhvd ydolglqsxwvljqdozlooqrwkdyhuhdfkhg9 ih >$&@9 il >$&@dwwkhwlphri wkhulvlqjforfnwudqvlwlrqdydolglqsxwvljqdolvvwloouht xluhgwrfrp - sohwhwkhwudqvlwlrqdqguhdfk9 ih $&9 il $& )ru vohz udwhv ehwzhhq wkh ydoxhv olvwhg lq wklv wdeoh wkh ghudwlqj ydoxhvpd\ehrewdlqhgyldolqhdulqwhusrodwlrq 7khvhydoxhvduhw\slfdoo\qrwvxemhfwwrsurgxfwlrqwhvw7 kh\duhyhul - ilhge\ghvljqdqgfkdudfwhul]dwlrq 6lqjohhqghg'46[uhtxluhvvshfldoghudwlqj7khydoxhvlq7 deoh duhwkh'46vlqjohhqghgvohzudwhghudwlqjzlwk'46uhihuhqfhg dw 9 ref dqg'4uhihuhqfhgdwwkhorjlfohyhov t '6edqg t '+e&rqyhuwlqj wkhghudwhgedvhydoxhviurp'4uhihuhqfhgwrwkh$&'&wulssr lqwvwr '4uhihuhqfhgwr9 ref lvolvwhglq7deohdqg7deohsurylghv wkh 9 ref edvhg ixoo\ ghudwhg ydoxhv iru wkh '4 t '6d dqg t '+d iru ''57deohsurylghvwkh9 ref edvhgixoo\ghudwhgydoxhviru wkh'4 t '6ddqg t '+diru''5 ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 50 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 29 - ddr2-667/800 t ds, t dh d erating values with d ifferential s trobe dq slew rate v/ns 100 0 -5 -13 -22 -60 -100 63 0 -31 -125 100 0 -5 -13 -22 -60 -100 63 0 -31 -125 112 12 -1 -10 -22 12 -2 -19 -113 91 19 11 2 -10 -36 66 10 -30 -59 -101 136 103 36 31 23 2 99 36 22 5 -152 115 35 26 -12 -52 111 90 -6 -35 160 60 55 26 0 123 102 60 29 6 -23 -65 139 59 50 12 135 -11 -53 -116 4.0v/ns 3.0v/ns 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns dqsx, dqsx\ differential slew rate 63 0 -31 -125 100 0 -5 -13 -22 -60 -100 127(6 )ru doo lqsxw vljqdov wkh wrwdo t '6 dqg t '+ uhtxluhg lv fdofxodwhg e\ dgglqj wkh gdwdvkhhw ydoxh wr wkh ghudwlqj ydoxh olvwhg lq wkh deryh wdeoh t '6 qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wkh vohz udwh ehwzhhqwkhodvwfurvvlqjri9 ref '&dqgwkhiluvwfurvvlqjri9 ih $& 0,1 t '6qrplqdovohzudwhirudiluvwfurvvlqjri9 il $&0$;)ljxuh liwkhdfwxdovljqdolv dozd\vhduolhuwkdqwkhqrplqdovo hzudwholqh ehwzhhq wkh vkdghg v9 ref '& wr $& uhjlrqw xvh wkh qrplqdo vohz udwhiruwkhghudwlqjydoxh,iwkhdfwxdovljqdolvodwhuwkdq wkhqrplqdo vohzudwholqhdq\zkhuhehwzhhqwkhvkdghgv9 ref '&wr$&uhjlrqw wkhvohzudwhridwdqjhqwolqhwrwkhdfwxdovljqdoiurpwkh$ &ohyhowr wkh'&ohyholvxvhgiruwkhghudwlqjydoxh)ljxuh t '+ qrplqdo vohz udwh iru d ulvlqj vljqdo lv ghilqhg dv wkh vohz udwh ehwzhhq wkh odvw furvvlqj ri 9 il '& 0$; dqg wkh iluvw furvvlqj ri 9 ref '& t '+qrplqdovohzudwhirudidoolqjvljqdolvghilqhgdvwkh vohzudwhehwzhhqwkhodvwfurvvlqjri9 ih '&0,1dqgwkhiluvwfurvv - lqjri9 ref '&,iwkhdfwxdovljqdolvdozd\vodwhuwkdqwkhqrplqdo vohzudwholqhehwzhhqwkhvkdghgv'&ohyhowr9 ref '&uhjlrqwxvh wkhqrplqdovohzudwhirughudwlqjydoxh)ljxuh,iwkhdf wxdovljqdo lv hduolhu wkdq wkh qrplqdo vohz udwh olqh dq\zkhuh ehwzhhq vkd ghg v'&wr9 ref '&uhjlrqwwkhudwhridwdqjhqwolqhwrwkhdfwxdovljqdo iurpwkh'&ohyhowr9 ref '&ohyholvxvhgiruwkhghudwlqjydoxhvhh )ljxuh $owkrxjkwkhwrwdovhwxswlphpljkwehqhjdwlyhiruvorzvoh zudwhvd ydolglqsxwvljqdozlooqrwkdyhuhdfkhg9 ih >$&@9 il >$&@dwwkhwlphri wkhulvlqjforfnwudqvlwlrqdydolglqsxwvljqdolvvwloouht xluhgwrfrp - sohwhwkhwudqvlwlrqdqguhdfk9 ih $&9 il $& )ru vohz udwhv ehwzhhq wkh ydoxhv olvwhg lq wklv wdeoh wkh ghudwlqj ydoxhvpd\ehrewdlqhgyldolqhdulqwhusrodwlrq 7khvhydoxhvduhw\slfdoo\qrwvxemhfwwrsurgxfwlrqwhvw7 kh\duhyhul - ilhge\ghvljqdqgfkdudfwhul]dwlrq 6lqjohhqghg '46 uhtxluhv vshfldo ghudwlqj 7kh ydoxhv lq 7d eoh duhwkh'46vlqjohhqghgvohzudwhghudwlqjzlwk'46uhihuhqfhg dw 9 ref dqg'4uhihuhqfhgdwwkhorjlfohyhov t '6edqg t '+e&rqyhuwlqj wkhghudwhgedvhydoxhviurp'4uhihuhqfhgwrwkh$&'&wulssr lqwv wr'4uhihuhqfhgwr9 ref lvolvwhglq7deoh7deohsurylghvwkh 9 ref edvhgixoo\ghudwhgydoxhviruwkh'4 t '6ddqg t '+diru''5 ,wlvqrwdgylvhgwrrshudwh''5ghylfhvzlwkvlqjoh hqghg '46krzhyhu7deohzrxogehxvhgzlwkwkhedvhydoxhv ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 51 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 30 - s ingle -e nded dqs s lew r ate d erating v alues u sing t ds b , t dh b dq slew rate v/ns 130 30 25 5 53 32 -10 -93 -135 130 30 25 5 53 32 -10 -93 -135 130 30 25 5 53 32 -10 -93 -135 130 30 25 5 53 32 -10 -93 -135 112 32 20 -13 -63 -15 -29 -69 -203 155 122 55 50 30 -3 -53 -32 -102 -206 160 60 55 26 0 123 102 60 29 6 -23 -65 139 59 50 12 135 -11 -53 -116 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns 0.6v/ns 0.4v/ns dqsx single-ended slew rate derated (at v ref ) 53 32 -10 -93 -135 130 30 25 5 t able 31 - s ingle -e nded dqs s lew r ate f ully d erated (dqs, dq at v ref ) at ddr2-667 dq slew rate v/ns 330 330 330 391 522 291 290 290 290 290 290 290 290 330 330 330 391 522 291 290 290 290 290 290 290 290 330 330 330 391 522 291 290 290 290 290 290 290 290 330 330 330 391 522 291 290 290 290 290 290 290 290 362 355 355 355 392 365 365 365 392 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns 0.6v/ns 0.4v/ns dqsx single-ended slew rate derated (at v ref ) 291 290 290 290 290 290 290 290 330 330 330 391 522 t able 32 - s ingle -e nded dqs s lew r ate f ully d erated (dqs, dq at v ref ) at ddr2-533 dq slew rate v/ns 351 510 339 351 510 339 351 510 339 351 510 339 395 525 662 336 335 335 335 335 335 335 335 535 332 332 332 332 332 331 332 332 331 390 399 329 329 555 692 326 325 325 325 325 325 325 325 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns 0.6v/ns 0.4v/ns dqsx single-ended slew rate derated (at v ref ) 339 351 510 ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 52 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product t able 33 - s ingle -e nded dqs s lew r ate f ully d erated (dqs, dq at v ref ) at ddr2-400 dq slew rate v/ns 513 560 622 391 390 390 390 390 390 390 390 513 560 622 391 390 390 390 390 390 390 390 513 560 622 391 390 390 390 390 390 390 390 513 560 622 391 390 390 390 390 390 390 390 595 605 2.0v/ns 1.8v/ns 1.6v/ns 1.4v/ns 1.2v/ns 1.0v/ns 0.8v/ns 0.6v/ns 0.4v/ns dqsx single-ended slew rate derated (at v ref ) 391 390 390 390 390 390 390 390 513 560 622 ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh ' t ds ' t dh
v ref to ac region v ref to ac region setup slew rate rising signal setup slew rate falling signal tf tr v ref(dc) - v il(ac)max tf = v ih(ac)min - v ref(dc) tr = nominal slew rate v ss dqs# 1 dqs 1 v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min t dh t ds nominal slew rate t dh t ds note: 1. dqs, dqs# signals must be monotonic between v il(dc)max and v ih(dc)min . tf tr setup slew rate rising signal setup slew rate falling signal tangent line (v ref[dc] - v il[ac]max ) tf = tangent line (v ih[ac]min - v ref[dc] ) tr = t dh t ds t dh t ds v ss dqs# 1 dqs 1 v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min nominal line tangent line nominal line tangent line v ref to ac region v ref to ac region note: 1. dqs, dqs# signals must be monotonic between v il(dc)max and v ih(dc)min. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 53 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 21 - n ominal s lew r ate for t ds f igure 22 - t angent l ine for t ds
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 23 - n ominal s lew r ate for t dh hold slew rate falling signal hold slew rate rising signal v ref(dc) - v il(dc)max tr = v ih(dc)min - v ref(dc) tf = tr tf nominal slew rate dc to v ref region t ih t is t is v ss dqs# 1 dqs 1 v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min dc to v ref region nominal slew rate t ih note: 1. dqs, dqs# signals must be monotonic between v il(dc)max and v ih(dc)min. f igure 24 - t angent l ine for t dh tangent line dc to v ref region t ih t is t is v ss v ddq v ih(dc)min v ref(dc) v il(ac)max v il(dc)max v ih(ac)min dc to v ref region tangent line t ih dqs 1 dqs# 1 hold slew rate falling signal tf tr tangent line (v ih[dc]min - v ref[dc] ) tf = nominal line hold slew rate rising signal tangent line (v ref[dc] - v il[dc]max ) tr = nominal line note: 1. dqs, dqs# signals must be monotonic between v il(dc)max and v ih(dc)min.
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 55 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 25 - ac i nput t est s ignal w aveform c ommand /a ddress b alls t is a logic levels v ref levels t ih a t is a t ih a t is b t ih b t is b t ih b ck# ck v ddq v ih(ac)min v ih(dc)min v ref(dc) v il(dc)min v il(ac)min v ssq vswing (max) f igure 26 - ac i nput t est s ignal w aveform for d ata with dqs, dqs# (d ifferential ) dqs# dqs t ds a t dh a t ds a t dh a t ds b t dh b t ds b t dh b logic levels v ref levels v ref(dc) v il (dc)max v il (ac)max v ssq v ih(dc)min v ih(ac)min v ddq vswing (max)
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 56 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 27 - ac i nput t est s ignal w aveform for d ata with dqs (s ingle -e nded ) dqs v ref v ref(dc) v il(dc)max v il(ac)max v ssq v ih(dc)min v ih(ac)min v ddq vswing (max) logic levels v ref levels t ds a t dh a t ds a t dh a t ds b t dh b t ds b t dh b f igure 28 - ac i nput t est s ignal w aveform (d ifferential ) v tr vswing v cp v ddq v ssq v ix crossing point
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product p ackage o utline d imensions function cycle cycle cs\ ras\ cas\ we\ ba 1 -ba 0 a n -a 11 a 10 a 9 -a 10 notes load mode refresh self refresh (175< self refresh (;,7 precharge 6,1*/(%$1. precharge $//%$1.6 bank activate write write zlwk$87235(&+$5*( read read zlwk$87235(&+$5*( no operation device deselect power-down (175< power-down (;,7 1-3 1-3 1-3,6 1-3 1-3 1-3 1-3,9 1-3,9 t able 34: t ruth t able - ddr2 c ommands l l l ; h l l l h h h h h ; ; h ; h l l l ; h h h h l l l l h ; ; h ; h l h h ; h l l h l l h h h ; ; h ; h %$ ; ; ; %$ ; %$ %$ %$ %$ %$ ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; l h l h l h ; ; ; ; ; ; ; ; ; ; ; ; ; h h l h h h h h h h h ; ; l h l l l h l l l l l l l l l h h l h l cke prev current dgguhvvlqjghshqglqjrqghqvlw\dqgfrqiljxudwlrq %dqn$gguhvvhv%$ghwhuplqhvzklfkedqnlvwrehrshudwhg xsrq %$ gxulqj d /2$' 02'( frppdqg vhohfwv zklfk prgh uhjlvwhu lv surjudpphg 6(/)5()5(6+h[lwlvdv\qfkurqrxv %xuvw 5($'6 ru :5,7(6 dw %/ fdqqrw eh whuplqdwhg ru lqwh u - uxswhg 7kh 32:(5'2:1 prgh grhv qrw shuirup dq\ 5()5(6+ rshud - wlrqv 7kh gxudwlrq ri 32:(5'2:1 lv olplwhg e\ wkh 5()5(6+ uhtxluhphqwvrxwolqhglqwkh$&sdudphwulfvhfwlrq 127(6 $oo''56'5$0frppdqgvduhghilqhge\vwdwhvri&6?5$6? &$6? :(?dqg&.(dwwkhulvlqjhgjhriwkhforfn 7khvwdwhri2'7grhvqrwdiihfwwkhvwdwhvghvfulehglqwkl vwdeoh7kh 2'7ixqfwlrqlvqrwdydlodeohgxulqj6(/)5()5(6+6hh2'7wlpl qj irughwdlov v;wghqrwhvhlwkhudv+wrut/wexwdghilqhg/2*,&/hyho iruydolg, dd phdvxuhphqwv %$%$ iru ghqvlwlhv xs wr *e prgxohv %$ lqfoxghg iru edqn dgguhvvrq t *eprgxohv $qqlvwkhprvwvljqlilfdqwdgguhvvelwirudjlyhqghqvlw\ dqgfrqiljxud - wlrq 6rph odujhu dgguhvv elwv pd\ eh v'21u7 &$5(w gxulqj froxp q commands truth table h h h l h h h h h h h h h h l &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv &roxpq $gguhvv 52:$gguhvv 23&rgh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product current state any idle row active read $xwr3uhfkdujh 'lvdeohg write $xwr3uhfkdujh 'lvdeohg t able 35: t ruth t able - c urrent s tate b ank n - c ommand to b ank n ; h h h l h l l h h l h l l cs\ ras\ command/action notes deselect 123frqwlqxhsuhylrxvrshudwlrq no operation 123frqwlqxhsuhylrxvrshudwlrq activate vhohfwdqgdfwlydwh52: refresh load mode read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge ghdfwlydwh52:lqedqnruedqnv read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge vwduw35(&+$5*( read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge vwduw35(&+$5*( 1-6 1-6 1-6 1-6,9 1-6,9 1-6,9 127(6 7klvwdeohdssolhvzkhq&.(qzdv+,*+dqg&.(qlv+,*+d qgdiwhu t ;615kdvehhqphwliwkhsuhylrxvvwdwhzdv6(/)5()5(6+ 7klvwdeohlvedqnvshflilfh[fhswzkhuhqrwhgwkhfxuuhqw vwdwhlvirudvshflilfedqndqgwkhfrppdqgvvkrzqduhwkrvh doorzhgwrehlvvxhgwrwkdw edqnzkhqlqwkdwvwdwh([fhswlrqvduhfryhuhglqwkhehorz &xuuhqwvwdwhghilqlwlrqv 7khiroorzlqjvwdwhvpxvwqrwehlqwhuuxswhge\dfrppdqglv vxhgwrwkhvdphedqn,vvxh'(6(/(&7ru123frppdqgvrudoorzd eohfrppdqgvwr wkhrwkhuedqnrqdq\forfnhgjhrffxuulqjgxulqjwkhvhvwdwhv $oorzdeohfrppdqgvwrwkhrwkhuedqnduhghwhuplqhge\lwvfx uuhqwvwdwhdqgwklvwdeoh dqgdffruglqjwr7deoh cas\ we\ ; h h l l l l h l l h l l h ; h l l l h h l h h l h h l h l l l l l l l l l l l l l idle: row active read write 7khedqnkdvehhqsuhfkdujhg t 53kdvehhqphwdqgdq\5($'exuvwlvfrpsohwh $52:lqdedqnkdvehhqdfwlydwhgdqg t 5&'kdvehhqphw1rgdwdexuvwvdffhvvhvdqgqruhjlvwhudffh vvhvduhlqsurjuhvv $5($'exuvwkdvehhqlqlwldwhgzlwkdxwrsuhfkdujhglvdeohgdq gkdvqrw\hwwhuplqdwhg $:5,7(exuvwkdvehhqlqlwldwhgzlwkdxwrsuhfkdujhglvdeohgd qgkdvqrw\hwwhuplqdwhg precharge read w/ auto pre- charge enabled row activate write w/ auto pre- charge enabled 6wduwvzlwkuhjlvwudwlrqrid35(&+$5*(frppdqgdqghqgvzkhq t 53lvphwwkhedqnzlooehlqwkhlgohvwdwh 6wduwvzlwkuhjlvwudwlrqrid5($'frppdqgzlwk$xwr3uhfkdujh hqdeohgdqghqgvzkhq t 53kdvehhqphw$iwhu t 53lvphw wkhedqnzlooehlqwkhlgohvwdwh 6wduwvzlwkuhjlvwudwlrqrid:5,7(frppdqgzlwk$xwr3uhfkdujh hqdeohgdqghqgvzkhq t 5&'lvphwwkhedqnzlooehlqwkh 52:dfwlyhvwdwh 6wduwvzlwkuhjlvwudwlrqrid:5,7(frppdqgzlwk$xwr3uhfkdujh hqdeohgdqghqgvzkhq t 53kdvehhqphw$iwhu t 53lvphw wkhedqnzlooehlqwkhlgohvwdwh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 59 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product refresh accessing mode register precharge all 6wduwvzlwkuhjlvwudwlrqrid5()5(6+frppdqgdqghqgvzkhq t 5)&lvphwwkh''56'5$0zlooehlqwkhdooedqnvlgohvwdwh 6wduwvzlwkuhjlvwudwlrqridwkh/2$'02'(frppdqgdqghqgvzk hq t 05'kdvehhqphw$iwhu t 05'lvphwwkh''56'5$0zlooehlq wkhdooedqnvlgohvwdwh 6wduwvzlwkuhjlvwudwlrqrid35(&+$5*($//frppdqgdqghqgvzk hq t 53lvphw$iwhu t 53lvphwdooedqnvzlooehlqwkhlgohvwdwh 7khiroorzlqjvwdwhpxvwqrwehlqwhuuxswhge\dq\h[hfxwdeo hfrppdqg'(6(/(&7ru123frppdqgvpxvwehdssolhgrqhdfksrv lwlyhforfnhgjh gxulqjwkhvhvwdwhv $oovwdwhvdqgvhtxhqfhvqrwvkrzqduhloohjdoruuhvhuyhg 1rwedqnvshflilfuhtxluhvwkdwdooedqnvduhlgohdqgexuv wvduhqrwlqsurjuhvv 5($'vru:5,7(volvwhglqwkh&rppdqg$fwlrqfroxpqlqfoxgh 5($'vru:5,7(vzlwk$87235(&+$5*(hqdeohgdqg5($'vdqg:5,7( vzlwk $87235(&+$5*(glvdeohg 0d\rupd\qrwehedqnvshflilflipxowlsohedqnvduhwre hsuhfkdujhghdfkpxvwehlqdydolgvwdwhirusuhfkdujlqj $:5,7(frppdqgpd\ehdssolhgdiwhuwkhfrpsohwlrqriwkh 5($'exuvw ; h ; h h l l h h l l h h l l h h l l h h l l command/action notes deselect 123frqwlqxhsuhylrxvrshudwlrq no operation 123frqwlqxhsuhylrxvrshudwlrq $q\frppdqgrwkhuzlvhdoorzhgwredqnp activate vhohfwdqgdfwlydwh52: read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge activate vhohfwdqgdfwlydwh52: read vhohfw&2/801dqgvwduwqhz5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge activate vhohfwdqgdfwlydwh52: read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduwqhz:5,7(exuvw precharge activate vhohfwdqgdfwlydwh52: read vhohfw&2/801dqgvwduwqhz5($'exuvw write vhohfw&2/801dqgvwduw:5,7(exuvw precharge activate vhohfwdqgdfwlydwh52: read vhohfw&2/801dqgvwduw5($'exuvw write vhohfw&2/801dqgvwduwqhz:5,7(exuvw precharge 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 1-6 cas\ we\ ; h ; h l l h h l l h h l l h h l l h h l l h current state any idle row active, active, or precharge read $xwr3uhfkdujh 'lvdeohg write $xwr3uhfkdujh 'lvdeohg read $xwr3uhfkdujh write $xwr3uhfkdujh t able 36: t ruth t able - c urrent s tate b ank n - c ommand to b ank m cs\ ras\ ; h ; l h h l l h h l l h h l l h h l l h h l h l ; l l l l l l l l l l l l l l l l l l l l n otes c ontinued
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 60 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7klvwdeohdssolhvzkhq&.(qzdv+,*+dqg&.(qlv+,*+d qgdiwhu t ;615kdvehhqphwliwkhsuhylrxvvwdwhzdv6(/)5()5(6+ 7klvwdeohlvedqnvshflilfh[fhswzkhuhqrwhgwkhfxuuhqw vwdwhlvirudvshflilfedqndqgwkhfrppdqgvvkrzqduhwkrvh doorzhgwrehlvvxhgwrwkdw edqnzkhqlqwkdwvwdwh([fhswlrqvduhfryhuhglqwkhehorz &xuuhqwvwdwhghilqlwlrqv 7khplqlpxpghod\iurpd5($'ru:5,7(frppdqgzlwk$87 235(&+$5*(hqdeohgwrdfrppdqgwrdgliihuhqwedqnlvvxppdul ]hglq7deoh 5()5(6+dqg/2$'02'(frppdqgvpd\rqo\ehlvvxhgzkhqdooe dqnvduhlgoh 1rw8vhg $oovwdwhvdqgvhtxhqfhvqrwvkrzqduhloohjdoruuhvhuyhg 5($'vdqg:5,7(volvwhglqwkh&rppdqg$fwlrqfroxpqlqfoxgh 5($'vru:5,7(vzlwk$87235(&+$5*(hqdeohgdqg5($'vru:5,7( vzlwk $87235(&+$5*(glvdeohg $:5,7(frppdqgpd\ehdssolhgdiwhuwkhfrpsohwlrqriwkh5 ($'exuvw 5htxluhvdssursuldwh'0 7khqxpehuriforfnf\fohvuhtxluhgwrphhw t :75lvhlwkhuwzrru t :75 t &.zklfkhyhulvjuhdwhu idle: row active read write read zlwk auto precharge hqdeohg write zlwk auto precharge hqdeohg 7khedqnkdvehhqsuhfkdujhg t 53kdvehhqphwdqgdq\5($'exuvwlvfrpsohwh $52:lqdedqnkdvehhqdfwlydwhgdqg t 5&'kdvehhqphw1rgdwdexuvwvdffhvvhvdqgqruhjlvwhudffh vvhvduhlqsurjuhvv $5($'exuvwkdvehhqlqlwldwhgzlwkdxwrsuhfkdujhglvdeohgdq gkdvqrw\hwwhuplqdwhg $:5,7(exuvwkdvehhqlqlwldwhgzlwkdxwrsuhfkdujhglvdeohgd qgkdvqrw\hwwhuplqdwhg 7kh5($'zlwk$xwr3uhfkdujhhqdeohgru:5,7(zlwk$xwr3uhfkdu jhhqdeohgvwdwhvfdqeheurnhqlqwrwzrsduwvwkhdffhvv shulrgdqgwkh3uhfkdujhshulrg)ru5($'zlwk$xwr3uhfkdujh wkhsuhfkdujhshulrglvghilqhgdvliwkhvdphexuvwzdv h[hfxwhgzlwk$xwr3uhfkdujhglvdeohgdqgwkhqiroorzhgzlwkwk hhduolhvwsrvvleoh35(&+$5*(frppdqgwkdwvwloodffhvvhvdoo riwkhgdwdlqwkhexuvw)ru:5,7(zlwk$xwr3uhfkdujhwkhsu hfkdujhshulrgehjlqvzkhq t :5hqgvzlwk t :5phdvxuhg dvli$xwr3uhfkdujhzdvglvdeohg7khdffhvvshulrgvwduwvzlw kuhjlvwudwlrqriwkhfrppdqgdqghqgvzkhuhwkhsuhfkdujh period (or t 53ehjlqv7klvghylfhvxssruwvfrqfxuuhqw$xwr3uhfkdujhvxfk wkdwzkhqd5($'zlwk$xwr3uhfkdujh lvhqdeohgrud:5,7(zlwk$xwr3uhfkdujhlvhqdeohgdq\frppd qgwrrwkhuedqnvlvdoorzhgdvorqjdvwkdwfrppdqggrhv qrwlqwhuuxswwkh5($'ru:5,7(gdwdwudqvihudouhdg\lqsurfhv v,qhlwkhufdvhdoorwkhuuhodwhgolplwdwlrqvdsso\frqwhqw lrq ehwzhhq5($'gdwddqg:5,7(gdwdpxvwehdyrlghg from command (bank n) write with auto precharge read with auto precharge t able 37: m inimum d elay with a uto p recharge e nabled minimum delay (with concurrent auto pre- charge) units (cl - 1) + (bl/2) + t wtr (bl/2) 1 (bl/2) (bl/2) + 2 1 t ck t ck 5($'ru5($'zlwk$xwr3uhfkdujh :5,7(ru:5,7(zlwk$xwr3uhfkdujh 35(&+$5*(ru$&7,9$7( 5($'255($':,7+$xwr3uhfkdujh :5,7(ru:5,7(zlwk$xwr3uhfkdujh 35(&+$5*(ru$&7,9$7( to command (bank m) n otes
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 61 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh '(6(/(&7 ixqfwlrq &6? +,*+ suhyhqwv qhz frppdqgv iurp ehlqjh[hfxwhge\wkh''56'5$07kh''56'5$0lvhiihfwlyho\ ghvhohfwhg2shudwlrqvdouhdg\lqsurjuhvvduhqrwdiihfwhg'( 6(/(&7 lvdovruhihuuhgwrdv&200$1',1+,%,7 deselect 7kh35(&+$5*(frppdqglvxvhgwrghdfwlydwhwkhrshqurzlqds du - wlfxoduedqnruwkhrshqurzlqdooedqnv7khedqnvzlooeh dydlodeohiru vxevhtxhqwurzdfwlydwlrqdwdvshflilhgwlph t 53diwhuwkh35(&+$5*( frppdqglvlvvxhgh[fhswlqwkhfdvhrifrqfxuuhqw$87235(&+$ 5*( zkhuhd5($'ru:5,7(frppdqgwrdgliihuhqwedqnlvdoorzhgdv orqj dvlwgrhvqrwlqwhuuxswwkhgdwdwudqvihulqwkhfxuuhqwedqn dqggrhvqrw ylrodwhdq\rwkhuwlplqjsdudphwhuv$iwhudedqnkdvehhqsuhf kdujhglw lvlqwkhlgohvwdwhdqgpxvwehdfwlydwhgsulruwrdq\5($'dq gru:5,7( frppdqgv ehlqj lvvxhg wr d edqn lgoh vwdwh ru li wkh suhylrxv o\ rshq urzlvdouhdg\lqwkhsurfhvvrisuhfkdujlqj+rzhyhuwkh35(& +$5*( shulrg zloo eh ghwhuplqhg e\ wkh odvw 35(&+$5*( frppdqg lvvxhg wr wkhedqn precharge 7kh 12 23(5$7,21 123 frppdqg lv xvhg wr lqvwuxfw wkh vhohfwhg ''5ghylfhwrshuirupd123&6?lv/2:5$6?&$6?dqg:(?du h +,*+7klvsuhyhqwvxqzdqwhgfrppdqgviurpehlqjuhjlvwhuhggx ulqj lgohruzdlwvwdwhv2shudwlrqvdouhdg\lqsurjuhvvduhqrwdii hfwhg no operation (nop) 7kh:5,7(frppdqglvxvhgwrlqlwldwhdexuvw:5,7(dffhvvwrd qdfwlyhurz7khydoxhrqwkhedqnvhohfwlqsxwvvhohfwvwkhe dqndqgwkhdgguhvvrqwkh dgguhvvlqsxwv$ 0 $ i zkhuh$ i lvwkhprvwvljqlilfdqwfroxpqdgguhvvelwirudjlyhqfrqiljx udwlrqvhohfwwkhvwduwlqjfroxpqorfdwlrq7khydoxhrqlqsxw $ 10 ghwhuplqhvzkhwkhuruqrw$87235(&+$5*(lvxvhg,i$87235(&+ $5*(lvvhohfwhgwkhurzehlqjdffhvvhgzlooehsuhfkdujhgdw wkhhqgri:5,7( exuvwli$87235(&+$5*(lvqrwvhohfwhgwkhurzzloouhpdlqr shqiruvxevhtxhqwdffhvvhv /2*,&uv''5l02'vdovrvxssruwwkh$/ihdwxuhzklfkdoorzv: 5,7(ru5($'frppdqgvwrehlvvxhgsulruwr t 5&'0,1e\ghod\lqjwkhdfwxdouhjlvwud - wlrqriwkh5($':5,7(frppdqgwrwkhlqwhuqdoghylfhe\$/for fnf\fohv ,qsxwgdwddsshdulqjrqwkh'4uvlvzulwwhqwrwkhphpru\duud\ vxemhfwwrwkh'0lqsxworjlfohyhodsshdulqjfrlqflghqwzlwk wkhgdwd,idjlyhq'0vljqdolv uhjlvwhuhg/2:wkhfruuhvsrqglqjgdwdzlooehzulwwhqwrphpru \liwkh'0vljqdolvuhjlvwhuhg+,*+wkhfruuhvsrqglqjgdwd lqsxwvzlooeh ljqruhgdqgd:5,7(zlooqrwehh[hfxwhgwrwkdwe\whfroxpqo rfdwlrq write 7khprghuhjlvwhuvduhordghgyldedqndgguhvvdqgdgguhvvlqsx wv7kh edqndgguhvvedoovghwhuplqhzklfkprghuhjlvwhuzlooehsurjud pphg 7kh/0frppdqgfdqrqo\ehlvvxhgzkhqdooedqnvduhlgohdqg dvxe - vhtxhqwh[hfxwdeohfrppdqgfdqqrwehlvvxhgxqwlo t 05'lvphw load mode (lm) 7kh$&7,9$7(frppdqglvxvhgwrrshqrudfwlydwhdurzlqds duwlfxodu edqnirudvxevhtxhqwdffhvv7khydoxhrqwkhedqndgguhvvlqs xwvghwhu - plqhvwkhedqndqgwkhdgguhvvlqsxwvvhohfwwkhurz7klvurz uhpdlqv dfwlyhrurshqirudffhvvhvxqwlodsuhfkdujhfrppdqglvlvvx hgwrwkdw edqn $ suhfkdujh frppdqg pxvw eh lvvxhg ehiruh rshqlqj d glii huhqw urzlqwkhvdphedqn activate 7kh5($'frppdqglvxvhgwrlqlwldwhdexuvw5($'dffhvvwrdq dfwlyh urz 7kh ydoxh rq wkh edqn dgguhvv lqsxwv ghwhuplqh wkh edqn d qg wkh dgguhvv surylghg rq wkh dgguhvv lqsxwv $ 0 $ i zkhuh $ i lv wkh prvw vlj - qlilfdqw froxpq dgguhvv elw iru d jlyhq frqiljxudwlrq vhohfwv wkh vwduwlqj froxpqorfdwlrq7khydoxhrqlqsxw$ghwhuplqhvzkhwkhuruq rw$872 35(&+$5*(lvxvhg,i$87235(&+$5*(lvqrwvhohfwhgwkhurzz loo uhpdlqrshqiruvxevhtxhqwdffhvvhv/2*,&uv''5l02'vdovrv xs - sruwwkh$/ihdwxuhzklfkdoorzvd5($'ru:5,7(frppdqgwreh lvvxhgsulruwr t 5&'0,1e\ghod\lqjwkhdfwxdouhjlvwudwlrqriwkh5($' :5,7(frppdqgwrwkhlqwhuqdoghylfhe\$/forfnf\fohv read 5()5(6+ lvvxhg gxulqj qrupdo rshudwlrq ri /2*,&uv ''5 l02' dqg lvdqdorjrxvw&$6?ehiruh5$6?&%55()5(6+$ooedqnvpxvwe hlq wkh lgoh prgh sulru wr lvvxlqj d 5()5(6+ frppdqg 7klv frppdqg lv qrqshuvlvwhqwvrlwpxvwehlvvxhghdfkwlphd5()5(6+frppdq glv uhtxluhg 7kh dgguhvvlqj lv jhqhudwhg e\ wkh lqwhuqdo uhiuhvk f rqwuroohu 7klvpdnhvwkhdgguhvvelwvdv'rquw&duhwgxulqjd5()5(6+frp pdqg refresh 7kh 6(/) 5()5(6+ frppdqg fdq eh xvhg wr uhwdlq gdwd lq /2*,&uv ''5l02'hyhqliwkhuhvwriwkhv\vwhplvsrzhuhggrzq:khq lqwkh 6(/) 5()5(6+ prgh wkh ''5 ghylfh uhwdlqv gdwd zlwkrxw h[whuqd o forfnlqj$oosrzhuvxsso\lqsxwvlqfoxglqj9 ref pxvwehpdlqwdlqhgdw ydolgohyhovxsrqhqwu\h[lwdqggxulqj6(/)5()5(6+rshudwlrq self refresh
7kh 02'( 5(*,67(5 lv xvhg wr ghilqh wkh vshflilf prgh ri rshudw lrq ri /2*,&uv ''5 l02' 7klv ghilqlwlrq lqfoxghv wkh vhohfwlrq ri d exuvw ohqjwk exuvw w\sh &$6 odwhqf\ rshudwlqj prgh '// 5(6(7 :5, 7( uhfryhu\dqg32:(5'2:1prghdvvkrzqlq)ljxuh&rqwhqwv ri wkh 02'( 5(*,67(5 fdq eh dowhuhg e\ uhh[hfxwlqj wkh /2$' 02'( /0 frppdqg ,i wkh xvhu fkrrvhv wr prgli\ rqo\ d vxevhw ri wk h 05 yduldeohvdooyduldeohvpxvwehsurjudpphgzkhqwkhfrppdqglv lvvxhg 7kh 05 lv surjudpphg yld wkh /0 frppdqg dqg zloo uhwdlq wkh vwr uhg lqirupdwlrq xqwlo lw lv surjudpphg djdlq ru xqwlo wkh ghylfh or vhv srzhu h[fhswiruelw0 zklfklv6(/)&/($5,1*5hsurjudpplqjwkhprgh uhjlvwhuzlooqrwdowhuwkhfrqwhqwvriwkhphpru\duud\suryl ghglwlvshu - iruphgfruuhfwo\7kh/0frppdqgfdqrqo\ehlvvxhgruuhlvvx hgzkhq dooedqnvduhlqwkh35(&+$5*('vwdwhlgohvwdwhdqgqrexuvw vduhlq surjuhvv7kh0hpru\frqwuroohupxvwzdlwwkhvshflilhgwlph t 05'ehiruh lqlwldwlqjdq\vxevhtxhqwrshudwlrqvvxfkdvdq$&7,9$7(frppdq g9lr - odwlqjhlwkhuriwkhvhuhtxluhphqwvzloouhvxowlqdqxqvshflil hgrshudwlrq mode register (mr) burst length cas# bt pd a9 a7 a6 a5 a4 a3 a8 a2 a1 a0 mode register (mx) address bus 9 76543 8 210 a10 a12 a11 ba0 ba1 10 11 12 n 0 0 14 burst length reserved reserved 4 8 reserved reserved reserved reserved m0 0 1 0 1 0 1 0 1 m1 0 0 1 1 0 0 1 1 m2 0 0 0 0 1 1 1 1 0 1 burst type sequential interleaved m3 cas latency (cl) reserved reserved reserved 3 4 5 6 7 m4 0 1 0 1 0 1 0 1 m5 0 0 1 1 0 0 1 1 m6 0 0 0 0 1 1 1 1 0 1 mode normal test m7 15 dll tm 0 1 dll reset no yes m8 write recovery reserved 2 3 4 5 6 7 8 m9 0 1 0 1 0 1 0 1 m10 0 0 1 1 0 0 1 1 m11 0 0 0 0 1 1 1 1 wr an 2 mr m14 0 1 0 1 mode register definition mode register (mr) extended mode register (emr) extended mode register (emr2) extended mode register (emr3) m15 0 0 1 1 m12 0 1 pd mode fast exit (normal) slow exit (low power) latency 16 ba2 1 %xuvwohqjwklvghilqhge\elwv0 0 -m 2 dvvkrzqlq)ljxuh5($'dqg :5,7( dffhvvhv wr wkh ''5 ghylfh duh exuvwrulhqwhg zlwk %856 7 /(1*7+ehlqjsurjudppdeohwrhlwkhuirxuruhljkw7kh%8567/( 1*7+ ghwhuplqhvwkhpd[lpxpqxpehurifroxpqorfdwlrqvwkdwfdqehd ffhvvhg irudjlyhq5($'ru:5,7(frppdqg :khqd5($'ru:5,7(frppdqglvlvvxhgdeorfnrifroxpqvhtxd owr wkh%8567/(1*7+lvhiihfwlyho\vhohfwhg$oodffhvvhviruwkdw %8567 wdnhsodfhzlwklqwklveorfnphdqlqjwkdwwkhexuvwzloozuds zlwklqwkheorfn li d erxqgdu\ lv uhdfkhg 7kh eorfn lv xqltxho\ vhohfwhg e\ $ 0 $ i zkhq %/ dqg e\ $ 3 $l zkhq %/ zkhuh $l lv wkh prvw vljqlilfdqw froxpq dgguhvv elw iru d jlyhq frqiljxudwlrq 7kh uhpdlqlqj ohdvw v ljqlilfdqw dgguhvvelwvlvduhxvhgwrvhohfwwkhvwduwlqjorfdwlrqzl wklqwkheorfn 7khsurjudpphgexuvwohqjwkdssolhvwrerwk5($'dqg:5,7(exuv wv burst length f igure 29 - mr d efinitions 1rwhv0%$lvrqo\dssolfdeohi rughqvlwlhv?*euhvhuyhgiruixwxuhxvhdqgpxvwehsurjud pphgwr3 0rghelwv0qzlwkfruuhvsrqglqjdgguhvvedoov$qjuhdwhu wkdq0$duhuhvhuyhgiruixwxuhxvhdqgpxvw ehsurjudpphgwr3 1rwdooolvwhg:5dqg&/rswlrqvduhvxssruwhglqdq\lqg lylgxdovshhgjudgh logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 62 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product
burst length address (a[2,1,0]) type = sequential type = interleav ed 0,1,2,3 1,0,3,2 2,3,0,1 3,2,1,0 t able 38: b urst d efinition order of accesses within a burst 0,1,2,3 1,2,3,0 2,3,0,1 3,0,1,2 0 0 0 1 1 0 1 1 0 0 0 0 0 1 0 1 0 0 1 1 100 101 110 111 starting column logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 63 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product $ffhvvhvzlwklqdjlyhqexuvwpd\ehsurjudpphgwrehhlwkhuvh txhqwldorulqwhuohdyhg7kh%85677<3(lvvhohfwhgyldelw0 3 dvvkrzqlq)ljxuh7kh rughulqjridffhvvhvzlwklqdexuvwlvghwhuplqhge\wkh%8567 /(1*7+%85677<3(dqgwkhvwduwlqjfroxpqdgguhvvdvvkrzql q7deoh/2*,&uv ddr2 imod burst type 7khqrupdorshudwlqjprghlvvhohfwhge\lvvxlqjdfrppdqgzlwk elw0 vhwwrvwdqgdoorwkhuelwvvhwwrwkhghvluhgydoxhvdvvkr zqlq)ljxuh :khqelw0 lvvwqrrwkhuelwvriwkh02'(5(*,67(5duhsurjudpphg 3urjudpplqjelw0 wrvwsodfhvwkh''5l02'lqwrdwhvwprghwkdwlv rqo\ xvhg e\ wkh pdqxidfwxuhu dqg vkrxog qrw eh xvhg 1r rshudw lrq ru ixqfwlrqdolw\lvjxdudqwhhgli0 elwlvvw operating mode :5,7( 5(&29(5< :5 wlph lv ghilqhg e\ elwv 0 9 -m 11 dv vkrzq lq )ljxuh7kh:5uhjlvwhulvxv hge\wkh''5l02'gxulqj:5,7 (zlwk $87235(&+$5*(rshudwlrq'xulqj:5,7(zlwk$87235(&+$5*( rshudwlrqwkh''5l02'ghod\vwkhlqwhuqdo$87235(&+$5*(rsh ud - wlrqe\:5forfnvsurjudpphglqelwv0 9 -m 11 iurpwkhodvwgdwdexuvw :5 ydoxhv ri ru forfnv pd\ eh xvhg iru surju dpplqj elwv 0 9 -m 11 7kh xvhu lv uhtxluhg wr surjudp wkh ydoxh ri :5 zklfk lv fdofxodwhge\glylglqj t :5lqqdqrvhfrqgve\ t &.lqqdqrvhfrqgvdqg urxqglqjxsdqrqlqwhjhuydoxhwrwkhqh[wlqwhjhu:5f\fohv t :5qv t &/qv5hvhuyhgvwdwhvvkrxogqrwehxvhgdvdqxqnqrzqrshudw lrqru lqfrpsdwlelolw\zlwkixwxuhyhuvlrqvpd\uhvxow write recovery '//5(6(7lvghilqhge\elw0 dvvkrzqlq)ljxuh3urjudpplqjelw m wrvwzloodfwlydwhwkh'//5(6(7ixqfwlrq%lw0lv6(/)&/ ($5,1* phdqlqjlwuhwxuqvedfnwrdydoxhrivwdiwhuwkh'//5(6(7i xqfwlrqkdv ehhqlvvxhg $q\wlph wkh '// 5(6(7 ixqfwlrq lv xvhg forfn f\fohv pxvw r ffxu ehiruhd5($'frppdqgfdqehlvvxhgwrdoorzwlphiruwkhlqwhu qdoforfn wrehv\qfkurql]hgzlwkwkhh[whuqdoforfn)dlolqjwrzdlwiru wkhuhtxluhg forfnf\fohvzklfkv\qfkurql]hvwkh'//pd\uhvxowlqdylrodw lrqriwkh t $&ru t '46&.sdudphwhuv dll reset
do n + 3 do n + 2 do n + 1 ck ck# command dq dqs, dqs# cl = 3 (al = 0) read t0 t1 t2 dont care transitioning data nop nop nop do n t3 t4 t5 nop nop t6 nop do n + 3 do n + 2 do n + 1 ck ck# command dq dqs, dqs# cl = 4 (al = 0) read t0 t1 t2 nop nop nop do n t3 t4 t5 nop nop t6 nop notes: 1. bl = 4. 2. posted cas# additive latency (al) = 0. 3. shown with nominal t ac, t dqsck, and t dqsq. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 30 - cl $fwlyh32:(5'2:13'prghlvghilqhge\elw0 12 dvvkrzqlq)ljxuh 3'prghhqdeohvwkhxvhuwrghwhuplqhwkhdfwlyhsrzhugrz qprgh zklfk ghwhuplqhv shuirupdqfh yhuvxv srzhu vdylqjv 3' prgh elw 0 12 grhvqrwdsso\wr35(&+$5*(3'prgh :khqelw0 12 vwdqgdugdfwlyh3'prghruvidvwh[lwwdfwlyh3'prgh lvhqdeohg7khw;$5'sdudphwhulvxvhgiruidvwh[lwwlplqj7 kh'//lv h[shfwhgwrehhqdeohgdqguxqqlqjgxulqjwklvprgh :khqelw0 12 dorzhusrzhudfwlyh3'prghruvvorzh[lwwdfwlyh3' prghlvhqdeohg7kh t ;$5'6sdudphwhulvxvhgiruwkhvorzh[lwdfwlyh 3' h[lw wlplqj 7kh '// fdq eh hqdeohg exw viur]hqw gxulqj $&7, 9( 3' prgh ehfdxvh wkh h[lwwr5($' frppdqg wlplqj lv uhod[hg 7kh sr zhu gliihuhqfhh[shfwhgehwzhhq, dd 3qrupdodqg, dd 3orzsrzhuprghlv ghilqhglqwkh''5, dd 6shflilfdwlrqvdqg&rqglwlrqvwdeoh 7kh&$6/$7(1&<&/lvghilqhge\elwv0 -m 6 dvvkrzqlq)ljxuh &/lvwkhghod\lqforfnf\fohvehwzhhqwkhuhjlvwudwlrqrid 5($'frp - pdqgdqgwkhdydlodelolw\riwkhiluvwelwrirxwsxwgdwd7kh &/fdqehvhw wrruforfnvghshqglqjrqwkhvshhgjudghrswlrq riwkhl02' ehlqjxvhg 7kh /2*,& ''5 l02' grhv qrw vxssruw dq\ kdoiforfn odwhqflhv 5hvhuyhgvwdwhvvkrxogqrwehxvhgdvdqxqnqrzqvwdwhrurshud wlrqru lqfrpsdwlelolw\zlwkixwxuhuhylvlrqvpd\uhvxow 7kh ''5 l02' dovr vxssruwv d ihdwxuh fdoohg srvwhg &$6 dgglwly h odwhqf\ $/ 7klv ihdwxuh doorzv wkh 5($' frppdqg wr eh lvvxhg sulru to t 5&'0,1e\ghod\lqjwkhlqwhuqdofrppdqgwrwkh''5l02'e\$ / forfnv7kh$/ihdwxuhlvghvfulehglqixuwkhughwdlolqwkh3r vwhg&$6$ggl - wlyh/dwhqf\ghvfulswlrq ([dpsohvri&/ dqg&/ duhvkrzqlq)ljxuherwkdvvxph$ / ,id5($'frppdqglvuhjlvwhuhgdwforfnhgjhqdqgwkh&/lv pforfnv wkhgdwdzlooehdydlodeohqrplqdoo\frlqflghqwzlwkforfnhgjh qpwklv dvvxphv$/ power-down mode cas latency (cl)
dll p osted cas# r tt o ut a 9 a 7 a 6 a 5 a 4 a 3 a 8 a 2 a 1 a 0 extended mode register (ex) address bus 976543 8210 a 10 a 12 b a 0 b a 1 10 11 12 n 0 14 e1 0 1 output drive strength fu ll redu c ed posted cas# additive latency (al) 3 0 1 2 3 4 5 6 reser v ed e3 0 1 0 1 0 1 0 1 e4 0 0 1 1 0 0 1 1 e5 0 0 0 0 1 1 1 1 0 1 dll enable enab l e (norma l ) disab l e (test / debug) e0 15 e11 0 1 rdqs enable no y es o cd p rogram a n 2 o ds r tt dqs# e10 0 1 dqs# enable enab l e disab l e rdqs r tt (nominal) r tt disab l ed 75 150 50 e2 0 1 0 1 e6 0 0 1 1 0 1 o utputs enab l ed disab l ed e12 0 1 0 1 mode register set m ode register ( m r) extended mode register (e m r) extended mode register (e m r 2 ) extended mode register (e m r 3 ) e15 0 0 1 1 e14 m rs b a 2 1 16 0 ocd operation 4 o cd exit reser v ed reser v ed reser v ed enab l e o cd defau l ts e7 0 1 0 0 1 e8 0 0 1 0 1 e9 0 0 0 1 1 notes: 1 . e 16 ( b a 2 ) is on ly app l i c ab l e for densities 8 1g b, reser v ed for future use, and must be programmed to 0 . 2 . m ode bits (en) wit h c orresponding address ba ll s (a n ) greater t h an e 12 (a 12 ) are reser v ed for future use and must be programmed to 0 . 3 . not a ll l isted al options are supported in an y indi v idua l speed grade. 4 .as detai l ed in t h e initia l i z ation (page 82 ) se c tion notes, during initia l i z ation of t h e o cd operation, a ll t h ree bits must be set to 1 for t h e o cd defau l t state, t h en set to 0 before initia l i z ation is fi nis h ed. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 65 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh(;7(1'('02'(5(*,67(5frqwurovixqfwlrqveh\rqgwkrvhdydl odeohdqgfrqwuroohgyldwkh02'(5(*,67(505wkhvhdgglwlrq doixqfwlrqvduh '//hqdeohglvdeoh287387'5,9(vwuhqjwk2q'lh7huplqdwlrq 2'73rvwhg$/2ii&kls'ulyhu,pshgdqfhfdoleudwlrq2&'' 46?hqdeohglvdeoh dqg2xwsxwglvdeohhqdeoh7khvhixqfwlrqduhfrqwuroohgyldwk helwvvkrzqlq)ljxuh7kh(05lvsurjudpphgyldwkh/0frp pdqgdqgzloouhwdlqwkh vwruhglqirupdwlrqxqwlolwlvsurjudpphgdjdlqruwkhl02'orv hvsrzhu5hsurjudpplqjwkh(05zlooqrwdowhuwkhfrqwhqwvri wkhphpru\duud\surylghg lwlvshuiruphgfruuhfwo\ 7kh(05pxvwehordghgzkhqdooedqnvduhlgohdqgqrexuvwvdu hlqsurjuhvvdqgwkhfrqwuroohupxvwzdlwwkhvshflilhgwlph t 05'ehiruhlqlwldwlqjdq\ vxevhtxhqwrshudwlrqv9lrodwlqjhlwkhuriwkhvhuhtxluhphqwvf rxoguhvxowlqdqxqvshflilhgrshudwlrq extended mode register (emr) f igure 31 - emr d efinitions
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 66 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh'//pd\eh(1$%/('ru',6$%/('e\surjudpplqjelw( 0 gxulqj wkh/0frppdqgdvvkrzqlq)ljxuh7khvhvshflilfdwlrqvduh dssolfd - eohzkhqwkh'//lvhqdeohgiruqrupdorshudwlrq'//(1$%/(lv uhtxluhg gxulqj 32:(583 lqlwldol]dwlrq dqg xsrq uhwxuqlqj wr qrupdo rsh udwlrq diwhukdylqjglvdeohgwkh'//iruwkhsxusrvhrighexjjlqjruh ydoxdwlrq (qdeolqj wkh '// vkrxog dozd\v eh iroorzhg e\ uhvhwwlqj wkh '/ / xvlqj wkh/0frppdqg 7kh '// lv dxwrpdwlfdoo\ ',6$%/(' zkhq hqwhulqj 6(/) 5()5(6+ rshudwlrq dqg lv dxwrpdwlfdoo\ uhhqdeohg dqg uhvhw xsrq h[lw r i 6(/) 5()5(6+rshudwlrqv $q\wlphwkh'//lv(1$%/('dqgvxevhtxhqwo\uhvhwforfn f\fohv pxvwrffxuehiruhd5($'frppdqgfdqehlvvxhgwrdoorzwlphir uwkh lqwhuqdo forfn wr v\qfkurql]h zlwk wkh h[whuqdo forfn )dlolqj wr zdlw iru v\qfkurql]dwlrq wr rffxu pd\ uhvxow lq d ylrodwlrq ri wkh t $& ru t '46&. sdudphwhuv $q\wlph wkh '// lv ',6$%/(' dqg wkh l02' lv rshudwhg ehorz 0+ ] dq\ $872 5()5(6+ frppdqg vkrxog eh iroorzhg e\ d 35(&+$5*( $//frppdqg dll enabled/disabled 2'7 hiihfwlyh uhvlvwdqfh 5 77 ()) lv ghilqhg e\ elwv ( 2 dqg( 6 ri wkh (05 dv vkrzq lq )ljxuh 7kh 2'7 ihdwxuh lv ghvljqhg wr lpsu ryh vljqdolqwhjulw\riwkhphpru\fkdqqhoe\doorzlqjwkh''5php ru\frq - wuroohuwrlqghshqghqwo\wxuqrqrurii2'7irudq\rudooghyl fhv5 77 hiihf - wlyhuhvlvwdqfhydoxhvri : : dqg : duhvhohfwdeohdqgdsso\wr hdfk'4'46'46?8'468'46?/'46/'46?8'0/'0vljqdov %lwv ( 6 ,e 2 ghwhuplqh zkdw 2'7 uhvlvwdqfh lv hqdeohg e\ wxuqlqj rqrii vvzvzruvzw 7kh2'7hiihfwlyhuhvlvwdqfhydoxhlvvhohfwhge\hqdeolqjvzlw fkvvzw zklfk hqdeohv doo 5 ydoxhv wkdw duh : hdfk hqdeolqj dq hiihfwlyh uhvlvwdqfhri : (r 77 >())@ 56lploduo\livvzwlvhqdeohgdoo5 ydoxhv wkdw duh : hdfk hqdeoh dq hiihfwlyh 2'7 uhvlvwdqfh ri : hdfkhqdeolqjdqhiihfwlyhuhvlvwdqfhri : (r 77 >())@ 56lpl - oduo\ li vvzw lv hqdeohg doo 5 ydoxhv wkdw duh : hdfk hqdeoh dqg hiihfwlyh2'7uhvlvwdqfhri : 5hvhuyhgvwdwhvvkrxogqrwehxvhgdvdq xqnqrzqrshudwlrqrulqfrpsdwlelolw\zlwkixwxuhyhuvlrqvpd\u hvxow 7kh2'7frqwuroedoolvxvhgwrghwhuplqhzkhq5 77 ())lvwxuqhgrqdqg riidvvxplqj2'7kdvehhqhqdeohgyldelwv(dqg(riwkh(0 57kh 2'7 ihdwxuh dqg 2'7 lqsxw edoo duh rqo\ xvhg gxulqj $&7,9( $&7 ,9( 32:(5'2:1 erwk idvwh[lw dqg vorzh[lw prghv dqg 35(&+$5*( 32:(5'2:1prghvrirshudwlrq 2'7 pxvw eh wxuqhg rii sulru wr hqwhulqj 6(/) 5()5(6+ prgh 'xu lqj 32:(583dqg,1,7,$/,=$7,21riwkh''5l02'2'7vkrxogehglv - deohgxqwlowkh(05frppdqglvlvvxhg7klvzloohqdeohwkh2'7 ihdwxuh dwzklfksrlqwwkh2'7edoozlooghwhuplqhwkh5 77 ())ydoxh$q\wlphwkh (05hqdeohvwkh2'7ixqfwlrq2'7pd\qrwehgulyhq+,*+xqwlo hljkw forfnvdiwhuwkh(05kdvehhqhqdeohg on-die-termination (odt) 7kh'46?edoolv(1$%/('e\elw( 10 '46?lvwkhfrpsohphqwriwkh gliihuhqwldogdwdvwurehsdlu:khq',6$%/(''46?vkrxogeho hiwiordw - lqjkrzhyhulwpd\ehwlhgwrjurxqgyldd : to 10k : uhvlvwru dqs\ enable/disable 7kh287387'5,9(675(1*7+lvghilqhge\elw( 1 dvvkrzqlq)ljxuh 7kh 1250$/ '5,9( 675(1*7+ iru doo rxwsxwv lv vshflilhg wr e h 667/b 3urjudpplqj elw ( 1 vhohfwv qrupdo ixoo vwuhqjwk '5,9( 675(1*7+ iru doo rxwsxwv 6hohfwlqj d 5('8&(' '5,9( 675(1*7+ rswlrq( 1 zloouhgxfhdoorxwsxwvwrdssur[lpdwho\wrshufhqwr i wkh667/'5,9(675(1*7+7klvrswlrqlvlqwhqghgiruwkhvxs sruwri oljkwhuordgdqgrusrlqwwrsrlqwhqylurqphqwv output drive strength 7kh287387(1$%/(',6$%/(ixqfwlrqlvghilqhge\elw( 12 dvvkrzq lq)ljxuh:khq(1$%/('( 12 doorxwsxwv'4'46'46?ixqf - wlrqqrupdoo\:khq',6$%/('( 12 doorxwsxwvduh',6$%/('wkxv uhprylqjrxwsxwexiihufxuuhqw 7khrxwsxw',6$%/(ihdwxuhlvl qwhqghgwr ehxvhggxulqj, dd fkdudfwhul]dwlrqri5($'fxuuhqw output enable/disable 7kh2))&+,3'5,9(52&'ixqfwlrqlvdqrswlrqdo''5-('(&ih d - wxuhzklfklvqrwvxssruwhge\/2*,&'hylfhvl02'ghylfhwkhuh iruhwklv ixqfwlrqpxvwehvhwdqgpdlqwdlqhglqwkhghidxowvwdwh(qde olqjwklvixqf - wlrqrxwvlghriwkhghidxowvhwwlqjvzloodowhuwkh,2gulyhf kdudfwhulvwlfvdqg wkhwlplqjdqgrxwsxw,2vshflilfdwlrqvzlooqrorqjhuehydol g off-chip driver (ocd) impedance calibration 3267(' &$6 $'',7,9( $/ lv vxssruwhg wr pdnh wkh frppdqg dqg gdwdexvhiilflhqwiruvxvwdlqdeohedqgzlgwkvlqwkh''5l02' %lwv( 3 -e 5 ghilqh wkh ydoxh ri $/ %lwv ( 3 -e 5 doorz wkh xvhu wr surjudp wkh ''5 l02'zlwkdq$/riruforfnv5hvhuyhgvwdw hvvkrxogqrw eh xvhg dv dq xqnqrzq rshudwlrq ru lqfrpsdwlelolw\ zlwk ixwxuh uhylvlrqv pd\uhvxow ,qwklvrshudwlrqwkh''5l02'doorzvd5($'ru:5,7(frppdqg wr ehlvvxhgsulruwr t 5&'0,1zlwkwkhuhtxluhphqwwkdw$/ d t 5&'0,1 $ w\slfdo dssolfdwlrq xvlqj wklv ihdwxuh zrxog vhw $/ t 5&' 0,1 y [ t &.7kh5($'ru:5,7(frppdqglvkhogiruwkhwlphriwkh$/eh iruhlw lvlvvxhglqwhuqdoo\wrwkh''5l02'ghylfh5/lvfrqwuroohg e\wkhvxp ri$/dqg&/5/ $/&/:5,7(odwhqf\:/lvhtxdowr5/p lqxvrq forfn:/ $/&/y[ t &. posted cas additive latency (al)
do n + 3 do n + 2 do n + 1 ck ck# command dq dqs, dqs# al = 2 active n t0 t1 t2 dont care transitioning data read n nop nop do n t3 t4 t5 nop t6 nop t7 t8 nop nop cl = 3 rl = 5 t rcd (min) nop ck ck# command dq dqs, dqs# active n t0 t1 t2 dont care transitioning data nop nop t3 t4 t5 nop t6 nop di n + 3 di n + 2 di n + 1 wl = al + cl - 1 = 4 t7 nop di n t rcd (min) nop al = 2 cl - 1 = 2 write n notes: 1. bl = 4 2. shown with nominal t $& t '46&.dqg t dqsq. 3. rl = al + cl = 5. notes: 1. bl = 4 2. cl = 3. 3. wl = al + cl - 1 = 4 logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 32 - read l atency f igure 33 - write l atency
a 9 a 7 a 6 a 5 a 4 a 3 a 8 a 2 a 1 a 0 extended mode register (ex) address bus 976543 8210 a 10 a 12 a 11 b a 0 b a 1 10 11 12 n 0 14 15 a n 2 e14 0 1 0 1 mode register set m ode register ( m r) extended mode register (e m r) extended mode register (e m r 2 ) extended mode register (e m r 3 ) e15 0 0 1 1 m rs 0 00 00 sr t0 00 00 0 0 b a 2 1 16 0 e7 0 1 srt enable 1x refres h rate ( 0 c to 85 c) 2x refres h rate ( >85 c) notes: 1 . e 16 ( b a 2 ) is on ly app l i c ab l e for densities 1g b, reser v ed for future use, and must be programmed to 0 . 2 . m ode bits (en) wit h c orresponding address ba ll s (a n ) greater t h an e 12 (a 12 ) are reser v ed for future use and must be programmed to 0 . logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh (;7(1'(' 02'( 5(*,67(5 (05 frqwurov ixqfwlrqv eh\rqg w krvh frqwuroohg e\ wkh 02'( 5(*,67(5 &xuuhqwo\ doo elwv lq wkh (05 duh uhvhuyhgh[fhswiru( zklfklvxvhglqfrpphufldorukljkwhpshudwxuhrshudwlrqvd vvkrzqlq)ljxuh7kh(05lvsurjudpphgyldwkh/0frppdqg dqgzloouhwdlqwkhvwruhglqirupdwlrqxqwlolwlvsurjudpphgd jdlqruxqwlowkhl02'lvvxemhfwhgwrdorvvrisrzhufrqglwlr q5hsurjudpplqjwkh(05zlooqrw dowhuwkhfrqwhqwvriwkhduud\surylghglwkdvehhqshuiruphg fruuhfwo\ bit e $ pxvwehsurjudpphgdvvwwrsurylghdidvwhu5()5(6+5$7(rq ,7(7ru0ghylfhvli7 c lvrugrhvh[fhhg?& (05pxvwehordghgzkhqdooedqnvdu hlgohdqgqrexuvwvduhl qsurjuhvvdqgwkhfrqwuroohupxvwzdlwwkhvshflilhgwlph t 05'ehiruhlqlwldwlqjdq\vxevh - txhqwrshudwlrq9lrodwlqjhlwkhuriwkhvhuhtxluhphqwvfrxogu hvxowlqdqxqvshflilhgl02'rshudwlrq extended mode register 2 (emr2) f igure 34 - emr2 d efinitions
e14 0 1 0 1 mode register set mode register (mr) extended mode register (emr) extended mode register (emr2) extended mode register (emr3) e15 0 0 1 1 a9 a7 a6 a5 a4 a3 a8 a2 a1 a0 extended mode register (ex) address bus 976543 8210 a10 a12 a11 ba0 ba1 10 11 12 n 0 14 15 an 2 mrs 0 0 0 0 0 0 0 0 0 0 0 0 0 ba2 1 16 0 notes: 1. e16 (ba2) is only applicable for densities 1gb, reserved for future use, and must be programmed to 0. 2. mode bits (en) with corresponding address balls (an ) greater than e12 (a12) are reserved for future use and must be programmed to 0. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 69 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh (;7(1'(' 02'( 5(*,67(5 (05 frqwurov ixqfwlrqv eh\rqg w krvh frqwuroohg e\ wkh 02'( 5(*,67(5 &xuuhqwo\ doo elwv ri wkh (05 duh uhvhuyhgdvvkrzqlq)ljxuh7kh(05lvsurjudpphgyldwkh /0frppdqgdqgzloouhwdlqwkhvwruhglqirupdwlrqxqwlolwlv surjudpphgdjdlqruxqwlowkh l02'lvvxemhfwhgwrdorvvrisrzhufrqglwlrq5hsurjudpplqjw kh(05zlooqrwdowhuwkhfrqwhqwvriwkhphpru\duud\surylg hglwlvshuiruphgfruuhfwo\ extended mode register 3 (emr3) f igure 35 - emr3 d efinitions
t vtd 1 cke r tt power-up: v cc and stable clock (ck, ck#) t = 200 s (min) 3 high-z dm 15 dqs 15 high-z address 16 ck ck# t cl v tt 1 v ref v ddq c ommand nop 3 pre t0 ta0 dont care t cl t ck v dd odt dq 15 high-z tb0 200 cycles of ck are required before a read command can be issued mr with dll reset t rfc lm 8 pre 9 lm 7 ref 10 ref 10 lm 11 tg0 th0 ti0 tj0 mr without dll reset emr with ocd default tk0 tl0 tm0 te0 tf0 emr(2) emr(3) t mrd lm 6 lm 5 a10 = 1 t rpa tc0 td0 sstl_18 low level 2 valid 14 valid indicates a break in time scale lm 12 emr with ocd exit lm 13 normal operation code code a10 = 1 code code code code code t mrd t mrd t mrd t mrd t rpa t rfc v ddl t mrd t mrd emr t = 400 ns (min) 4 lvcmos low level 2 logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ''5l02'ghylfhvpxvweh32:(5('83dqg,1,7,$/,=('lqdsuhgh ilqhgpdqqhu2shudwlrqdosurfhgxuhvrwkhuwkdqwkrvhvshflilhg pd\uhvxowlqxqgh - ilqhgrshudwlrq)ljxuhlooxvwudwhvdqgwkhqrwhvrxwolqhw khvhtxhqfhuhtxluhgiru32:(583dqg,1,7,$/,=$7,21 initialization f igure 36 - ddr2 p ower -u p and i nitialization
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product %hiruhdq5($'ru:5,7(frppdqgvfdqehlvvxhgwrdedqnzlwklq wkh''5l02'durzlqwkdwedqnpxvwehrshqhgdfwlydwhg hyhqzkhqdgglwlyh odwhqf\lvxvhg7klvlvdffrpsolvkhgyldwkh$&7,9$7(frppdqg zklfkvhohfwverwkwkhedqndqgwkhurzwrehdfwlydwhg $iwhudurzlvrshqhgzlwkdq$&7,9$7(frppdqgd5($'ru:5,7( frppdqgpd\ehlvvxhgwrwkdwurzvxemhfwwrwkh t 5&'vshflilfdwlrq t 5&'0,1 vkrxogehghilqhge\wkhforfnshulrgdqgurxqghgxswrwkhqh[ wzkrohqxpehuwrghwhuplqhwkhhduolhvwforfnhgjhdiwhuwkh$ &7,9$7(frppdqgrqzklfk d5($'ru:5,7(frppdqgfdqehhqwhuhg7khvdphsurfhgxuhlvx vhgwrfrqyhuwrwkhuvshflilfdwlrqolplwviurpwlphxqlwvwrfo rfnf\fohv)ruh[dpsohd t 5&'0,1vshflilfdwlrqriqvzlwkd0+]forfn t &. qvuhvxowvlqforfnvurxqghgxswr7klvlvvk rzqlq)ljxuh $vxevhtxhqw$&7,9$7(frppdqgwrdgliihuhqwurzlqwkhvdphed qnfdqrqo\ehlvvxhgdiwhuwkhsuhylrxvdfwlyhurzkdvehhqfo rvhgsuhfkdujhg7kh plqlpxpwlphlqwhuydoehwzhhqvxffhvvlyh$&7,9$7(frppdqgvwrw khvdphedqnlvghilqhge\ t 5&$vxevhtxhqw$&7,9$7(frppdqgwrdqrwkhuedqn fdqehlvvxhgzklohwkhiluvwedqnlvehlqjdffhvvhgzklfkuhv xowvlquhgxfwlrqriwrwdourzdffhvvryhukhdg7khplqlpxpwlp hlqwhuydoehwzhhqvxffhvvlyh $&7,9$7(frppdqgvwrgliihuhqwedqnvlvghilqhge\ t 55'''5zlwkedqndufklwhfwxuhvkdyhdqdgglwlrqdouhtxluh phqw t )$:7klvuhtxluhvqrpruh wkdqirxu$&7,9$7(frppdqgvpd\ehlvvxhglqdq\jlyhq t )$:0,1shulrgdvvkrzqlq)ljxuh activate command don t care t1 t0 t2 t3 t4 t5 t6 t7 t rrd ( m in) row row read ac t ac t n op t fa w ( m in) b an k address c k # address c k t8 t9 co l b an k a ac t read read read ac t n op row co l row co l co l b an k c b an k b b an k d b an k c b an k e ac t row t10 b an k d b an k b b an k a note: 1 . ddr 2 - 533 (- 37 e, x 4 or x 8 ), t c k = 3 . 75 ns, b l = 4 , al = 3 , cl = 4 , t rrd ( m in) = 7 . 5 ns, t fa w ( in ) = 37 . 5 ns. command dont care t1 t0 t2 t3 t4 t5 t6 t7 t rrd t rrd row row col bank x bank y row bank z bank y nop act nop nop act nop nop rd/wr t rcd ck# address bank address ck t8 t9 nop nop f igure 37 - e xample : m eeting t rrd (min) and t rcd (min) f igure 38 - m ultibank a ctivate r estriction
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 5($'exuvwvduhlqlwldwhgzlwkd5($'frppdqg7khvwduwlqjfro xpqdqgedqndgguhvvhvduhsurylghgzlwkwkh5($'frppdqgdqg wkh$87235( - &+$5*(lvhlwkhuhqdeohgruglvdeohgiruwkdw%8567vhtxhqfhru dffhvv,i$87235(&+$5*(lvhqdeohgwkhurzehlqjdffhvvhgl vdxwrpdwlfdoo\35( - &+$5*('dwwkhfrpsohwlrqriwkhexuvw,i$87235(&+$5*(lvgl vdeohgwkhurzzlooehohiwrshqdiwhuwkhfrpsohwlrqriwkhe xuvw 'xulqj5($'exuvwvwkhydolggdwdrxwhohphqwiurpwkhvwduwlq jfroxpqdgguhvvzlooehdydlodeoh5($'odwhqf\5/forfnvodw hu5/lvghilqhgdvwkhvxpri $/dqg&/5/ $/&/7khydoxhri$/dqg&/duhsurjudppdeo hyldwkh05dqg(05frppdqgvuhvshfwlyho\(dfkvxevhtxhqwgd wdrxwhohphqwzloo ehydolgqrplqdoo\dwwkhqh[wsrvlwlyhruqhjdwlyhforfnhgjh dwwkhqh[wfurvvlqjri&.[dqg&.[?)ljxuhvkrzvh[dpsoh vri5/edvhgrqgliihuhqw$/ dqg&/vhwwlqjv '46['46[?lvgulyhqe\wkh''5l02'dorqjzlwkrxwsxwgdwd7 khlqlwldo/2:vwdwhrq'46[dqgwkh+,*+vwdwhrq'46[?frlqfl ghqwzlwkwkhodvwgdwd rxwhohphqwduhnqrzqdvwkh5($'suhdpeoh t 35(7khorzvwdwhrq'46[dqgwkh+,*+vwdwhfrlqflghqwzlwk wkhodvwgdwdrxwhohphqwduhnqrzdvwkh 5($'srvwdpeoh t 3567 8srqfrpsohwlrqrid%8567dvvxplqjqrrwkhufrppdqgvkdyhehh qlqlwldwhgwkh'4exvvzloojr+,*+=$ghwdlohgh[sodqdwlrq ri t '46&.'46[wudqvl - wlrqvnhzwr&/dqg t $&gdwdrxwwudqvlwlrqvnhzwr&.[lvvkrzqlq)ljxuh 'dwdiurpdq\5($'exuvwpd\ehfrqfdwhqdwhgzlwkgdwdiurpdv xevhtxhqw5($'frppdqgwrsurylghdfrqwlqxrxviorzrigdwd7k hiluvwgdwdhohphqw iurpwkhqhzexuvwiroorzvwkhodvwhohphqwridfrpsohwhgexuv w7khqhz5($'frppdqgvkrxogehlvvxhg[f\fohvdiwhuwkhilu vw5($'frppdqgzkhuh[ htxdov%/f\fohvvhh)ljxuh 1rqfrqvhfxwlyh5($'gdwdlvlooxvwudwhglq)ljxuh)xoovshh gudqgrp5($'dffhvvhvzlwklqdsdjhrusdjhvfdqehshuiruph g''5l02'ghylfhv vxssruwwkhxvhrifrqfxuuhqw$87235(&+$5*(wlplqj ''5l02'ghylfhvgrqrwdoorzlqwhuuxswlqjruwuxqfdwlqjridq 5($'exuvwxvlqj%/ rshudwlrqv2qfhwkh%/ 5($'frppdq glvuhjlvwhuhglwpxvw ehdoorzhgwrfrpsohwhwkhhqwluh5($'exuvw+rzhyhud5($' zlwk$87235(&+$5*(glvdeohgxvlqj9/ rshudwlrqwkh5($'p d\eh lqwhuuxswhgdqgwuxqfdwhgrqo\e\dqrwkhu5($'exuvwdvorqjdv wkhlqwhuuxswlrqrffxuvrqdelwerxqgdu\dqgwklvdoorzhg gxhwrwkhqsuhihwfkdufklwhf - wxuhriwkh''5l02'$6vkrzqlq)ljxuh5($'exuvw%/ r shudwlrqvpd\qrwehlqwhuuxswhgruwuxqfdwhgzlwkdq\rwkhufr ppdqgh[fhswirudqrwkhu 5($' 'dwdiurpdq\5($'exuvwpxvwehfrpsohwhgehiruhdvxevhtxhqw :5,7(exuvwlvdoorzhg$qh[dpsohrid5($'exuvwiroorzhge\ d:5,7(exuvwlvvkrzq lq)ljxuh read
read n op n op n op n op n op b an k a , co l n c k c k # command address dq dqs, dqs# d o n d o n t0 t1 t2 t3 t4 n t5 n t4 t5 c k c k # command read n op n op n op n op n op address b an k a, co l n rl = 3 (al = 0 , cl = 3 ) dq dqs, dqs# d o n t0 t1 t2 t3 t3 n t4 n t4 t5 c k c k # command read n op n op n op n op n op address b an k a, co l n rl = 4 (al = 0 , cl = 4 ) dq dqs, dqs# t0 t1 t2 t3 t3 n t4 n t4 t5 al = 1 cl = 3 rl = 4 (al = 1 + cl = 3 ) don t care t ransitioning data notes: 1 .d o n = data-out from c o l umn n . 2 . b l = 4 . 3 . th ree subse q uent e l ements of data-out appear in t h e programmed order fo ll owing d o n . 4 .s h own wit h nomina l t ac, t dqsc k , and t dqsq. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 39 - read l atency
ck ck# command read nop read nop nop nop nop address bank, col n bank, col b command read nop read nop nop nop address bank, col n bank, col b rl = 3 ck ck# dq dqs, dqs# rl = 4 dq dqs, dqs# do n do b do n do b t0 t1 t2 t3 t3n t4n t4 t5 t6 t5n t6n t0 t1 t2 t3 t2n nop t3n t4n t4 t5 t6 t5n t6n dont care transitioning data t ccd t ccd notes: 1. do n (or b) = data-out from column n (or column b). 2. bl = 4. 3. three subsequent elements of data-out appear in the programmed order following do n. 4. three subsequent elements of data-out appear in the programmed order following do b. 5. shown with nominal t ac, t dqsck, and t dqsq. 6. example applies only when read commands are issued to same device. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 40 - c onsecutive read b ursts
command read nop nop nop nop nop nop nop read t0 t1 t2 t3 t3n t4 t5 t7 t8 t6 t4n t6n t7n ck ck# t5 t7 t8 t5n t6 t4n t7n command nop nop nop nop read nop nop nop read t0 t1 t2 t3 t4 dq do n do b dont care transitioning data address bank, col n bank, col b address bank, col n bank, col b ck ck# cl = 4 cl = 3 dq do n do b dqs, dqs# dqs, dqs# notes: 1. do n (or b) = data-out from column n (or column b). 2. bl = 4. 3. three subsequent elements of data-out appear in the programmed order following do n. 4. three subsequent elements of data-out appear in the programmed order following do b. 5. shown with nominal t ac, t dqsck, and t dqsq. 6. example applies when read commands are issued to different devices or nonconsecutive reads. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 41 - n onconsecutive read b ursts
t0 t1 t2 dont care transitioning data t3 t4 t5 t6 command read 1 nop 2 nop 2 valid valid valid read 3 valid valid valid t7 t8 t9 ck ck# cl = 3 (al = 0) t ccd address valid 4 valid 4 cl = 3 (al = 0) dq do do do do do do do do do do do do a10 valid 5 dqs, dqs# notes: 1. bl = 8 required; auto precharge must be disabled (a10 = low). 2. nop or command inhibit commands are valid. precharge command cannot be is- sued to banks used for reads at t0 and t2. 3. interrupting read command must be issued exactly 2 t ck from previous read. 4. read command can be issued to any valid bank and row address (read command at t0 and t2 can be either same bank or different bank). 5. auto precharge can be either enabled (a10 = high) or disabled (a10 = low) by the in- terrupting read command. 6. example shown uses al = 0; cl = 3, bl = 8, shown with nominal t ac, t dqsck, and t dqsq. ck ck# t0 t1 t2 dont care transitioning data t3 t4 t5 t6 t7 t8 t9 t1 0t11 al = 2 cl = 3 rl = 5 wl = rl - 1 = 4 t rcd = 3 command act n nop nop nop nop nop nop read n nop nop nop write dqs, dqs# dq do n do n + 1 do n + 2 do n + 3 di n di n + 1 di n + 2 di n + 3 notes: 1. bl = 4; cl = 3; al = 2. 2. shown with nominal t ac, t dqsck, and t dqsq. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 42 - read i nterrupted by read f igure 43 - read- to -write
ck ck# t0 t1 t2 dont care transitioning data t3 t4 t5 t6 t7 address bank a bank a bank a t ras (min) t rtp (min) t rp (min) al + bl/2 - 2 ck + max ( t rtp/ t ck or 2ck) command read nop pre act nop nop nop nop 4-bit prefetch dq do do do do a10 valid valid cl = 3 al = 1 dqs, dqs# t rc (min) notes: 1. rl = 4 (al = 1, cl = 3); bl = 4. 2. t rtp 2 clocks. 3. shown with nominal t ac, t dqsck, and t dqsq. ck ck# t0 t1 t2 dont care transitioning data t3 t4 t5 t6 t7 t8 cl = 3 al = 1 dqs, dqs# first 4-bit prefetch second 4-bit prefetch t rtp (min) t rp (min) address bank a bank a bank a t rc (min) t ras (min) a10 valid valid al + bl/2 - 2ck + max ( t rtp/ t ck or 2ck) dq do do do do do do do do command read nop nop nop nop nop nop act pre notes: 1. rl = 4 (al = 1, cl = 3); bl = 8. 2. t rtp 2 clocks. 3. shown with nominal t ac, t dqsck, and t dqsq. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product $5($'exuvwpd\ehiroorzhge\d35(&+$5*(frppdqgwrwkhvdph edqnsurylghg$87235(&+$5*(lvqrwdfwlydwhg7khplqlpxp5( $'wr35( - &+$5*(frppdqgvsdflqjwrwkhvdphedqnkdvwzruhtxluhphqwvwk dwpxvwehvdwlvilhg$/%/forfnvdqg t 573 t 573lvwkhplqlpxpwlphiurpwkh ulvlqjforfnhgjhwkdwlqlwldwhvwkhodvwelw35()(7&+rid5 ($'frppdqgwrwkh35(&+$5*(frppdqg)ru%/ wklvlvwkhwlp hiurpwkhdfwxdo5($' $/diwhuwkh5($'frppdqgwr35(&+$5*(frppdqg)ru%/ wkl vlvwkhwlphiurp$/[&/diwhuwkh5($'wr35(&+$5*(frpp dqg)roorzlqj wkh35(&+$5*(frppdqgdvxevhtxhqwfrppdqgwrwkhvdphedqnfd qqrwehlvvxhgxqwlo t 53lvphw+rzhyhusduwriwkhurz35(&+$5*(wlphlv klgghqgxulqjwkhdffhvvriwkhodvwgdwdhohphqwv ([dpsohvri5($'wr35(&+$5*(iru%/ duhvkrzqlq)ljxuhd qglq)ljxuhiru%/ 7khghod\iurp5($'wr35(&+$5*(wrw khvdphlv$/ %/y&.0$; t 53 t &.ru[&.zkhuh0$;phdqvwkhodujhuriwkhwzr read with precharge f igure 44 - read- to -precharge ? bl = 4 f igure 45 - read- to -precharge ? bl = 8
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ,i$ 10 lvkljkzkhqd5($'frppdqglvlvvxhgwkh5($'zlwk$87235(& +$5*(ixqfwlrqlvhqjdjhg7kh''5l02'vwduwvdq$87235(&+$ 5*( rshudwlrqrqwkhulvlqjhgjhriforfnwkdwlv$/%/f\foh vodwhuwkdqwkh5($'zlwk$87235(&+$5*(frppdqgsurylghg t 5$60,1dqg t 573duh vdwlvilhg,i t 5$60,1lvqrwvdwlvilhgdwwklvulvlqjforfnhgjhwkhvwduw srlqwriwkh$87235(&+$5*(rshudwlrqzlooehghod\hgxqwlo t 5$60,1lvvdwlvilhg :khqwkhlqwhuqdo35(&+$5*(lvsxvkhgrxwe\ t 573 t 53vwduwvdwwkhsrlqwzkhuhwkhlqwhuqdo35(&+$5*(kdsshqv :khq%/ wkhplqlpxpwlphiurp5($'zlwk$87235(&+$5*(wrwk hqh[w$&7,9$7(frppdqglv$/ t 573 t 53 t &.:khq%/ wkhplqlpxp wlphiurp5($'zlwk$87235(&+$5*(wrwkhqh[w$&7,9$7(frppdqg lv$/forfnv t 573 t 53 t &.7khwhup t 573 t 53 t &.lvdozd\vurxqghg xswrwkhqh[wlqwhjhu$jhqhudosxusrvhhtxdwlrqfdqdovreh xvhg$/%!y&. t 573 t 53 t &.,qdq\hyhqwwkhlqwhuqdo35(&+$5*(grhvqrw vwduwhduolhuwkdqwzrforfnvdiwhuwkhodvwelwsuhihwfk 5($'zlwk$87235(&+$5*(frppdqgpd\ehdssolhgwrrqhedqnzkl ohdqrwkhuedqnlvrshudwlrqdo7klvlvuhihuuhgwrdv&21&855 (17$87235( - &+$5*(rshudwlrq([dpsohvri5($'zlwk35(&+$5*(dqg5($'zlwk $87235(&+$5*(zlwkdssolfdeohwlplqjuhtxluhphqwvduhvkrzql q)ljxuh read with auto precharge from command (bank n) read with auto precharge minimum delay (with concurrent auto pre- charge) units (bl/2) (bl/2) + 2 1 t ck 5($'ru5($'zlwk$xwr3uhfkdujh :5,7(ru:5,7(zlwk$xwr3uhfkdujh 35(&+$5*(ru$&7,9$7( to command (bank m) t able 39: read u sing concurrent auto precharge
ck ck# cke a10 bank address t ck t ch t cl ra t rcd t ras 3 t rc t rp cl = 3 dm t0 t1 t2 t3 t4 t5 t7n t8n t6 t7 t8 dq 8 dqs, dqs# case 1: t ac (min) and t dqsck (min) case 2: t ac (max) and t dqsck (max) dq 8 dqs, dqs# t rpre t rpre t rpst t dqsck (min) t lz (min) t lz (max) t ac (min) t lz (min) do n t hz (max) t ac (max) t lz (min) do n nop 1 nop 1 command act ra col n pre 3 bank x ra ra bank x bank x 6 7 7 77 act bank x nop 1 nop 1 nop 1 nop 1 t hz (min) one bank all banks dont care transitioning data read 2 address 5 t rtp 4 t rpst t dqsck (max) t9 notes: 1. nop commands are shown for ease of illustration; other commands may be valid at these times. 2. bl = 4 and al = 0 in the case shown. 3. the precharge command can only be applied at t6 if t ras (min) is met. 4. read-to-precharge = al + bl/2 - 2ck + max ( t rtp/ t ck or 2ck). 5. disable auto precharge. 6. dont care if a10 is high at t5. 7. i/o balls, when entering or exiting high-z, are not referenced to a specific voltage level, but to when the device begins to drive or no longer drives, respectively. 8. do n = data-out from column n; subsequent elements are applied in the programmed order. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 46 - b ank r ead ? w ithout a uto p recharge
4-bit prefetch ck ck# cke a10 bank address t ck t ch t cl ra t rcd t ras t rc t rp cl = 3 dm t0 t1 t2 t3 t4 t5 t7n t8n t6 t7 t8 dq 6 dqs, dqs# case 1: t ac (min) and t dqsck (min) case 2: t ac (max) and t dqsck (max) dq 6 dqs, dqs# t rpre t rpre t rpst t rpst t dqsck (min) t dqsck (max) t lz (min) t lz (max) t ac (min) t lz (min) t hz (max) t ac (max) t lz (max) do n nop 1 nop 1 command 1 act ra col n bank x ra ra bank x act bank x nop 1 nop 1 nop 1 nop 1 nop 1 t hz (min) dont care transitioning data read 2,3 address al = 1 t rtp internal precharge 4 5 5 55 do n notes: 1. nop commands are shown for ease of illustration; other commands may be valid at these times. 2. bl = 4, rl = 4 (al = 1, cl = 3) in the case shown. 3. the ddr2 sdram internally delays auto precharge until both t ras (min) and t rtp (min) have been satisfied. 4. enable auto precharge. 5. i/o balls, when entering or exiting high-z, are not referenced to a specific voltage level, but to when the device begins to drive or no longer drives, respectively. 6. do n = data-out from column n; subsequent elements are applied in the programmed order. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 47 - b ank r ead ? with a uto p recharge
dq (last data valid) 4 dq 4 dq 4 dq 4 dq 4 dq 4 dq 4 ldsq# ldqs 3 dq (last data valid) 4 dq (first data no longer valid) 4 dq (first data no longer valid) 4 dq0Cdq7 and ldqs collectively 6 t2 t2 t2 t2n t2n t2n t3 t3 t3 t3n t3n t3n ck ck# t1 t2 t3 t4 t2n t3n t qh 5 t qh 5 t dqsq 2 t dqsq 2 t dqsq 2 t dqsq 2 data valid window data valid window dq (last data valid) 7 dq 7 dq 7 dq 7 dq 7 dq 7 dq 7 udqs# udqs 3 dq (last data valid) 7 dq (first data no longer valid) 7 dq (first data no longer valid) 7 dq8Cdq15 and udqs collectively 6 t2 t2 t2 t2n t2n t2n t3 t3 t3 t3n t3n t3n t qh 5 t qh 5 t qh 5 t qh 5 t dqsq 2 t dqsq 2 t dqsq 2 t dqsq 2 t hp 1 t hp 1 t hp 1 t hp 1 t hp 1 t hp 1 t qh 5 t qh 5 data valid window data valid window data valid window data valid window data valid window upper byte lower byte data valid window t qhs t qhs t qhs t qhs t qhs t qhs t qhs t qhs notes: 1. t hp is the lesser of t cl or t ch clock transitions collectively when a bank is active. 2. t dqsq is derived at each dqs clock edge, is not cumulative over time, begins with dqs transitions, and ends with the last valid transition of dq. 3. dq transitioning after the dqs transitions define the t dqsq window. ldqs defines the lower byte, and udqs defines the upper byte. 4. dq0, dq1, dq2, dq3, dq4, dq5, dq6, or dq7. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 46- x 4, x 8 d ata o utput t iming ? t dqsq, t qh, and d ata v alid w indow f igure 48 - d ata o utput t iming ? t dqsq, t qh, and d ata v alid w indow
ck ck# dqs#/dqs or l dqs#/ldqs/udq#/udqs 3 t0 1 t1 t2 t3 t3n t4 t4n t5 t5n t6 t6n t7 t rpst t dqsck 2 (min) t dqsck 2 (max) dq (last data valid) dq (first data valid) all dqs collectively 4 t ac 5 (min) t ac 5 (max) t lz (min) t hz (max) t3 t3 t3n t4n t5n t6n t3n t3n t4n t4n t5n t5n t6n t6n t4 t5 t5 t6 t6 t3 t4 t5 t6 t4 t hz (max) t lz (min) t rpre 1rwhv 5($'frppdqgzlwk&/ $/ lvvxhgdw7 2. t '46&.lvwkh'46rxwsxwzlqgrzuhodwlyhwr&.dqglvwkhorqjw hupfrpsrqhqwri'46vnhz '4wudqvlwlrqlqjdiwhu'46wudqvlwlrqvgh?qh t dqsq window. $oo'4pxvwwudqvlwlrqe\ t '464diwhu'46wudqvlwlrqvuhjdugohvvri t ac. 5. t $&lvwkh'4rxwsxwzlqgrzuhodwlyhwr&.dqglvwkh3orqjwhup frpsrqhqwri'4vnhz 6. t lz (min) and t $&0,1duhwkh?uvwydolgvljqdowudqvlwlrqv w+=0$;dqgw$&0$;duhwkhodwhvwydolgvljqdowudqvlwl rqv ,2edoovzkhqhqwhulqjruh[lwlqj+ljk=duhqrwuhihuh qfhgwrdvshfl?fyrowdjhohyho exwwrzkhqwkhghylfh ehjlqvwrgulyhruqrorqjhugulyhvuhvshfwlyho\ logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 46- x 4, x 8 d ata o utput t iming ? t dqsq, t qh, and d ata v alid w indow f igure 49 - d ata o utput t iming ? t ac and t dqsck :5,7(exuvwvduhlqlwldwhgzlwkd:5,7(frppdqg''5l02'ghyl fhvxvh:/htxdowr5/plqxvrqhforfnf\foh:/ 5/&.7k hvwduwlqjfroxpq dqgedqndgguhvvhvduhsurylghgzlwkwkh:5,7(frppdqgdqg$87 235(&+$5*(lvhlwkhuhqdeohgruglvdeohgiruwkdwdffhvv,i$ 87235(&+$5*(lv hqdeohgwkhurzehlqjdffhvvhglv35(&+$5*('dwwkhfrpsohwlrq riwkhexuvw 'xulqj:5,7(exuvwvwkhiluvwydolggdwdlqhohphqwzlooehuh jlvwhuhgrqwkhiluvwulvlqjhgjhri'46[iroorzlqjwkh:5,7( frppdqgdqgvxevhtxhqwgdwd hohphqwvzlooehuhjlvwhuhgrqvxffhvvlyhhgjhvri'46[7khor zvwdwhrq'46[ehwzhhqwkh:5,7(frppdqgdqgwkhiluvwulvlqj hgjhlvnqrzqdvwkh :5,7(suhdpeohwkhorzvwdwhrq'46[iroorzlqjwkhodvwgdwdl qhohphqwlvnqrzqdvwkhsrvwdpeoh 7khwlphehwzhhqwkh:5,7(frppdqgdqgwkhiluvwulvlqj'46[hg jhlv:/? t '4666xevhtxhqw'46[srvlwlyhulvlqjhgjhvduhwlphguhodwlyh wrwkh dvvrfldwhgforfnhgjhdv? t '466 t '466lvvshflilhgzlwkduhodwlyho\zlghudqjhshufhqwrir qforfnf\foh$ooriwkh:5,7(gldjudpvvkrzwkhqrplqdo fdvhdqgzkhuhwkhwzrh[wuhphfdvhv t '466>0,1@dqg t '466>0$;@pljkwqrwehlqwxlwlyhwkh\kdyhdovrehhqlqfoxghg )ljxuhvkrzvwkhqrplqdo fdvhdqgwkhh[wuhphvri t '466iru%/ 8srqfrpsohwlrqridexuvwdvvxplqjqrrwkhufr ppdqgvkdyhehhqlqlwldwhgwkh'4zloouhpdlq+ljk=dqgdq\ dgglwlrqdolqsxwgdwdzlooehljqruhg 'dwdirudq\:5,7(exuvwpd\ehfrqfdwhqdwhgzlwkdvxevhtxhqw :5,7(frppdqgwrsurylghfrqwlqxrxvgdwdiorzrilqsxwgdwd7k hiluvwgdwdhohphqwiurp wkhqhzexuvwlvdssolhgdiwhuwkhodvwhohphqwridfrpsohwhg exuvw7khqhz:5,7(frppdqgvkrxogehlvvxhg[f\fohvdiwhuwk hiluvw:5,7(frppdqg zkhuh[htxdov%/ )ljxuhvkrzvfrqfdwhqdwhgexuvwvri%/ dqgkrzixoovshh gudqgrp:5,7(dffhvvhvzlwklqdsdjhrusdjhvfdqehshuiruphg $qh[dpsohriqrq frqvhfxwlyh:5,7(dffhvvhvlvvkrzqlq)ljxuh''5l02'ghy lfhvvxssruwfrqfxuuhqw$87235(&+$5*(rswlrqvdvvkrzqlq7deo h ''5l02'ghylfhvgrqrwdoorzlqwhuuxswlqjruwuxqfdwlqjdq\: 5,7(exuvwxvlqj%/ rshudwlrq2qfhwkh%/ :5,7(frppdqgl vuhjlvwhuhglwpxvweh doorzhgwrfrpsohwhwkhhqwluh:5,7(exuvwf\foh+rzhyhud:5 ,7(%/ rshudwlrqzlwk$87235(&+$5*(glvdeohgpljkwehlqwh uuxswhgdqgwuxqfdwhg rqo\e\dqrwkhu:5,7(frppdqgdvvkrzqlq)ljxuh 'dwdirudq\:5,7(exuvwpd\ehiroorzhge\dvxevhtxhqw5($'f rppdqg7riroorzd:5,7( t :75vkrxogehphwdvvkrzqlq)ljxuh7khqxpehuri write
dqs, dqs# t dqss (max) t dqss (nom) t dqss (min) dm dq ck ck# command write nop nop address bank a, col b nop nop t0 t1 t2 t3 t2n t4 t3n dqs, dqs# 5 dm dq dqs, dqs# dm dq di b di b di b dont care transitioning data t dqss 5 wl t dqss wl - t dqss t dqss 5 wl + t dqss notes: 1. subsequent rising dqs signals must align to the clock within t dqss. 2. di b = data-in for column b. 3. three subsequent elements of data-in are applied in the programmed order following di b. 4. shown with bl = 4, al = 0, cl = 3; thus, wl = 2. 5. a10 is low with the write command (auto precharge is disabled). logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product forfnf\fohvuhtxluhgwrphhw t :75lvhlwkhuru t :75 t &.zklfkhyhulvjuhdwhu'dwdirudq\:5,7(exuvwpd\ehiroor zhge\dvxevhtxhqw 35(&+$5*(frppdqg t :5pxvwehphwdvvkrzqlq)ljxuh t :5vwduwvdwwkhhqgriwkhgdwdexuvwuhjdugohvvriwkhgdwd pdvnfrqglwlrq write continued units t ck from command (bank n) write with auto precharge minimum delay (with concurrent auto pre- charge) (cl-1) + (bl/2) + t wtr (bl/e) 1 5($'ru5($'zlwk$xwr3uhfkdujh :5,7(ru:5,7(zlwk$xwr3uhfkdujh 35(&+$5*(ru$&7,9$7( to command (bank m) t able 40: write u sing c oncurrent a uto p recharge f igure 46- x 4, x 8 d ata o utput t iming ? t dqsq, t qh, and d ata v alid w indow f igure 50 - w rite b urst
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 51 - c onsecutive write- to -write f igure 52 - n onconsecutive write- to -write ck ck# command write nop nop nop nop nop address bank, col b write bank, col n t0 t1 t2 t3 t2n t4 t5 t4n t3n t5n t6 t6n dq dqs, dqs# dm di n di b t dqss (nom) wl t dqss dont care transitioning data wl = 2 wl = 2 1 11 notes: 1. subsequent rising dqs signals must align to the clock within t dqss. 2. di b (or n), etc. = data-in for column b (or column n). 3. three subsequent elements of data-in are applied in the programmed order following di b. 4. three subsequent elements of data-in are applied in the programmed order following di n. 5. shown with bl = 4, al = 0, cl = 3; thus, wl = 2. 6. each write command may be to any bank. ck ck# command write nop write nop nop nop address bank, col b nop bank, col n t0 t1 t2 t3 t2n t4 t5 t4n t6 t5n t3n t1n dq dqs, dqs# dm di n di b dont care transitioning data wl t dqss t dqss (nom) wl = 2 t ccd wl = 2 1 1 1 notes: 1. subsequent rising dqs signals must align to the clock within t dqss. 2. di b, etc. = data-in for column b, etc. 3. three subsequent elements of data-in are applied in the programmed order following di b. 4. three subsequent elements of data-in are applied in the programmed order following di n. 5. shown with bl = 4, al = 0, cl = 3; thus, wl = 2. 6. each write command may be to any bank.
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ck ck# command dq dqs, dqs# wl = 3 write 1 a t0 t1 t2 dont care transitioning data di a t3 t4 t5 t6 write 3 b di b t7 t8 t9 wl = 3 2-clock requirement address a10 valid 6 valid 5 valid 5 valid 4 valid 4 valid 4 nop 2 nop 2 nop 2 nop 2 nop 2 77777 di a + 1 di a + 3 di a + 2 di b + 1 di b + 2 di b + 3 di b + 4 di b + 5 di b + 6 di b + 7 notes: 1. bl = 8 required and auto precharge must be disabled (a10 = low). 2. the nop or command inhibit commands are valid. the precharge command cannot be issued to banks used for writes at t0 and t2. 3. the interrupting write command must be issued exactly 2 t ck from previous write. 4. the earliest write-to-precharge timing for write at t0 is wl + bl/2 + t wr where t wr starts with t7 and not t5 (because bl = 8 from mr and not the truncated length). 5. the write command can be issued to any valid bank and row address (write command at t0 and t2 can be either same bank or different bank). 6. auto precharge can be either enabled (a10 = high) or disabled (a10 = low) by the interrupting write command. 7. subsequent rising dqs signals must align to the clock within t dqss. 8. example shown uses al = 0; cl = 4, bl = 8. f igure 53 - write i nterrupted by write
t dqss (nom) ck ck# command write nop nop nop nop nop nop nop address bank a, col b bank a, col n read t0 t1 t2 t3 t2n t4 t5 t9n t3n t6 t7 t8 t9 t wtr 1 cl = 3 cl = 3 cl = 3 dq dqs, dqs# dm di b t dqss (min) dq dqs, dqs# dm di b t dqss (max) dq dqs, dqs# dm di b di di dont care transitioning data wl t dqss wl - t dqss wl + t dqss nop di 2 2 2 notes: 1. t wtr is required for any read following a write to the same device, but it is not required between module ranks. 2. subsequent rising dqs signals must align to the clock within t dqss. 3. di b = data-in for column b; do n = data-out from column n. 4. bl = 4, al = 0, cl = 3; thus, wl = 2. 5. one subsequent element of data-in is applied in the programmed order following di b. 6. t wtr is referenced from the first positive ck edge after the last data-in pair. 7. a10 is low with the write command (auto precharge is disabled). 8. the number of clock cycles required to meet t wtr is either 2 or t wtr/ t ck, whichever is greater. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 54 - write- to -read
t dqss (nom) ck ck# command write nop nop nop nop nop address bank a, col b bank, (a or all ) nop t0 t1 t2 t3 t2n t4 t5 t3n t6 t7 t wr t rp dq dqs# dqs dm di b t dqss (min) dq dqs# dqs dm di b t dqss (max) dq dqs# dqs dm di b dont care transitioning data wl + t dqss wl - t dqss wl + t dqss pre 1 1 1 notes: 1. subsequent rising dqs signals must align to the clock within t dqss. 2. di b = data-in for column b. 3. three subsequent elements of data-in are applied in the programmed order following di b. 4. bl = 4, cl = 3, al = 0; thus, wl = 2. 5. t wr is referenced from the first positive ck edge after the last data-in pair. 6. the precharge and write commands are to the same bank. however, the precharge and write commands may be to different banks, in which case t wr is not required and the precharge command could be applied earlier. 7. a10 is low with the write command (auto precharge is disabled). logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 55 - write- to -precharge
ck ck# cke a10 t ck t ch t cl ra t rcd t ras t rp t wr t0 t1 t2 t3 t5 t6 t6n t7 t8 t9 t5n nop 1 nop 1 command 3 5 act ra col n write 2 nop 1 one bank all banks bank x pre bank x nop 1 nop 1 nop 1 t dqsl t dqsh t wpst bank x 4 dq 6 dm di n dont care transitioning data wl t dqss (nom) t wpre dqs, dqs# address nop 1 wl = 2 t4 bank select notes: 1. nop commands are shown for ease of illustration; other commands may be valid at these times. 2. bl = 4 and al = 0 in the case shown. 3. disable auto precharge. 4. dont care if a10 is high at t9. 5. subsequent rising dqs signals must align to the clock within t dqss. 6. di n = data-in for column n; subsequent elements are applied in the programmed order. 7. t dsh is applicable during t dqss (min) and is referenced from ck t5 or t6. 8. t dss is applicable during t dqss (max) and is referenced from ck t6 or t7. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 56 - b ank w rite ? w ithout a uto p recharge
ck ck# cke a10 bank select t ck t ch t cl ra t rcd t ras t rp wr 4 t0 t1 t2 t3 t4 t5 t5n t6 t7 t8 t6n nop 1 nop 1 command 3 act ra col n write 2 nop 1 bank x nop 1 bank x nop 1 nop 1 nop 1 t dqsl t dqsh t wpst dq 6 dm wl t dqss (nom) dont care transitioning data t wpre dqs, dqs# address t9 nop 1 wl = 2 di n 5 notes: 1. nop commands are shown for ease of illustration; other commands may be valid at these times. 2. bl = 4 and al = 0 in the case shown. 3. enable auto precharge. 4. wr is programmed via mr9Cmr11 and is calculated by dividing t wr (in ns) by t ck and rounding up to the next integer value. 5. subsequent rising dqs signals must align to the clock within t dqss. 6. di n = data-in from column n; subsequent elements are applied in the programmed order. 7. t dsh is applicable during t dqss (min) and is referenced from ck t5 or t6. 8. t dss is applicable during t dqss (max) and is referenced from ck t6 or t7. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 57 - b ank w rite ? with a uto p recharge
ck ck# cke a10 bank select t ck t ch t cl ra t rcd t ras t rpa t wr 5 t0 t1 t2 t3 t4 t5 t7n t6 t7 t8 t6n nop 1 nop 1 command 3 act ra col n write 2 nop 1 one bank all banks bank x bank x nop 1 nop 1 nop 1 nop 1 nop 1 nop 1 t dqsl t dqsh t wpst bank x 4 dq 7 dm dont care transitioning data wl t dqss (nom) t wpre pre dqs, dqs# address t9 t10 t11 al = 1 wl = 2 di n 6 notes: 1. nop commands are shown for ease of illustration; other commands may be valid at these times. 2. bl = 4, al = 1, and wl = 2 in the case shown. 3. disable auto precharge. 4. dont care if a10 is high at t11. 5. t wr starts at the end of the data burst regardless of the data mask condition. 6. subsequent rising dqs signals must align to the clock within t dqss. 7. di n = data-in for column n; subsequent elements are applied in the programmed order. 8. t dsh is applicable during t dqss (min) and is referenced from ck t6 or t7. 9. t dss is applicable during t dqss (max) and is referenced from ck t7 or t8. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 90 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 58 - write ? dm o peration
dqs dqs# t dqsh t wpst t dqsl t dss 2 t dsh 1 t dsh 1 t dss 2 dm dq ck ck# t1 t0 t1n t2 t2n t3 t4 t3n di dont care transitioning data t wpre 3 wl - t dqss (nom) notes: 1. t dsh (min) generally occurs during t dqss (min). 2. t dss (min) generally occurs during t dqss (max). 3. subsequent rising dqs signals must align to the clock within t dqss. 4. write command issued at t0. 5. for x16, ldqs controls the lower byte and udqs controls the upper byte. 6. write command with wl = 2 (cl = 3, al = 0) issued at t0. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 91 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 59 - d ata i nput t iming 35(&+$5*(fdqehlqlwldwhge\hlwkhudpdqxdo35(&+$5*(frppdqg rue\dq$87235(&+$5*(lqfrqmxqfwlrqzlwkhlwkhud5($'ru: 5,7(frp - pdqg35(&+$5*(zlooghdfwlydwhwkhrshqurzlqdsduwlfxodued qnruwkhrshqurzlqdooedqnv7kh35(&+$5*(rshudwlrqlvvkr zqlqwkhsuhylrxv5($' dqg:5,7(rshudwlrqvhfwlrqv 'xulqjdpdqxdo35(&+$5*(frppdqgwkh$ 10 lqsxwghwhuplqhvzkhwkhurqhrudooedqnvduhwreh35(&+$5*(' ,qwkhfdvhzkhuhrqo\rqhedqnlv wrehsuhfkdujhgedqndgguhvvlqsxwvghwhuplqhwkhedqnwreh suhfkdujhg:khqdooedqnvduhwrehsuhfkdujhgwkhedqndgguh vvlqsxwvduhwuhdwhgdv v'rquw&duhw 2qfhdedqnkdvehhq35(&+$5*('lwlvlqwkhlgohvwdwhdqgpx vwehdfwlydwhgsulruwrdq\5($'ru:5,7(frppdqgvehlqjlvvxh gwrwkdwedqn:khq dvlqjohedqn35(&+$5*(frppdqglvlvvxhg t 53wlplqjdssolhv:khqwkh35(&+$5*($//frppdqglvlvvxhg t 53$wlplqjdssolhvuhjdugohvvriwkh qxpehuriedqnvrshqhg precharge
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 92 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh,qgxvwuldowhpshudwxuh''5l02'ghylfhvzkhq7 c lv d ?&uhtxluhvd5()5(6+f\fohdwdqdyhudjhlqwhuydori ?60$;dqgdoourzvlqdoo edqnvpxvwehuhiuhvkhgdwohdvwrqfhhyhu\pv7kh5()5(6+e hjlqvzkhqwkh5()5(6+frppdqglvuhjlvwhuhgdqghqgv t 5)&0,1odwhu7kh dyhudjhlqwhuydopxvwehuhgxfhgwr?60$;zkhq7 c lv!?& refresh ck ck# command nop 1 nop 1 nop 1 pre cke ra address a10 bank bank(s) 3 ba ref nop 1 ref 2 nop 1 act nop 1 one bank all banks t ck t ch t cl ra dq 4 dm 4 dqs, dqs# 4 t rfc 2 t rp t rfc (min) t0 t1 t2 t3 t4 ta0 tb0 ta1 tb1 tb2 dont care indicates a break in time scale notes: 1. nop commands are shown for ease of illustration; other valid commands may be possi- ble at these times. cke must be active during clock positive transitions. 2. the second refresh is not required and is only shown as an example of two back-to- back refresh commands. 3. dont care if a10 is high at this point; a10 must be high if more than one bank is active (must precharge all active banks). 4. dm, dq, and dqs signals are all dont care/high-z for operations shown. f igure 60 - r efresh m ode
ck 1 ck# command nop ref address cke 1 valid dq dm dqs#, dqs nop 4 t rp 8 t ch t cl t ck 1 t ck 1 t xsnr 2, 5, 10 t isxr 2 enter self refresh mode (synchronous) exit self refresh mode (asynchronous) t0 t1 ta2 ta1 dont care ta0 tc0 tb0 t xsrd 2, 7 valid 5 nop 4 t cke (min) 9 t2 odt 6 t aofd/ t aofpd 6 td0 valid 7 valid 5 indicates a break in time scale t ih t ih t cke 3 notes: 1. clock must be stable and meeting t ck specifications at least 1 t ck after entering self refresh mode and at least 1 t ck prior to exiting self refresh mode. 2. self refresh exit is asynchronous; however, t xsnr and t xsrd timing starts at the first ris- ing clock edge where cke high satisfies t isxr. 3. cke must stay high until t xsrd is met; however, if self refresh is being re-entered, cke may go back low after t xsnr is satisfied. 4. nop or deselect commands are required prior to exiting self refresh until state tc0, which allows any nonread command. 5. t xsnr is required before any nonread command can be applied. 6. odt must be disabled and r tt off ( t aofd and t aofpd have been satisfied) prior to enter- ing self refresh at state t1. 7. t xsrd (200 cycles of ck) is required before a read command can be applied at state td0. 8. device must be in the all banks idle state prior to entering self refresh mode. 9. after self refresh has been entered, t cke (min) must be satisfied prior to exiting self refresh. 10. upon exiting self refresh, odt must remain low until t xsrd is satisfied. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 93 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh6(/)5()5(6+frppdqglvlqlwldwhgzkhq&.(lvorz7khglii huhqwldoforfnvkrxoguhpdlqvwdeohdqgphhw t &.(vshflilfdwlrqvdwohdvw[ t &.diwhu hqwhulqj6(/)5()5(6+prgh7khsurfhgxuhiruh[lwlqj6(/)5()5 (6+uhtxluhvdvhtxhqfhrifrppdqgv)luvwwkhgliihuhqwldofo rfnpxvwehvwdeohdqg meet t &.vshflilfdwlrqvdwohdvw[ t &.sulruwr&.(jrlqjedfnwr+,*+2qfh&.(lv+,*+ t &.(>0,1@kdvehhqvdwlvilhgzlwkwkuhhforfnuhjlvwudwlrqvwk h ''5l02'pxvwkdyh123ru'(6(/(&7frppdqgvlvvxhgiru t ;615$vlpsohdojrulwkpiruphhwlqjerwk5()5(6+dqg'//uhtxl uhphqwvlvxvhgwr dsso\123ru'(6(/(&7frppdqgviruforfnf\fohvehiruhdsso \lqjdq\rwkhufrppdqg self refresh f igure 61 - s elf r efresh
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ''5l02'ghylfhvvxssruwpxowlsoh32:(5'2:1prghvwkdwdoorz vljqlilfdqwsrzhuvdylqjvryhuqrupdorshudwlqjprghv&.(lvx vhgwrhqwhudqg h[lwgliihuhqw32:(5'2:1prghv32:(5'2:1hqwu\dqgh[lwwlpl qjvduhvkrzqlq)ljxuh'hwdlohg32:(5'2:1hqwu\frqglwlrq vduhvkrzqlq )ljxuh7deohlvwkh&.(7uxwk7deoh''5l02'ghylfhu htxluh&/(wrehuhjlvwhuhg+,*+dfwlyhdwdoowlphvwkdwdq dffhvvlvlqsurjuhvviurpwkh lvvxlqjrid5($'ru:5,7(frppdqgxqwlofrpsohwlrqriwkhexuv w7kxvdforfnvxvshqglvqrwvxssruwhg)ru5($'vdexuvwf rpsohwlrqlvghilqhgzkhq wkh5($'srvwdpeohdqg t :5:5,7(wr35(&+$5*(frppdqgru t :75:5,7(wr5($'frppdqgduhvdwlvilhgdvvkrzqlq)ljxuh dqg)ljxuh ru)ljxuh7khqxpehuriforfnf\fohvuhtxluhgwrphhw t :75lvhlwkhuwzrru t :75w&.zklfkhyhulvjuhdwhu 32:(5'2:1prghlvhqwhuhgzkhq&.(lvuhjlvwhuhgorzfrlqflghq wzlwkdq123ru'(6(/(&7frppdqg&.(lvqrwdoorzhgwrjr/2: gxulqjd02'( 5(*,67(5ru(;7(1'('02'(5(*,67(5frppdqgwlphruzklohd5($ 'ru:5,7(rshudwlrqlvlqsurjuh vv,i32:(5'2:1rffxuvzkhq dooedqnv duhlgohwklvprghlvuhihuuhgwrdv35(&+$5*(32:(5'2:1,i 32:(5'2:1rffxuvzkhqwkhuhlvdurzdfwlyhlqdq\edqnwklv prghlvuhihuuhgwrdv $&7,9(32:(5'2:1(qwhulqj32:(5'2:1ghdfwlydwhvwkhlqsxwdq grxwsxwexiihuvh[foxglqj&.&.?2'7dqg&.()rupd[lpxps rzhuvdylqjv wkh'//lviur]hqgxulqj35(&+$5* (32:(5'2:1([lwlqj$&7,9(3 2:(5'2:1uhtxluhvwkhghylfhwrehdwvdphyrowdjhdqgiuhtxhq f\dvzkhqlw hqwhuhg32:(5'2:1([lwlqj35(&+$5*(32:(5'2:1uhtxluhvwkhg hylfhwrehdwwkhvdphyrowdjhdvzkhqlwhqwhuhg32:(5'2:1 krzhyhu wkhforfniuhtxhqf\lvdoorzhgwrfkdqjh 7khpd[lpxpgxudwlrqiruhlwkhu$&7,9(ru35(&+$5*(32:(5'2:1 lvolplwhge\wkh5()5(6+uhtxluhphqwvriwkhghylfhv t 5)&0$;7khplqlpxp gxudwlrqiru32:(5'2:1hqwu\dqgh[lwlvolplwhge\wkh t &.(0,1sdudphwhu7khiroorzlqjpxvwehpdlqwdlqhgzklohlq 32:(5'2:1prgh&.( /2:dvwdeohforfnvljqdodvwdeohsrzhuvxsso\vljqdodwwkh lqsxwvriwkh''5l02'$oorwkhulqsxwvljqdovduhv'rquw&d uhwh[fhsw2'7 7kh32:(5'2:1vwdwhlvv\qfkurqrxvo\h[lwhgzkhq&.(lvuhjlvw huhg+,*+lqfrqmxqfwlrqzlwkd123ru'(6(/(&7frppdqg power down mode
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 95 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ck ck# command nop nop nop address cke dq dm dqs, dqs# valid t ch t cl enter power-down mode 6 exit power-down mode dont care t cke (min) 2 t cke (min) 2 valid valid 1 valid t xp 3 , t xard 4 t xards 5 valid valid t is t ih t ih t1 t2 t3 t4 t5 t6 t7 t8 t ck notes: 1. if this command is a precharge (or if the device is already in the idle state), then the power-down mode shown is precharge power-down. if this command is an activate (or if at least one row is already active), then the power-down mode shown is active power- down. 2. t cke (min) of three clocks means cke must be registered on three consecutive positive clock edges. cke must remain at the valid input level the entire time it takes to achieve the three clocks of registration. thus, after any cke transition, cke may not transition from its valid level during the time period of t is + 2 t ck + t ih. cke must not transition during its t is and t ih window. 3. t xp timing is used for exit precharge power-down and active power-down to any non- read command. 4. t xard timing is used for exit active power-down to read command if fast exit is selec- ted via mr (bit 12 = 0). 5. t xards timing is used for exit active power-down to read command if slow exit is selec- ted via mr (bit 12 = 1). 6. no column accesses are allowed to be in progress at the time power-down is entered. if the dll was not in a locked state when cke went low, the dll must be reset after exiting power-down mode for proper read operation. f igure 62 - p ower -d own
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 96 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product current state power-down self refresh bank(s) active all banks active t able 41: t ruth t able - cke action (n) notes 0dlqwdlq32:(5'2:1 32:(5'2:1h[lw 0dlqwdlq6(/)5()5(6+ self-refresh exit $fwlyh32:(5'2:1hqwu\ 35(&+$5*(32:(5'2:1hqwu\ 6(/)5()5(6+hqwu\ 1-6 command (n) cs\, ras\, cas\, we\ ; '(6(/(&725123 ; '(6(/(&725123 '(6(/(&725123 '(6(/(&725123 refresh l h l h l l l h l l l l h h h h cke curr. cycle (n) prev. cycle (n-1) 6krzqlq7deoh 9dolg frppdqgv iru 32:(5'2:1 (qwu\ dqg ([lw duh 123 dqg '(6(/(&72qo\ 2q 6(/) 5()5(6+ ([lw '(6(/(&7 ru 123 frppdqgv pxvw eh lvvxhgrqhyhu\forfnhgjhrffxuulqjgxulqjwkh t ;615shulrg5($' frppdqgvpd\ehlvvxhgrqo\diwhu t ;65'forfnvlvvdwlvilhg 9dolgfrppdqgviru6(/)5()5(6+([lwduh123dqg'(6(/(&7 rqo\ 32:(5'2:1dqg6(/)5()5(6+fdqqrwehhqwhuhgzkloh5($' ru:5,7(rshudwlrqv/2$'02'(ru35(&+$5*(rshudwlrqvduh lqsurjuhvv6hh6(/)5()5(6+irudolvwriuhvwulfwlrqv 0lqlpxp&.(+,*+wlphlv t cke=3 x t &.0lqlpxp&.(/2:wlphlv t cke = 3 x t &.7klvuhtxluhvdplqlpxpriforfnf\fohvriuhjlvwud - wlrq 6(/)5()5(6+prghfdqrqo\ehhqwhuhgiurpwkh$//%$1.6lg oh vwdwh 0xvwehdohjdofrppdqgdvghilqhglq7deoh 127(6 &.(qlvwkhorjlfvwdwhri&.(dwforfnhgjhq&.(q zdvwkhvwdwh ri&.(dwwkhsuhylrxvforfnhgjh &xuuhqwvwdwhlvwkhvwdwhriwkh''56'5$0lpphgldwho\sul ruwrforfn hgjhq &rppdqgqlvwkhfrppdqguhjlvwhuhgdwforfnhgjhqdqgd fwlrqq lvduhvxowrifrppdqgq 7khvwdwhri2'7grhvqrwdiihfwwkhvwdwhvghvfulehglqwkl vwdeoh7kh 2'7ixqfwlrqlvqrwdydlodeohgxulqj6(/)5()5(6+ 32:(5'2:1prghvgrqrwshuirupdq\5()5(6+rshudwlrqv7kh gxudwlrqri32:(5'2:1prghlvwkhuhiruholplwhge\wkh5()5(6+ uhtxluhphqwv v;w phdqv v'21u7 &$5(w lqfoxglqj iordwlqj durxqg 9 ref lq 6(/) 5()5(6+dqg32:(5'2:1+rzhyhu2'7pxvwehgulyhq+,*+ ru/2:lq32:(5'2:1liwkh2'7ixqfwlrqlvhqdeohgyldwkh(05 h[whqghgprghuhjlvwhu $oovwdwhvdqgvhtxhqfhvqrwvkrzqduhloohjdoruuhvhuyhgx qohvvh[solf - lwo\ghvfulehghovhzkhuhlqwklvgrfxphqw
d o c k c k # command dq dqs, dqs# rl = 3 t0 t1 t2 don t care t ransitioning data n op n op t3 t4 t5 va l id t6 t7 t c k e ( m in) address a 10 n op c k e read va l id p ower-down 2 or se l f refres h entr y n op 1 va l id d o d o d o notes: 1 .in t h e examp l e s h own, read burst c omp l etes at t5; ear l iest power-down or se l f refres h entr y is at t6 . 2 . p ower-down or se l f refres h entr y ma y o cc ur after t h e read burst c omp l etes. ck ck# command dq dqs, dqs# rl = 3 t0 t1 t2 dont care transitioning data nop nop t3 t4 t 5 valid valid t6 t 7 t cke (min) address a10 nop cke read valid power-down or self refresh 2 entry nop 1 do do do do notes: 1. in the example shown, read burst completes at t5; earliest power-down or self refresh entry is at t6. 2. power-down or self refresh entry may occur after the read burst completes. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 63 - read- to -p ower -d own or s elf r efresh e ntry f igure 64 - read with a uto p recharge - to -p ower -d own or s elf r efresh e ntry
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ck ck# command dq dqs, dqs# wl = 3 t0 t1 t2 dont care transitioning data nop nop do t3 t4 t5 valid valid t6 valid t7 t8 t cke (min) address a10 nop write valid power-down or self refresh entry 1 t wtr nop 1 do do do cke note: 1. power-down or self refresh entry may occur after the write burst completes. f igure 65 - write- to -p ower -d own or s elf r efresh e ntry ck ck# command dq dqs, dqs# rl = 3 t0 t1 t2 dont care transitioning data nop nop t3 t4 t 5 valid valid t6 t 7 t cke (min) address a10 nop cke read valid power-down or self refresh 2 entry nop 1 do do do do notes: 1. in the example shown, read burst completes at t5; earliest power-down or self refresh entry is at t6. 2. power-down or self refresh entry may occur after the read burst completes. f igure 66 - write with a uto p recharge - to -p ower -d own or s elf r efresh e ntry
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 99 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ck ck# command dont care t0 t1 valid refresh t2 t3 t cke (min) cke power-down 1 entry 1 x t ck nop note: 1. the earliest precharge power-down entry may occur is at t2, which is 1 t ck after the refresh command. precharge power-down entry occurs prior to t rfc (min) being satisfied. f igure 67 - refresh c ommand - to -p ower -d own e ntry c k c k # command don t care t0 t1 va l id ac t t2 n op t3 t c k e ( m in) c k e p ower-down 1 entr y 1 t c k address valid note: 1. the earliest active power-down entry may occur is at t2, which is 1 t ck after the activate command. active power-down entry occurs prior to t rcd (min) being satisfied. f igure 68 - activate c ommand - to -p ower -d own e ntry
ck ck# command dont care t0 t1 valid pre t2 nop t3 t cke (min) cke power-down 1 entry 1 x t ck address a10 valid all banks vs single bank note: 1. the earliest precharge power-down entry may occur is at t2, which is 1 t ck after the precharge command. precharge power-down entry occurs prior to t rp (min) being satisfied. logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 100 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 69 - precharge c ommand - to -p ower -d own e ntry
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 101 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product ck ck# command dont c t0 t1 valid lm t2 nop t3 t4 t cke (min) cke power-down 3 entry t mrd address valid 1 t rp 2 nop notes: 1. valid address for lm command includes mr, emr, emr(2), and emr(3) registers. 2. all banks must be in the precharged state and t rp met prior to issuing lm command. 3. the earliest precharge power-down entry is at t3, which is after t mrd is satisfied. f igure 70 - load mode c ommand - to -p ower -d own e ntry
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 102 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product :khqwkh''5l02'ghylfhlvlq35(&+$5*(32:(5'2:1prgh2'7 pxvwehwxuqhgriidqg&.(pxvwehdwdorjlf/2:ohyho$plql pxpriwzr gliihuhqwldoforfnf\fohvpxvwsdvvdiwhu&.(jrhv/2:ehiruhf orfniuhtxhqf\pd\fkdqjh7khghylfhlqsxwforfniuhtxhqf\lv doorzhgwrfkdqjhrqo\zlwklq plqlpxpdqgpd[lpxprshudwlqjiuhtxhqflhvvshflilhgiruwkhsdu wlfxoduvshhgjudgh'xulqjlqsxworfniuhtxhqf\fkdqjh2'7dq g&.(pxvwehkhogvwdeoh /2:ohyhov:khqwkhlqsxwforfniuhtxhqf\lvfkdqjhgqhzvwde ohforfnvpxvwehsurylghgwrwkhghylfhehiruh35(&+$5*(32:(5 '2:1pd\ehh[lwhg dqg'//pxvwehuhvhwyld05diwhu35(&+$5*(32:(5'2:1h[lw' hshqglqjrqwkhqhzforfniuhtxhqf\dgglwlrqdo/0frppdqgvplj kwehuhtxluhg wrdgmxvwwkh&/:5$/dqgvriruwk 'hshqglqjrqwkhqhzforfniuhtxhqf\dqgdgglwlrqdo/0frppdqg pljkwehuhtxluhgwrdssursuldwho\vhwwkh:50505dqg05 'xulqjwkh'// uhorfnshulrgrif\fohv2'7pxvwuhpdlqrii$iwhuwkh'// /rfnwlphwkh''5lvuhdg\wrrshudwhzlwkdqhzforfniuhtx hqf\ precharge power down clock frequency change ck ck# command valid 4 nop address cke dq dm dqs, dqs# nop t ck enter precharge power-down mode exit precharge power-down mode t0 t1 t3 ta0 t2 dont care valid t cke (min) 3 t xp lm dll reset valid valid nop t ch t cl ta1 ta2 tb0 ta3 2 x t ck (min) 1 1 x t ck (min) 2 t ch t cl t ck odt 200 x t ck nop ta4 previous clock frequency new clock frequency frequency change indicates a break in time scale high-z high-z t cke (min) 3 notes: 1. a minimum of 2 t ck is required after entering precharge power-down prior to changing clock frequencies. 2. when the new clock frequency has changed and is stable, a minimum of 1 t ck is required prior to exiting precharge power-down. f igure 71 - i nput c lock f requency c hange d uring p recharge p ower -d own m ode
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 103 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 7kh''5dssolfdwlrqvpd\irufhd5(6(7vwdwhwrwkhghylfhdq\ wlphgxulqjqrupdorshudwlrq,idqdssolfdwlrqrufrqwuroeorf ngluhfwvwkh''5ghylfhru duud\wrhqwhu5(6(7frqglwlrq&.(lvxvhgwrhqvxuhwkhghylf huhvxphvqrupdorshudwlrqdiwhuuhlqlwldol]dwlrq$oogdwdzl ooehorvwgxulqjd5(6(7frqglwlrq krzhyhuwkh''5l02'zloofrqwlqxhwrrshudwhsurshuo\liwkh iroorzlqjfrqglwlrqvrxwolqhglqwklvvhfwlrqduhvdwlvilhg 7kh5(6(7frqglwlrqghilqhgkhuhdvvxphvdoovxsso\yrowdjhvd oovxsso\yrowdjhvdqg9 ref duhvwdeohdqgphhwdoo'&vshflilfdwlrqjxlgholqhvsulruwr gxulqjdqgdiwhuwkh5(6(7rshudwlrq$oorwkhulqsxwvriwkhg hylfhduhdv'rquw&duhwgxulqj5(6(7zlwkwkhh[fhswlrqri&.( ,i&.(gursv/2:dv\qfkurqrxvo\gxulqjdq\ydolgrshudwlrqlq foxglqjd5($'ru:5,7(exuvwwkhphpru\frqwuroohupxvwvdwlv i\wkhwlplqjsdudphwhu t '(/$<ehiruhwxuqlqjriiwkhforfnv6wdeohforfnvpxvwh[lvw dwwkh&.&.?lqsxwvriwkh'5$0 ehiruh&.(lvgulyhq+,*+dw zklfkwlphwkhqrupdolqlwldo - l]dwlrqvhtxhqfhpxvwrffxu7kh''5ghylfhlvqrzuhdg\iruq rupdorshudwlrqdiwhuwkhlqlwldol]dwlrqvhtxhqfh)ljxuhvk rzvwkhsurshuvhtxhqfhiru d5(6(7rshudwlrq reset
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product cke r tt bank address high-z dm 3 dqs 3 high-z address a10 ck ck# t cl command nop 2 pre all banks ta0 dont care transitioning data t rpa t cl t ck odt dq 3 high-z t = 400ns (min) tb0 read nop 2 t0 t1 t2 col n bank a t delay 1 do do read nop 2 col n bank b high-z high-z unknown r tt on system reset t3 t4 t5 start of normal 5 initialization sequence nop 2 indicates a break in time scale 4 t cke (min) do notes: 1. vdd, vddl, vddq, vtt, and vref must be valid at all times. 2. either nop or deselect command may be applied. 3. dm represents dm for x4/x8 configuration and udm, ldm for x16 configuration. dqs represents dqs, dqs#, udqs, udqs#, ldqs, ldqs#, rdqs, and rdqs# for the appropri- ate configuration (x4, x8, x16). 4. in certain cases where a read cycle is interrupted, cke going high may result in the completion of the burst. 5. initialization timing is shown in figure 35. f igure 72 - reset f unction
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 105 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product 2qfhdqvghod\ t 02'kdvehhqvdwlvilhgdqgdiwhuwkh2'7ixqfwlrqkdvehhqhq deohgyldwkh(05/2$'02'(frppdqg2'7fdqehdffhvvhgxqghu wzrwlplqjfdwhjrulhv2'7zloorshudwhhlwkhulqv\qfkurqrxvp rghrudv\qfkurqrxvprghghshqglqjrqwkhvwdwhri&.(2'7fd qvzlwfkdq\wlphh[fhsw gxulqjvhoi5()5(6+prghdqgdihzforfnvdiwhuehlqjhqdeohgy ldwkh(05dvvkrzqlq)ljxuh 7khuhduhwzrwlplqjfdwhjrulhviru2'7785121dqg78512)) 'xulqjdfwlyhprgh&.(+,*+dqgidvwh[lw32:(5'2:1prghdq \urzridq\edqn rshq&.(/2:05> @ t $21' t $21 t $2)'dqg t $2)wlplqjsdudphwhuvduhdssolhgdvvkrzqlq)ljxuh 'xulqjvorzh[lw32:(5'2:1prghdqg35(&+$5*(32:(5'2:1prgh w$213'dqgw$2)3'wlplqjsdudphwhuvduhdssolhgdvvkrzqlq) ljxuh 2'7wxuqriiwlplqjsulruwrhqwhulqjdq\32:(5'2:1prghlv ghwhuplqhge\wkhsdudphwhu t $13'0,1dvvkrzqlq)ljxuh$wvwdwh7 2 wkh2'7 +,*+vljqdovdwlvilhvw$13'0,1sulruwrhqwhulqj32:(5'2:1p rghdw7 5 :khq t $13'0,1lvvdwlvilhg t $2)'dqg t $2)wlplqjsdudphwhuvdsso\ )ljxuhdovrvkrzvwkhh[dpsohzkhuh t $13'0,1lv127vdwlvilhgehfdxvh2'7+,*+grhvqrwrffxuxqw lovwdwh7 3 :khq t $13'0,1lv127vdwlvilhg t $213'wlplqjsdudphwhuvdsso\ 2'7wxuqrqwlplqjsulruwrhqwhulqjdq\32:(5'2:1prghlvg hwhuplqhge\wkhsdudphwhu t $13'0,1dvvkrzqlq)ljxuh$wvwdwh7 2 wkh2'7 +,*+vljqdovdwlvilhv t $13'0,1sulruwrhqwhulqj32:(5'2:1prghdw7 5 :khq t $13'0,1lvvdwlvilhg t $2)'dqg t $2)wlplqjsdudphwhuvdsso\ )ljxuhdovrvkrzvwkhh[dpsohzkhuh t $13'0,1lv127vdwlvilhgehfdxvh2'7+,*+grhvqrwrffxuxqwl ovwdwh7 3 :khq t $13'0,1lv127vdwlvilhg t $213'wlplqjsdudphwhuvdsso\ 2'7wxuqriiwlplqjdiwhuh[lwlqjdq\32:(5'2:1prghlvghwhup lqhge\wkhsdudphwhu t $;3'0,1dvvkrzqlq)ljxuh$wvwdwh7d 1 wkh2'7/2: vljqdovdwlvilhv t $;3'0,1diwhuh[lwlqj32:(5'2:1prghdwvwdw7 1 :khq t $;3'0,1lvvdwlvilhg t $23'dqg t $2)wlplqjsdudphwhuvdsso\)ljxuh dovrvkrzvwkhh[dpsohzkhuh t $;3'0,1lv127vdwlvilhgehfdxvh2'7/2:rffxuvdwvwdwh7d 0 :khq t $;3'0,1lv127vdwlvilhg t $2)3'wlplqj sdudphwhuvdsso\ 2'7wxuqrqwlplqjdiwhuh[lwlqjhlwkhuvorzh[lw32:(5'2:1pr ghru35(&+$5*(32:(5'2:1prghlvghwhuplqhge\wkhsdudphwhu t $;3'0,1 dvvkrzqlq)ljxuh$wvwdwh7d 1 wkh2'7+,*+vljqdovdwlvilhv t $;3'0,1diwhuh[lwlqj32:(5'2:1prghdwvwdwh7 1 :khq t $;3'0,1lvvdwlvilhg t $21'dqg t $21wlplqjsdudphwhuvdsso\)ljxuhdovrvkrzvwkhh[dpsohz khuh t $;3'0,1lv127vdwlvilhgehfdxvh2'7+,*+rffxuvdw7d 0 :khq t $;3'0,1lv127vdwlvilhg t $213'wlplqjsdudphwhuvdsso\ odt timing t anpd (3 t cks) first cke latched low t axpd (8 t cks) first cke latched high synchronous applicable modes applicable timing parameters synchronous synchronous or asynchronous any mode except self refresh mode any mode except self refresh mode active power-down fast (synchronous) active power-down slow (asynchronous) precharge power-down (asynchronous) t aond/ t aofd (synchronous) t aonpd/ t aofpd (asynchronous) t aond/ t aofd t aond/ t aofd cke f igure 73 - odt t iming for e ntering and e xiting p ower -d own m ode
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 106 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 74 - t iming for mrs c ommand to odt u pdate d elay ck# ck odt 2 internal r tt setting emrs 1 nop nop nop nop nop command t mod old setting undefined new setting 0ns 2 t is t aofd indicates a break in time scale t0 ta0 ta1 ta2 ta3 ta4 ta5 notes: 1. the lm command is directed to the mode register, which updates the information in emr (a6, a2), that is, r tt (nominal). 2. to prevent any impedance glitch on the channel, the following conditions must be met: t aofd must be met before issuing the lm command; odt must remain low for the entire duration of the t mod window until t mod is met. 'xulqjqrupdorshudwlrqwkhydoxhriwkhhiihfwlyhwhuplqdwlrq uhvlvwdqfhfdqehfkdqjhgzlwkdq(056vhwfrppdqg t 02'0$;xsgdwhvwkh5 77 vhwwlqj mrs command to odt update delay
t1 t0 t2 t3 t4 t5 t6 valid valid valid valid valid valid valid ck# ck odt r tt t aof (max) t aon (min) t aond address t aofd t aon (max) t aof (min) valid valid valid valid valid valid valid command t ch t cl dont care r tt unknown r tt on t ck cke logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 75 - odt t iming for a ctive or f ast -e xit p ower -d own m ode
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 76 - odt t iming for s low -e xit or p recharge p ower -d own m odes dont car e t1 t0 t2 t3 t4 t5 t6 valid valid valid valid valid valid valid ck# ck cke odt address valid valid valid valid valid valid valid command t c h t cl t aonpd (min) t aonpd (max) t aofpd (min) t aofpd (max) transitioning r tt t7 valid valid r tt unknown r tt on t ck r tt
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 109 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 77 - odt t urn -o ff t imings w hen e ntering p ower -d own m ode t1 t0 t2 t3 t4 t5 t6 nop nop nop nop nop nop nop ck# ck command cke odt r tt t aof (min) t aof (max) t aofd odt r tt t aofpd (min) dont care transitioning r tt r tt unknown r tt on t anpd (min) t aofpd (max)
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 110 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 78 - odt t urn -o n t iming w hen e ntering p ower -d own m ode t1 t0 t2 t3 t4 t5 t6 nop nop nop nop nop nop nop ck# ck r tt t aon (min) t aon (max) odt r tt t aonpd (min) t aonpd (max) dont care transitioning r tt r tt unknown r tt on odt command t aond cke t anpd (min)
logic devices incorporated www.logicdevices.com september 16, 2013 lds-l9d2xxmxxsbg5 rev e 111 2 - 5.0 gb, ddr2, 32 m [64 m] x 64/72/80 integrated memory module (imod) l9d232m64sbg5 l9d232m72sbg5 L9D232M80SBG5 l9d264m64sbg5 l9d264m72sbg5 l9d264m80sbg5 high performance, integrated memory module product f igure 79 - odt t urn -o ff t iming w hen e xiting p ower -d own m ode transitioning r tt t1 t0 t2 t3 t4 ta0 ta1 nop nop nop nop nop nop nop ck# ck cke t axpd (min) odt r tt t aof (max) odt r tt t aofpd (min) t aofpd (max) command ta2 ta3 ta4 ta5 nop nop nop nop dont care r tt unknown t aof (min) indicates a break in time scale r tt on t cke (min) t aofd
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