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the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. not all devices/types available in every country. please check with local nec representative for availability and additional information. ? 1999 mos integrated circuit m m m m pd4564323 for rev. e 64m-bit synchronous dram 4-bank, lvttl data sheet document no. m14376ej2v0ds00 (2nd edition) date published december 1999 ns cp (k) printed in japan the mark ? ? ? ? shows major revised points. description the m pd4564323 is a high-speed 67,108,864-bit synchronous dynamic random-access memory, organized as 524,288 words 32 bits 4 banks. the synchronous drams achieved high-speed data transfer using the pipeline architecture. all inputs and outputs are synchronized with the positive edge of the clock. the synchronous drams are compatible with low voltage ttl (lvttl). these products are packaged in 86-pin tsop (ii). features fully synchronous dynamic ram, with all signals referenced to a positive clock edge pulsed interface possible to assert random column address in every cycle quad internal banks controlled by ba0 and ba1 (bank select) 32 organization byte control by dqm0, dqm1, dqm2 and dqm3 programmable wrap sequence (sequential / interleave) programmable burst length (1, 2, 4, 8 and full page) programmable /cas latency (2 and 3) automatic precharge and controlled precharge cbr (auto) refresh and self refresh single 3.3 v 0.3 v power supply lvttl compatible inputs and outputs 4,096 refresh cycles / 64 ms burst termination by burst stop command and precharge command
data sheet m14376ej2v0ds00 2 m m m m pd4564323 for rev. e ordering information part number organization (word bit bank) clock frequency mhz (max.) package m pd4564323g5-a60-9jh 512k 32 4 166 86-pin plastic tsop (ii) m pd4564323g5-a70-9jh 143 (10.16 mm (400)) m pd4564323g5-a80-9jh 125 m pd4564323g5-a10-9jh 100 m pd4564323g5-a10b-9jh 100 h
data sheet m14376ej2v0ds00 3 m m m m pd4564323 for rev. e part number m pd4564323g5 - a60 organization 32 : x32 memory density 64 : 64m bits synchronous dram nec memory package g5 : tsop(ii) low voltage a : 3.3 0.3 v minimum cycle time 60 : 6 ns (166mhz) 70 : 7 ns (143mhz) 80 : 8 ns (125mhz) 10 : 10 ns (100mhz) 10b : 10 ns (100mhz) number of banks & interface 3 : 4bank, lvttl h
data sheet m14376ej2v0ds00 4 m m m m pd4564323 for rev. e pin configuration /xxx indicates active low signal. [ m m m m pd4564323] 86-pin plastic tsop (ii) (10.16 mm (400)) 512k words 32 bits 4 banks 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48 47 46 45 44 v cc dq0 v cc q dq1 dq2 v ss q dq3 dq4 v cc q dq5 dq6 v ss q dq7 nc v cc dqm0 /we /cas /ras /cs nc ba0 ba1 a10(ap) a0 a1 a2 dqm2 v cc nc dq16 v ss q dq17 dq18 v cc q dq19 dq20 v ss q dq21 dq22 v cc q dq23 v cc v ss dq15 v ss q dq14 dq13 v cc q dq12 dq11 v ss q dq10 dq9 v cc q dq8 nc v ss dqm1 nc nc clk cke a9 a8 a7 a6 a5 a4 a3 dqm3 v ss nc dq31 v cc q dq30 dq29 v ss q dq28 dq27 v cc q dq26 dq25 v ss q dq24 v ss a0 to a10 note : address inputs ba0, ba1 : bank select dq0 to dq31 : data inputs / outputs clk : clock input cke : clock enable /cs : chip select /ras : row address strobe /cas : column address strobe /we : write enable dqm0 to dqm3 : dq mask enable v cc : supply voltage v ss : ground v cc q : supply voltage for dq v ss q : ground for dq nc : no connection note a0 to a10 : row address inputs a0 to a7 : column address inputs
data sheet m14376ej2v0ds00 5 m m m m pd4564323 for rev. e block diagram clock generator mode register command decoder control logic row address buffer & refresh counter column address buffer & burst counter data control circuit latch circuit input & output buffer dq dqm clk cke address /cs /ras /cas /we bank d bank c bank b sense amplifier column decoder & latch circuit bank a row decoder
data sheet m14376ej2v0ds00 6 m m m m pd4564323 for rev. e contents 1. input / output pin function ................................................................................................. ............. 8 2. commands .................................................................................................................... ..................... 9 3. simplified state diagram .................................................................................................... ............ 12 4. truth table ................................................................................................................. ...................... 13 4.1 command truth table......................................................................................................... .................... 13 4.2 dqm truth table ............................................................................................................. ......................... 13 4.3 cke truth table............................................................................................................. .......................... 13 4.4 operative command table .................................................................................................... ................ 14 4.5 command truth table for cke ................................................................................................ ............. 17 5. initialization .............................................................................................................. ........................ 18 6. programming the mode register ............................................................................................... .... 19 7. mode register ............................................................................................................... ................... 20 7.1 burst length and sequence .................................................................................................. ................ 21 8. address bits of bank-select and precharge ................................................................................ 22 9. precharge ................................................................................................................... ...................... 23 10. auto precharge ............................................................................................................. ................... 24 10.1 read with auto precharge .................................................................................................. ................ 24 10.2 write with auto precharge ................................................................................................. ................. 25 11. read / write command interval .............................................................................................. ....... 26 11.1 read to read command interval ............................................................................................. ........... 26 11.2 write to write command interval ........................................................................................... ............ 26 11.3 write to read command interval ............................................................................................ ............ 27 11.4 read to write command interval ............................................................................................ ............ 28 12. burst termination .......................................................................................................... ................. 29 12.1 burst stop command ........................................................................................................ .................. 29 12.2 precharge termination ..................................................................................................... ................... 30 12.2.1 precharge termination in read cycle .................................................................................... 30 12.2.2 precharge termination in write cycle .................................................................................. 3 1
data sheet m14376ej2v0ds00 7 m m m m pd4564323 for rev. e 13. electrical specifications .................................................................................................. ............... 32 13.1 ac parameters for read timing ............................................................................................. ............ 37 13.2 ac parameters for write timing ............................................................................................ ............. 39 13.3 relationship between frequency and latency ................................................................................ . 40 13.4 mode register set ......................................................................................................... ....................... 41 13.5 power on sequence and cbr (auto) refresh .................................................................................. . 42 13.6 /cs function .............................................................................................................. ........................... 43 13.7 clock suspension during burst read (using cke function) .......................................................... 44 13.8 clock suspension during burst write (using cke function) .......................................................... 46 13.9 power down mode and clock mask ............................................................................................ ....... 48 13.10 cbr (auto) refresh ....................................................................................................... ...................... 49 13.11 self refresh (entry and exit) ............................................................................................ ................... 50 13.12 random column read (page with same bank) ................................................................................ 51 13.13 random column write (page with same bank) ................................................................................ 53 13.14 random row read (ping-pong banks) ........................................................................................ ..... 55 13.15 random row write (ping-pong banks) ....................................................................................... ...... 57 13.16 read and write ........................................................................................................... .......................... 59 13.17 interleaved column read cycle ............................................................................................ ............. 61 13.18 interleaved column write cycle ........................................................................................... .............. 63 13.19 auto precharge after read burst .......................................................................................... ............. 65 13.20 auto precharge after write burst ......................................................................................... .............. 67 13.21 full page read cycle ..................................................................................................... ...................... 69 13.22 full page write cycle .................................................................................................... ....................... 71 13.23 byte write operation ..................................................................................................... ...................... 73 13.24 burst read and single write (option) ..................................................................................... ........... 74 13.25 full page random column read ............................................................................................. ........... 75 13.26 full page random column write ............................................................................................ ........... 76 13.27 pre (precharge) termination of burst ..................................................................................... .......... 77 14. package drawing ............................................................................................................ ................. 79 15. recommended soldering condition ............................................................................................ . 80 16. revision history ........................................................................................................... ................... 80
data sheet m14376ej2v0ds00 8 m m m m pd4564323 for rev. e 1. input / output pin function pin name input / output function clk input clk is the master clock input. other inputs signals are referenced to the clk rising edge. cke input cke determine validity of the next clk (clock). if cke is high, the next clk rising edge is valid; otherwise it is invalid. if the clk rising edge is invalid, the internal clock is not issued and the m pd4564323 suspends operation. when the m pd4564323 is not in burst mode and cke is negated, the device enters power down mode. during power down mode, cke must remain low. /cs input /cs low starts the command input cycle. when /cs is high, commands are ignored but operations continue. /ras, /cas, /we input /ras, /cas and /we have the same symbols on conventional dram but different functions. for details, refer to the command table. a0 - a10 input row address is determined by a0 - a10 at the clk (clock) rising edge in the active command cycle. column address is determined by a0 - a7 at the clk rising edge in the read or write command cycle. a10 defines the precharge mode. when a10 is high in the precharge command cycle, all banks are precharged; when a10 is low, only the bank selected by ba0 and ba1 is precharged. when a10 is high in read or write command cycle, the precharge starts automatically after the burst access. ba0, ba1 input ba0 and ba1 are the bank select signal. in command cycle, ba0 and ba1 low select bank a, ba0 low and ba1 high select bank c, ba0 high and ba1 low select bank b and then ba0 and ba1 high select bank d. dqm0 - dqm3 input dqm controls i/o buffers. dqm0 controls dq0 - dq7, dqm1 controls dq8 - dq15, dqm2 controls dq16 - dq23, dqm3 controls dq24 - dq31. in read mode, dqm controls the output buffers like a conventional /oe pin. dqm high and dqm low turn the output buffers off and on, respectively. the dqm latency for the read is two clo cks. in write mode, dqm controls the word mask. input data is written to the memory cell if dqm is low but not if dqm is high. the dqm latency for the write is zero. dq0 - dq31 input / output dq pins have the same function as i/o pins on a conventional dram. v cc , v ss , v cc q, v ss q (power supply) v cc and v ss are power supply pins for internal circuits. v cc q and v ss q are power supply pins for the output buffers.
data sheet m14376ej2v0ds00 9 m m m m pd4564323 for rev. e 2. commands mode register set command (/cs, /ras, /cas, /we = low) the m pd4564323 has a mode register that defines how the device operates. in this command, a0 through a10, ba0 and ba1 are the data input pins. after power on, the mode register set command must be executed to initialize the device. the mode register can be set only when all banks are in idle state. during 2 clk (t rsc ) following this command, the m pd4564323 cannot accept any other commands. fig.1 mode register set command /we /cas /ras /cs cke clk h add a10 ba0, ba1 (bank select) activate command (/cs, /ras = low, /cas, /we = high) the m pd4564323 has four banks, each with 4,096 rows. this command activates the bank selected by ba0 and ba1 and a row address selected by a0 through a10. this command corresponds to a conventional drams /ras falling. fig.2 row address strobe and bank activate command /we /cas /ras /cs cke clk h add a10 ba0, ba1 row row (bank select) precharge command (/cs, /ras, /we = low, /cas = high) this command begins precharge operation of the bank selected by ba0 and ba1. when a10 is high, all banks are precharged, regardless of ba0 and ba1. when a10 is low, only the bank selected by ba0 and ba1 is precharged. after this command, the m pd4564323 cant accept the activate command to the precharging bank during t rp (precharge to activate command period). this command corresponds to a conventional drams /ras rising. fig.3 precharge command /we /cas /ras /cs cke clk h add a10 ba0, ba1 (bank select) (precharge select)
data sheet m14376ej2v0ds00 10 m m m m pd4564323 for rev. e write command (/cs, /cas, /we = low, /ras = high) if the mode register is in the burst write mode, this command sets the burst start address given by the column address to begin the burst write operation. the first write data in burst mode can input with this command with subsequent data on following clocks. fig.4 column address and write command /we /cas /ras /cs cke clk h add a10 ba0, ba1 (bank select) col. read command (/cs, /cas = low, /ras, /we = high) read data is available after /cas latency requirements have been met. this command sets the burst start address given by the column address. fig.5 column address and read command /we /cas /ras /cs cke clk h add a10 ba0, ba1 (bank select) col. cbr (auto) refresh command (/cs, /ras, /cas = low, /we, cke = high) this command is a request to begin the cbr (auto) refresh operation. the refresh address is generated internally. before executing cbr (auto) refresh, all banks must be precharged. after this cycle, all banks will be in the idle (precharged) state and ready for a row activate command. during t rc period (from refresh command to refresh or activate command), the m pd4564323 cannot accept any other command. fig.6 cbr (auto) refresh command add a10 ba0, ba1 /we /cas /ras /cs cke clk h (bank select)
data sheet m14376ej2v0ds00 11 m m m m pd4564323 for rev. e self refresh entry command (/cs, /ras, /cas, cke = low, /we = high) after the command execution, self refresh operation continues while cke remains low. when cke goes high, the m pd4564323 exits the self refresh mode. during self refresh mode, refresh interval and refresh operation are performed internally, so there is no need for external control. before executing self refresh, all banks must be precharged. fig.7 self refresh entry command /we /cas /ras /cs cke clk add a10 ba0, ba1 (bank select) burst stop command (/cs, /we = low, /ras, /cas = high) this command can stop the current burst operation. fig.8 burst stop command in full page mode /we /cas /ras /cs cke clk add a10 ba0, ba1 (bank select) h no operation (/cs = low, /ras, /cas, /we = high) this command is not an execution command. no operations begin or terminate by this command. fig.9 no operation /we /cas /ras /cs cke clk h add a10 ba0, ba1 (bank select)
data sheet m14376ej2v0ds00 12 m m m m pd4564323 for rev. e 3. simplified state diagram cke cke cke cke cke cke cke cke precharge auto precharge pre read with auto precharge read bst bst pre (precharge termination) pre (precharge termination) act mrs ref cke cke self self exit idle mode register set cbr(auto) refresh row active self refresh power down active power down precharge read reada read suspend reada suspend write writea write suspend writea suspend power on write read automatic sequence manual input cke cke read write write with write
data sheet m14376ej2v0ds00 13 m m m m pd4564323 for rev. e 4. truth table 4.1 command truth table function symbol cke /cs /ras /cas /we ba0, a10 a9 - a0 n C 1 n ba1 device deselect desl h h no operation nop h lhhh burst stop bst h lhhl read read h lhlhvlv read with auto precharge reada h lhlhvhv write writ h lhllvlv write with auto precharge writa h lhllvhv bank activate act h llhhvvv precharge select bank pre h llhlvl precharge all banks pall h llhl h mode register set mrs h llllllv remark h = high level, l = low level, = high or low level (don't care), v = valid data input 4.2 dqm truth table function symbol cke dqm n-1n0123 data write/output enable enb h l data mask/output disable mask h h dq0 - dq7 write enable/output enable enb0 h l dq8 - dq15 write enable/output enable enb1 h l dq16 - dq23 write enable/output enable enb2 h l dq24 - dq31 write enable/output enable enb3 h l dq0 - dq7 write inhibit/output disable mask0 h h dq8 - dq15 write inhibit/output disable mask1 h h dq16 - dq23 write inhibit/output disable mask2 h h dq24 - dq31 write inhibit/output disable mask3 h h remark h = high level, l = low level, = high or low level (don't care) 4.3 cke truth table current state function symbol cke /cs /ras /cas /we address n C 1 n activating clock suspend mode entry h l any clock suspend l l clock suspend clock suspend mode exit l h idle cbr (auto) refresh command ref h h l l l h idle self refresh entry self h l l l l h self refresh self refresh exit l h l h h h lhh idle power down entry h l power down power down exit l h h lhlhhh remark h = high level, l = low level, = high or low level (don't care)
data sheet m14376ej2v0ds00 14 m m m m pd4564323 for rev. e 4.4 operative command table note1 (1/3) current state /cs /ras /cas /we address command action notes idle h desl nop or power down 2 lhh nop or bst nop or power down 2 l h l h ba, ca, a10 read/reada illegal 3 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act row activating l l h l ba, a10 pre/pall nop lllh ref/self cbr (auto) refresh or self refresh 4 l l l l op-code mrs mode register accessing row active h desl nop lhh nop or bst nop l h l h ba, ca, a10 read/reada begin read : determine ap 5 l h l l ba, ca, a10 writ/writa begin write : determine ap 5 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall precharge 6 lllh ref/self illegal l l l l op-code mrs illegal read h desl continue burst to end ? row active lhhh nop continue burst to end ? row active lhhl bst burst stop ? row active l h l h ba, ca, a10 read/reada terminate burst, new read : determine ap 7 l h l l ba, ca, a10 writ/writa terminate burst, start write : determine ap 7, 8 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall terminate burst, precharging lllh ref/self illegal l l l l op-code mrs illegal write h desl continue burst to end ? write recovering lhhh nop continue burst to end ? write recovering lhhl bst burst stop ? row active l h l h ba, ca, a10 read/reada terminate burst, start read : determine ap 7, 8 l h l l ba, ca, a10 writ/writa terminate burst, new write : determine ap 7 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall terminate burst, precharging 9 lllh ref/self illegal l l l l op-code mrs illegal
data sheet m14376ej2v0ds00 15 m m m m pd4564323 for rev. e (2/3) current state /cs /ras /cas /we address command action notes read with auto h desl continue burst to end ? precharging precharge l h h h nop continue burst to end ? precharging lhhl bst illegal l h l h ba, ca, a10 read/reada illegal 3 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall illegal 3 lllh ref/self illegal llllop-code mrs illegal write with auto precharge h desl continue burst to end ? write recovering with auto precharge lhhh nop continue burst to end ? write recovering with auto precharge lhhl bst illegal l h l h ba, ca, a10 read/reada illegal 3 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall illegal 3 lllh ref/self illegal llllop-code mrs illegal precharging h desl nop ? enter idle after t rp lhhh nop nop ? enter idle after t rp lhhl bst illegal l h l h ba, ca, a10 read/reada illegal 3 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall nop ? enter idle after t rp lllh ref/self illegal llllop-code mrs illegal row activating h desl nop ? enter bank active after t rcd lhhh nop nop ? enter bank active after t rcd lhhl bst illegal l h l h ba, ca, a10 read/reada illegal 3 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act illegal 3, 10 l l h l ba, a10 pre/pall illegal 3 lllh ref/self illegal llllop-code mrs illegal
data sheet m14376ej2v0ds00 16 m m m m pd4564323 for rev. e (3/3) current state /cs /ras /cas /we address command action notes write recovering h desl nop ? enter row active after t dpl lhhh nop nop ? enter row active after t dpl lhhl bst nop ? enter row active after t dpl l h l h ba, ca, a10 read/reada start read, determine ap 8 l h l l ba, ca, a10 writ/writa new write, determine ap l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall illegal 3 lllh ref/self illegal llllop-code mrs illegal write recovering h desl nop ? enter precharge after t dpl with auto precharge l h h h nop nop ? enter precharge after t dpl lhhl bst nop ? enter precharge after t dpl l h l h ba, ca, a10 read/reada illegal 3, 8 l h l l ba, ca, a10 writ/writa illegal 3 l l h h ba, ra act illegal 3 l l h l ba, a10 pre/pall illegal lllh ref/self illegal llllop-code mrs illegal refreshing h desl nop ? enter idle after t rc lhh nop/bst nop ? enter idle after t rc lhl read/writ illegal llh act/pre/pall illegal lll ref/self/mrs illegal mode register h desl nop ? enter idle after t rsc accessing l h h h nop nop ? enter idle after t rsc lhhl bst illegal lhl read/writ illegal ll act/pre/pall/ ref/self/mrs illegal notes 1. all entries assume that cke was active (high level) during the preceding clock cycle. 2. if all banks are idle, and cke is inactive (low level), m pd4564323 will enter power down mode. all input buffers except cke will be disabled. 3. illegal to bank in specified states; function may be legal in the bank indicated by bank address (ba), depending on the state of that bank. 4. if all banks are idle, and cke is inactive (low level), m pd4564323 will enter self refresh mode. all input buffers except cke will be disabled. 5. illegal if t rcd is not satisfied. 6. illegal if t ras is not satisfied. 7. must satisfy burst interrupt condition. 8. must satisfy bus contention, bus turn around, and/or write recovery requirements. 9. must mask preceding data which don't satisfy t dpl . 10. illegal if t rrd is not satisfied. remark h = high level, l = low level, = high or low level (dont care), v = valid data
data sheet m14376ej2v0ds00 17 m m m m pd4564323 for rev. e 4.5 command truth table for cke current state cke /cs /ras /cas /we address action notes n C 1 n self refresh h invalid, clk (n-1) would exit self refresh lhh self refresh recovery lhlhh self refresh recovery lhlhl illegal lhll illegal ll maintain self refresh self refresh recovery h h h idle after t rc hhlhh idle after t rc hhlhl illegal hhl l illegal hlh illegal hllhh illegal hllhl illegal hlll illegal power down h invalid, clk (n C 1) would exit power down lhh exit power down ? idle lhlhhh ll maintain power down mode all banks idle h h h refer to operations in operative command table hhlh refer to operations in operative command table hhl lh refer to operations in operative command table hhlllh cbr (auto) refresh h h l l l l op-code refer to operations in operative command table hlh refer to operations in operative command table hllh refer to operations in operative command table hlllh refer to operations in operative command table hllllh self refresh 1 hlllllop-coderefer to operations in operative command table l power down 1 row active h refer to operations in operative command table l power down 1 any state other than h h refer to operations in operative command table listed above h l begin clock suspend next cycle 2 lh exit clock suspend next cycle ll maintain clock suspend notes 1. self refresh can be entered only from the all banks idle state. power down can be entered only from all banks idle or row active state. 2. must be legal command as defined in operative command table. remark h = high level, l = low level, = high or low level (don't care)
data sheet m14376ej2v0ds00 18 m m m m pd4564323 for rev. e 5. initialization the synchronous dram is initialized in the power-on sequence according to the following. (1) to stabilize internal circuits, when power is applied, a 100 m s or longer pause must precede any signal toggling. (2) after the pause, all banks must be precharged using the precharge command (the precharge all banks command is convenient). (3) once the precharge is completed and the minimum t rp is satisfied, the mode register can be programmed. after the mode register set cycle, t rsc (2 clk minimum) pause must be satisfied as well. (4) two or more cbr (auto) refresh must be performed. remarks 1. the sequence of mode register programming and refresh above may be transposed. 2. cke and dqm must be held high until the precharge command is issued to ensure data-bus hi-z.
data sheet m14376ej2v0ds00 19 m m m m pd4564323 for rev. e 6. programming the mode register the mode register is programmed by the mode register set command using address bits a10 through a0, ba0 and ba1 as data inputs. the register retains data until it is reprogrammed or the device loses power. the mode register has four fields; options : a10 through a7, ba0, ba1 /cas latency : a6 through a4 wrap type : a3 burst length : a2 through a0 following mode register programming, no command can be issued before at least 2 clk have elapsed. /cas latency /cas latency is the most critical of the parameters being set. it tells the device how many clocks must elapse before the data will be available. the value is determined by the frequency of the clock and the speed grade of the device. 13.3 relationship between frequency and latency shows the relationship of /cas latency to the clock period and the speed grade of the device. burst length burst length is the number of words that will be output or input in a read or write cycle. after a read burst is completed, the output bus will become hi-z. the burst length is programmable as 1, 2, 4, 8 or full page. wrap type (burst sequence) the wrap type specifies the order in which the burst data will be addressed. this order is programmable as either sequential or interleave. the method chosen will depend on the type of cpu in the system. some microprocessor cache systems are optimized for sequential addressing and others for interleaved addressing. 7.1 burst length and sequence shows the addressing sequence for each burst length using them. both sequences support bursts of 1, 2, 4 and 8. additionally, sequence supports the full page length.
data sheet m14376ej2v0ds00 20 m m m m pd4564323 for rev. e 7. mode register wt = 1 1 2 4 8 r r r r 1 0 0 0 0 a0 a1 a2 a3 a4 a5 a7 a6 a8 a9 a10 ba0 jedec standard test set (refresh counter test) bl wt ltmode 0 0 1 x x a0 a1 a2 a3 a4 a5 a7 a6 a8 a9 a10 ba0 burst read and single write (for write through cache) 0 1 a0 a1 a2 a3 a4 a5 a7 a6 a8 a9 a10 ba0 use in future v v v v v v 1v 1 x x x a0 a1 a2 a3 a4 a5 a7 a6 a8 a9 a10 ba0 vender specific bl wt ltmode 0 0 0 0 0 a0 a1 a2 a3 a4 a5 a7 a6 a8 a9 a10 ba0 mode register set v = valid x = don t care wt = 0 1 2 4 8 r r r full page bits2-0 000 001 010 011 100 101 110 111 burst length sequential interleave 0 1 wrap type /cas latency r r 2 3 r r r r bits6-4 000 001 010 011 100 101 110 111 latency mode 0 ba1 x ba1 ba1 x ba1 0 ba1 remark r : reserved mode register set timing clk cke /cs /ras /cas /we a0 - a10, ba0, ba1 mode register set
data sheet m14376ej2v0ds00 21 m m m m pd4564323 for rev. e 7.1 burst length and sequence [burst of two] starting address (column address a0, binary) sequential addressing sequence (decimal) interleave addressing sequence (decimal) 0 0, 1 0, 1 1 1, 0 1, 0 [burst of four] starting address (column address a1 - a0, binary) sequential addressing sequence (decimal) interleave addressing sequence (decimal) 00 0, 1, 2, 3 0, 1, 2, 3 01 1, 2, 3, 0 1, 0, 3, 2 10 2, 3, 0, 1 2, 3, 0, 1 11 3, 0, 1, 2 3, 2, 1, 0 [burst of eight] starting address (column address a2 - a0, binary) sequential addressing sequence (decimal) interleave addressing sequence (decimal) 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 full page burst is an extension of the above tables of sequential addressing, with the length being 256.
data sheet m14376ej2v0ds00 22 m m m m pd4564323 for rev. e 8. address bits of bank-select and precharge a10 a9 a8 a7 a6 a4 a5 a3 a2 a1 a0 row (activate command) a10 a9 a8 a7 a6 a4 a5 a3 a2 a1 a0 (precharge command) disables auto-precharge (end of burst) 0 enables auto-precharge (end of burst) 1 a10 a9 a8 a7 a6 a4 a5 a3 a2 a1 a0 col. (/cas strobes) x : dont care ba0 ba1 ba0 ba1 ba0 ba1 select bank a activate command 0 select bank b activate command 0 1 1 0 1 0 1 ba1 ba0 result select bank c activate command select bank d activate command enables read/write commands for bank a 0 enables read/write commands for bank b 0 1 1 0 1 0 1 ba1 ba0 result enables read/write commands for bank c enables read/write commands for bank d result precharge bank a precharge bank b precharge bank c precharge bank d precharge all banks a10 0 0 0 0 1 ba1 0 0 1 1 x ba0 0 1 0 1 x
data sheet m14376ej2v0ds00 23 m m m m pd4564323 for rev. e 9. precharge the precharge command can be issued anytime after t ras (min.) is satisfied. soon after the precharge command is issued, precharge operation performed and the synchronous dram enters the idle state after t rp is satisfied. the parameter t rp is the time required to perform the precharge. the earliest timing in a read cycle that a precharge command can be issued without losing any data in the burst is as follows. it is depending on the /cas latency and clock cycle time. t0 t1 t2 t3 t4 t5 t6 t7 burst length=4 read read q1 q2 q3 q4 pre hi-z q1 q2 q3 q4 pre hi-z (t ras must be satisfied) clk command /cas latency = 2 dq command /cas latency = 3 dq t8 in order to write all data to the memory cell correctly, the asynchronous parameter t dpl must be satisfied. the t dpl(min.) specification defines the earliest time that a precharge command can be issued. minimum number of clocks is calculated by dividing t dpl(min.) with clock cycle time. in summary, the precharge command can be issued relative to reference clock that indicates the last data word is valid. in the following table, minus means clocks before the reference; plus means time after the reference. /cas latency read write 2C1+t dpl (min.) 3C2+t dpl (min.)
data sheet m14376ej2v0ds00 24 m m m m pd4564323 for rev. e 10. auto precharge during a read or write command cycle, a10 controls whether auto precharge is selected. a10 high in the read or write command (read with auto precharge command or write with auto precharge command), auto precharge is selected and begins automatically. the t ras must be satisfied with a read with auto precharge or a write with auto precharge operation. in addition, the next activate command to the bank being precharged cannot be executed until the precharge cycle ends. in read cycle, once auto precharge has started, an activate command to the bank can be issued after t rp has been satisfied. in write cycle, the t dal must be satisfied to issue the next activate command to the bank being precharged. the timing that begins the auto precharge cycle depends on both the /cas latency programmed into the mode register and whether read or write cycle. 10.1 read with auto precharge during a read cycle, the auto precharge begins one clock earlier (/cas latency of 2) or two clocks earlier (/cas latency of 3) the last data word output. qb1 qb2 qb3 qb4 auto precharge starts reada b hi-z qb1 qb2 qb3 qb4 auto precharge starts reada b hi-z dq command dq command /cas latency = 2 /cas latency = 3 clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4 (t ras must be satisfied) t9 remark reada means read with auto precharge
data sheet m14376ej2v0ds00 25 m m m m pd4564323 for rev. e 10.2 write with auto precharge during a write cycle, the auto precharge starts at the timing that is equal to the value of the t dpl (min.) after the last data word input to the device. db1 db2 db3 db4 auto precharge starts writa b hi-z db1 db2 db3 db4 auto precharge starts writa b hi-z dq command dq command /cas latency = 2 /cas latency = 3 clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4 (t ras must be satisfied) t dpl(min.) t dpl(min.) remark writa means write with auto precharge in summary, the auto precharge begins relative to a reference clock that indicates the last data word is valid. in the table below, minus means clocks before the reference; plus means after the reference. /cas latency read write 2C1+t dpl (min.) 3C2+t dpl (min.)
data sheet m14376ej2v0ds00 26 m m m m pd4564323 for rev. e 11. read / write command interval 11.1 read to read command interval during a read cycle, when new read command is issued, it will be effective after /cas latency, even if the previous read operation does not completed. read will be interrupted by another read. the interval between the commands is 1 cycle minimum. each read command can be issued in every clock without any restriction. qb1 qb2 qb3 qb4 hi-z read a dq command clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4, /cas latency = 2 read b qa1 1cycle t9 11.2 write to write command interval during a write cycle, when a new write command is issued, the previous burst will terminate and the new burst will begin with a new write command. write will be interrupted by another write. the interval between the commands is minimum 1 cycle. each write command can be issued in every clock without any restriction. db1 db2 db3 db4 hi-z write a dq command clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4, /cas latency = 2 write b da1 1cycle
data sheet m14376ej2v0ds00 27 m m m m pd4564323 for rev. e 11.3 write to read command interval write command and read command interval is also 1 cycle. only the write data before read command will be written. the data bus must be hi-z at least one cycle prior to the first d out . qb1 qb2 qb3 qb4 write a hi-z qb1 qb2 qb3 qb4 write a hi-z dq command dq command /cas latency = 2 /cas latency = 3 clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4 da1 da1 read b read b
data sheet m14376ej2v0ds00 28 m m m m pd4564323 for rev. e 11.4 read to write command interval during a read cycle, read can be interrupted by write. the read and write command interval is 1 cycle minimum. there is a restriction to avoid data conflict. the data bus must be hi-z using dqm before write. d1 d2 d3 d4 read dq command clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 4 write dqm hi-z 1cycle read can be interrupted by write. dqm must be high at least 3 clocks prior to the write command. clk t0 t2 t1 t3 t4 t5 t6 t7 t8 burst length = 8 t9 q1 q2 q3 read dq command d1 d2 d3 write dqm hi-z is necessary q1 q2 read dq command d1 d2 d3 write dqm hi-z is necessary /cas latency = 2 /cas latency = 3
data sheet m14376ej2v0ds00 29 m m m m pd4564323 for rev. e 12. burst termination there are two methods to terminate a burst operation other than using a read or a write command. one is the burst stop command and the other is the precharge command. 12.1 burst stop command during a read cycle, when the burst stop command is issued, the burst read data are terminated and the data bus goes to hi-z after the /cas latency from the burst stop command. read command clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x q1 q2 q3 dq /cas latency = 2 hi-z q1 q2 q3 dq /cas latency = 3 hi-z bst remark bst: burst stop command during a write cycle, when the burst stop command is issued, the burst write data are terminated and data bus goes to hi-z at the same clock with the burst stop command. d2 d3 d4 write dq command /cas latency = 2, 3 clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x bst hi-z d1 remark bst: burst stop command
data sheet m14376ej2v0ds00 30 m m m m pd4564323 for rev. e 12.2 precharge termination 12.2.1 precharge termination in read cycle during a read cycle, the burst read operation is terminated by a precharge command. when the precharge command is issued, the burst read operation is terminated and precharge starts. the same bank can be activated again after t rp from the precharge command. to issue a precharge command, t ras must be satisfied. when /cas latency is 2, the read data will remain valid until one clock after the precharge command. read clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x, /cas latency = 2 q1 dq command q2 q3 q4 act t rp pre hi-z (t ras must be satisfied) when /cas latency is 3, the read data will remain valid until two clocks after the precharge command. read clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x, /cas latency = 3 dq command q1 q2 q3 act t rp pre hi-z t8 q4 (t ras must be satisfied)
data sheet m14376ej2v0ds00 31 m m m m pd4564323 for rev. e 12.2.2 precharge termination in write cycle during a write cycle, the burst write operation is terminated by a precharge command. when the precharge command is issued, the burst write operation is terminated and precharge starts. the same bank can be activated again after t rp from the precharge command. to issue a precharge command, t ras must be satisfied. when /cas latency is 2, the write data written prior to the precharge command will be correctly stored. however, invalid data may be written at the same clock as the precharge command. to prevent this from happening, dqm must be high at the same clock as the precharge command. this will mask the invalid data. write clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x, /cas latency = 2 dq command d1 d2 d3 act dqm t rp pre hi-z d4 d5 (t ras must be satisfied) when /cas latency is 3, the write data written prior to the precharge command will be correctly stored. however, invalid data may be written at the same clock as the precharge command. to prevent this from happening, dqm must be high at the same clock as the precharge command. this will mask the invalid data. write clk t0 t2 t1 t3 t4 t5 t6 t7 burst length = x, /cas latency = 3 dq command d1 d2 d3 act dqm t rp pre hi-z d5 t8 d4 (t ras must be satisfied)
data sheet m14376ej2v0ds00 32 m m m m pd4564323 for rev. e 13. electrical specifications all voltages are referenced to v ss (gnd). after power up, wait more than 100 m s and then, execute power on sequence and cbr (auto) refresh before proper device operation is achieved. absolute maximum ratings parameter symbol condition rating unit voltage on power supply pin relative to gnd v cc , v cc q - 0.5 to +4.6 v voltage on input pin relative to gnd v t - 0.5 to +4.6 v short circuit output current i o 50 ma power dissipation p d 1w operating ambient temperature t a 0 to 70 c storage temperature t stg - 55 to + 125 c caution exposing the device to stress above those listed in absolute maximum ratings could cause permanent damage. the device is not meant to be operated under conditions outside the limits described in the operational section of this specification. exposure to absolute maximum rating conditions for extended periods may affect device reliability. recommended operating conditions parameter symbol condition min. typ. max. unit supply voltage v cc , v cc q 3.0 3.3 3.6 v high level input voltage v ih 2.0 v cc + 0.3 note1 v low level input voltage v il - 0.3 note 2 +0.8 v operating ambient temperature t a 070 c notes 1. v ih(max.) = v cc + 1.5 v (pulse width 5ns) 2. v il(min.) = C1.5 v (pulse width 5ns) pin capacitance (t a = 25 c, f = 1 mhz) parameter symbol condition min. typ. max. unit input capacitance c i1 a0 - a10, ba0, ba1 2.5 4 pf c i2 clk, cke, /cs, /ras, /cas, /we, dqm0 - dqm3 2.5 4 data input / output capacitance c i/o dq0 - dq31 4 6.5 pf
data sheet m14376ej2v0ds00 33 m m m m pd4564323 for rev. e dc characteristics 1 (recommended operating conditions unless otherwise noted) parameter symbol test conditions /cas latency grade maximum unit notes operating current i cc1 burst length = 1, cl=2 -a60 150 ma 1 t rc 3 t rc(min.) , -a70 140 i o = 0 ma, -a80 130 one bank active -a10 130 -a10b 120 cl=3 -a60 160 -a70 150 -a80 140 -a10 140 -a10b 130 precharge standby current i cc2 p cke v il(max.) , t ck = 15 ns 1 ma in power down mode i cc2 ps cke v il(max.) , t ck = 1 precharge standby current in non power down mode i cc2 ncke 3 v ih(min.) , t ck = 15 ns, cs 3 v ih(min.) , input signals are changed one time during 30 ns 20 ma i cc2 ns cke 3 v ih(min.) , t ck = , input signals are stable. 6 active standby current in i cc3 p cke v il(max.) , t ck = 15 ns 5 ma power down mode i cc3 ps cke v il(max.) , t ck = 4 active standby current in non power down mode i cc3 ncke 3 v ih(min.) , t ck = 15 ns, / cs 3 v ih(min.) , input signals are changed one time during 30 ns. 30 ma i cc3 ns cke 3 v ih(min.) , t ck = , input signals are stable. 20 operating current i cc4 t ck 3 t ck(min.) , cl=2 -a60 170 ma 2 (burst mode) i o = 0 ma, -a70 170 all banks active -a80 170 -a10 140 -a10b 130 cl=3 -a60 240 -a70 220 -a80 190 -a10 180 -a10b 160 cbr (auto) refresh current i cc5 t rc 3 t rc(min.) cl=2 -a60 160 ma 3 -a70 150 -a80 150 -a10 150 -a10b 130 cl=3 -a60 170 -a70 160 -a80 160 -a10 160 -a10b 140 self refresh current i cc6 cke 0.2 v1ma notes 1. i cc1 depends on output loading and cycle rates. specified values are obtained with the output open. in addition to this, i cc1 is measured on condition that addresses are changed only one time during t ck(min.) . 2 .i cc4 depends on output loading and cycle rates. specified values are obtained with the output open. in addition to this, i cc4 is measured on condition that addresses are changed only one time during t ck(min.) . 3. i cc5 is measured on condition that addresses are changed only one time during t ck(min.) . h
data sheet m14376ej2v0ds00 34 m m m m pd4564323 for rev. e dc characteristics 2 (recommended operating conditions unless otherwise noted) parameter symbol test condition min. typ. max. unit notes input leakage current i i(l) 0 v i v cc q, v cc q = v cc , all other pins not under test = 0 v C1.0 +1.0 m a output leakage current i o(l) 0 v o v cc q, d out is disabled C1.5 +1.5 m a high level output voltage v oh i o = C 4 ma 2.4 v low level output voltage v ol i o = + 4 ma 0.4 v ac characteristics (recommended operating conditions unless otherwise noted) test conditions parameter value unit notes ac high level input voltage / low level input voltage 2.4 / 0.4 v input timing measurement reference level 1.4 v transition time (input rise and fall time) 1 ns output timing measurement reference level 1.4 v t ck t ch t cl 2.4 v 1.4 v 0.4 v clk 2.4 v 1.4 v 0.4 v input t setup t hold output t ac t oh h
data sheet m14376ej2v0ds00 35 m m m m pd4564323 for rev. e synchronous characteristics parameter /cas symbol -a 60 -a70 -a80 -a 10 -a 10b unit note latency min. max. min. max. min. max. min. max. min. max. clock cycle time cl = 3 t ck3 6 (166mhz) 7 (143mhz) 8 (125mhz) 10 (100mhz) 10 (100mhz) ns cl = 2 t ck2 10 (100mhz) 10 (100mhz) 10 (100mhz) 13 (77 mhz) 15 (67 mhz) ns access time from clk cl = 3 t ac3 5.5 5.5 6 6 7 ns 1 cl = 2 t ac2 66678ns1 clk high level width t ch 22333.5ns clk low level width t cl 22333.5ns data-out hold time t oh 2.5 2.5 3 3 3 ns 1 data-out low-impedance time t lz 00000ns data-out high-impedance cl = 3 t hz3 2.55.52.55.5363637ns time cl = 2 t hz2 2.562.56363738ns data-in setup time t ds 1.5 1.5 2 2 2.5 ns data-in hold time t dh 0.8 0.8 1 1 1 ns address setup time t as 1.5 1.5 2 2 2.5 ns address hold time t ah 0.8 0.8 1 1 1 ns cke setup time t cks 22222.5ns cke hold time t ckh 11111ns cke setup time (power down exit) t cksp 22222.5ns command (/ cs , / ras , / cas , / we, dqm ) setup time t cms 1.5 1.5 2 2 2.5 ns command (/ cs , / ras , / cas , / we, dqm ) hold time t cmh 0.8 0.8 1 1 1 ns note 1. output load output z = 50 w 1.4 v 50 pf 50 w
data sheet m14376ej2v0ds00 36 m m m m pd4564323 for rev. e asynchronous characteristics parameter /cas symbol -a60 -a70 -a80 -a 10 -a10b unit note latency min. max. min. max. min. max. min. max. min. max. ref to ref/act command period (operation) t rc 60 63 70 70 90 ns ref to ref/act command period (refresh) t rc1 66 70 70 70 90 ns act to pre command period t ras 42 120,000 42 120,000 48 120,000 50 120,000 60 120,000 ns pre to act command period t rp 18 20 20 20 30 ns delay time act to read/write command t rcd 18 20 20 20 30 ns act(one) to act(another) command period t rrd 12 14 16 20 20 ns data-in to pre command period t dpl 8881010ns data-in to act(ref) command cl = 3 t dal3 2clk+18 2clk+20 1clk+20 1clk+20 1clk+30 ns period (auto precharge) cl = 2 t dal2 1clk+18 1clk+20 1clk+20 1clk+20 1clk+30 ns mode register set cycle time t rsc 22222clk transition time t t 0.5 30 0.5 30 0.5 30 1 30 1 30 ns refresh time (4,096 refresh cycles) t ref 64 64 64 64 64 ms
data sheet m14376ej2v0ds00 37 m m m m pd4564323 for rev. e 13.1 ac parameters for read timing (manual precharge, burst length = 4, /cas latency = 3) t oh t lz t ac t oh t ac t ac t oh t oh t ac t hz t ras t rc ba0 t ckh t rp t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 clk cke /cs /ras /cas /we ba1 a10 add dqm dq t rcd t cks t ch t cl t ck t cms t cmh t as t ah l hi-z activate command for bank a precharge command for bank a read command for bank a activate command for bank a
data sheet m14376ej2v0ds00 38 m m m m pd4564323 for rev. e ac parameters for read timing (auto precharge, burst length = 4, /cas latency = 3) t oh t lz t ac t oh t ac t ac t oh t oh t ac t hz t ras t rrd t rc ba0 t ckh t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 clk cke /cs /ras /cas /we ba1 a10 add dqm dq t rcd t cks t ch t cl t ck t cms t cmh t as t ah l hi-z auto precharge start for bank c activate command for bank c activate command for bank d read with auto precharge command for bank c activate command for bank c
data sheet m14376ej2v0ds00 39 m m m m pd4564323 for rev. e 13.2 ac parameters for write timing (burst length = 4, /cas latency = 3) t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 clk cke ba0 a10 add dqm dq hi-z t as t ah t ds t dh t rcd t dal t rc t rrd t rcd t ras t rc t dpl t rp t ckh t cms t cmh t cks /cs /ras /cas /we ba1 auto precharge start for bank c l activate command for bank c activate command for bank b write command for bank b activate command for bank b write with auto precharge command for bank c precharge command for bank b activate command for bank c
data sheet m14376ej2v0ds00 40 m m m m pd4564323 for rev. e 13.3 relationship between frequency and latency speed version -a60 -a70 -a80 -a10 -a10b clock cycle time [ns] 6 10 7 10 8 10 10 13 10 15 frequency [mhz] 166 100 143 100 125 100 100 77 100 67 /cas latency 3232323232 [t rcd ] 3232322232 /ras latency (/cas latency + [t rcd ]) 6464645464 [t rc ] 10697977696 [t rc1 ] 117107977696 [t ras ] 7565655464 [t rrd ] 2222222222 [t rp ] 3232322232 [t dpl ] 2121111111 [t dal ] 5353433343 [t rsc ] 2222222222
data sheet m14376ej2v0ds00 41 m m m m pd4564323 for rev. e 13.4 mode register set (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq ba1 t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 hi-z address key t rp precharge all banks command mode register set command activate command is valid h t rsc 2 clk (min.)
data sheet m14376ej2v0ds00 42 m m m m pd4564323 for rev. e 13.5 power on sequence and cbr (auto) refresh clk cke /cs /ras /cas /we ba1 a10 add dqm dq hi-z t rsc address key t rp high level is necessary high level is necessary clock signal is necessary 2 refresh cycles are necessary t rc1 t rc1 precharge all banks command is necessary mode register set command is necessary cbr(auto) refresh command is necessary activate command cbr (auto) refresh command is necessary ba0
data sheet m14376ej2v0ds00 43 m m m m pd4564323 for rev. e 13.6 /cs function (at 100 mhz, burst length = 4, /cas latency = 3) only /cs signal needs to be issued at minimum rate clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 h l hi-z l ba0 l raa qaa1 qaa2 qaa3 qaa4 dab1 dab2 dab3 dab4 activate command for bank a read command for bank a write command for bank a precharge command for bank a raa caa cab
data sheet m14376ej2v0ds00 44 m m m m pd4564323 for rev. e 13.7 clock suspension during burst read (using cke function) (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 caa ba0 l hi-z raa raa activate command for bank a read command for bank a 1-clock suspended 2-clock suspended 3-clock suspended hi-z (turn off) at the end of burst
data sheet m14376ej2v0ds00 45 m m m m pd4564323 for rev. e clock suspension during burst read (using cke function) (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 caa ba0 l hi-z raa raa activate command for bank a read command for bank a 1-clock suspended 2-clock suspended 3-clock suspended hi-z (turn off) at the end of burst
data sheet m14376ej2v0ds00 46 m m m m pd4564323 for rev. e 13.8 clock suspension during burst write (using cke function) (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 caa ba0 l hi-z raa raa daa1 daa2 daa3 daa4 activate command for bank a 1-clock suspended 2-clock suspended 3-clock suspended write command for bank a
data sheet m14376ej2v0ds00 47 m m m m pd4564323 for rev. e clock suspension during burst write (using cke function) (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 caa ba0 l hi-z raa raa daa1 daa2 daa3 daa4 activate command for bank a 1-clock suspended 2-clock suspended 3-clock suspended write command for bank a
data sheet m14376ej2v0ds00 48 m m m m pd4564323 for rev. e 13.9 power down mode and clock mask (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa3 caa l hi-z raa raa ba0 t cksp t cksp qaa1 qaa2 valid activate command for bank a power down mode entry active standby power down mode exit read command for bank a clock mask start clock mask end power down mode entry precharge command for bank a precharge standby power down mode exit qaa4
data sheet m14376ej2v0ds00 49 m m m m pd4564323 for rev. e 13.10 cbr (auto) refresh clk cke /cs /ras /cas /we ba1 add dqm dq t0 t1 t2 t3 t4 t5 t6 tn tn + 1tn + 2tn + 3tn + 4tn + 5tn + 6tmtm + 1tm + 2tm + 3tm + 4tm + 5tm + 6tm + 7 ba0 l hi-z t rp h t rc1 t rc1 q1 precharge command (if necessary) cbr (auto) refresh cbr(auto) refresh activate command read command a10
data sheet m14376ej2v0ds00 50 m m m m pd4564323 for rev. e 13.11 self refresh (entry and exit) clk cke /cs /ras /cas /we ba1 add dqm dq t0 t1 t2 t3 t4 tn tn + 1tn + 2tmtm + 1tktk + 1tk + 2tk + 3tk + 4 t rp t rc1 t rc1 ba0 precharge command (if necessary) self refresh entry self refresh exit next clock enable self refresh entry (or activate command) activate command self refresh exit next clock enable l hi-z a10
data sheet m14376ej2v0ds00 51 m m m m pd4564323 for rev. e 13.12 random column read (page with same bank) (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 qab1 qab2 qac1 qac2 qac3 qac4 qad1 qad2 qad3 h rad raa cad cac caa rad cab ba0 raa precharge command for bank a activate command for bank a read command for bank a read command for bank a read command for bank a activate command for bank a read command for bank a l hi-z
data sheet m14376ej2v0ds00 52 m m m m pd4564323 for rev. e random column read (page with same bank) (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq precharge command for bank a activate command for bank a read command for bank a read command for bank a read command for bank a activate command for bank a read command for bank a t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 qab1 qab2 qac1 qac2 qac3 qac4 h raa raa caa cac caa raa cab ba0 raa l hi-z
data sheet m14376ej2v0ds00 53 m m m m pd4564323 for rev. e 13.13 random column write (page with same bank) (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z dda1 dda2 dda3 dda4 ddb1 ddb2 ddc1 ddc2 ddc3 ddc4 ddd1 ddd2 ddd3 h rdd rda cdd cdc cda rdd cdb ba0 rda ddd4 activate command for bank d write command for bank d write command for bank d write command for bank d precharge command for bank d activate command for bank d write command for bank d
data sheet m14376ej2v0ds00 54 m m m m pd4564323 for rev. e random column write (page with same bank) (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z dda1 dda2 dda3 dda4 ddb1 ddb2 ddc1 ddc2 ddc3 ddc4 h rdd rda cdd cdc cda rdd cdb ba0 rda ddd1 activate command for bank d write command for bank d write command for bank d write command for bank d precharge command for bank d activate command for bank d write command for bank d ddd2
data sheet m14376ej2v0ds00 55 m m m m pd4564323 for rev. e 13.14 random row read (ping-pong banks) (1/2) (burst length = 8, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z qda1 qda2 qda3 qda4 qda5 qda6 qda7 qda8 qba1 qba2 qba3 qba4 qba5 h rdb rda cdb cba cda rdb rba rda ba0 rba qba6 qba7 qba8 activate command for bank d read command for bank d activate command for bank b read command for bank b precharge command for bank d activate command for bank d read command for bank d
data sheet m14376ej2v0ds00 56 m m m m pd4564323 for rev. e random row read (ping-pong banks) (2/2) (burst length = 8, /cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z qba1 qba2 qba3 qba4 qba5 qba6 qba7 qba8 qaa1 qaa2 qaa3 qaa4 qaa5 h rbb rba cbb caa cba rbb raa rba raa qaa6 qaa7 ba1 activate command for bank b read command for bank b activate command for bank a read command for bank a precharge command for bank b activate command for bank b read command for bank b precharge command for bank a
data sheet m14376ej2v0ds00 57 m m m m pd4564323 for rev. e 13.15 random row write (ping-pong banks) (1/2) (burst length = 8, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z daa5 daa6 daa7 daa8 dda1 dda2 dda3 dda4 dda5 dda6 dda7 dda8 dab1 h raa cab cda caa rda raa rda dab2 dab3 ba0 rab rab daa1 daa2 daa3 daa4 activate command for bank a write command for bank a write command for bank d activate command for bank d precharge command for bank a activate command for bank a write command for bank a precharge command for bank d
data sheet m14376ej2v0ds00 58 m m m m pd4564323 for rev. e random row write (ping-pong banks) (2/2) (burst length = 8, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 daa3 daa4 daa5 daa6 daa7 daa8 dda1 dda2 dda3 dda5 dda6 dda7 h raa cab cda rda raa rda dda8 dab1 dab2 rab daa1 daa2 ba0 caa rab activate command for bank a write command for bank a write command for bank d activate command for bank d precharge command for bank a activate command for bank a precharge command for bank d write command for bank a l hi-z dda4
data sheet m14376ej2v0ds00 59 m m m m pd4564323 for rev. e 13.16 read and write (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq activate command for bank a read command for bank a write command for bank a 0-clock latency 2-clock latency read command for bank a t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 dab1 dab2 qac1 qac2 qac4 h raa cac cab dab4 ba0 caa write latency = 0 raa word masking l hi-z hi-z at the end of wrap function
data sheet m14376ej2v0ds00 60 m m m m pd4564323 for rev. e read and write (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 qaa1 qaa2 qaa3 qaa4 dab1 dab2 qac1 qac2 h raa cac cab dab4 caa raa ba0 activate command for bank a read command for bank a write command for bank a 0-clock latency read command for bank a word masking write latency = 0 l hi-z hi-z at the end of wrap function 2-clock latency
data sheet m14376ej2v0ds00 61 m m m m pd4564323 for rev. e 13.17 interleaved column read cycle (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z aa1 aa2 aa3 aa4 da1 da2 dc1 dc2 dd1 dd2 dd3 dd4 h raa rda ab1 ab2 db1 db2 ba0 raa rda caa cda cdb cdc cab cdd activate command for bank a activate command for bank d read command for bank d read command for bank d read command for bank d read command for bank a read command for bank d precharge command for bank a precharge command for bank d read command for bank a
data sheet m14376ej2v0ds00 62 m m m m pd4564323 for rev. e interleaved column read cycle (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba1 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z aa1 aa2 aa3 aa4 da1 da2 dc1 dc2 ab3 ab4 h ab1 ab2 db1 db2 raa rda ba0 raa cab cdc rda cda caa activate command for bank a activate command for bank d read command for bank d read command for bank d read command for bank d read command for bank a precharge command for bank d precharge command for bank a read command for bank a cdb
data sheet m14376ej2v0ds00 63 m m m m pd4564323 for rev. e 13.18 interleaved column write cycle (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z aa1 aa2 aa3 aa4 ba1 ba2 bc1 bc2 bd1 bd2 bd3 bd4 h raa rba ab1 ab2 bb1 bb2 raa rba caa cba cbb cbc cab cbd ba1 activate command for bank a write command for bank a activate command for bank b write command for bank b write command for bank a precharge command for bank a precharge command for bank b write command for bank b write command for bank b write command for bank b t dpl t dpl
data sheet m14376ej2v0ds00 64 m m m m pd4564323 for rev. e interleaved column write cycle (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z aa1 aa2 aa3 aa4 ba1 ba2 bc1 bc2 bd1 bd2 h ab1 ab2 bb1 bb2 raa rba raa cab cbc rba cba cbb caa cbd bd3 bd4 activate command for bank a write command for bank a activate command for bank b write command for bank b write command for bank a precharge command for bank a precharge command for bank b write command for bank b write command for bank b write command for bank b ba1
data sheet m14376ej2v0ds00 65 m m m m pd4564323 for rev. e 13.19 auto precharge after read burst (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h ba1 rdb rac rda raa raa cab caa rdb cda rda cac cdb rac hi-z activate command for bank a activate command for bank d read command for bank a read with auto precharge command for bank d read with auto precharge command for bank a auto precharge start for bank d read with auto precharge command for bank d auto precharge start for bank a auto precharge start for bank d activate command for bank a read with auto precharge command for bank a activate command for bank d
data sheet m14376ej2v0ds00 66 m m m m pd4564323 for rev. e auto precharge after read burst (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h rdb raa raa cab caa rdb cda rda cdb hi-z ba1 rda activate command for bank a activate command for bank d read command for bank a read with auto precharge command for bank d activate command for bank d read with auto precharge command for bank a auto precharge start for bank a read with auto precharge command for bank d auto precharge start for bank d
data sheet m14376ej2v0ds00 67 m m m m pd4564323 for rev. e 13.20 auto precharge after write burst (1/2) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq activate command for bank a write command for bank a activate command for bank d activate command for bank d write with auto precharge command for bank d write with auto precharge command for bank d write with auto precharge command for bank a auto precharge start for bank d auto precharge start for bank a auto precharge start for bank d activate command for bank a write with auto precharge command for bank a t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h rdb rac rda raa raa cab caa rdb cda rda cac cdb rac ba1 hi-z
data sheet m14376ej2v0ds00 68 m m m m pd4564323 for rev. e auto precharge after write burst (2/2) (burst length = 4, /cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h rdb raa raa cab caa rdb cda rda cdb rda ba1 hi-z activate command for bank a write command for bank a activate command for bank d write with auto precharge command for bank d write with auto precharge command for bank a auto precharge start for bank d auto precharge start for bank a activate command for bank d write with auto precharge command for bank d
data sheet m14376ej2v0ds00 69 m m m m pd4564323 for rev. e 13.21 full page read cycle (1/2) (/cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t7 tn tn + 1tn + 2tn + 3tn + 4tn + 5tn + 6tn + 7tn + 8tn + 9tn + 10 tn + 11 tn + 12 tn + 13 h raa rda rdb raa rda cda caa rdb aa aa+1 aa+2 aa-2 aa-1 aa aa+1 da da+1 da+2 da+3 da+4 da+5 da+6 activate command for bank a read command for bank a activate command for bank d read command for bank d burst stop command precharge command for bank d activate command for bank d t6 ba1 l hi-z
data sheet m14376ej2v0ds00 70 m m m m pd4564323 for rev. e full page read cycle (2/2) (/cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 tn tn + 1tn + 2tn + 3tn + 4tn + 5tn + 6tn + 7tn + 8tn + 9tn + 10 tn + 11 tn + 12 l h raa rda rdb raa rda cda caa rdb aa aa+1 aa-3 aa-2 aa-1 aa aa+1 da da+1 da+2 da+3 da+4 da+5 precharge command for bank d activate command for bank a read command for bank a activate command for bank d read command for bank d burst stop command activate command for bank d hi-z ba1
data sheet m14376ej2v0ds00 71 m m m m pd4564323 for rev. e 13.22 full page write cycle (1/2) (/cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 tn tn + 1tn + 2tn + 3tn + 4tn + 5tn + 6tn + 7tn + 8tn + 9tn + 10 tn + 11 tn + 12 tn + 13 tn + 14 tn + 15 h raa rda rdb raa rda cda caa rdb aa aa+1 aa+2 aa-2 aa-1 aa aa+1 da da+1 da+2 da+3 da+4 da+5 ba1 precharge command for bank d activate command for bank a write command for bank a activate command for bank d write command for bank d burst stop command activate command for bank d l hi-z
data sheet m14376ej2v0ds00 72 m m m m pd4564323 for rev. e full page write cycle (2/2) (/cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 tn tn + 1tn + 2tn + 3tn + 4tn + 5tn + 6tn + 7tn + 8tn + 9tn + 10 tn + 11 tn + 12 tn + 13 h raa rda rdb raa rda cda caa rdb aa aa+1 aa+2 aa+3 aa-1 aa aa+1 da da+1 da+2 da+3 da+4 da+5 precharge command for bank d activate command for bank a write command for bank a activate command for bank d burst is not completed in the full page mode write command for bank d burst stop command activate command for bank d ba1 l hi-z
data sheet m14376ej2v0ds00 73 m m m m pd4564323 for rev. e 13.23 byte write operation (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm0 t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 dqm1 ba1 dq 0-7 dq 8-15 activate command for bank d read command for bank d byte 1 not read byte 0 not write byte 1 not write byte 0 not write
data sheet m14376ej2v0ds00 74 m m m m pd4564323 for rev. e 13.24 burst read and single write (option) (burst length = 4, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 h hi-z dq ba1 activate command for bank d read command for bank d single write command for bank d single write command for bank d read command for bank d single write command for bank d qa1 qa2 qa3 qa4 d1 qb1 qb2 qb4 d2
data sheet m14376ej2v0ds00 75 m m m m pd4564323 for rev. e 13.25 full page random column read (burst length = full page, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h hi-z raa cac cdb cab rda rda cdc raa ba1 caa cda qaa1 qda1 qab1 qab2 qdb1 qdb2 qac1 qac2 qac3 qdc1 qdc2 qdc3 activate command for bank a activate command for bank d read command for bank a read command for bank d read command for bank a read command for bank d read command for bank a read command for bank d precharge command for bank d (pre termination of burst) hi-z t rcd t rrd t rcd
data sheet m14376ej2v0ds00 76 m m m m pd4564323 for rev. e 13.26 full page random column write (burst length = full page, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h hi-z raa cac cdb cab rda rda cdc raa ba1 caa cda daa1 dda1 dab1 dab2 ddb1 ddb2 dac1 dac2 dac3 ddc1 ddc2 ddc3 ddc4 precharge command for bank d (pre termination of burst) activate command for bank a activate command for bank d write command for bank a write command for bank d write command for bank a write command for bank d write command for bank a write command for bank d t rcd t rrd t rcd
data sheet m14376ej2v0ds00 77 m m m m pd4564323 for rev. e 13.27 pre (precharge) termination of burst (1/2) (burst length = 8, /cas latency = 2) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l h ba1 hi-z raa rab caa raa rab cab daa1 daa2 daa3 daa4 daa5 qab1 qab2 qab3 qab4 qab5 activate command for bank a activate command for bank a write command for bank a pre termination of burst pre termination of burst precharge command for bank a activate command for bank a read command for bank a precharge command for bank a hi-z write masking rac rac t rcd t dpl t rp t ras t ras
data sheet m14376ej2v0ds00 78 m m m m pd4564323 for rev. e pre (precharge) termination of burst (2/2) (burst length = 8, /cas latency = 3) clk cke /cs /ras /cas /we ba0 a10 add dqm dq t0 t1 t2 t3 t4 t5 t6 t7 t8 t9 t10 t11 t12 t13 t14 t15 t16 t17 t18 t19 t20 t21 l hi-z h ba1 raa rab caa raa rab cab daa1 daa2 daa3 qab1 qab2 qab3 qab4 hi-z activate command for bank a activate command for bank a write command for bank a pre termination of burst precharge command for bank a precharge command for bank a activate command for bank a read command for bank a pre termination of burst daa4 daa5 write mask rac rac t rcd t rp t ras t dpl t ras
data sheet m14376ej2v0ds00 79 m m m m pd4564323 for rev. e 14. package drawing m p cns b m d l k j l s g e f detail of lead end notes 1. each lead centerline is located within 0.08 mm of its true position (t.p.) at maximum material condition. r 86 44 143 s h i 2. dimension "a" does not include mold flash, protrusions or gate burrs. mold flash, protrusions or gate burrs shall not exceed 0.15mm per side. a item b c i 86-pin plastic tsop ( ii ) (10.16 mm (400)) a d e f g h j k l millimeters 0.5 (t.p.) 0.765 max. 10.16 0.10 22.22 0.05 0.10 0.05 0.22 1.1 0.1 11.76 0.20 1.00 + 0.08 - 0.07 0.80 0.20 0.145 + 0.025 - 0.015 0.50 0.08 m p r 3 + 5 - 3 0.25 0.60 0.15 s 0.10 n s86g5-50-9jh-1 h
data sheet m14376ej2v0ds00 80 m m m m pd4564323 for rev. e 15. recommended soldering condition please consult with our sales offices for soldering conditions of the m pd4564323. type of surface mount device m pd4564323g5: 86-pin plastic tsop (ii) (10.16 mm (400)) 16. revision history edition / page description date this edition previous edition type of revision location 1st edition / C C C C june 1999 2nd edition / p.2 p.2 deletion m pd4564323g5-a60l-9jh, 4564323g5-a70l-9jh, 4564323g5-a80l-9jh, december 1999 m pd4564323g5-a10l-9jh, 4564323g5-a10bl-9jh p.3 p.3 deletion l (low power) p.33 p.33 deletion i cc6 (-axxl (maximum)) p.34 p.34 modification test conditions p.79 p.79 modification package drawing
data sheet m14376ej2v0ds00 81 m m m m pd4564323 for rev. e [memo]
data sheet m14376ej2v0ds00 82 m m m m pd4564323 for rev. e [memo]
data sheet m14376ej2v0ds00 83 m m m m pd4564323 for rev. e notes for cmos devices 1 precaution against esd for semiconductors note: strong electric field, when exposed to a mos device, can cause destruction of the gate oxide and ultimately degrade the device operation. steps must be taken to stop generation of static electricity as much as possible, and quickly dissipate it once, when it has occurred. environmental control must be adequate. when it is dry, humidifier should be used. it is recommended to avoid using insulators that easily build static electricity. semiconductor devices must be stored and transported in an anti-static container, static shielding bag or conductive material. all test and measurement tools including work bench and floor should be grounded. the operator should be grounded using wrist strap. semiconductor devices must not be touched with bare hands. similar precautions need to be taken for pw boards with semiconductor devices on it. 2 handling of unused input pins for cmos note: no connection for cmos device inputs can be cause of malfunction. if no connection is provided to the input pins, it is possible that an internal input level may be generated due to noise, etc., hence causing malfunction. cmos devices behave differently than bipolar or nmos devices. input levels of cmos devices must be fixed high or low by using a pull-up or pull-down circuitry. each unused pin should be connected to v dd or gnd with a resistor, if it is considered to have a possibility of being an output pin. all handling related to the unused pins must be judged device by device and related specifications governing the devices. 3 status before initialization of mos devices note: power-on does not necessarily define initial status of mos device. production process of mos does not define the initial operation status of the device. immediately after the power source is turned on, the devices with reset function have not yet been initialized. hence, power-on does not guarantee out-pin levels, i/o settings or contents of registers. device is not initialized until the reset signal is received. reset operation must be executed immediately after power-on for devices having reset function.
m m m m pd4564323 for rev. e the information in this document is subject to change without notice. before using this document, please confirm that this is the latest version. no part of this document may be copied or reproduced in any form or by any means without the prior written consent of nec corporation. nec corporation assumes no responsibility for any errors which may appear in this document. nec corporation does not assume any liability for infringement of patents, copyrights or other intellectual property rights of third parties by or arising from use of a device described herein or any other liability arising from use of such device. no license, either express, implied or otherwise, is granted under any patents, copyrights or other intellectual property rights of nec corporation or others. descriptions of circuits, software, and other related information in this document are provided for illustrative purposes in semiconductor product operation and application examples. the incorporation of these circuits, software, and information in the design of the customer's equipment shall be done under the full responsibility of the customer. nec corporation assumes no responsibility for any losses incurred by the customer or third parties arising from the use of these circuits, software, and information. while nec corporation has been making continuous effort to enhance the reliability of its semiconductor devices, the possibility of defects cannot be eliminated entirely. to minimize risks of damage or injury to persons or property arising from a defect in an nec semiconductor device, customers must incorporate sufficient safety measures in its design, such as redundancy, fire-containment, and anti-failure features. nec devices are classified into the following three quality grades: "standard", "special", and "specific". the specific quality grade applies only to devices developed based on a customer designated "quality assurance program" for a specific application. the recommended applications of a device depend on its quality grade, as indicated below. customers must check the quality grade of each device before using it in a particular application. standard: computers, office equipment, communications equipment, test and measurement equipment, audio and visual equipment, home electronic appliances, machine tools, personal electronic equipment and industrial robots special: transportation equipment (automobiles, trains, ships, etc.), traffic control systems, anti-disaster systems, anti-crime systems, safety equipment and medical equipment (not specifically designed for life support) specific: aircraft, aerospace equipment, submersible repeaters, nuclear reactor control systems, life support systems or medical equipment for life support, etc. the quality grade of nec devices is "standard" unless otherwise specified in nec's data sheets or data books. if customers intend to use nec devices for applications other than those specified for standard quality grade, they should contact an nec sales representative in advance. m7 98. 8

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