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products and specifications discussed herein ar e subject to change by micron without notice. 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm features pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 1 ?2008 micron technology, inc. all rights reserved. ddr3 sdram rdimm mt36jbzs51272pd ? 4gb for component data sheets, refer to micron?s web site: www.micron.com features ? ddr3 functionality and operations supported as defined in the component data sheet ? 240-pin, very low profile registered dual in-line memory module (vlp rdimm) ? compatible with atca form factors ? fast data transfer rates: pc3-10600, pc3-8500, or pc3-6400 ? 4gb (512 meg x 72) ?v dd = 1.5v 0.075v ?v ddspd = +3.0v to +3.6v ? supports ecc error detection and correction ? nominal and dynamic on-die termination (odt) for data and strobe signals ? quad rank, using 2gb twindie ? devices ?8 internal device banks ? fixed burst chop (bc) of 4 and burst length (bl) of 8 via the mode register set (mrs) ?on-board i 2 c temperature sensor with integrated serial presence-detect (spd) eeprom ? gold edge contacts ?pb-free ? fly-by topology ? terminated control, command, and address bus figure 1: 240-pin vlp rdimm (atca-compatible r/c v) notes: 1. contact micron for industrial temperature module offerings. 2. not recommended for new designs. options marking ? operating temperature 1 ? commercial (0c t a +70c) none ? industrial (?40c t a +85c) i ?package ? 240-pin dimm (lead-free) y ? frequency/cas latency ? 1.5ns @ cl = 9 (ddr3-1333) -1g4 ? 1.5ns @ cl = 10 (ddr3-1333) 2 -1g3 ? 1.87ns @ cl = 7 (ddr3-1066) -1g1 ? 1.87ns @ cl = 8 (ddr3-1066) 2 -1g0 ? 2.5ns @ cl = 5 (ddr3-800) 2 -80c ? 2.5ns @ cl = 6 (ddr3-800) 2 -80b u1 u2 u3 u4 u5 u6 u7 u8 u9 u10 pcb height: 17.9mm (0.705in) table 1: key timing parameters speed grade industry nomenclature data rate (mt/s) t rcd (ns) t rp (ns) t rc (ns) cl = 10 cl = 9 cl = 8 cl = 7 cl = 6 cl = 5 -1g4 pc3-10600 1333 1333 1066 1066 800 ? 13.5 13.5 49.5 -1g3 pc3-10600 1333 ? 1066 ? 800 ? 15 15 51 -1g1 pc3-8500 ? ? 1066 1066 800 ? 13.125 13.125 50.625 -1g0 pc3-8500 ? ? 1066 ? 800 ? 15 15 52.5 -80c pc3-6400 ? ? ? ? 800 800 12.5 12.5 50 -80b pc3-6400 ? ? ? ? 800 ? 15 15 52.5
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 2 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm features notes: 1. the data sheet for the base devi ce can be found on micron?s web site. 2. all part numbers end with a two-place code (not shown) that desi gnates component and pcb revisions. consult factory for curre nt revision codes. example: mt36jbzs51272pdy-1g1d1 . table 2: addressing parameter 4gb refresh count 8k row address 16k (a[13:0]) device bank address 8 (ba[2:0]) device configuration 2gb twindie (256 meg x 8) column address 2k (a[9:0]) module rank address 4 (s#[3:0]) table 3: part numbers and timing parameters ? 4gb modules base device: mt41j128m8, 1 2gb twindie ddr3 sdram part number 2 module density configuration module bandwidth memory clock/ data rate clock cycles (cl- t rcd- t rp) mt36jbzs51272pd(i)y-1g4__ 4gb 512 meg x 72 10.6 gb/s 1.5ns/1333 mt/s 9-9-9 mt36jbzs51272pd(i)y-1g3__ 4gb 512 meg x 72 10.6 gb/s 1.5ns/1333 mt/s 10-10-10 mt36jbzs51272pd(i)y-1g1__ 4gb 512 meg x 72 8.5 gb/s 1.87n s/1066 mt/s 7-7-7 mt36jbzs51272pd(i)y-1g0__ 4gb 512 meg x 72 8.5 gb/s 1.87n s/1066 mt/s 8-8-8 mt36jbzs51272pd(i)y-80c__ 4gb 512 meg x 72 6.4 gb/s 2.5n s/800 mt/s 5-5-5 mt36jbzs51272pd(i)y-80b__ 4gb 512 meg x 72 6.4 gb/s 2.5n s/800 mt/s 6-6-6
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 3 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm pin assignments and descriptions pin assignments and descriptions table 4: pin assignments 240-pin ddr3 rdimm front 240-pin ddr3 rdimm back pin symbol pin symbol pin symbol pin symbol pin symbol pin symbol pin symbol pin symbol 1v ref dq 31 dq25 61 a2 91 dq41 121 v ss 151 v ss 181a1211v ss 2v ss 32 v ss 62 v dd 92 v ss 122 dq4 152 dm3/ tdqs12 182 v dd 212 dm5/ tdqs14 3 dq0 33 dqs3# 63 nc 93 dqs5# 123 dq5 153 nu/ tdqs12# 183 v dd 213 nu/ tdqs14# 4 dq1 34 dqs3 64 nc 94 dqs5 124 v ss 154 v ss 184 ck0 214 v ss 5v ss 35 v ss 65 v dd 95 v ss 125 dm0/ tdqs9 155 dq30 185 ck0# 215 dq46 6 dqs0# 36 dq26 66 v dd 96 dq42 126 nu/ tdqs9# 156dq31186 v dd 216 dq47 7 dqs0 37 dq27 67 v ref ca 97 dq43 127 v ss 157 v ss 187 event# 217 v ss 8v ss 38 v ss 68 p ar _i n 98 v ss 128 dq6 158 cb4 188 a0 218 dq52 9dq239 cb0 69v dd 99 dq48 129 dq7 159 cb5 189 v dd 219 dq53 10 dq3 40 cb1 70 a10 100 dq49 130 v ss 160 v ss 190 ba1 220 v ss 11 v ss 41 v ss 71 ba0 101 v ss 131 dq12 161 dm8/ tdqs17 191 v dd 221 dm6/ tdqs15 12 dq8 42 dqs8# 72 v dd 102 dqs6# 132 dq13 162 nu/ tdqs17# 192ras#222 nu/ tdqs15# 13 dq9 43 dqs8 73 we# 103 dqs6 133 v ss 163 v ss 193 s0# 223 v ss 14 v ss 44 v ss 74 cas# 104 v ss 134 dm0/ tdqs9 164 cb6 194 v dd 224 dq54 15 dqs1# 45 cb2 75 v dd 105 dq50 135 nu/ tdqs9# 165 cb7 195 odt0 225 dq55 16 dqs1 46 cb3 76 s1# 106 dq51 136 v ss 166 v ss 196 a13 226 v ss 17 v ss 47 v ss 77 odt1 107 v ss 137 dq14 167 nc 197 v dd 227 dq60 18 dq10 48 v tt 78 v dd 108 dq56 138 dq15 168 reset# 198 s3# 228 dq61 19 dq11 49 v tt 79 s2# 109 dq57 139 v ss 169cke1199 v ss 229 v ss 20 v ss 50 cke0 80 v ss 110 v ss 140 dq20 170 v dd 200 dq36 230 dm7/ tdqs16 21 dq16 51 v dd 81 dq32 111 dqs7# 141 dq21 171 a15 201 dq37 231 nu/ tdqs16# 22 dq17 52 ba2 82 dq33 112 dqs7 142 v ss 172 a14 202 v ss 232 v ss 23 v ss 53 e rr _o ut #83 v ss 113 v ss 143 dm2/ tdqs11 173 v dd 203 dm4/ tdqs13 233 dq62 24 dqs2# 54 v dd 84 dqs4# 114 dq58 144 nu/ tdqs11# 174 a12 204 nu/ tdqs13# 234 dq63 25 dqs2 55 a11 85 dqs4 115 dq59 145 v ss 175a9205v ss 235 v ss 26 v ss 56 a7 86 v ss 116 v ss 146 dq22 176 v dd 206 dq38 236 v ddspd 27 dq18 57 v dd 87 dq34 117 sa0 147 dq23# 177 a8 207 dq39 237 sa1 28 dq19 58 a5 88 dq35 118 scl 148 v ss 178a6208v ss 238 sda 29 v ss 59 a4 89 v ss 119 sa2 149 dq28 179 v dd 209 dq44 239 v ss 30 dq24 60 v dd 90 dq40 120 v tt 150 dq29 180 a3 210 dq45 240 v tt
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 4 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm pin assignments and descriptions table 5: pin descriptions symbol type description a[15:0] input address inputs: provide the row address for acti vate commands, an d the column address and auto precharge bit (a10) for read /write commands, to select one location out of the memory array in the respective bank. a10 is sample d during a precharge command to determine whether the precharge applies to one bank (a10 low, bank selected by ba[2:0]) or all ba nks (a10 high). if only one bank is to be precharged, the bank is selected by ba. a12 is also used for bc4/bl8 identificati on as ?bl on-the-fly? during cas commands. the address inputs also provide the op-code during the mode register command set . a[13:0] address the 2gb twindie ddr3 devices. a[15:14] are needed to calculate parity on the command/address bus. ba[2:0] input bank address inputs: ba[2:0] define the device bank to which an activate, read, write, or precharge command is being applied. ba[2:0] define which mode register (mr0, mr1, mr2, and mr3) is loaded duri ng the load mode command. ba[2:0] are used as part of the parity calculation. ck0, ck0# input clock: ck and ck# are differential clock inputs . all control, command , and address input signals are sampled on the crossi ng of the positive edge of ck and the negative edge of ck#. cke[1:0] input clock enable: cke enables (registered high) and di sables (registered low) internal circuitry and clocks on the dram. dm[8:0] (tdqs[17:9], tdqs#[17:9]) input input data mask: dm is an input mask signal for wr ite data. input data is masked when dm is sampled high, along with the input data , during a write access. dm is sampled on both edges of the dqs. although the dm pins are input-only, the dm loading is designed to match that of the dq and dqs pins. when tdqs is enabled, dm is disabled and tdqs and tdqs# provide termination resistance; otherwise, the td qs# pins are no function. odt[1:0] input on-die termination: odt enables (registered high) and disables (registered low) termination resista nce internal to the dram. when en abled in normal operation, odt is only applied to the following pins: dq, dqs, dqs#, and dm. the odt input will be ignored if disabled via the load mode command. p ar _i n input parity input: parity bit for the co mmand and address bus. ras#, cas#, we# input command inputs: ras#, cas#, and we# (along with s#) define the command being entered. reset# input (lvcmos) reset: reset# is an active low cmos input referenced to v ss . the reset# input receiver is a cmos input defined as a rail-to-rail signal with dc high 0.8 v dd and dc low 0.2 v dd . reset# assertion and deassertion are asynchronous. s#[3:0] input chip select: s# enables (registered low) and disa bles (registered high) the command decoder. sa[2:0] input serial address inputs: these pins are used to configure the temperature sensor/spd eeprom address range on the i 2 c bus. scl input serial clock for temperature sensor/spd eeprom: scl is used to synchronize the communication to and from the temperature sensor/spd eeprom. cb[7:0] i/o check bits: data used for ecc. dq[63:0] i/o data input/output: bidirectional data bus. dqs[8:0], dqs#[8:0] i/o data strobe: dqs and dqs# are differential data strobes. output with read data. edge- aligned with read data. input with writ e data. center-aligned with write data. sda i/o serial data: sda is a bidirectional pin used to tran sfer addresses and data into and out of the temperature sensor/spd eep rom on the module on the i 2 c bus. e rr _o ut #output (open drain) parity error output: parity error found on th e command and address bus.
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 5 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm pin assignments and descriptions event# output (open drain) temperature event: the event# pin is asserted by th e temperature sensor when critical temperature thresholds have been exceeded. v dd supply power supply (1.5v 0.075v): the component v dd and v dd q are connected to the module v dd . v ddspd supply temperature sensor/spd eeprom power supply: +3.0v to +3.6v. v ref ca supply reference voltage: control, command, and address (v dd /2). v ref dq supply reference voltage: dq, dm (v dd /2). v ss supply ground. v tt supply termination voltage: used for control, command, and address (v dd /2). nc ? no connect: these pins are not connected on the module. nu ? not used: these pins are not used in specif ic module configuration/operations. table 5: pin descriptions (continued) symbol type description
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 6 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm functional block diagram functional block diagram figure 2: functional block diagram notes: 1. the zq ball on each ddr3 component is connec ted to an external 240 1% resistor that is tied to ground. it is used for the calibration of the component?s odt and output driver. dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u1t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u1b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u20t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u20b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u7t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u7b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u14t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u14b zq v ss zq v ss rs0# rs1# rs2# rs3# dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u2t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u2b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u19t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u19b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u8t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u8b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u13t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u13b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u3t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u3b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u18t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u18b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u9t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u9b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u12t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u12b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u4t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u4b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u17t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u17b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u10t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u10b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u11t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u11b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u5t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u5b zq v ss zq v ss dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u16t dq dq dq dq dq dq dq dq dm/ nu/ cs# dqs dqs# tdqs tdqs# u16b zq v ss zq v ss r e g i s t e r a n d p l l s0# s1# s2# s3# ba[2:0] a[15:0] ras# cas# we# cke0 cke1 odt0 odt1 p ar _i n reset# ck0 ck0# rs0#: rank 0 rs1#: rank 1 rs2#: rank 2 rs3#: rank 3 rba[2:0]: ddr3 sdram ra[14:0]: ddr3 sdram rras#: ddr3 sdram rcas#: ddr3 sdram rwe#: ddr3 sdram rcke0: rank 0, rank 2 rcke1: rank 1, rank 3 rodt0: rank 0, rank 1 odt tied to v dd rodt1: rank 2, rank 3 odt tied to v dd e rr _o ut # u6 v refca v ss ddr3 sdram ddr3 sdram v dd ddr3 sdram v ddspd temp sensor/spd eeprom v tt ddr3 sdram ddr3 sdram v refdq ck ck# ddr3 sdram ddr3 sdram rank 0: u1t?u5t, u7t?u10t rank 1: u1b?u5b, u7b?u10b rank 2: u11t?u14t, u16t?u20t rank 3: u11b?u14b, u16b?u20b rs#[3:0], rcke[1:0], ra[14:0], rras#, rcas#, rwe#, rodt[1:0], rba[2:0] ck ck# command, control, address, and clock line terminations: ddr3 sdram v tt ddr3 sdram v dd u15 a0 spd eeprom/ temperature sensor a1 a2 sa0 sa1 sda scl evt event# v ss dqs0 dqs0# dm0/dqs9 nc/dqs9# dq0 dq1 dq2 dq3 dq4 dq5 dq6 dq7 dqs1 dqs1# dm1/dqs10 nc/dqs10# dq8 dq9 dq10 dq11 dq12 dq13 dq14 dq15 dqs2 dqs2# dm2/dqs11 nc/dqs11# dq16 dq17 dq18 dq19 dq20 dq21 dq22 dq23 dqs3 dqs3# dm3/dqs12 nc/dqs12# dq24 dq25 dq26 dq27 dq28 dq29 dq30 dq31 dqs8 dqs8# dm8/dqs17 nc/dqs17# cb0 cb1 cb2 cb3 cb4 cb5 cb6 cb7 dqs4 dqs4# dm4/dqs13 nc/dqs13# dq32 dq33 dq34 dq35 dq36 dq37 dq38 dq39 dqs5 dqs5# dm5/dqs14 nc/dqs14# dq40 dq41 dq42 dq43 dq44 dq45 dq46 dq47 dqs6 dqs6# dm6/dqs15 nc/dqs15# dq48 dq49 dq50 dq51 dq52 dq53 dq54 dq55 dqs7 dqs7# dm7/dqs16 nc/dqs16# dq56 dq57 dq58 dq59 dq60 dq61 dq62 dq63
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 7 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm general description general description the mt36jbzs51272pdy ddr3 sdram module is a high-speed, cmos dynamic random-access 4gb memory module organize d in a x72 configuration. this ddr3 sdram module uses internally configured, 8-bank 2gb twindie ddr3 sdram devices. ddr3 sdram modules use double data rate architecture to achieve high-speed opera- tion. the double data rate architecture is essentially an 8 n -prefetch architecture with an interface designed to transfer two data words per clock cycle at the i/o pins. a single read or write access for the ddr3 sdram module effectively consists of a single 8 n -bit-wide, one-clock-cycle data transfer at the internal dram core and eight corre- sponding n -bit-wide, one-half-clock-cycle da ta transfers at the i/o pins. the differential data strobe (dqs, dqs#) is transmitted externally, along with data, for use in data capture at the ddr3 sdram input receiver. dqs is center-aligned with data for writes. the read data is transmitted by the ddr3 sdram and edge-aligned to the data strobes. ddr3 sdram modules operate fr om a differential clock (ck and ck#); the crossing of ck going high and ck# going low will be referred to as the positive edge of ck. control, command, and address signals are registered at every positive edge of ck. input data is registered on both edges of dqs, and output data is referenced to both edges of dqs, as well as to both edges of ck. fly-by topology these ddr3 modules use faster clock speed s than earlier ddr technologies, making signal quality more important than ever. for improved signal quality, the clock, control, command, and address buses have been routed in a fly-by topology, where each clock, control, command, and address pin on each dram is connected to a single trace and terminated (rather than a tree structure, wh ere the termination is off the module near the connector). inherent to fly-by topology , the timing skew between the clock and dqs signals can be easily accounted for by using the write-leveling feature of ddr3. registering clock driver operation registered ddr3 sdram modules use a registering clock driver consisting of a register and a phase-lock loop (pll) and comply with the jedec standard ?definition of the sste32882 registering clock driver with parity and quad chip selects for ddr3 rdimm applications.? the register section of the registering clock driver latches command and address input signals on the rising clock edge. the pll section of the registering clock driver receives and redrives the differential clock signals (c k, ck#) to the ddr3 sdram devices. the register(s) and pll reduce clock, control, command, and address signals loading by isolating dram from the system controller.
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 8 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm general description temperature sensor with serial presence-detect eeprom thermal sensor operations the temperature from the integrated thermal sensor is monitored and converts into a digital word via the i2c bus. system design ers can use the user-programmable registers to create a custom temperature-sensing solution based on system requirements. programming and configuration details comply with jedec standard no. 21-c page 4.7-1 ?mobile platform memory module thermal sensor component specification.? serial presence-detect eeprom operation ddr3 sdram modules incorporate serial presence-detect. the spd data is stored in a 256-byte eeprom. the first 128 bytes are prog rammed by micron to comply with jedec standard jc-45 ?appendix x: serial presence detect (spd) for ddr3 sdram modules.? these bytes identify module-specific timing parameters, configuration information, and physical attributes. user-specific inform ation can be written into the remaining 128 bytes of storage. read/write operations between the master (system logic) and the slave eeprom device occur via a standard i2c bus using the dimm?s scl (clock) and sda (data) signals, together with sa[2:0], which provide eight unique dimm/eeprom addresses. write protect (wp) is connected to vss internal to the temperature sensor/ eeprom, permanently disabling hardware write protection.
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 9 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm electrical specifications electrical specifications stresses greater than those listed in ta ble 6 may cause perman ent damage to the module. this is a stress rating only, and func tional operation of the module at these or any other conditions outside those indicated in each device?s data sheet is not implied. exposure to absolute maximum rating cond itions for extended periods may adversely affect reliability. notes: 1. v tt termination voltage in excess of stated limit will adversely af fect the command and address signals? voltage margin and will reduce timing margins. 2. t a and t c are simultaneous requirements. 3. for further information, refer to technical note tn-00-08: ?thermal applications ,? available on micron?s web site. 4. refresh rate is required to double when 85c < t c 95c. table 6: absolute maximum ratings symbol parameter min max units v dd v dd supply voltage relative to v ss ?0.4 +1.975 v v in , v out voltage on any pin relative to v ss ?0.4 +1.975 v table 7: operating conditions symbol parameter min nom max units notes v dd v dd supply voltage 1.425 1.5 1.575 v i vtt termination reference current from v tt ?600 ? +600 ma v tt termination reference voltage (dc) ? command/address bus 0.49 v dd - 20mv 0.5 v dd 0.51 v dd + 20mv v 1 i i input leakage current; any input 0v v in v dd ; v ref input 0v v in 0.95v (all other pins not under test = 0v) address inputs, ras#, cas#, we#, s#, cke, odt, ba, ck, ck# tbd tbd tbd a dm ?8 0 +8 i oz output leakage current; 0v v out v dd ; dq and odt are disabled; odt is high dq, dqs, dqs# ?20 0 +20 a i vref v ref supply leakage current; v ref dq = v dd /2 or v ref ca = v dd /2 (all other pins not under test = 0v) ?36 0 +36 a t a module ambient operating temperature commercial 0 ? +70 c 2, 3 industrial ?40 ? +85 c t c ddr3 sdram component case operating temperature commercial 0 ? +95 c 2, 3, 4 industrial ?40 ? +95 c
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 10 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm electrical specifications dram operating conditions recommended ac operating conditions are given in the ddr3 component data sheets. component specifications are available on micron?s web site. module speed grades correlate with component speed grades, as shown in table 8. design considerations simulations micron memory modules are designed to op timize signal integr ity through carefully designed terminations, controlled board impedances, routing topologies, trace length matching, and decoupling. however, good sign al integrity starts at the system level. micron encourages designers to simulate th e signal characteristics of the system?s memory bus to ensure adequate signal integrity of the entire memory system. power operating voltages are specified at the dram , not at the edge connector of the module. designers must account for any system voltage drops at anticipated power levels to ensure the required supply voltage is maintained. table 8: module and component speed grades ddr3 components may exceed th e listed module speed grades module speed grade component speed grade -1g4 -15e -1g3 -15 -1g1 -187e -1g0 -187 -80c -25e -80b -25
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 11 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm electrical specifications i dd specifications ta bl e 9 : dd r3 i dd specifications and conditions ? 4gb values are for the mt41j128m8 ddr3 sdram only an d are computed from values specified in the 2gb twindie (256 meg x 8) component data sheet parameter symbol 1333 1066 800 units operating current 0: one bank activate-to-precharge i dd 0 1,710 1,575 1,440 ma operating current 1: one bank activate-to-read-to-precharge i dd 1 1,890 1,755 1,620 ma precharge power-down current: slow exit i dd 2p 360 360 360 ma precharge power-down current: fast exit i dd 2p 495 495 495 ma precharge quiet standby current i dd 2q 1,080 990 900 ma precharge standby current i dd 2n 1,215 1,125 1,035 ma active power-down current i dd 3p 585 540 495 ma active standby current i dd 3n 1,260 1,170 1,080 ma burst read operating current i dd 4r 2,520 2,115 1,800 ma burst write operating current i dd 4w 2,430 2,115 1,800 ma refresh current i dd 5b 2,880 2,655 2,430 ma self refresh temperature current: max t c = 85c i dd 6 216 216 216 ma self refresh temperature current (srt-enabled): max t c = 95c i dd 6et 324 324 324 ma all banks interlea ved read current i dd 7 5,130 4,185 3,780 ma
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 12 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm registering clock driver specifications registering clock driver specifications note: timing and switching specificat ions for the register listed ar e critical for proper operation of the ddr3 sdram rdimms. these are meant to be a subset of the parameters for the specific device used on the module. table 10: registering clock driver electrical characteristics sste32882 devices or equivalent symbol parameter pins min nom max units v dd dc supply voltage ? 1.425 1.5 1.575 v v ref dc reference voltage ? 0.49 v dd 0.5 v dd 0.051 v dd v v tt dc termination voltage ? v ref - 40mv v ref v ref + 40mv v v ih ( ac ) ac high-level input voltage control, command, address v ref + 175mv ? v dd + 400mv v v il ( ac ) ac low-level input voltage control, command, address ?0.4 ? v ref - 175mv v v ih ( dc ) dc high-level input voltage control, command, address v ref + 100mv ? v dd + 0.4 v v il ( dc ) dc low-level input voltage control, command, address ?0.4 ? v ref - 100mv v v ih (cmos) high-level in put voltage reset#, mirror 0.65 v dd ? v dd v v il (cmos) low-level input voltag e reset#, mirror 0 ? 0.35 v dd v v ix ( ac ) differential input crosspoint voltage range ck, ck#, fbin, fbin# 0.5 v dd - 175mv 0.5 v dd 0.5 v dd + 175mv v v id ( ac ) differential input voltage ck, ck# 350 ? v dd + tbd mv i oh high-level output current all outputs except e rr _o ut # ??tbdma i ol low-level output current all outputs except e rr _o ut # ??tbdma i ol low-level output current (e rr _o ut #) e rr _o ut # tbd ? tbd ma v od differential redriven clock swing y n , y n #500 ? v dd mv v ox differential output crosspoint voltage y n , y n # 0.5 v dd - 100mv ? 0.5 v dd + 100mv v
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 13 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom temperature sensor with se rial presence-detect eeprom the temperature sensor continuously monitors the module?s temperature and can be read back at any time over the i 2 c bus shared with the spd eeprom. event# pin the temperature sensor also adds the event# pin (open drain). not used by the spd eeprom, the event# is a temperature sensor ou tput used to flag cr itical events that can be set up in the sensor?s configuration register. event# has three defined modes of operation: interrupt mode, compare mode, and critical temperature mode. the open-drain output of event# under the three separate operating modes is illustrated in figure 3 on page 14. event thresholds are programmed in the 0x01 register using a hysteresis. the alarm window provides a comparison window, with upper and lower limits set in the alarm upper boundary register and the alarm lower boundary register, respectively. when the alarm window is enabled, event# will trigger whenever the temperature is outside the min or max values set by the user. the interrupt mode enables software to re set event# after a critical temperature threshold has been detected. threshold points are set in the configuration register by the user. this mode triggers the critical temper ature limit and both the min and max of the temperature window. table 11: temperature sensor with serial presence-detect eeprom operating conditions parameter/condition symbol min max units supply voltage v ddspd +3.0 +3.6 v supply current: v dd = 3.3v i dd ?+2.0ma input high voltage: logic 1; scl, sda v ih +1.45 v ddspd + 1 v input low voltage: logic 0; scl, sda v il ?+0.55v output low voltage: i out = 2.1ma v ol ?+0.4v input current i in ?5.0 +5.0 a temperature sensing range ? ?40 +125 c temperature sensor accuracy (class b) ??1.0+1.0c table 12: sensor and eeprom serial interface timing parameter/condition symbol min max units time bus must be free before a new transition can start t buf 1.3 ? s sda fall time t f20300ns sda rise time t r?300ns data-out hold time t hd:dat 200 900 ns clock pulse width high time t high 600 ? ns clock pulse width low time t low 1,300 ? ns scl clock frequency f scl 10 400 khz data setup time t su:dat 100 ? ns start condition setup time t su:sta 600 ? ns stop condition setup time t su:sto 600 ? ns
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 14 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom the compare mode is similar to the interrupt mode, except event# cannot be reset by the user and only returns to the logic high state when the temperature falls below the programmed thresholds. critical temperature mode triggers event# only when the temperature has exceeded the programmed critical trip point. when the critical trip point has been reached, the temperature sensor goes into comparator mode, and the critical event# cannot be cleared through software. sm bus slave subaddress decoding the temperature sensor?s physical address differs from the spd eeprom?s physical address: 0011 for a0, a1, a2, and rw# in binary where a2, a1, and a0 are the three slave subaddress pins and the rw# bit is the read/write flag. if the slave base address is fixed for the temperature sensor/spd eeprom, then the pins set the subaddress bits of the slave address, enabling the devices to be located anywhere within the eight slave address locations. for example, they could be set from 30h to 3eh. figure 3: event# pin functionality time temperature c riti c al alarm win d ow (max) alarm win d ow (min) event# interrupt mo d e event# c omparator mo d e event# c riti c al temperature only mo d e c lears event hysteresis affects these trip points
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 15 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom pointer register the pointer register selects which of the 16-bit registers is being accessed in subsequent read and write operations. this register is a write-only register. table 13: temperature sensor registers name address power-on default pointer register not applicable undefined capability register 0x00 0x0001 configuration register 0x01 0x0000 alarm temperature upper bo undary register 0x02 0x0000 alarm temperature lower bo undary register 0x03 0x0000 critical temperature register 0x04 0x0000 temperature register 0x05 undefined table 14: pointer register bits 0?7 bit 7 6 5 4 3 2 1 0 0000register select register select register select register select table 15: pointer register bits 0?2 descriptions bit register 2 1 0 0 0 0 capability register 0 0 1 configuration register 0 1 0 alarm temperature upper boundary register 0 1 1 alarm temperature lower boundary register 1 0 0 critical temperature register 1 0 1 temperature register
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 16 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom capability register the capability register indicates the features and functionality supported by the temper- ature sensor. this register is a read-only register. configuration register table 16: capability register (address: 0x00) bit 15 14 13 12 11 10 9 8 rfu rfu rfu rfu rfu rfu rfu rfu bit 7 6 5 4 3 2 1 0 rfu rfu rfu temperature resolution wi der range precision has alarm and critical temperature table 17: capability register bit descriptions bit description 0 basic capability 1: has alarm and critical trip point capabilities 1accuracy 0: 2c over the acti ve range and 3c ov er the monitor range 1: 1c over the acti ve range and 2c ov er the monitor range 2 wider range 0: temperatures lower than 0c ar e clamped to a binary value of 0 1: temperatures below 0c can be read 4:3 temperature resolution 00: 0.5c lsb 01: 0.25c lsb 10: 0.125c lsb 11: 0.0625c lsb 15:5 0: must be set to zero table 18: configuration register (address: 0x01) bit 15 14 13 12 11 10 9 8 rfu rfu rfu rfu rfu hysteresis shutdown mode bit 7 6 5 4 3 2 1 0 critical lock bit alarm lock bit clear event event output status event output control critical event only event polarity event mode
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 17 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom table 19: configuration register bit descriptions bit description notes 0 event mode 0: comparator mode 1: interrupt mode event mode cannot be changed if either of the lock bits is set. 1 event# polarity 0: active low 1: active high event# polarity cannot be changed if either of the lock bits is set. 2 critical event only 0: event# trips on alarm or critical temperature event 1: event# trips only if critical temperature is reached 3 event output control 0: event output disabled 1: event output enabled 4event status 0: event# has not been asserted by this device 1: event# is being asserted du e to an alarm window or critical temper ature condition this is a read-only field in the register. the event causing the event can be determined from the read temperature register. 5 clear event 0: no effect 1: clears the event when the temperature sensor is in the interrupt mode 6 alarm window lock bit 0: alarm trips are not locked and can be changed 1: alarm trips are locked and cannot be changed 7 critical trip lock bit 0: critical trip is not locked and can be changed 1: critical trip is locked and cannot be changed 8 shutdown mode 0: enabled 1: shutdown the shutdown mode is a power-saving mode that disables the temperature sensor. 10:9 hysteresis enable 00: disable 01: enable at 1.5c 10: enable at 3c 11: enable at 6c when enabled, a hysteresis is applied to temperature movement around the trip points. as an example, if the hysteresis register is enable d to a delta of 6c, the preset trip points will to ggle when the temperature reaches the programmed value. these values will reset when the temperature drop s below the trip points minus the set hysteresis level. in this case, this would be critical temperature minus 6c. the hysteresis is applied both to the above alarm window and the below alarm window bits found in the read-only temperature register. event# is also affected by this register.
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 18 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom figure 4: hysteresis notes: 1. t h is the value set in the alarm temp erature upper boundary trip register. 2. t l is the value set in the alarm temp erature lower boun dary trip register. 3. hyst is the value set in the hysteresis bits of the configuration register. table 20: hysteresis condition below alarm window bit above alarm window bit temperature gradient critical temperature temperature gradient critical temperature sets falling t l - hyst rising t h clears rising t l falling t h - hyst t h t l t h - hyst t l - hyst below window bit above window bit 1 2 3
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 19 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom temperature format the temperature trip point registers and temperature readout register use a ?2?s complement? format to enable negative numbers. the least significant bit (lsb) is equal to 0.0625c or 0.25c depending on which register is referenced. as an example, assuming an lsb of 0.0625c: ? a value of 0x018c would equal 24.75c ? a value of 0x06c0 would equal 108c ? a value of 0x1e74 would equal ?24.75c temperature trip point registers the upper and lower temperature boundary registers are used to set the maximum and minimum values of the alarm window. the lsb for these registers is 0.25c. all rfu bits in the register will always report zero. critical temperature register the critical temperature register is used to set the maximum temperature above the alarm window. the lsb for this register is 0.25c. all rfu bits in the register will always report zero. table 21: alarm temperature upper boundary register (address: 0x02) bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 000msb lsb rfu rfu alarm window upper boundary temperature table 22: alarm temperature lower boundary register (address: 0x03) bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 000msb lsb rfu rfu alarm window lower boundary temperature table 23: critical temperature register (address: 0x04) bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 000msb lsb rfu rfu critical temperature trip point
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 20 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm temperature sensor with serial presence-detect eeprom temperature register the temperature register is a read-only regi ster that provides the current temperature detected by the temperature sensor. the lsb fo r this register is 0.0625c with a resolu- tion of 0.0625c. the most significant bit (m sb) is 128c in the readout section of this register. the upper three bits of the register are used to monitor the trip points that are set in the previous three registers. serial presence-detect for the latest serial presence-detec t data, refer to micron?s spd page: www.micron.com/spd. table 24: temperature register (address: 0x05) bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0 above critical trip above alarm window below alarm window msb lsb temperature table 25: temperature register bit descriptions bit description 13 below alarm window 0: temperature is equal to or above the lower boundary 1: temperature is below alarm window 14 above alarm window 0: temperature is equal to or below the upper boundary 1: temperature is above alarm window 15 above critical trip point 0: temperature is below critical trip point 1: temperature is above critical trip point
8000 s. federal way, p.o. box 6, boise, id 83707-0006, tel: 208-368-3900 prodmktg@micron.com www.micron.com customer comment line: 800-932-4992 micron, the m logo, twindie, and the micron logo are trademarks of micron technology, inc. all other trademarks are the propert y of their respective owners. this data sheet contains minimum and maximum limits specified ov er the power supply and temperat ure range set forth herein. alt hough considered final, these specifications are subject to change, as further product development and data characterization sometime s occur. 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm module dimensions pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 21 ?2008 micron technology, inc. all rights reserved. module dimensions figure 5: 240-pin ddr3 rdimm notes: 1. all dimensions are in millimeters (i nches); max/min or typical (typ) where noted. 2. the dimensional diagram is for reference only. 18.0 (0.709) 17.8 (0.701) pin 1 2.5 (0.098) d (2x) 2.3 (0.091) typ 5.0 (0.197) typ 123.0 (4.84) typ 1.0 (0.039) typ 0.8 (0.031) typ 0.75 (0.03) r (6x) 0.76 (0.03) r pin 120 front view 133.50 (5.256) 133.20 (5.244) 47.0 (1.85) typ 71.0 (2.79) typ 9.5 (0.374) typ back view pin 240 pin 121 1.37 (0.054) 1.17 (0.046) 4.0 (0.157) max 2.2 (0.087) typ 1.45 (0.057) typ 3.05 (0.12) typ 54.68 (2.15) typ 3.0 (0.118) x4 typ u1 u2 u3 u4 u5 u6 u7 u8 u9 u10 u11 u12 u13 u14 u15 u16 u17 u18 u19 u20 u1 u1 u1 u2 u2 u2 u3 u3 u3 u4 u4 u4 u5 u5 u5 u6 u6 u6 u7 u7 u7 u8 u8 u8 u9 u9 u9 u10 u10 u10 u11 u11 u11 u12 u12 u12 u15 u15 u17 u17 u17 u18 u18 u18 u19 u19 u19 u20 u20 u20 1.37 (0.054) 1.17 (0.046) 9.1 (0.358) max with heat spreader attached
pdf: 09005aef834f3419/source: 09005aef834f34e0 micron technology, inc., reserves the right to change products or specifications without notice. jbzs36c512x72pd.fm - rev. a 7/08 en 22 ?2008 micron technology, inc. all rights reserved 4gb (x72, ecc, qr) 240-pin ddr3 sdram vlp rdimm revision history revision history rev. a . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .07/08 ?initial release pcb 0735 referenced.

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