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1 white electronic designs january 2006 rev. 3 white electronic designs corporation ? (602) 437-1520 ? www.wedc.com w3eg2128m72afsr-d3 -ad3 final* features double-data-rate architecture ddr266, ddr333, and ddr400 bi-directional data strobes (dqs) phase-lock loop (pll) clock driver to reduce loading differential clock inputs (ck & ck#) ecc error detection and correction programmable read latency 2, 2.5 (clock) programmable burst length (2, 4,8) programmable burst type (sequential & interleave) edge aligned data output, center aligned data input. auto and self refresh serial presence detect dual rank rohs compliant products power supply: ? v cc = v ccq = +2.5v 0.2 (133 and 166mhz) ? v cc = v ccq = +2.6v 0.1 (200mhz) jedec standard 184 pin dimm package ? package height options: low-pro? le: 30.48mm (1.20") max note: consult factory for availability of: ? vendor source control options ? industrial temperature option description the w3eg2128m72afsr is a 2x128mx72 double data rate sdram memory module based on 512mb ddr sdram components. the module consists of thirtysix 128mx4 components, in fbga packages mounted on a 184 pin fr4 substrate. synchronous design allows precise cycle control with the use of system clock. data i/o transactions are possible on both edges and burst lengths allow the same device to be useful for a variety of high bandwidth, high performance memory system applications. * this product is subject to change without notice. 2gb C 2x128mx72 ddr sdram registered ecc, w/pll, fbga operating frequencies ddr400@cl=3 ddr333@cl=2.5 ddr266@cl=2 ddr266@cl=2 ddr266@cl=2.5 clock speed 200mhz 166mhz 133mhz 133mhz 133mhz cl-t rcd -t rp 3-3-3 2.5-3-3 2-2-2 2-3-3 2.5-3-3
w3eg2128m72afsr-d3 -ad3 2 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com pin symbol pin symbol pin symbol pin symbol 1v ref 47 dqs8 93 v ss 139 v ss 2 dq0 48 a0 94 dq4 140 dqs17 3v ss 49 cb2 95 dq5 141 a10 4 dq1 50 v ss 96 v cc 142 cb6 5 dqs0 51 cb3 97 dqs9 143 v cc 6 dq2 52 ba1 98 dq6 144 cb7 7v cc 53 dq32 99 dq7 145 v ss 8dq354v cc 100 v ss 146 dq36 9 nc 55 dq33 101 nc 147 dq37 10 reset# 56 dqs4 102 nc 148 v cc 11 v ss 57 dq34 103 nc 149 dqs13 12 dq8 58 v ss 104 v cc 150 dq38 13 dq9 59 ba0 105 dq12 151 dq39 14 dqs1 60 dq35 106 dq13 152 v ss 15 v cc 61 dq40 107 dqs10 153 dq44 16 nc 62 v cc 108 v cc 154 ras# 17 nc 63 we# 109 dq14 155 dq45 18 v ss 64 dq41 110 dq15 156 v cc 19 dq10 65 cas# 111 cke1 157 cs0# 20 dq11 66 v ss 112 v cc 158 cs1# 21 cke0 67 dqs5 113 nc 159 dqs14 22 v cc 68 dq42 114 dq20 160 v ss 23 dq16 69 dq43 115 a12 161 dq46 24 dq17 70 v cc 116 v ss 162 dq47 25 dqs2 71 nc 117 dq21 163 nc 26 v ss 72 dq48 118 a11 164 v cc 27 a9 73 dq49 119 dqs11 165 dq52 28 dq18 74 v ss 120 v cc 166 dq53 29 a7 75 nc 121 dq22 167 nc 30 v cc 76 nc 122 a8 168 v cc 31 dq19 77 v cc 123 dq23 169 dqs15 32 a5 78 dqs6 124 v ss 170 dq54 33 dq24 79 dq50 125 a6 171 dq55 34 v ss 80 dq51 126 dq28 172 v cc 35 dq25 81 v ss 127 dq29 173 nc 36 dqs3 82 v ccid 128 v cc 174 dq60 37 a4 83 dq56 129 dqs12 175 dq61 38 v cc 84 dq57 130 a3 176 v ss 39 dq26 85 v cc 131 dq30 177 dqs16 40 dq27 86 dqs7 132 v ss 178 dq62 41 a2 87 dq58 133 dq31 179 dq63 42 v ss 88 dq59 134 cb4 180 v cc 43 a1 89 v ss 135 cb5 181 sa0 44 cb0 90 nc 136 v cc 182 sa1 45 cb1 91 sda 137 ck0 183 sa2 46 v cc 92 scl 138 ck0# 184 v ccspd pin configuration a0-a12 address input (multiplexed) ba0-ba1 bank select address dq0-dq63 data input/output cb0-cb7 check bits dqs0-dqs17 data strobe input/output ck0 clock input ck0# clock input cke0, cke1 clock enable input cs0#, cs1# chip select input ras# row address strobe cas# column address strobe we# write enable v cc power supply v ss ground v ref power supply for reference v ccspd serial eeprom power supply sda serial data i/o scl serial clock sa0-sa2 address in eeprom v ccid v cc indenti? cation flag nc no connect reset# reset enable pin names
w3eg2128m72afsr-d3 -ad3 3 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com functional block diagram dqs2 dqs1 dqs0 dqs7 dqs6 dqs5 dqs4 dqs3 dqs12 dq60 dq56 i/o 3 dq59 dq58 dq57 i/o 1 i/o 0 i/o 2 dq63 dq62 dq61 dq51 dq50 dq49 dq48 dq43 dq42 dq41 dq40 dqs dm cs# dqs dm cs# dqs dm cs# i/o 1 i/o 0 i/o 3 i/o 2 i/o 1 i/o 0 i/o 3 i/o 2 dq35 dq34 dq33 dq32 dq27 dq26 dq25 dq24 dqs dm cs# dqs dm cs# i/o 1 i/o 0 i/o 3 i/o 2 i/o 1 i/o 0 i/o 3 i/o 2 dqs14 dqs15 dqs16 dq55 dq54 dq53 dq52 dq47 dq46 dq45 dq44 dqs13 dq39 dq38 dq37 dq36 dq31 dq30 dq29 dq28 i/o 3 i/o 2 i/o 0 i/o 1 dm dm dm dm dm i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 dqs dqs dqs i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 dqs dqs dq2 i/o 1 dq18 dq16 dq17 dq19 dq11 dq10 dq9 dq8 dq3 dqs dm cs# dqs dm cs# i/o 0 i/o 1 i/o 0 i/o 3 i/o 2 i/o 1 i/o 0 i/o 3 i/o 2 dq1 dq0 cs# dm dqs i/o 2 i/o 3 dq6 dqs10 dqs11 dq7 dq20 dq21 dq22 dq23 dq15 dq14 dq13 dq12 dq1 dq2 dqs9 dq5 dq4 dm dm dm cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# cs# i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 0 dqs dqs i/o 3 i/o 2 dqs rcs0# rcs1# i/o 3 i/o 2 dqs dm cs# i/o 0 i/o 1 cs# dm dqs cs# dm dqs cs# dm dqs cs# dm dqs cs# dm dqs cs# dm dqs cs# dm dqs i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 3 i/o 0 i/o 1 i/o 2 i/o 0 i/o 1 i/o 3 i/o 2 i/o 0 i/o 1 i/o 3 dm dm dm dm dm dm dm dm dqs i/o 1 i/o 0 i/o 2 i/o 3 i/o 2 i/o 1 i/o 0 dqs i/o 3 dqs i/o 1 i/o 0 i/o 3 i/o 2 dqs i/o 1 i/o 0 i/o 3 i/o 2 dqs i/o 3 i/o 1 i/o 0 i/o 2 i/o 1 i/o 0 i/o 3 i/o 2 dqs dqs i/o 1 i/o 0 i/o 3 i/o 2 dqs i/o 2 i/o 3 i/o 1 i/o 0 v ss dqs8 cs# dm dqs i/o 2 i/o 0 i/o 1 cb1 cb2 cb3 i/o 3 cb0 i/o 3 i/o 1 i/o 0 i/o 2 dqs dm cs# dqs17 i/o 3 i/o 2 i/o 0 i/o 1 dqs dqs dm i/o 1 i/o 0 i/o 2 i/o 3 cb5 cb6 cb7 cb4 dm v ss v ref v cc /v cc q v ccspd ddr sdram spd/eeprom ddr sdram ddr sdram a0 sa0 wp scl a1 a2 sa1 sa2 sda serial pd pll ck0 ck0# register sdram rcs0# rras# ra0-ra12 rcke0 rcas# rba0,rba1 rcs1# reset# pck# pck a0-a12 we# cas# ras# ba0,ba1 cs0# cke0 r e i g e r t s rcke1 rwe# ba0,ba1: ddr sdrams a0-a12: ddr sdrams ras#: ddr sdrams cas#: ddr sdrams we#: ddr sdrams cke: ddr sdrams cke: ddr sdrams cs1# cke1 notes: 1. dq-to-i/o wiring is shown as recommended but may be changed. 2. dq/dqs/dm/cke/s relationships must be maintained as shown. note: all resistor values are 22? unless otherwise speci? ed.
w3eg2128m72afsr-d3 -ad3 4 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com parameter symbol value units voltage on any pin relative to v ss v in , v out -0.5 - 3.6 v voltage on v cc supply relative to v ss v cc , v ccq -1.0 - 3.6 v storage temperature t stg -55 - +150 c power dissipation p d 27 w short circuit current i 0s 50 ma note: ? permanent device damage may occur if absolute maximum ratings are exceeded. ? functional operation should be restricted to recommended operating condition. ? exposure to higher than recommended voltage for extended periods of time could affect device reliability absolute maximum ratings parameter symbol min max unit supply voltage * v cc 2.3 2.7 v supply voltage * v ccq 2.3 2.7 v reference voltage v ref .49 x v ccq .51 x v ccq v termination voltage v tt v ref - .04 v ref + .04 v input high voltage v ih v ref + 0.15 v ccq + 0.3 v input low voltage v il -0.3 v ref - 0.15 v output high current i oh 16.8 ma output low current i ol 16.8 ma note: * ddr400 v cc = v ccq = 2.6v 0.1v. parameter symbol max unit input capacitance (a0-a12) c in1 5.5 pf input capacitance (ras#, cas#, we#) c in2 5.5 pf input capacitance (cke0) c in3 5.5 pf input capacitance (ck0, ck0#) c in4 5.5 pf input capacitance (cs0#) c in5 5.5 pf input capacitance (dqm0-dqm8) c in6 13.0 pf input capacitance (ba0-ba1) c in7 5.5 pf data input/output capacitance (dq0-dq63)(dqs) c out 13.0 pf data input/output capacitance (cb0-cb7) c out 13.0 pf note: ? these parameters serve to support both samsung and micron components based modules. dc characteristics 0c t a 70c, v cc = 2.5v 0.2v capacitance ta = 25c, f = 1mhz, v cc = 2.5v 0.2v
w3eg2128m72afsr-d3 -ad3 5 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com i cc specifications and test conditions recommended operating conditions, 0c t a +70c, v ccq = 2.5v 0.2v, v cc = 2.5v 0.2v. includes ddr sdram components only parameter symbol rank 1 conditions ddr400@cl=3 max ddr333@cl=2.5 max ddr266@cl=2, 2.5 max units rank 2 standby state operating current i cc0 one device bank; active - precharge; t rc = t rc (min); t ck = t ck (min); dq,dm and dqs inputs changing once per clock cycle; address and control inputs changing once every two cycles. 3870 2780 2790 ma i cc3n operating current i cc1 one device bank; active-read-precharge burst = 2; t rc = t rc (min); t ck = t ck (min); l out = 0ma; address and control inputs changing once per clock cycle. 4410 3780 3780 ma i cc3n precharge power- down standby current i cc2p all device banks idle; power-down mode; t ck = t ck (min); cke = (low) 180 180 180 rna i cc2p idle standby current i cc2f cs# = high; all device banks idle; t ck = t ck (min); cke = high; address and other control inputs changing once per clock cycle. v in = v ref for dq, dqs and dm. 1980 1620 1620 ma i cc2f active power-down standby current i cc3p one device bank active; power-down mode; t ck (min); cke = (low) 1620 1260 1260 ma i cc3p active standby current i cc3n cs# = high; cke = high; one device bank; active- precharge; t rc = t ras (max); t ck = t ck (min); dq, dm and dqs inputs changing twice per clock cycle; address and other control inputs changing once per clock cycle. 2160 1800 1800 ma i cc3n operating current i cc4r burst = 2; reads; continuous burst; one device bank active; address and control inputs changing once per clock cycle; t ck = t ck (min); l out = 0ma. 4500 3870 3870 ma i cc3n operating current i cc4w burst = 2; writes; continuous burst; one device bank active; address and control inputs changing once per clock cycle; t ck = t ck (min); dq,dm and dqs inputs changing once per clock cycle. 4590 4050 3690 rna i cc3n auto refresh current i cc5 t rc = t rc (min) 7290 6120 6120 ma i cc3n self refresh current i cc6 cke 0.2v 180 180 180 ma i cc6 operating current i cc 7a four bank interleaving reads (bl=4) with auto precharge with t rc =t rc (min); t ck =t ck (min); address and control inputs change only during active read or write commands. 9180 8190 8100 ma i cc3n note: ? these parameters serve to support both samsung and micron components based modules.
w3eg2128m72afsr-d3 -ad3 6 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com i cc1 : operating current : one bank 1. typical case : v cc =2.5v, t=25c 2. worst case : v cc =2.7v, t=10c 3. only one bank is accessed with t rc (min), burst mode, address and control inputs on nop edge are changing once per clock cycle. i out = 0ma 4. timing patterns : ? ddr200 (100 mhz, cl=2) : t ck= 10ns, cl2, bl=4, t rcd= 2*t ck , t ras= 5*t ck read : a0 n r0 n n p0 n a0 n - repeat the same timing with random address changing; 50% of data changing at every burst ? ddr266 (133mhz, cl=2.5) : t ck= 7.5ns, cl=2.5, bl=4, t rcd= 3*t ck , t rc= 9*t ck , t ras= 5*t ck read : a0 n n r0 n p0 n n n a0 n - repeat the same timing with random address changing; 50% of data changing at every burst ? ddr266 (133mhz, cl=2) : t ck =7.5ns, cl=2, bl=4, t rcd =3*t ck , t rc =9*t ck , t ras =5*t ck read : a0 n n r0 n p0 n n n a0 n - repeat the same timing with random address changing; 50% of data changing at every burst ? ddr333 (166mhz, cl=2.5) : t ck =6ns, bl=4, t rcd =10*t ck , t ras =7*t ck read : a0 n n r0 n p0 n n n a0 n - repeat the same timing with random address changing; 50% of data changing at every burst ? ddr400 (200mhz, cl=3) : t ck =5ns, bl=4, t rcd =15*t ck , t ras =7*t ck read : a0 n n r0 n p0 n n n a0 n - repeat the same timing with random address changing; 50% of data changing at every burst i cc7a : operating current : four banks 1. typical case : v cc =2.5v, t=25c 2. worst case : v cc =2.7v, t=10c 3. four banks are being interleaved with t rc (min), burst mode, address and control inputs on nop edge are not changing. iout=0ma 4. timing patterns : ? ddr200 (100 mhz, cl=2) : t ck =10ns, cl2, bl=4, t rrd =2*t ck , t rcd =3*t ck , read with autoprecharge read : a0 n a1 r0 a2 r1 a3 r2 a0 r3 a1 r0 repeat the same timing with random address changing; 100% of data changing at every burst ? ddr266 (133mhz, cl=2.5) : t ck =7.5ns, cl=2.5, bl=4, t rrd =3*t ck , t rcd =3*t ck read with autoprecharge read : a0 n a1 r0 a2 r1 a3 r2 n r3 a0 n a1 r0 - repeat the same timing with random address changing; 100% of data changing at every burst ? ddr266 (133mhz, cl=2) : t ck =7.5ns, cl2=2, bl=4, t rrd =2*t ck , t rcd =2*t ck read : a0 n a1 r0 a2 r1 a3 r2 n r3 a0 n a1 r0 - repeat the same timing with random address changing; 100% of data changing at every burst ? ddr333 (166mhz, cl=2.5) : t ck =6ns, bl=4, t rrd =3*t ck , t rcd =3*t ck , read with autoprecharge read : a0 n a1 r0 a2 r1 a3 r2 n r3 a0 n a1 r0 - repeat the same timing with random address changing; 100% of data changing at every burst ? ddr400 (200mhz, cl=3) : t ck =5ns, bl=4, t rrd =10*t ck , t rcd =15*t ck , read with autoprecharge read : a0 n a1 r0 a2 r1 a3 r2 n r3 a0 n a1 r0 - repeat the same timing with random address changing; 100% of data changing at every burst detailed test conditions for ddr sdram i cc1 & i cc7a legend: a = activate, r = read, w = write, p = precharge, n = nop a (0-3) = activate bank 0-3 r (0-3) = read bank 0-3
w3eg2128m72afsr-d3 -ad3 7 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com ddr sdram component electrical characteristics and recommended ac operating conditions ddr400: v cc = v ccq = +2.6v 0.1v; ddr333, 266: v cc = v ccq = +2.5v 0.2v ac characteristics 403 335 262 265 parameter symbol min max min max min max min max units notes access window of dqs from ck, ck# t ac -0.70 +0.70 -0.70 +0.70 -0.75 +0.75 -0.75 +0.75 ns ck high-level width t ch 0.45 0.55 0.45 0.55 0.45 0.55 0.45 0.55 t ck 16 ck low-level width t cl 0.45 0.55 0.45 0.55 0.45 0.55 0.45 0.55 t ck 16 clock cycle time cl=3 t ck (3) 5 7.5 6 13 7.5 13 7.5 13 ns 22 cl=2.5 t ck (2.5) 6 12 6 12 7.5 12 7.5 12 ns 22 cl=2 t ck (2) 7.5 12 7.5 12 7.5 12 10 12 ns 22 dq and dm input hold time relative to dqs t dh 0.40 0.45 0.5 0.5 ns 14,17 dq and dm input setup time relative to dqs t ds 0.40 0.45 0.5 0.5 ns 14,17 dq and dm input pulse width (for each input) t dipw 1.75 1.75 1.75 1.75 ns 17 access window of dqs from ck, ck# t dqsck -0.60 +0.60 -0.60 +0.60 -0.75 +0.75 -0.75 +0.75 ns dqs input high pulse width t dqsh 0.35 0.35 0.35 0.35 t ck dqs input low pulse width t dqsl 0.35 0.35 0.35 0.35 t ck dqs-dq skew, dqs to last dq valid, per group, per access t dqsq 0.40 0.45 0.5 0.5 ns 13,14 write command to ? rst dqs latching transition t dqss 0.72 1.28 0.75 1.25 0.75 1.25 0.75 1.25 t ck dqs falling edge to ck rising - setup time t dss 0.2 0.2 0.2 0.2 t ck dqs falling edge from ck rising - hold time t dsh 0.2 0.2 0.2 0.2 t ck half clock period t hp t ch , t cl t ch , t cl t ch , t cl t ch , t cl ns 18 data-out high-impedance window from ck, ck# t hz +0.70 +0.70 +0.75 +0.75 ns 8,19 data-out low-impedance window from ck, ck# t lz -0.70 -0.70 -0.75 -0.75 ns 8,20 address and control input hold time (slew rate >/ =.5v/ns) t ihf 0.60 0.75 0.90 0.90 ns 6 address and control input set-up time (slew rate >/ =.5v/ns) t isf 0.60 0.75 0.90 0.90 ns 6 address and control input hold time (slow slew rate) t ihs n/a 0.80 1 1 ns 6 address and control input setup time (slow slew rate) t iss n/a 0.80 1 1 ns 6 address and control input pulse width (for each input) t ipw 2.2 2.2 2.2 2.2 ns load mode register command cycle time t mrd 10 12 15 15 ns dq-dqs hold, dqs to ? rst dq to go non-valid, per access t qh t hp -t qhs t hp -t qhs t hp -t qhs t hp -t qhs ns 13,14 data hold skew factor t qhs 0.55 0.55 0.75 0.75 ns active to precharge command t ras 40 70,000 42 70,000 40 120,000 40 120,000 ns 15 active to read with auto precharge command t rap 15 15 15 15 ns note: ? these parameters serve to support both samsung and micron components based modules. continued on next page
w3eg2128m72afsr-d3 -ad3 8 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com ddr sdram component electrical characteristics and recommended ac operating conditions (continued) ddr400: v cc = v ccq = +2.6v 0.1v; ddr333, 266: v cc = v ccq = +2.5v 0.2v ac characteristics 403 335 262 265 parameter symbol min max min max min max min max units notes active to active/auto refresh command period t rc 55 60 60 60 ns auto refresh command period t rfc 70 72 75 75 ns 21 active to read or write delay t rcd 15 15 15 15 ns precharge command period t rp 15 15 15 15 ns dqs read preamble t rpre 0.9 1.1 0.9 1.1 0.9 1.1 0.9 1.1 t ck dqs read postamble t rpst 0.4 0.6 0.4 0.6 0.4 0.6 0.4 0.6 t ck active bank a to active bank b command t rrd 10 12 15 15 ns dqs write preamble t wpre 0.25 0.25 0.25 0.25 t ck dqs write preamble setup time t wpres 0000ns10,11 dqs write postamble t wpst 0.4 0.6 0.4 0.6 0.4 0.6 0.4 0.6 t ck 9 write recovery time t wr 15 15 15 15 ns internal write to read command delay t wtr 2111t ck data valid output window na t qh -t dqsq t qh -t dqsq t qh -t dqsq t qh -t dqsq ns 13 refresh to refresh command interval t refc 70.3 70.3 70.3 70.3 s 12 average periodic refresh interval t refi 7.8 7.8 7.8 7.8 s 12 terminating voltage delay to v cc t vtd 0000ns exit self refresh to non-read command t xsnr 70 75 75 75 ns exit self refresh to read command t xsrd 200 200 200 200 t ck note: ? these parameters serve to support both samsung and micron components based modules.
w3eg2128m72afsr-d3 -ad3 9 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com 11. it is recommended that dqs be valid (high or low) on or before the write command. the case shown (dqs going from high-z to logic low) applies when no writes were previously in progress on the bus. if a previous write was in progress, dqs could be high during this time, depending on t dqss . 12. the refresh period is 64ms. this equates to an average refresh rate of 7.8125s. however, an auto refresh command must be asserted at least once every 70.3s; burst refreshing or posting by the dram controller greater than eight refresh cycles is not allowed. 13. the valid data window is derived by achieving other speci? cations - t hp (t ck/2 ), t dqsq , and t qh (t qh = t hp - t qhs ). the data valid window derates directly proportional with the clock duty cycle and a practical data valid window can be derived. the clock is allowed a maximum duty cycled variation of 45/55. functionality is uncertain when operating beyond a 45/55 ratio. the data valid window derating curves are provided below for duty cycles ranging between 50/50 and 45/55. 14. referenced to each output group: x4 = dqs with dq0-dq3. 15. r eads and writes with auto precharge are not allowed to be issued until t ras (min) can be satis? ed prior to the internal precharge command being issued. 16. jedec speci? es ck and ck# input slew rate must be > 1v/ns (2v/ns differentially). 17. dq and dm input slew rates must not deviate from dqs by more than 10%. if the dq/dm/dqs slew rate is less than 0.5v/ns, timing must be derated: 50ps must be added to t ds and t dh for each 100mv/ns reduction in slew rate. if slew rates exceed 4v/ns, functionality is uncertain. 18. t hp min is the lesser of t cl min and t ch min actually applied to the device ck and ck# inputs, collectively during bank active. 19. t hz (max) will prevail over the t dqsck (max) + t rpst (max) condition. t lz (min) will prevail over t dqsck (min) + pre (max) condition. 20. for slew rates greater than 1v/ns the (lz) transition will start about 310ps earlier. 21. cke must be active (high) during the entire time a refresh command is executed. that is, from the time the auto refresh command is registered, cke must be active at each rising clock edge, until t rfc has been satis? ed. 22. w henever the operating frequency is altered, not including jitter, the dll is required to be reset. this is followed by 200 clock cycles (before read commands). notes 1. all voltages referenced to v ss 2. tests for ac timing, i cc , and electrical ac and dc characteristics may be conducted at normal reference / supply voltage levels, but the related speci? cations and device operations are guaranteed for the full voltage range speci? ed. 3. outputs are measured with equivalent load: 4. ac timing and i cc tests may use a v il -to-v ih swing of up to 1.5v in the test environment, but input timing is still referenced to v ref (or to the crossing point for ck/ck#), and parameter speci? cations are guaranteed for the speci? ed ac input levels under normal use conditions. the minimum slew rate for the input signals used to test the device is 1v/ns in the range between v il (ac) and v ih (ac). 5. the ac and dc input level speci? cations are de? ned in the sstl_ 2 standard (i.e., the receiver will effectively switch as a result of the signal crossing the ac input level, and will remain in that state as long as the signal does not ring back above [below] the dc input low [high] level). 6. for slew rates less than 1v/ns and greater than or equal to 0.5v/ ns. if the slew rate is less than 0.5v/ns, timing must be derated: t is has an additional 50ps per each 100mv/ns reduction in slew rate from the 500mv/ns. t ih has 0ps added, that is, it remains constant. if the slew rate exceeds 4.5v/ns, functionality is uncertain. for 335, slew rates must be greater than or equal to 0.5v/ns. 7. inputs are not recognized as valid until v ref stabilizes. exception: during the period before v ref stabilizes, cke 0.3 x v ccq is recognized as low. 8. t hz and t lz transitions occur in the same access time windows as valid data transitions. these parameters are not referenced to a speci? c voltage level, but specify when the device output is no longer driving (hz) and begins driving (lz). 9. the intent of the dont care state after completion of the postamble is the dqs-driven signal should either be high, low, or high-z, and that any signal transition within the input switching region must follow valid input requirements. that is, if dqs transitions high (above v ihdc (min) then it must not transition low (below v ihdc ) prior to t dqsh (min). 10. this is not a device limit. the device will operate with a negative value, but system performance could be degraded due to bus turnaround. output o u t p u t (v ( v out o u t ) reference r e f e r e n c e point p o i n t 50? 5 0 ? v tt t t 30pf 3 0 p f
w3eg2128m72afsr-d3 -ad3 10 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com ordering information for d3 part number speed/data rate cas latency t rcd t rp height* W3EG2128M72AFSR265D3XG 133mhz/266mb/s 2.5 3 3 30.48 (1.20") max notes: ? rohs compliant product. (g = rohs compliant) ? vendor speci? c part numbers are used to provide memory components source control. the place holder for this is shown as lo wer case x in the part numbers above and is to be replaced with the respective vendors code. consult factory for quali? ed sourcing options. (m = micron, s = samsung & consult f actory for others) ? consult factory for availability of industrial temperature (-40c to 85c) option ? in an effort to support our customers traceability and control requirements (which enables them to quickly identify compon ent speed grades used on modules in the ? eld); wedc has created a 26a module part number option. the w3eg2128m72afsr26ad3xg product part number meets all the requirements of the W3EG2128M72AFSR265D3XG product however it is built using 400mhz rated components. we recommend therefore that customers include both the 26a and 26 5 ? nal part numbers on their avl in order to support ? exibility of sourcing and to allow for the best module sourcing lead times. for those customers who wish to allow bot h sourcing options but only would like to include one product part number on their avl, wedc can accommodate. please consult factory for more details. low-profile d3 184-pin ddr dimm dimensions * all dimensions are in millimeters and (inches). 30.48 (1.2) max pin 1 17.78 (0.700) typ. 2.50 (0.098) d (2x) 2.30 (0.091) typ. 2.30 (0.091) typ. 6.35 (0.250) typ. 120.65 (4.750) 1.27 (0.050) typ. 1.02 (0.040) typ. 2.00 (0.079) r (4x) 0.90 (0.035) r pin 92 front view 133.20 (5.255) 64.77 (2.55) 49.53 (1.95) 10.00 (0.394) typ. back view pin 184 pin 93 1.37 (0.054) 3.81 (0.150) max 50) typ. 120.65 (4.75 90 (0.035) r ba 3.81 (0.150 ma x
w3eg2128m72afsr-d3 -ad3 11 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com ordering information for ad3 part number speed/data rate cas latency t rcd t rp height* w3eg2128m72afsr403ad3xg 200mhz/400mb/s 3 3 3 30.48 (1.20") max w3eg2128m72afsr335ad3xg 166mhz/333mb/s 2.5 3 3 30.48 (1.20") max w3eg2128m72afsr262ad3xg 133mhz/266mb/s 2 2 2 30.48 (1.20") max w3eg2128m72afsr263ad3xg 133mhz/266mb/s 2 3 3 30.48 (1.20") max w3eg2128m72afsr265ad3xg 133mhz/266mb/s 2.5 3 3 30.48 (1.20") max notes: ? rohs compliant products. (g = rohs compliant) ? vendor speci? c part numbers are used to provide memory components source control. the place holder for this is shown as lo wer case x in the part numbers above and is to be replaced with the respective vendors code. consult factory for quali? ed sourcing options. (m = micron, s = samsung & consult f actory for others) ? consult factory for availability of industrial temperature (-40c to 85c) option ? in an effort to support our customers traceability and control requirements (which enables them to quickly identify compon ent speed grades used on modules in the ? eld); wedc has created a 26a module part number option. the w3eg2128m72afsr26aad3xg product part number meets all the requirements of th e w3eg2128m72afsr265ad3xg product however it is built using 400mhz rated components. we recommend therefore that customers include both the 26a and 26 5 ? nal part numbers on their avl in order to support ? exibility of sourcing and to allow for the best module sourcing lead times. for those customers who wish to allow bot h sourcing options but only would like to include one product part number on their avl, wedc can accommodate. please consult factory for more details. low-profile ad3 184-pin ddr dimm dimensions * all dimensions are in millimeters and (inches). 30.48 (1.2) max pin 1 17.78 (0.700) typ. 2.50 (0.098) d (2x) 2.30 (0.091) typ. 2.30 (0.091) typ. 6.35 (0.250) typ. 120.65 (4.750) 1.27 (0.050) typ. 1.02 (0.040) typ. 2.00 (0.079) r (4x) 0.90 (0.035) r pin 92 front view 133.20 (5.255) 64.77 (2.55) 49.53 (1.95) 10.00 (0.394) typ. back view pin 184 pin 93 1.37 (0.054) 3.81 (0.150) max
w3eg2128m72afsr-d3 -ad3 12 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com part numbering guide w 3 e g 2 128m 72 a f s r xxx a d3 x g wedc memory (sdram) ddr gold dual ranks depth bus width component width x4 fbga 2.5v registered speed/data rate (mb/s) new revision (184 pin) package component vendor name (m = micron) (s = samsung) g = rohs compliant
w3eg2128m72afsr-d3 -ad3 13 white electronic designs january 2006 rev. 3 final white electronic designs corporation ? (602) 437-1520 ? www.wedc.com document title 2gb - 2x128mx72, ddr sdram registered ecc, w/pll, fbga revision history rev # history release date status rev 0 initial release september 2004 advanced rev 1 1.1 added lead-free option 1.2 added vendor code options m = micron s = samsung november 2004 advanced rev 2 2.1 removed ddr200 speci? cations 2.2 added "ad3" package option 2.3 added the "26a" module part number option 2.4 indicated "d3" not recommanded for new design or new quali? cations, insted use "ad3" option 2.5 removed 333mb/s, 266mb/s (cl 2-2-2), 266mb/s (cl 2-3-3) and 200mb/s (cl 2-2-2) speci? cations for "d3" package option 2.6 added "a" in part number guide. december 2005 advanced rev 3 3.1 added 400 mhz clock speed 3.2 datasheet ac's and dc's updated to support both micron's 512mb speci? cation: 512mbddrx4x8x16_1.fm-revj1/06en and samsung's 512mb c-die speci? cation: rev 1.1 june 2005 3.3 data sheet move to ? nal january 2006 final

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