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hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 256m ddr sdram hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 this document is a general product description and is subject to change without notice. hynix semiconductor does not assume any responsibility for use of circuits described. no patent licenses are implied. rev. 0.2 / nov. 2004
description the hynix hy5du56422, hy5du56822 and hy5du561622 are a 268,435,456-bit cmos double data rate(ddr) syn- chronous dram, ideally suited for the main memory applications which requires large memory density and high band- width. the hynix 256mb ddr sdrams offer fully synchronous operatio ns referenced to both rising and falling edges of the clock. while all addresses and control inputs are latched on th e rising edges of the ck (fal ling edges of the /ck), data, data strobes and write data masks inputs are sampled on both rising and falling edges of it. the data paths are inter- nally pipelined and 2-bit prefetched to achieve very high bandwidth. all input and output voltage levels are compatible with sstl_2. features rev. 0.2 / nov. 200 4 3 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 ?v dd /v ddq = 2.5 ~ 2.7v ? all inputs and outputs are compatible with sstl_2 interface ? fully differential clock inputs (ck, /ck) operation ? double data rate interface ? source synchronous - data transaction aligned to bidirectional data strobe (dqs) ? x16 device has two bytewide data strobes (udqs, ldqs) per each x8 i/o ? data outputs on dqs edges when read (edged dq) data inputs on dqs centers when write (centered dq) ? on chip dll align dq and dqs transition with ck transition ? dm mask write data-in at the both rising and falling edges of the data strobe ? all addresses and control inputs except data, data strobes and data masks latched on the rising edges of the clock ? cas latency 3 supported ? programmable burst length 2 / 4 / 8 with both sequential and interleave mode ? internal four bank operations with single pulsed /ras ? tras lock-out function supported ? auto refresh and self refresh supported ? 8192 refresh cycles / 64ms ordering information * note : d of speed indicates ddr400. part no. configuration package hy5du56422d(l)f-d* 64mx4 400mil 60ball fbga hy5du56822d(l)f-d* 32mx8 hy5du561622d(l)f-d* 16mx16 operating frequency grade speed remark (cl-trcd-trp) - d4 200mhz ddr400 (3-4-4) - d43 200mhz ddr400 (3-3-3)
rev. 0.2 / nov. 2004 3 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 pin configuration row and column address table items 64mx4 32mx8 16mx16 organization 16m x 4 x 4banks 8m x 8 x 4banks 4m x 16 x 4banks row address a0 - a12 a0 - a12 a0 - a12 column address a0-a9, a11 a0-a9 a0-a8 bank address ba0, ba1 ba0, ba1 ba0, ba1 auto precharge flag a10 a10 a10 refresh 8k 8k 8k vssq nc nc nc nc vref nc vddq vssq vddq vssq vss vss dq3 nc dq2 dqs dm ck a12 a11 a8 a6 a4 ck cke a9 a7 a5 vss we ras ba1 a0 a2 vdd vdd dq0 nc dq1 nc nc vddq nc nc nc nc nc nc vssq vddq vssq vddq vdd cas cs ba0 a10/ap a1 a3 1 2 3 7 9 8 a b c d e f g h j k l m (x4) x4 device ball pattern vssq nc nc nc nc vref dq7 vddq vssq vddq vssq vss vss dq6 dq5 dq4 dqs dm ck a12 a11 a8 a6 a4 ck cke a9 a7 a5 vss we ras ba1 a0 a2 vdd vdd dq1 dq2 dq3 nc nc vddq nc nc nc nc nc dq0 vssq vddq vssq vddq vdd cas cs ba0 a10/ap a1 a3 1 2 3 7 9 8 a b c d e f g h j k l m x8 device ball pattern (x8) a b c d e f g h j k l m 1 2 3 4 5 6 7 8 9 0.8mm 13.0mm : ball existing : depopulated ball [ for reference only ] top view (see the balls through the package) bga package ball pattern top view 8.0mm 1.0mm vssq dq14 dq12 dq10 dq8 vref dq15 vddq vssq vddq vssq vss vss dq13 dq11 dq9 udqs udm ck a12, nc a11 a8 a6 a4 ck cke a9 a7 a5 vss we ras ba1 a0 a2 vdd vdd dq2 dq4 dq6 ldqs ldm vddq dq1 dq3 dq5 dq7 nc dq0 vssq vddq vssq vddq vdd cas cs ba0 a10/ap a1 a3 1 2 3 7 9 8 a b c d e f g h j k l m (x16) x16 device ball pattern
rev. 0.2 / nov. 2004 4 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 pin description pin type description ck, /ck input clock: ck and /ck are differen tial clock inputs. all address and control input signals are sampled on the crossing of the positive edge of ck and negative edge of /ck. output (read) data is referenced to the crossings of ck and /ck (both directions of crossing). cke input clock enable: cke high activa tes, and cke low deactivates internal clock signals, and device input buffers and output drivers. taking cke low provides precharge power down and self refresh operation (all ba nks idle), or active power down (row active in any bank). cke is synchronous for power down entry and exit, and for self refresh entry. cke is asynchronous for self refresh exit, and for output disable. cke must be maintained high throughout read and write accesses. input buffers, excluding ck, /ck and cke are disabled during powe r down. input buffers, excluding cke are disabled during self refresh. cke is an sstl_2 input, but will detect an lvcmos low level after vdd is applied. /cs input chip select : enables or disables all inputs except ck, /ck, cke, dqs and dm. all com- mands are masked when cs is registered high. cs provides for external bank selection on systems with multiple banks. cs is considered part of the command code. ba0, ba1 input bank address inputs: ba0 and ba1 define to which bank an active, read, write or pre- charge command is being applied. a0 ~ a12 input address inputs: provide the row address for active commands, and the column address and auto precharge bit for read/write commands, to select one location out of the memory array in the respective bank. a10 is sampled during a precharge command to determine whether the precharge applies to one bank (a10 low) or all banks (a10 high). if only one bank is to be precharg ed, the bank is selected by ba0, ba1. the address inputs also provide the op code during a mode register set command. ba0 and ba1 define which mode register is loaded during the mode register set command (mrs or emrs). /ras, /cas, /we input command inputs: /ras, /cas and /we (along with /cs) define the command being entered. dm (ldm, udm) input input data mask: dm is an input mask signal for write data. input data is masked when dm is sampled high al ong with that input data during a write access. dm is sampled on both edges of dqs. although dm pins ar e input only, the dm loading matches the dq and dqs loading. for the x16, ldm corresponds to the data on dq0-q7; udm corre- sponds to the data on dq8-q15. dqs (ldqs, udqs) i/o data strobe: output with read data, input with write data. edge aligned with read data, centered in write data. used to capture writ e data. for the x16, ldqs corresponds to the data on dq0-q7; udqs correspo nds to the data on dq8-q15. dq i/o data input / output pin : data bus v dd /v ss supply power supply for internal circuits and input buffers. v ddq /v ssq supply power supply for output buffers for noise immunity. v ref supply reference voltage for inputs for sstl interface. nc nc no connection.
rev. 0.2 / nov. 2004 5 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 functional block diagram (64mx4) 4banks x 16mbit x 4 i/o double data rate synchronous dram command decoder clk /clk cke /cs /ras /cas /we address buffer add bank control 16mx4 / bank0 column decoder column address counter sense amp 2-bit prefetch unit 16mx4 / bank1 16mx4 / bank2 16mx4 / bank3 mode register row decoder input buffer output buffer data strobe transmitter data strobe receiver dqs dqs write data register 2-bit prefetch unit dqs dq[0:3] 84 4 8 ba dll block clk_dll clk, /clk mode register dm
rev. 0.2 / nov. 2004 6 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 command decoder clk /clk cke /cs /ras /cas /we address buffer add bank control 8mx8 / bank0 column decoder column address counter sense amp 2-bit prefetch unit 8mx8 / bank1 8mx8 / bank2 8mx8 / bank3 mode register row decoder input buffer output buffer data strobe transmitter data strobe receiver dqs dqs write data register 2-bit prefetch unit dqs dq[0:7] 16 8 8 16 ba dll block clk_dll clk, /clk mode register dm functional block diagram (32mx8) 4banks x 8mbit x 8 i/o double data rate synchronous dram
rev. 0.2 / nov. 2004 7 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 functional block diagram (16mx16) 4banks x 4mbit x 16 i/o double data rate synchronous dram command decoder clk /clk cke /cs /ras /cas /we address buffer add bank control 4mx16 / bank0 column decoder column address counter sense amp 2-bit prefetch unit 4mx16 / bank1 4mx16 / bank2 4mx16 / bank3 mode register row decoder input buffer output buffer data strobe transmitter data strobe receiver ldqs, udqs ldqs udqs write data register 2-bit prefetch unit ldqs, udqs dq[0:15] 32 16 16 32 ba dll block clk_dll clk, /clk mode register ldm, udm
rev. 0.2 / nov. 2004 8 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 simplified command truth table command cken-1 cken cs ras cas we addr a10/ ap ba note extended mode register seth x llll op code 1,2 mode register set h x llll op code 1,2 device deselect hx hxxx x1 no operation l h h h bank active h x l l h h ra v 1 read hxlhlhca l v 1 read with autoprecharge h1,3 write hxlhllca l v 1 write with autoprecharge h1,4 precharge all banks hxllhlx hx1,5 precharge selected bank lv1 read burst stop h x l h h l x 1 auto refresh h h lllh x 1 self refresh entryh l lllh x 1 exit l h hxxx 1 lhhh precharge power down mode entry h l hxxx x 1 lhhh 1 exit l h hxxx 1 lhhh 1 active power down mode entry h l hxxx x 1 lvvv 1 exit l h x 1 note : 1. ldm/udm states are don?t care. refer to below write mask truth table. 2. op code(operand code) consists of a0~a11 and ba0~ba1 us ed for mode register setting duing extended mrs or mrs. before entering mode register set mode, all banks must be in a precharge state and mrs command can be issued after trp period from prechagre command. 3. if a read with autoprecharge command is detected by memory component in ck(n), then there will be no command presented to activated bank until ck(n+bl/2+trp). 4. if a write with autoprecharge command is detected by memory component in ck(n), then there will be no command presented to activated bank until ck(n+bl/2+1+tdpl+trp). last data-in to prechage delay(tdpl) which is also called write recovery tim e (twr) is needed to guarantee that the last data has been completely written. 5. if a10/ap is high when precharge command being issued, ba0/ba1 are ignored and all banks are selected to be precharged. ( h=logic high level, l=logic low level, x=don?t care, v=va lid data input, op code=operand code, nop=no operation )
rev. 0.2 / nov. 2004 9 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 write mask truth table function cken-1 cken /cs, /ras, /cas, /we dm add r a10/ ap ba note data write h x x l x 1 data-in mask h x x h x 1 note : 1. write mask command masks burst write data with referenc e to ldqs/udqs(data strobes) and it is not related with read data. in case of x16 data i/o, ldm and udm control lower byte(dq0~7) and upper byte(dq8~15) respectively.
rev. 0.2 / nov. 2004 10 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 operation command truth table-i current state /cs /ras /cas /we address command action idle hxxx x dsel nop or power down 3 lhhh x nop nop or power down 3 lhhl x bst illegal 4 l h l h ba, ca, ap read/readap illegal 4 l h l l ba, ca, ap write/writeap illegal 4 l l h h ba, ra act row activation llhl ba, ap pre/pall nop lllh x aref/sref auto refresh or self refresh 5 l l l l opcode mrs mode register set row active hxxx x dsel nop lhhh x nop nop lhhl x bst illegal 4 l h l h ba, ca, ap read/readap begin read : optional ap 6 l h l l ba, ca, ap write/writeap begin write : optional ap 6 llhhba, ra act illegal 4 llhl ba, ap pre/pall precharge 7 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 read h x x x x dsel continue burst to end l h h h x nop continue burst to end l h h l x bst terminate burst l h l h ba, ca, ap read/readap term burst, new read:optional ap 8 l h l l ba, ca, ap write/writeap illegal llhhba, ra act illegal 4 l l h l ba, ap pre/pall term burst, precharge lllh x aref/sref illegal 11 llllopcode mrs illegal 11 write h x x x x dsel continue burst to end l h h h x nop continue burst to end lhhl x bst illegal 4 l h l h ba, ca, ap read/readap term burst, new read:optional ap 8 l h l l ba, ca, ap write/writeap term burst, new write:optional ap
rev. 0.2 / nov. 2004 11 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 operation command truth table-ii current state /cs /ras /cas /we address command action write llhhba, ra act illegal 4 l l h l ba, ap pre/pall term burst, precharge lllh x aref/sref illegal 11 llllopcode mrs illegal 11 read with autopre- charge h x x x x dsel continue burst to end l h h h x nop continue burst to end lhhl x bst illegal l h l h ba, ca, ap read/readap illegal 10 l h l l ba, ca, ap write/writeap illegal 10 llhhba, ra act illegal 4,10 llhl ba, ap pre/pall illegal 4,10 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 write autopre- charge h x x x x dsel continue burst to end l h h h x nop continue burst to end lhhl x bst illegal l h l h ba, ca, ap read/readap illegal 10 l h l l ba, ca, ap write/writeap illegal 10 llhhba, ra act illegal 4,10 llhl ba, ap pre/pall illegal 4,10 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 pre- charge h x x x x dsel nop-enter idle after trp l h h h x nop nop-enter idle after trp lhhl x bst illegal 4 l h l h ba, ca, ap read/readap illegal 4,10 l h l l ba, ca, ap write/writeap illegal 4,10 llhhba, ra act illegal 4,10 l l h l ba, ap pre/pall nop-enter idle after trp lllh x aref/sref illegal 11 llllopcode mrs illegal 11
rev. 0.2 / nov. 2004 12 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 operation command truth table-iii current state /cs /ras /cas /we address command action row activating h x x x x dsel nop - enter row act after trcd l h h h x nop nop - enter row act after trcd lhhl x bst illegal 4 l h l h ba, ca, ap read/readap illegal 4,10 l h l l ba, ca, ap write/writeap illegal 4,10 llhhba, ra act illegal 4,9,10 llhl ba, ap pre/pall illegal 4,10 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 write recovering h x x x x dsel nop - enter row act after twr l h h h x nop nop - enter row act after twr lhhl x bst illegal 4 l h l h ba, ca, ap read/readap illegal l h l l ba, ca, ap write/writeap illegal llhhba, ra act illegal 4,10 llhl ba, ap pre/pall illegal 4,11 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 write recovering with autopre- charge h x x x x dsel nop - enter precharge after tdpl l h h h x nop nop - enter precharge after tdpl lhhl x bst illegal 4 l h l h ba, ca, ap read/readap illegal 4,8,10 l h l l ba, ca, ap write/writeap illegal 4,10 llhhba, ra act illegal 4,10 llhl ba, ap pre/pall illegal 4,11 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 refreshing h x x x x dsel nop - enter idle after trc l h h h x nop nop - enter idle after trc lhhl x bst illegal 11 l h l h ba, ca, ap read/readap illegal 11
rev. 0.2 / nov. 2004 13 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 operation command truth table-iv note : 1. h - logic high level, l - logic low level, x - don?t care, v - valid data input, ba - bank address, ap - autoprecharge address, ca - column address, ra - row address, nop - no operation. 2. all entries assume that cke was active(high level) during the preceding clock cycle. 3. if both banks are idle and cke is inactive(low level), then in power down mode. 4. illegal to bank in specified state. function may be legal in the bank indicated by bank addr ess(ba) depending on the state o f that bank. 5. if both banks are idle and cke is inactive(low level), then self refresh mode. 6. illegal if trcd is not met. 7. illegal if tras is not met. 8. must satisfy bus contention, bus turn ar ound, and/or write recovery requirements. 9. illegal if trrd is not met. 10. illegal for single bank, but legal for other banks in multi-bank devices. 11. illegal for all banks. current state /cs /ras /cas /we address command action write l h l l ba, ca, ap write/writeap illegal 11 llhhba, ra act illegal 11 llhl ba, ap pre/pall illegal 11 lllh x aref/sref illegal 11 llllopcode mrs illegal 11 mode register accessing h x x x x dsel nop - enter idle after tmrd l h h h x nop nop - enter idle after tmrd lhhl x bst illegal 11 l h l h ba, ca, ap read/readap illegal 11 l h l l ba, ca, ap write/writeap illegal 11 llhhba, ra act illegal 11 llhl ba, ap pre/pall illegal 11 lllh x aref/sref illegal 11 llllopcode mrs illegal 11
rev. 0.2 / nov. 2004 14 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 cke function truth table note : when cke=l, all dq and dqs must be in hi-z state. 1. cke and /cs must be kept high for a minimum of 200 stable input clocks before issuing any command. 2. all command can be stored after 2 clocks from low to high transition of cke. 3. illegal if clk is suspended or stopped during the power down mode. 4. self refresh can be entered only from the all banks idle state. 5. disabling clk may cause malfunction of any bank which is in active state. current state cken- 1 cken /cs /ras /cas /we /add action self refresh 1 h xxxxxx invalid l h h x x x x exit self refresh, enter idle after tsrex l h l h h h x exit self refresh, enter idle after tsrex l h l h h l x illegal l h l h l x x illegal l h l l x x x illegal l lxxxxx nop, continue self refresh power down 2 h xxxxxx invalid l h h x x x x exit power down, enter idle l h l h h h x exit power down, enter idle l h l h h l x illegal l h l h l x x illegal l h l l x x x illegal l l x x x x x nop, continue power down mode all banks idle 4 h h x x x x x see operation command truth table hllllhx enter self refresh h l h x x x x exit power down h l l h h h x exit power down h l l h h l x illegal h l l h l x x illegal h l l l h x x illegal hlllllx illegal l lxxxxx nop any state other than above h h x x x x x see operation command truth table h lxxxxx illegal 5 l hxxxxx invalid l lxxxxx invalid
rev. 0.2 / nov. 2004 15 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 simplified state diagram mrs sref srex pden pdex act aref pdex pden bst read write write writeap writeap read readap readap pre(pall) pre(pall) pre(pall) command input automatic sequence idle auto refresh pre- charge power-up power applied mode register set power down write with autopre- charge power down write read with autopre- charge bank active read self refresh
rev. 0.2 / nov. 2004 16 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 power-up sequence and device initialization ddr sdrams must be powered up and initialized in a pred efined manner. operational pr ocedures other than those specified may result in undefined operation. except for ck e, inputs are not re cognized as valid until after vref is applied. cke is an sstl_2 input, but will detect an lv cmos low level after vdd is applied. maintaining an lvcmos low level on cke during power-up is required to guarant ee that the dq and dqs outputs will be in the high-z state, where they will remain until driven in normal operation (by a read access). after all po wer supply and reference volt- ages are stable, and the clock is stable, the ddr sdram requ ires a 200us delay prior to applying an executable com- mand. once the 200us delay has been satisfied, a deselect or nop command should be applied, and cke should be brought high. following the nop command, a precharg e all command should be applied. next a extended mode register set command should be issued for the ex tended mode register, to enable the dll, then a mode register set command should be issued for the mode re gister, to reset the dll, and to program the operating parameters. after the dll reset, txsrd(dll locking time) sh ould be satisfied for read command. after the mode reg- ister set command, a precharge all command should be a pplied, placing the device in the all banks idle state. once in the idle state, two auto refresh cycles must be performed. additionally, a mode register set command for the mode register, with the reset dll bit deactivated lo w (i.e. to program operating parameters without resetting the dll) must be performed. following these cycl es, the ddr sdram is ready for normal operation. 1. apply power - vdd, vddq, vtt, vref in the following po wer up sequencing and attemp t to maintain cke at lvc- mos low state. (all the other input pins may be undefined. no power sequencing is specified during power up or power down given the following cirteria : ? vdd and vddq are driven from a single power converter output. ? vtt is limited to 1.44v (ref lecting vddq(max)/2 + 50mv vref variation + 40mv vtt variation). ? vref tracks vddq/2. ? a minimum resistance of 42 ohms (22 ohm series resist or + 22 ohm parallel resistor - 5% tolerance) limits the input current from the vtt supply into any pin. if the above criteria cannot be met by the system design, then the following sequencing and voltage relationship must be adhered to during power up : 2. start clock and maintain stable clock for a minimum of 200usec. 3. after stable power and clock, apply nop condition and take cke high. 4. issue extended mode register set (emrs) to enable dll. 5. issue mode register set (mrs) to reset dll and set devi ce to idle state with bit a8=high. (an additional 200 cycles(txsrd) of clock are required for locking dll) 6. issue precharge commands for all banks of the device. voltage description sequencing voltage relationship to avoid latch-up vddq after or with vdd < vdd + 0.3v vtt after or with vddq < vddq + 0.3v vref after or with vddq < vddq + 0.3v
rev. 0.2 / nov. 2004 17 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 7. issue 2 or more auto refresh commands. 8. issue a mode register set command to initia lize the mode register with bit a8 = low. power-up sequence code code code code code code code code code code code code code code code nop pre mrs emrs pre nop mrs aref act rd vdd vddq vtt vref /clk clk cke cmd dm addr a10 ba0, ba1 dqs dq's lvcmos low level tis tih tvtd t=200usec trp tmrd trp trfc tmrd txsrd* read non-read command power up vdd and ck stable precharge all emrs set mrs set reset dll (with a8=h) precharge all 2 or more auto refresh mrs set (with a8=l) * 200 cycle(txsrd) of ck are required (for dll locking) before read command tmrd
rev. 0.2 / nov. 2004 18 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 mode register set (mrs) the mode register is used to store the various operating mo des such as /cas latency, addressing mode, burst length, burst type, test mode, dll reset. the mode register is pr ogramed via mrs command. this command is issued by the low signals of /ras, /cas, /cs, /we and ba0. this command can be issued only when all banks are in idle state and cke must be high at least one cycle before the mode regi ster set command can be issued. two cycles are required to write the data in mode register. during the mrs cycle, an y command cannot be issued. once mode register field is determined, the information will be held until resetted by another mrs command. ba1 ba0 a12 a11 a10 a9 a8 a7 a6 a5 a4 a3 a2 a1 a0 0 0 operating mode cas latency bt burst length a2 a1 a0 burst length sequential interleave 0 0 0 reserved reserved 001 2 2 010 4 4 011 8 8 1 0 0 reserved reserved 1 0 1 reserved reserved 1 1 0 reserved reserved 1 1 1 reserved reserved a3 burst type 0 sequential 1interleave a6 a5 a4 cas latency 0 0 0 reserved 0 0 1 reserved 010 2 011 3 1 0 0 reserved 101 1.5 110 2.5 1 1 1 reserved ba0 mrs type 0mrs 1emrs a12~a9 a8 a7 a6~a0 operating mode 0 0 0 valid normal operation 0 1 0 valid normal operation/ reset dll 001vs vendor specific test mode --- all other states reserved
rev. 0.2 / nov. 2004 19 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 burst definition burst length & type read and write accesses to the ddr sdram are burst orient ed, with the burst length be ing programmable. the burst length determines the maximum number of column locations that can be acce ssed for a given read or write com- mand. burst lengths of 2, 4, or 8 locations are availabl e for both the sequential and the interleaved burst types. reserved states should not be used, as unknown operatio n or incompatibility with future versions may result. when a read or write command is issued, a block of column s equal to the burst length is effectively selected. all accesses for that burst take place within this block, mean ing that the burst wraps within the block if a boundary is reached. the block is uniquely selected by a1-ai when the burst length is set to two, by a 2 -ai when the burst length is set to four and by a 3 -ai when the burst length is set to eight (where ai is the most significant column address bit for a given configuration). the remaining (least significant) a ddress bit(s) is (are) used to select the starting location within the block. the programmed burst leng th applies to both read and write bursts. accesses within a given burst may be programmed to be either sequential or interleaved; th is is referred to as the burst type and is selected via bit a3. the ordering of acce sses within a burst is determined by the burst length, the burst type and the starting column addres s, as shown in burst definitionon table burst length starting address (a2,a1,a0) sequential interleave 2 xx0 0, 1 0, 1 xx1 1, 0 1, 0 4 x00 0, 1, 2, 3 0, 1, 2, 3 x01 1, 2, 3, 0 1, 0, 3, 2 x10 2, 3, 0, 1 2, 3, 0, 1 x11 3, 0, 1, 2 3, 2, 1, 0 8 000 0, 1, 2, 3, 4, 5, 6, 7 0, 1, 2, 3, 4, 5, 6, 7 001 1, 2, 3, 4, 5, 6, 7, 0 1, 0, 3, 2, 5, 4, 7, 6 010 2, 3, 4, 5, 6, 7, 0, 1 2, 3, 0, 1, 6, 7, 4, 5 011 3, 4, 5, 6, 7, 0, 1, 2 3, 2, 1, 0, 7, 6, 5, 4 100 4, 5, 6, 7, 0, 1, 2, 3 4, 5, 6, 7, 0, 1, 2, 3 101 5, 6, 7, 0, 1, 2, 3, 4 5, 4, 7, 6, 1, 0, 3, 2 110 6, 7, 0, 1, 2, 3, 4, 5 6, 7, 4, 5, 2, 3, 0, 1 111 7, 0, 1, 2, 3, 4, 5, 6 7, 6, 5, 4, 3, 2, 1, 0
rev. 0.2 / nov. 2004 20 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 cas latency the read latency, or cas latency, is the delay, in clock cycles, between the registration of a read command and the availability of the first burst of output data. the latency is 3 clocks. if a read command is registered at clock edge n, and the la tency is m clocks, the data is available nominally coincident with clock edge n + m. reserved states should not be used as unknown operation or incompatibility with future versions may result. dll reset the dll must be enabled for normal operation. dll enable is required during power up initialization, and upon return- ing to normal operation after having disabled the dll for th e purpose of debug or evaluation. the dll is automatically disabled when entering self refresh oper ation and is automatically re-enabled upon exit of self refresh operation. any time the dll is enabled, 200 clock cycles must occur to al low time for the internal clock to lock to the externally applied clock before an any command can be issued. output driver impedance control the normal drive strength for all outputs is specified to be sstl_2, class ii. hynix also supports a half strength driver option, intended for lighter load and/or point-to-point envi ronments. selection of the half strength driver option will reduce the output drive strength by 50% of that of the full strength driver.
rev. 0.2 / nov. 2004 21 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 extended mode register set (emrs) the extended mode register controls fu nctions beyond those controlled by the mode register; these additional func- tions include dll enable/disable, output dr iver strength selection(optional). thes e functions are contro lled via the bits shown below. the extended mode register is programmed via the mode register set command ( ba0=1 and ba1=0) and will retain the stored information until it is programmed again or the device loses power. the extended mode register must be loaded when all banks are idle and no bursts are in progress, and the controller must wait the specified time before initiating any subseque nt operation. violating either of these requirements will result in unspecified operation. ba1 ba0 a12 a11 a10 a9 a8 a7 a6 a5 a4 a3 a2 a1 a0 0 1 operating mode 0* ds dll a0 dll enable 0enable 1diable ba0 mrs type 0mrs 1emrs a1 output driver impedance control 0 full strength driver 1 half strength driver * this part do not support/qfc functi on, a2 must be programmed to zero. an~a3 a2~a0 operating mode 0valid normal operation __ all other states reserved
rev. 0.2 / nov. 2004 22 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 absolute maximum ratings note : operation at above absolute maximum rating can adversely affect device reliability dc operating conditions (ta=0 to 70 o c, voltage referenced to v ss = 0v) note : 1. v ddq must not exceed the level of v dd . 2. v il (min) is acceptable -1.5v ac pulse width with < 5ns of duration. 3. v ref is expected to be equal to 0.5*v ddq of the transmitting device, and to track variations in the dc level of the same. peak to peak noise on v ref may not exceed +/- 2% of the dc value. 4. vid is the magnitude of the difference between the input level on ck and the input level on /ck. 5. the ratio of the pullup current to the pulldown current is specified for the same temperat ure and voltage, over the entire temper ature and voltage range, for device drain to source voltages from 0.25v to 1.0v. for a given output, it represents the maximum difference between pullup and pulldown drivers due to process variation. the full variation in the ratio of the maximum to minimum pullup and pull down current will not exceed 1/7 fo r device drain to source voltages from 0.1 to 1.0. 6. vin=0 to vdd, all other pins are not tested under vin =0v. 7. dout is disabled, vout=0 to vddq parameter symbol rating unit ambient temperature t a 0 ~ 70 o c storage temperature t stg -55 ~ 125 o c voltage on any pin relative to v ss v in , v out -0.5 ~ 3.6 v voltage on v dd relative to v ss v dd -0.5 ~ 3.6 v voltage on v ddq relative to v ss v ddq -0.5 ~ 3.6 v output short circuit current i os 50 ma power dissipation p d 1w soldering temperature ? ? ? parameter symbol min typ. max unit note power supply voltage vdd 2.5 2.7 v 4 i/o supply voltage vddq 2.5 2.7 v 1,4 input high voltage vih vref + 0.15 - vddq + 0.3 v input low voltage vil -0.3 - vref - 0.15 v 2 termination voltage vtt vref - 0.04 vref vref + 0.04 v reference voltage vref vddq/2 - 50mv vddq/2 vddq/2 + 50mv v3 input voltage level, ck and ck inputs vin(dc) -0.3 - vddq+0.3 v input differential voltage, ck and ck inputs vid(dc) 0.36 - vddq+0.6 v 4 v-i matching: pullup to pulldown current ratio vi(ratio) 0.71 - 1.4 - 5 input leakage current ili -2 - 2 ua 6 output leakage current ilo -5 - 5 ua 7 output high voltage voh vtt + 0.76 - - v iol = -15.2ma output low voltage vol - - vtt - 0.76 v iol = +15.2ma
rev. 0.2 / nov. 2004 23 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 dc characteristics ii (ta=0 to 70 o c, voltage referenced to v ss = 0v) 64mx4 parameter symbol test condition speed unit note -d4 -d43 operating current idd0 one bank; active - precharge; trc=trc(min); tck=tck(min); dq,dm and dqs inputs changing twice per clock cycle; address and control inputs changing once per clock cycle 90 ma operating current i dd1 one bank; active - read - precharge; burst=2; trc=trc(min); tck=tck(min); address and control inputs changing once per clock cycle; iout=0ma 100 ma precharge power down standby current i dd2p all banks idle; power down mode; cke=low, tck=tck(min) 10 ma idle standby current i dd2f /cs=high, all banks idle; tck=tck(min); cke=high; address and control inputs changing once per clock cycle. vin=vref for dq, dqs and dm 60 ma active power down standby current i dd3p one bank active; power down mode ; cke=low, tck=tck(min) 15 ma active standby current i dd3n /cs=high; cke=high; one bank; active- precharge; trc=tras(max); tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle; address and other control inputs changing once per clock cycle 50 ma operating current i dd4r burst=2; reads; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); iout=0ma 160 ma operating current i dd4w burst=2; writes; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle 160 ma auto refresh current i dd5 trc=trfc(min); all banks active 150 ma self refresh current i dd6 cke=<0.2v; external clock on; tck=tck(min) normal 3ma low power 1.5 ma operating current - four bank operation i dd7 four bank interleaving with bl=4, refer to the following page for detailed test condition 250 ma
rev. 0.2 / nov. 2004 24 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 dc characteristics ii (ta=0 to 70 o c, voltage referenced to v ss = 0v) 32mx8 parameter symbol test condition speed unit note -d4 -d43 operating current idd0 one bank; active - precharge; trc=trc(min); tck=tck(min); dq,dm and dqs inputs changing twice per clock cycle; address and control inputs changing once per clock cycle 90 ma operating current i dd1 one bank; active - read - precharge; burst=2; trc=trc(min); tck=tck(min); address and control inputs changing once per clock cycle; iout=0ma 100 ma precharge power down standby current i dd2p all banks idle; power down mode; cke=low, tck=tck(min) 10 ma idle standby current i dd2f /cs=high, all banks idle; tck=tck(min); cke=high; address and control inputs changing once per clock cycle. vin=vref for dq, dqs and dm 60 ma active power down standby current i dd3p one bank active; power down mode ; cke=low, tck=tck(min) 15 ma active standby current i dd3n /cs=high; cke=high; one bank; active- precharge; trc=tras(max); tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle; address and other control inputs changing once per clock cycle 50 ma operating current i dd4r burst=2; reads; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); iout=0ma 180 ma operating current i dd4w burst=2; writes; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle 180 ma auto refresh current i dd5 trc=trfc(min); all banks active 150 ma self refresh current i dd6 cke=<0.2v; external clock on; tck=tck(min) normal 3ma low power 1.5 ma operating current - four bank operation i dd7 four bank interleaving with bl=4, refer to the following page for detailed test condition 230 ma
rev. 0.2 / nov. 2004 25 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 dc characteristics ii (ta=0 to 70 o c, voltage referenced to v ss = 0v) 16mx16 parameter symbol test condition speed unit note -d4 -d43 operating current idd0 one bank; active - precharge; trc=trc(min); tck=tck(min); dq,dm and dqs inputs changing twice per clock cycle; address and control inputs changing once per clock cycle 90 ma operating current i dd1 one bank; active - read - precharge; burst=2; trc=trc(min); tck=tck(min); address and control inputs changing once per clock cycle; iout=0ma 100 ma precharge power down standby current i dd2p all banks idle; power down mode; cke=low, tck=tck(min) 10 ma idle standby current i dd2f /cs=high, all banks idle; tck=tck(min); cke=high; address and control inputs changing once per clock cycle. vin=vref for dq, dqs and dm 60 ma active power down standby current i dd3p one bank active; power down mode ; cke=low, tck=tck(min) 15 ma active standby current i dd3n /cs=high; cke=high; one bank; active- precharge; trc=tras(max); tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle; address and other control inputs changing once per clock cycle 50 ma operating current i dd4r burst=2; reads; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); iout=0ma 200 ma operating current i dd4w burst=2; writes; continuous burst; one bank active; address and control inputs changing once per clock cycle; tck=tck(min); dq, dm and dqs inputs changing twice per clock cycle 200 ma auto refresh current i dd5 trc=trfc(min); all banks active 150 ma self refresh current i dd6 cke=<0.2v; external clock on; tck=tck(min) normal 3ma low power 1.5 ma operating current - four bank operation i dd7 four bank interleaving with bl=4, refer to the following page for detailed test condition 250 ma
rev. 0.2 / nov. 2004 26 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 detailed test conditions for ddr sdram idd1 & idd7 idd1 : operating curren t: one bank operation 1. only one bank is accessed with trc(min), burs t mode, address and control inputs on nop edge are changing once per clock cycle. lout = 0ma 2. timing patterns - ddr400(200mhz, cl=3) : tck = 5ns, cl=3, bl=4, trcd = 3*tck, trc = 11*tck, tras = 8*tck read : a0 n n r0 n n n n p0 n n - re peat the same timing with random address changing 50% of data changing at every burst legend : a=activate, r=read, w=write, p=precharge, n=nop idd7 : operating current: four bank operation 1. four banks are being interleaved wi th trc(min), burst mode, address and control inputs on nop edge are not changing. lout = 0ma 2. timing patterns - ddr400(200mhz, cl=3) : tck = 5ns, cl=3, bl=4, trrd = 2*tck, trcd = 3*tck, read with autoprecharge read : a0 n a1 ra0 a2 ra1 a3 ra2 n ra3 n n - repeat the same timing with random address changing 50% of data changing at every burst legend : a=activate, r=read, w=write, p=precharge, n=nop
rev. 0.2 / nov. 2004 27 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 ac operating conditions (ta=0 to 70 o c, voltage referenced to v ss = 0v) note : 1. vid is the magnitude of the difference between the input level on ck and the input on /ck. 2. the value of vix is expected to equal 0.5*v ddq of the transmitting device and must track variations in the dc level of the same. ac operating test conditions (ta=0 to 70 o c, voltage referenced to vss = 0v) parameter symbol min max unit note input high (logic 1) voltag e, dq, dqs and dm signals v ih(ac) v ref + 0.31 v input low (logic 0) voltag e, dq, dqs and dm signals v il(ac) v ref - 0.31 v input differential voltage, ck and /ck inputs v id(ac) 0.7 v ddq + 0.6 v 1 input crossing point voltage, ck and /ck inputs v ix(ac) 0.5*v ddq -0.2 0.5*v ddq +0.2 v 2 parameter value unit reference voltage v ddq x 0.5 v termination voltage v ddq x 0.5 v ac input high level voltage (v ih , min) v ref + 0.31 v ac input low level voltage (v il , max) v ref - 0.31 v input timing measurement reference level voltage v ref v output timing measurement reference level voltage v tt v input signal maximum peak swing 1.5 v input minimum signal slew rate 1 v/ns termination resistor (r t )50 ? ?
rev. 0.2 / nov. 2004 28 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 ac overshoot/undershoot specification for address and control pins this specification is intended for devices with no clamp protection and is guaranteed by design overshoot/undershoot specificatio n for data, strobe, and mask pins parameter specification ddr333 ddr200/266 maximum peak amplitude allowed for overshoot (see figure 1): 1.5v 1.5v maximum peak amplitude allowed for undershoot (see figure 1): 1.5v 1.5v the area between the overshoot signal and vdd must be le ss than or equal to (see figure 1): 4.5v - ns 4.5v - ns the area between the undershoot signal and gnd must be less than or equal to (see figure 1): 4.5v - ns 4.5v - ns parameter specification ddr333 ddr200/266 maximum peak amplitude allowed for overshoot (see figure 2): 1.2v 1.2v maximum peak amplitude allowed for undershoot (see figure 2): 1.2v 1.2v the area between the overshoot signal and vdd must be less than or equal to (see figure 2): 2.4v - ns 2.4v - ns the area between the undershoot signal and gnd must be less than or equal to (see figure 2): 2.4v - ns 2.4v - ns v dd 0123456 0 +1 +2 +3 +4 +5 -1 -2 -3 volts (v) time(ns) undershoot ground max. area=4.5v-ns overshoot max. amplitude=1.5v figure 1: address and control ac overshoot and undershoot definitio v dd 0123456 0 +1 +2 +3 +4 +5 -1 -2 -3 volts (v) time(ns) undershoot ground max. area=2.4v-ns overshoot max. amplitude=1.2v figure 2: dq/dm/dqs ac overshoot and undershoot definition
rev. 0.2 / nov. 2004 29 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 ac characteristics i (ac operating conditions unless otherwise noted) parameter symbol ddr400 (d4) ddr400 (d43) unit note min max min max row cycle time trc 58 - 55 - ns auto refresh row cycle time trfc 70 - 70 - ns row active time tras 40 70k 40 70k ns active to read with auto precharge delay trap trcd or tras(min) - trcd or tras(min) -ns16 row address to column address delay trcd 18 - 15 - ns row active to row active delay trrd 10 - 10 - ns column address to column address delay tccd 1 - 1 - ck row precharge time trp 18 - 15 - ns write recovery time twr 15 - 15 - ns write to read command delay twtr 2 - 2 - ck auto precharge write recovery + precharge time tdal (twr/tck) + (trp/tck) - (twr/tck) + (trp/tck) -ck15 system clock cycle time cl = 3 tck 5 10 5 10 ns clock high level width tch 0.45 0.55 0.45 0.55 ck clock low level width tcl 0.45 0.55 0.45 0.55 ck data-out edge to clock edge skew tac -0.65 0.65 -0.65 0.65 ns dqs-out edge to clock edge skew tdqsck -0.55 0.55 -0.55 0.55 ns dqs-out edge to data-out edge skew tdqsq - 0.4 - 0.4 ns data-out hold time from dqs tqh t hp -t qhs - t hp -t qhs -ns1,10 clock half period thp min (tcl,tch) - min (tcl,tch) -ns1,9 data hold skew factor tqhs - 0.5 - 0.5 ns 10 data-out high-impedance window from ck,/ck thz tac(max) tac(max) ns 17 data-out low-impedance window from ck ,
rev. 0.2 / nov. 2004 30 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 write dqs high level width t dqsh 0.35 - 0.35 - ck write dqs low level width t dqsl 0.35 - 0.35 - ck clock to first rising edge of dqs-in t dqss 0.72 1.28 0.72 1.28 ck dqs falling edge to ck setup time t dss 0.2 0.2 ck dqs falling edge hold time from ck t dsh 0.2 0.2 ck data-in setup time to dqs-in (dq & dm) t ds 0.4 - 0.4 - ns 6,7,11, 12,13 data-in hold time to dqs-in (dq & dm) t dh 0.4 - 0.4 - ns dq & dm input pulse width t dipw 1.6 - 1.6 - ns 6 read dqs preamble time t rpre 0.9 1.1 0.9 1.1 ck read dqs postamble time t rpst 0.4 0.6 0.4 0.6 ck write dqs preamble setup time t wpres 0-0-ck write dqs preamble hold time t wpreh 0.25 - 0.25 - ck write dqs postamble time t wpst 0.4 0.6 0.4 0.6 ck mode register set delay t mrd 2-2-ck exit self refresh to non-read command t xsnr 75 - 75 - ns exit self refresh to read command t xsrd 200 - 200 - ck 8 average periodic refresh interval t refi -7.8-7.8us parameter symbol ddr400 (d4) ddr400 (d43) unit note min max min max
rev. 0.2 / nov. 2004 31 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 n ote : 1. this calculation accounts for tdqsq(max), the pulse width distortion of on-chip circuit and jitter. 2. data sampled at the rising edges of the clock : a0~a12, ba0~ba1, cke, / / / / input setup / hold slew-rate delta tis delta tih v/ns ps ps 0.5 0 0 0.4 +50 0 0.3 +100 0 input setup / hold slew-rate delta tds delta tdh v/ns ps ps 0.5 0 0 0.4 +75 +75 0.3 +150 +150 i/o input level delta tds delta tdh mv ps ps +280 +50 +50 (1/slewrate1)-(1/slewrate2) delta tds delta tdh ns/v ps ps 000 +/-0.25 +50 +50 +/- 0.5 +100 +100
rev. 0.2 / nov. 2004 32 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 14. dqs, dm and dq input slew rate is specified to prevent double clocking of data and preserve setup and hold times. signal transitions through th e dc region must be monotonic. 15. tdal = (tdpl / tck ) + (trp / tck ). for each of the terms above, if not already an integer, round to the next highest int eger. tck is equal to the actual system clock cycle time. example: for ddr400(d4) at cl=3 and tck = 5.0 ns, tdal = (15 ns / 5.0 ns) + (18 ns / 5.0 ns) = (3.00) + (3.6) round up each non-integer to the next highest integer: = (3) + (4), tdal = 7 clocks 16. for the parts which do not has internal ras lockout circuit, active to read with auto precharge delay should be tras - (bl/2) x tck. 17. thz and tlz transitions occur in the same access time window s as valid data trasitions. these parameters are not reference d to a specific voltage level but specify when the device output is no longer driving (hz), or begins driving (lz).
rev. 0.2 / nov. 2004 33 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 capacitance (t a =25 o c, f=100mhz ) note : 1. vdd = min. to max., vddq = 2.4v to 2.7v, v o dc = vddq/2, v o peak-to-peak = 0.2v 2. pins not under test are tied to gnd. 3. these values are guaranteed by desi gn and are tested on a sample basis only. output load circuit parameter pin symbol min max unit input clock capacitance ck, /ck, cke c i1 1.5 2.5 pf delta input clock capacitance ck, /ck delta c i1 -0.25pf input capacitance all other input-only pins c i1 1.5 2.5 pf delta input capacitance all other input-only pins delta c i2 -0.5pf input / output capacitance dq, dqs, dm c io 3.5 4.5 pf delta input / output capacitance dq, dqs, dm delta c io -0.5pf v ref v tt r t =50 ? zo=50 ? c l =30pf output
rev. 0.2 / nov. 2004 34 hy5du56422d(l)f-d4/d43 hy5du56822d(l)f-d4/d43 hy5du561622d(l)f-d4/d43 package information

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