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| 1 m e m o r y all data sheets are subject to change without notice (858) 503-3300 - fax: (858) 503-3301 - www.maxwell.com 1.5gb sdram 8-meg x 48-bit x 4-banks ?2005 maxwell technologies all rights reserved. 97sd3248 02.04.05 rev 3 f eatures : ? 1.5 giggabit ( 8-meg x 48-bit x 4-banks) rad-pak? radiation-hardened against natural space radiation total dose hardness: >100 krad (si), depending upon space mission excellent single event effects: sel th > 85 mev/mg/cm2 @ 25c jedec standard 3.3v power supply clock frequency: 100 mhz operation operating tremperature: -55 to +125 c auto refresh single pulsed ras 2 burst sequence variations sequential (bl =1/2/4/8) interleave (bl = 1/2/4/8) programmable cas latency: 2/3 power down and clock suspend modes lvttl compatible inputs and outputs package: 132 lead quad stack pack flat package d escription : maxwell technologies? synchronous dynamic random access memory (sdram) is ideally suited for space applications requiring high performance computing and high density memory storage. as microprocessors increase in speed and demand for higher density mem- ory escalates, sdram has proven to be the ultimate solution by providing bit-counts up to 1.5 gigabits and speeds up to 100 megahertz. sdrams represent a sig- nificant advantage in memory technology over traditional drams including the ability to burst data synchronously at high rates with automatic column-address generation, the ability to interleave between banks masking pre- charge time maxwell technologies? patented r ad -p ak ? packaging technology incorporates radiation shielding in the micro- circuit package. it eliminates the need for box shielding for a lifetime in orbit or space mission. in a typical geo orbit, r ad -p ak ? provides greater than 100 krads(si) radiation dose tolerance. this product is available with screening up to maxwell technologies self-defined class k. logic diagram (one amplifier)
97sd3248 m e m o r y 2 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 pinout description vcc vss nc d47 d31 d15 vssq vccq cs6 cs4 cs2 clk2 nc dqm6 dqm4 d46 d30 d14 vccq vssq d45 d29 d13 d44 d28 d12 nc vss nc vcc nc vss vcc nc d43 d27 d11 d42 d26 d10 d25 d9 vssq vccq d38 d22 d6 d37 d21 d5 d36 d20 d4 vss vcc d41 d40 d24 d8 d39 d23 d7 vccq vssq vcc nc vss nc nc vssq vccq cs5 cs3 cs1 clk1 dqm5 dqm3 dqm1 d35 d19 d3 vccq vssq d34 d18 d2 d33 d17 d1 d32 d16 d0 vss nc vcc vcc vss nc cke6 cke4 cke5 cke2 cke3 cke1 we a12 vssq vccq a11 a10 a9 a8 a7 a6 a5 vccq vssq a4 a3 a2 a1 a0 ba1 ba0 ras cas vss vcc nc nc nc dqm2 the 97sd3248 consists of 6, 8-meg x 8-bit x 4-banks, die. cke 1-6, cs 1-6 and dqm 1-6 correspond to one of the die: cke1, cs 1 and dqm1 control d0 - d7 cke2, cs 2 and dqm2 control d8 - d15 cke3, cs 3 and dqm3 control d16 - d23 cke4, cs 4 and dqm4 control d24 - d31 cke5, cs 5 and dqm5 control d32 - d39 cke6, cs 6 and dqm6 control d40 - d47 97sd3248 m e m o r y 3 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 ? t able 1. a bsolute m aximum r atings p arameter s ymbol m ax u nit voltage on any pin relative to v ss v in v out -0.5 to vcc + 0.5 (< 4.6(max)) v supply voltage relative to v ss v cc -0.5 to +4.6 v short circuit output current i out 50 ma operating temperature t opr -55 to +125 c storage temperature t stg -65 to +150 c t able 2. r ecommended o perating c onditions (v cc = 3.3v + 0.3v, v cc q = 3.3v + 0.3v, t a = -55 to 125c, unless otherwise specified ) t able 3. d elta l imits p arameter d escription v ariation 1 1. 10% of value specified in table 4 i cc1 operating current 10% i cc2p i cc2ps i cc2n i cc2ns power down standby current 10% i cc3p i cc3ps i cc3n i cc3ns active standby current 10% t able 4. dc e lectrical c haracteristics (v cc = 3.3v + 0.3v, v cc q = 3.3v + 0.3v, t a = -55 to 125c, unless otherwise specified ) p arameter s ymbol t est c onditions s ubgroups m in m ax u nits operating current 1,2,3 i cc1 burst length = 1 t rc = min cas latency = 2 1, 2, 3 690 ma cas latency = 3 690 standby current in power down 4 i cc2p cke = v il t ck = 12 ns 1, 2, 3 18 ma standby current in power down ( input signal stable) 5 i cc2ps cke = v il t ck = 0 1, 2, 3 12 ma p arameter s ymbol m in m ax u nit supply voltage v cc , v ccq 1,2 3.0 3.6 v v ss , v ssq 3 0 0 v input high voltage v ih 1,4 2.0 v cc + 0.3 v input low voltage v il 1,5 -0.3 0.8 v 1. all voltage referred to vss 2. the supply voltage with all v cc and v ccq pins must be on the same level 3. the supply voltage with all v ss and v ssq pins must be on the same level 4. v ih (max) = v cc +2.0v for pulse width < 3ns at v cc 5. v il (min) = v ss -2.0v for pulse width < 3ns at v ss 97sd3248 m e m o r y 4 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 standby current in non power down 6 i cc2n cke, cs = v ih t ck = 12 ns 1, 2, 3 120 ma standby current in non power down 7 ( input signal stable) i cc2ns cke = v ih t ck = 0 1, 2, 3 54 ma active standby current in 1,2,4 power down i cc3p cke = v il t ck = 12 ns 1, 2, 3 24 ma active standby current in power down (input signal stable) 2,5 i cc3ps cke = v il t ck = 0 1, 2, 3 18 ma active standby power in non power down 1,2,6 i cc3n cke, cs1-6 = v ih t ck = 12 ns 1, 2, 3 180 ma active standby current in non power down ( input signal stable) 2,7 i cc3ns cke = v ih t ck = 0 1, 2, 3 90 ma burst operating current 1,2,8 cas latency = 2 cas latency = 3 i cc4 t ck = min bl = 4 1, 2, 3 660 870 ma refresh current 3 i cc5 t rc = min 1, 2, 3 1320 ma self refresh current 9,10 i cc6 v ih > v cc - 0.2v v il < 0.2 v 1, 2, 3 18 ma input leakage current - clk i li 0< v li < v cc 1, 2, 3 -3 3 ua input leakage current - all other i li 0< v li < v cc 1, 2, 3 -6 6 ua output leakage current i lo 0< v lo < v cc 1, 2, 3 -1.5 1.5 ua output high voltage v oh i oh = -4ma 1, 2, 3 2.4 v output low voltage v ol i ol = 4 ma 1, 2, 3 0.4 v 1. i cc1 depends on output load conditions when the device is selected. i cc1 (max) is specified with the output open. 2. one bank operation 3. input signals are changed once per clock. 4. after power down mode, clk operating current. 5. after power down mode, no clk operating current. 6. input signals are changed once per two clocks. 7. input signals for v ih or v il are fixed. 8. input signals are changed once per four clocks. 9. after self refresh mode set, self refresh current. 10.use self refresh for temperatures less than 70 c o nly . t able 4. dc e lectrical c haracteristics (v cc = 3.3v + 0.3v, v cc q = 3.3v + 0.3v, t a = -55 to 125 c, unless otherwise specified ) p arameter s ymbol t est c onditions s ubgroups m in m ax u nits 97sd3248 m e m o r y 5 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 t able 5. ac electrical characteristics (v cc =3.3v + 0.3v, v cc q = 3.3v + 0.3v, t a = -55 to 125 c, unless otherwise specified ) p arameter s ymbol s ubgroups m in t ypical m ax u nit system clock cycle time 1 (cas latency = 2) (cas latency = 3) t ck 9, 10, 11 10 7.5 ns clk high pulse width 1,7 t ckh 9, 10, 11 2.5 ns clk low pulse width 1,7, t ckl 9, 10, 11 2.5 ns access time from clk 1,2 (cas latency = 2) (cas latency = 3) t ac 9, 10, 11 6 6 ns data-out hold time 1,2,3 t oh 9, 10, 11 2.7 ns clk to data-out low impedance 1,2,3,7 t lz 9, 10, 11 2 ns clk to data-out high impedance 1,47, (cas latency = 2, 3) t hz 9, 10, 11 5.4 ns input setup time 1,5,6 t as , t cs, t ds , t ces 9, 10, 11 1.5 ns cke setup time for power down exit 1 t cesp 9, 10, 11 1.5 ns input hold time 1,6 t ah , t ch , t dh t ceh 9, 10, 11 1.5 ns ref/active to ref/active command period 1 t rc 9, 10, 11 70 ns active to precharge command period 1 t ras 9, 10, 11 50 120000 ns active command to column command 1 (same bank) t rcd 9, 10, 11 20 ns precharge to active command period 1 t rp 9, 10, 11 20 ns write recovery or data-in to precharge lead time 1 t dpl 9, 10, 11 20 ns active( a) to active (b) command period 1 t rrd 9, 10, 11 20 ns transition time(rise and fall) 7 t t 9, 10, 11 1 5 ns refresh period t ref 9, 10, 11 16 6.4 ms @ 105 c3216 8 @ 85 c64 @ 70 c 128 1. ac measurement assumes t t =1ns. reference level for timing of input signals is 1.5v. 2. access time is measured at 1.5v. 3. t lz (min) definesthe time at which the outputs achieve the low impedance state. 4. t hz (min) defines the time at which the outputs achieve the high impedance state. 5. tces defines cke setup time to clk rising edge except for the power down exit command. 6. t as /t ah : address, t cs /t ch : /ras, /cas, /we, dqm 7. guarenteed by design (not tested). 8. guarenteed by device charactreization testing. (not 100% tested) 97sd3248 m e m o r y 6 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 t able 6. c apacitance 1 p arameter s ymbol m ax u nit input capacitance (clk) c i1 21 pf input capacitance (all other inputs) c i2 23 pf output capacitance (dq) c o 4pf 1. guarenteed by design. 97sd3248 m e m o r y 7 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 pin functions: clk ( input pin ): clk is the master clock input to this pin. the other input signals are referred at clk rising edge. cs 1-6 ( input pins ): when cs 1-6 are low, the command input cycle becomes valid. when cs 1-6 are high, all inputs are ignored. however, internal operations (bank active, burst operations, etc.) are held. ras , cas and we ( input pins ): although these pin names are the same as those of conventional drams, they function in a different way. these pins define operation commands (read, write, etc.) depending on the combination of their voltage levels. a0 to a12 ( input pins ): row address (ax0 to ax12) is determined by a0 to a12 level at the bank active command cycle clk rising edge. column address (ay0 to ay9) is determined by a0 to a9 level at the read or write command cycle clk rising edge. and this column address becomes burst access start address. a10 defines the precharge mode. when a10 = high at the precharge command cycle, all banks are pre- charged. but when a10 = low at the precharge command cycle, only the bank that is selected by ba0/ba1 (bs) is pre charged. ba0/ba1 ( input pins ): ba0/ba1 are bank select signals (bs). the memory array of the 97sd3248 is divided into bank 0, bank 1, bank 2 and bank 3. the 97sd3248 contains 8192-row x 1024-column x 48-bit. if ba0 and ba1 is low, bank 0 is selected. if ba0 is low and ba1 is high, bank 1 is selected. if ba0 is high and ba1 is low, bank 2 is selected. if bao is high and ba1 is high, bank 3 is selected. cke ( input pin ): this pin determines whether or not the next clk is valid. if cke is high, the next clk rising edge is valid. if cke is low, the next clk rising edge is invalid. this pin is used for power-down mode , clock suspend mode and self refresh mode 1 . dqm 1-6 ( input pins ): dqm 1-6 control input/output buffers read operation: if dqm 1-6 are high, the output buffer becomes high-z. if the dqm 1-6 are low, the output buffer becomes low-z. ( the latency of dqm 1-6 during reading is 2 clock cycles.) write operation: if dqm 1-6 are high, the previous data is held ( the new data is not written). if the dqm 1-6 arelow, the data is written. ( the latency of dqm 1-6 during writing is 0 clock cycles.) dq0 to dq47 (dq pins ): data is input to and output from these pins ( dq0 to dq47). v cc and v cc q ( power supply pins ): 3.3v is applied. ( v cc is for the internal circuit and v cc q is for the output buffer.) v ss and v ss q ( power supply pins ): ground is connected. (v ss is for the internal circuit and v ss q is for the output buffer.) 1. self refresh mode should only be used at temperatures below 70 c . 97sd3248 m e m o r y 8 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 command operation command truth table the sdram recognizes the following commands specified by the cs , ras , cas , we and address pins: note: h: v ih l: v il x v ih or v il v: valid address input ignore command (desl): when this command is set (cs = high), the sdram ignores command input at the clock. however, the internal status is held. no operation (nop): this command is not an execution command. however, the internal operations continue. column address strobe and read command (read): this command starts a read operation. in addition, the start address of a burst read is determined by the column address (ay0 to ay9) and the bank select address (bs). after the read operation, the output buffer becomes high-z. read with auto-precharge (read a): this command automatically performs a precharge operation after a burst read with a burst length of 1, 2, 4, or 8. c ommand s ymbol n -1 n cs ras cas we ba0/ ba1 a10 a0 to a12 ignore command desl h x h x x x x x x no operation nop h x l h h h x x x column address and read command readhxlhlhv l v read with auto-pre- charge read a h x l h l h v h v column address and write command writ h x l h l l v l v write with auto-pre- charge writ a h x l h l l v h v row address strobe and bank active actv h x l l h h v v v precharge select bank pre h x l l h l v l x precharge all banks pall h x l l h l x h x refresh ref/ self hllllhx x x mode register set mrs h x llllv v v 97sd3248 m e m o r y 9 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 column address strobe and write command (writ): this command starts a write operation. when the burst write mode is selected, the column address (ay0 to ay9) and the bank select address (ba0/ba1) become the burst write start address. when the single write mode is selected, data is only written to the location specified by the column address (ay0 to ay9) and bank select address(ba0/ba1). write with auto-precharge (writ a): this command automatically performs a precharge operation after a burst write with a length of 1, 2, 4, or 8, or after a single write operation. row address strobe and bank activate ( actv): this command activates the bank that is selected by ba0/ba1 (bs) and determines the row address (ax0 to ax12). when ba0 and ba1 are low, bank 0 is activated. when ba0 is low, and ba1 is high, bank 1 is activated. when ba0 is high and ba1 is low, bank 2 is activated. when ba0 and ba1 are high, bank 3 is activated. precharge select bank (pre): this command starts precharge operation for the bank selected by ba0/ ba1. if ba0 and ba1 are low, bank 0 is selected. if ba0 is low and ba1 is high, bank 1 is selected. if ba0 is high and ba1 is low, bank 2 is selected. if ba0 and ba1 are high, bank 3 is selected. precharge all banks (pall): this command starts a precharge operation for all banks. refresh (ref/self): this command starts the refresh operation. there are two types of refresh operations; one is auto-refresh, and the other is self-refresh. for details, refer to the cke truth table section. mode register set (mrs): the sdram has a mode register that defines how it operates. the mode register is specified by the address pins (a0 to a12, ba0 andba1) at the mode register set cycle. for details, refer to the mode register configuration. after power on, the contents of the mode register are undefined, execute the mode register set command to set up the mode register. 97sd3248 m e m o r y 10 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 dqm truth table note: h: v ih l: v il x v ih or v il write: i did is needed read: i dod is needed the sdram can mask input/output data by means of dqm. during reading, the output buffer is set to low-z by setting dqm to low, enabling data output. on the other hand, when dqm is set high, the output buffer becomes high-z, disabling data output. during writing, data is written by setting dqm to low. when dqm is set to high, the previous data is held ( the new data is not written). desired data can be masked during burst read or burst write by setting dqm.. for more details, refer to the dqm control section of the sdram operating instructions. cke truth table note: h:v ih l:v il x v ih or v il c ommand s ymbol cke = n -1 cke = n dqm byte (dq0 to dq47) write enable/output enable enb h x l byte (dq0 to dq47) write inhibit/output dis- able mask h x h c urrent s tate c ommand n -1 n cs ras cas we a ddress active clock suspended mode entry h l x x x x x any clock suspend l l x x x x x clock suspend clock suspend mode exit l h x x x x x idle auto-refresh command (ref) h h l l l h x idle self-refresh entry (self) h l l l l h x idle power down entry hllhhh x hlhlxxx x self refresh self refresh exit (selfx) l h l h h h x power down power down exit lhlhhh x lhhxxx x 97sd3248 m e m o r y 11 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 clock suspend mode entry: the sdram enters clock suspend mode from active mode by setting cke to low. if a command is input in the clock suspend mode entry cycle, the command is valid. the clock suspend mode change depending on the current status (1 clock before) as described below. active clock suspend: this suspend mode ignores inputs after the next clock by internally maintaining the bank active status. read suspend and read with auto-precharge suspend: the data being output is held ( and continues to be output). write suspend and writ with auto-precharge suspended: in this mode, external signals are not accepted. however, the internal state is held. clock suspend: during clock suspend mode, keep the cke to low. clock suspend mode exit: the sdram exits from clock suspend mode by setting cke to high during the clock suspend state. idle: in this state, all banks are not selected, and have completed precharge operation. auto-refresh command (ref): when this command is input from the idle state, the sdram starts auto- refresh operation. (the auto-refresh is the same as the cbr refresh of conventional drams.) during the auto-refresh operation, refresh address and bank select address are generated inside the sdram. for every auto-refresh cycle, the internal address counter is updated. accordingly, 8192 cycles are required to refresh the entire memory contents. before executing the auto-refresh command, all the banks must be in the idle state. in addition, since the precharge for all banks is automatically performed after auto-refresh, no precharge command is required after auto-refresh. self refresh entry (self) 1 : when this command is input during the idle state, the sdram starts self- refresh operation. after the execution of this command, self-refresh continues while cke is low. since self- refresh is performed internally and automatically, external refresh operations are unnecessary. power down mode entry: when this command is executed during the idle state, the sdram enters power down mode. in power down mode, power consumption is suppresses by cutting off the initial input circuit. self-refresh exit: when this command is executed during self-refresh mode, the sdram can exit from self- refresh mode. after exiting from self-refresh mode, the sdram enters the idle state. power down exit: when this command is executed at power down mode, the sdram can exit from power down mode. after exiting from power down mode, the sdram enters the idle state. 1. self refresh mode should only be used at temperatures below 70 c . 97sd3248 m e m o r y 12 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 function truth table the following function table shows the operations that are performed when each command is issued in each mode of the sdram. the following table assumes that cke is high. c urrent s tate cs ras cas we a ddress c ommand o peration precharge h x x x x desl enter idle after t rp l h h h x nop enter idle after t rp l h l h ba, ca, a10 read/read a illegal 1 l h l l ba, ca, a10 writ/writ a illegal 1 l l h h ba, ra actv illegal 1 l l h l ba, a10 pre, pall nop 2 l l l h x ref, self illegal l l l l mode mrs illegal idle h x x x x desl nop lhhh x nop nop l h l h ba, ca, a10 read/read a illegal 3 l h l l ba, ca, a10 writ/writ a illegal 3 l l h h ba, ra actv bank and row active l l h l ba, a10 pre, pall nop l l l h x ref, self refresh l l l l mode mrs mode register set row active h x x x x desl nop lhhh x nop nop l h l h ba, ca, a10 read/read a begin read l h l l ba, ca, a10 writ/writ a begin write l l h h ba, ra actv other bank active illegal on same bank 4 l l h l ba, a10 pre, pall precharge l l l h x ref, self illegal l l l l mode mrs illegal 97sd3248 m e m o r y 13 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 read h x x x x desl continue burst to end l h h h x nop continue burst to end l h l h ba, ca, a10 read/read a continue burst read to cas latency and new read l h l l ba, ca, a10 writ/writ a term burst read/start write l l h h ba, ra actv other bank active illegal on same bank 4 l l h l ba, a10 pre, pall term burst read and precharge l l l h x ref, self illegal l l l l mode mrs illegal read with auto- precharge h x x x x desl continue burst to end and pre- charge l h h h x nop continue burst to end and pre- charge l h l h ba, ca, a10 read/read a illegal 1 l h l l ba, ca, a10 writ/writ a illegal 1 l l h h ba, ra actv other bank active illegal on same bank 4 l l h l ba, a10 pre, pall illegal 1 l l l h x ref, self illegal l l l l mode mrs illegal write h x x x x desl continue burst to end l h h h x nop continue burst to end l h l h ba, ca, a10 read/read a term burst and new read l h l l ba, ca, a10 writ/writ a term burst and new write l l h h ba, ra actv other bank active illegal on same bank 4 l l h l ba, a10 pre, pall term burst write and precharge 5 l l l h x ref, self illegal l l l l mode mrs illegal c urrent s tate cs ras cas we a ddress c ommand o peration 97sd3248 m e m o r y 14 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 from precharge state, command operation to [desl], [nop]: when these commands are executed, the sdram enters the idle state after t rp has elapsed from the completion of precharge. from idle state, command operation to [desl], [nop], [pre], or [pall]: these commands result in no operation. to [actv]: the bank specified by the address pins and the row address is activated. to [ref], [self]: the sdram enters refresh mode (auto-refresh or self-refresh). to [mrs]: the synchronous dram enters the mode register set cycle. from row active state, command operation to [desl], [nop]: these commands result in no operation. to [read], [read a]: a read operation starts. (however, an interval of t rcd is required.) to [writ], [writ a]: a write operation starts. (however, an interval of t rcd is required.) write with auto- precharge h x x x x desl continue burst to end and pre- charge l h h h x nop continue burst to end and pre- charge l h l h ba, ca, a10 read/read a illegal 1 l h l l ba, ca, a10 writ/writ a illegal 1 l l h h ba, ra actv other bank active illegal on same bank 4 l l h l ba, a10 pre, pall illegal 1 l l l h x ref, self illegal l l l l mode mrs illegal refresh ( auto- refresh) h x x x x desl enter idle after t rc l h h h x nop enter idle after t rc l h l h ba, ca, a10 read/read a illegal 3 l h l l ba, ca, a10 writ/writ a illegal 3 l l h h ba, ra actv illegal 3 l l h l ba, a10 pre, pall illegal 3 l l l h x ref, self illegal l l l l mode mrs illegal 1. illegal for same bank, except for another bank 2. nop for same bank, except for another bank 3. illegal for all banks 4. if t rrd is not satisfied, this operation is illegal 5. an interval of t dpl is required between the final valid data input and the precharge command c urrent s tate cs ras cas we a ddress c ommand o peration 97sd3248 m e m o r y 15 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 to [actv]: this command makes the other bank active. ( however, an interval of t rrd is required.) attempting to make the currently active bank active results in an illegal command. to [pre], [pall]: these commands set the sdram to precharge mode. (however, an interval of t ras is required.) from read state, command operation to [desl], [nop]: these commands continue read operations until the operation is completed. to [read], [read a]: data output by the previous read command continues to be output. after cas latency, the data output resulting from the next command will start. to [writ], [writ a]: these commands stop a burst read, and start a write cycle. to [actv]: this command makes other banks bank active. (however, an interval of t rrd is required.) attempting to make the currently active bank active results in an illegal command. to [pre], [pall]: these commands stop a burst read, and the sdram enters precharge mode. from read with auto-precharge state, command operation to [desl], [nop]: these commands continue read operations until the burst operation is completed, and the sdram then enters precharge mode. to [actv]: this command makes other banks active. (however, an interval of t rrd is required.) attempting to make the currently active bank active results in an illegal command. from write state, command operation to [desl], [nop]: these commands continue write operations until the burst operation is completed. to [read], [read a]: these commands stop a burst and start a read cycle. to [writ], [writ a]: these commands stop a burst and start the next write cycle. to [actv]: this command makes the other bank active. (however, an interval of t rrd is required.) attempting to make the currently active bank active results in an illegal command. to [pre], [pall]: these commands stop burst write and the sdram then enters precharge mode. from write with auto-precharge state, command operation to [desl], [nop]: these commands continue write operations until the burst is completed, and the synchronous dram enters precharge mode. to [actv]: this command makes the other bank active. (however, an interval of t rrd is required.) attempting to make the currently active bank active result in an illegal command. from refresh state, command operation to [desl], [nop]: after an auto-refresh cycle (after t rc ) the sdram automatically enters the idle state. 97sd3248 m e m o r y 16 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 simplified state diagram 97sd3248 m e m o r y 17 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 mode register configuration the mode register is set by the input to the address pins (a0 to a12, ba0 and ba1) during mode register set cycles. the mode register consists of five sections, each of which is assigned to address pins. ba0, ba1, a11, a10, a12, a9, a8: (opcode): the sdram has two types of write modes. one is the burst write mode , and the other is the single write mode . these bits specify write mode. burst read and burst write: burst write is performed for the specified burst length starting from the column address specified in the write cycle. burst read and single write: data is only written to the column address specified during the write cycle, regardless of the burst length. a7: keep this bit low at the mode register set cycle. if this pin is high, the vender test mode is set. a6, a5, a4: (lmode): these pins specify the cas latency. a3: (bt): a burst type is specified. a2, a1, a0: (bl): these pins specify the burst length. 97sd3248 m e m o r y 18 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 97sd3248 m e m o r y 19 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 burst sequence 97sd3248 m e m o r y 20 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 operation of the sdram the following section shows operation examples of 97sd32488. note: the sdram should be used according to the product capability ( see pin description and ac characteristics.) read/write operations: bank active: before executing a read or write operation, the corresponding bank and the row address must be activated by the bank active (actv) command. an interval of t rcd is required between the bank active command input and the following read/write command input. read operation: a read operation starts when a read command is input. the output buffer becomes low-z in the (cas latency - 1) cycle after read command set. the sdram can perform a burst read operation. the burst length can be set to 1, 2, 4, or 8. the start address for a burst read is specified by the column address and the bank select address (ba0/ba1) at the read command set cycle. in a read operation, data output starts after the number of clocks specified by the cas latency. the cas latency can be set to 2 or 3. when the burst length is 1, 2, 4, or 8, the d out buffer automatically becomes high-z at the next clock after the successive burst-length data has been output. the cas latency and burst length must be specified at the mode register. 97sd3248 m e m o r y 21 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 cas latency burst length 97sd3248 m e m o r y 22 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 write operation: burst write or single write mode is selected by the opcode (ba1, ba0, a12, a11, a10, a9, a8) of the mode register. 1. burst write: a burst write operation is enabled by setting opcode (a9, a8) to (0, 0). a burst write starts in the same clock as a write command set. (the latency of data input is 0 clock.) the burst length can be set to 1, 2, 4, or 8, like burst read operations. the write start address is specified by the column address and the bank select address (ba0/ba1) at the write command set cycle. 2. single write: a single write operation is enabled by setting opcode ( a9, a8) to (1, 0). in a single write operation, data is only written to the column address and the bank select address (ba0/ba1) specified by the write command set cycle without regard to the burst length setting. ( the latency of data input is 0 clock.) 97sd3248 m e m o r y 23 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 auto precharge read with auto-precharge: in this operation, since precharge is automatically performed after completing a read operation, a precharge command need not be executed after each read operation. the command executed for the same bank after the execution of this command must be the bank active (actv) command. in addition, an interval defined by i arp is required before execution of the next command. burst read (burst length = 4) cas latency precharge start cycle 3 2 cycles before the final data is output 2 1 cycle before the final data is output 97sd3248 m e m o r y 24 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 write with auto-precharge: in this operation, since precharge is automatically preformed after completing a burst write or single write operation, a precharge command need not be executed after each write operation. the command executed for the same bank after the execution of this command must be the bank active (actv) command. in addition, an interval of i apw is required between the final valid data input and input of next command. burst write (burst length = 4) single write 97sd3248 m e m o r y 25 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 command intervals read command to read command interval 1. same bank, same row address: when another read command is executed at the same row address of the same bank as the preceding read command execution, the second read can be performed after an interval of no less than 1 clock. even when the first command is a burst read that is not yet finished, the data read by second command will be valid. read to read command interval (same row address in same bank) 2. same bank, different row address: when the row address changes on the same bank, consecutive read commands cannot be executed; it is necessary to separate the two read commands with a precharge command and a bank-active command. 3. different bank: when the bank changes, the second read can be performed after an interval of no less than 1 clock, provided that the other bank is in the bank-active state. even when the first command is a burst read that is not yet finished, the data read by the second command will be valid. read to read command interval ( different bank) 97sd3248 m e m o r y 26 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 write command to write command interval: 1. same bank, same row address: when another write command is executed at the same row address of the same bank as the preceding write command, the second write can be performed after as interval of no less than 1 clock. in the case of burst writes, the second write command has priority. write to write command interval (same row address in same bank) 2. same bank, different row address: when the row address changes, consecutive write commands cannot be executed; it is necessary to separate the two write commands with a precharge command and a bank-active command. 3. different bank: when the bank changes, the second write can be performed after an interval of no less than 1 clock, provided that the other bank is in the bank-active state. in the case of burst write, the second write command has priority. write to write command interval (different bank) 97sd3248 m e m o r y 27 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 read command to write command interval: 1. same bank, same row address: when the write command is executed at the same row address of the same bank as the preceding read command, the write command can be performed after an interval of no less than 1 clock. however, dqm must be set high so the output buffer becomes high-z before data input. read to write command interval (1) read to write command interval (2) 2. same bank, different row address: when the row address changes, consecutive write commands cannot be executed; it is necessary to separate the two commands with a precharge command and a bank- active command. 3. different bank: when the bank changes, the write command can be performed after an interval of no less than 1 cycle, provided that the other bank is in the bank-active state. however, dqm must be set high so that the output buffer becomes high-z before data input. 97sd3248 m e m o r y 28 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 write command to read command interval: 1. same bank, same row address: when the read command is executed at the same row address of the same bank as the preceding write command, the read command can be performed after an interval of no less than 1 clock. however, in the case of a burst write, data will continue to be written until one clock before the read command is executed. write to read command interval (1) write to read command interval (2) 2. same bank, different row address: when the row address changes, consecutive read commands cannot be executed; it is necessary to separate the two commands with a precharge command and a bank- active command. 3. different bank: when the bank changes, the read command can be performed after an interval of no less than 1 clock, provided that the other bank is in the bank-active state. however, in the case of a burst write, data will continue to be written until one clock before the read command is executed (as in the case of the same bank and the same address). 97sd3248 m e m o r y 29 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 read with auto precharge to read command interval 1. different bank: when some banks are in the active state, the second read command ( another bank) is executed. even when the first read with auto-precharge is a burst read that is not yet finished, the data read by the second command is valid. the interval auto-precharge of one bank starts at the next clock of the second command. read with auto precharge to read command interval (different bank) 2. same bank: the consecutive read command (the same bank) is illegal. write with auto precharge to write command interval 1. different bank: when some banks are in the active state, the second write command (another bank) is executed. in the case of burst writes, the second write command has priority. the internal auto-precharge of one bank starts at the next clock of the second command. write with auto precharge to write command interval (different bank) 97sd3248 m e m o r y 30 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 2. same bank: the consecutive write command ( the same bank) is illegal. read with auto precharge to write command interval 1. different bank: when some banks are in the active state, the second write command (another bank) is executed. however, dqm must be set high so that the output buffer becomes high-z before data input. the internal auto-precharge of one bank starts at the next clock of the second command. read with auto precharge to write command interval (different bank) 2. same bank: the consecutive write command from read with auto precharge ( the same bank) is illegal. it is necessary to separate the two commands with a bank active command. write with auto precharege to read command interval 1. different bank: when some banks are in the active state, the second read command (another bank) is executed. however, in the case of a burst write, data will continue to be written until one clock before the read command is executed. the internal auto precharge of one bank starts at the next clock of the second command. write with auto precharge to read command interval (different bank) 97sd3248 m e m o r y 31 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 2. same bank: the consecutive read command from write with auto precharge (the same bank) is illegal. it is necessary to separate the two commands with a bank active command. read command to precharge command interval (same bank) when the precharge command is executed for the same bank as the read command that preceded it, the minimum interval between the two commands is one clock. however, since the output buffer than becomes high-z after the clock defined by i hzp , there is a case of interruption to burst read data. output will be interrupted if the precharge command is input during burst read. to read all data by burst read, the clocks defined by i ep must be assured as an interval from the final data output to precharge command execution. read to precharge command interval (same bank: to output all data) cas latency = 2, burst length = 4 cas latency = 3, burst length = 4 97sd3248 m e m o r y 32 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 recharge command interval (same bank): to stop output data cas latency = 2, burst length = 1, 2, 4, 8 cas latency = 3, burst length = 1, 2, 4, 8 d to precharge command interval (same bank): when the precharge command is executed for the same bank as the write command that preceded it, the minimum interval between the two commands is 1 clock. however, if the burst write operation is unfinished, the data must be masked by means of dqm for assurance of the clock defined by t dpl . write to precharge command interval (same bank) burst length = 4 (to stop write operation) 97sd3248 m e m o r y 33 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 burst length = 4 (to write to all data) bank active command interval: 1. same bank: the interval between the two bank-active commands must be no less than t rc . 2. in the case of different bank-active commands: the interval between the two bank-active commands must be no less than t rrd . 97sd3248 m e m o r y 34 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 bank active to bank active for same bank bank active to bank active for different bank mode register set to bank-active interval: the interval between setting the mode register and executing a bank-active command must be no less than i rsa . 97sd3248 m e m o r y 35 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 dqm control the dqm mask the bytes of the dq data. the timing of dqm is different during reading and writing. reading: when data is read, the output buffer can be controlled by dqm. by setting dqm to low, the output buffer becomes low-z, enabling data output. by setting dqm to high, the output buffer becomes high-z and the corresponding data is not output. however, internal reading operations continue. the latency of dqm during reading is 2 clocks. writing: input data can be masked by dqm. by setting dqm to low, data can be written. in addition, when dqm is set to high, the corresponding data is not written, and previous data is held. the latency of dqm during writing is 0 clock. reading 97sd3248 m e m o r y 36 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 writing refresh auto-refresh: all the banks must be precharged before executing an auto-refresh command. since the auto-refresh command updates the internal counter every time it is executed and determines the banks and the row addresses to be refreshed, external address specification is not required. the refresh cycle is 8192 cycles/6.4 ms. (8192 cycles are requires to refresh all the row addresses.) the output buffer becomes high-z after auto-refresh start. in addition, since a precharge has been completed by an internal operation after the auto-refresh, an additional precharge operation by the precharge command is not required. self-refresh 1 : after executing a self-refresh command, the self-refresh operation continues while cke is held low. during self-refresh operation, all row addresses are refreshed by the internal refresh timer. a self-refresh is terminated by a self-refresh exit command. before and after self-refresh mode, execute auto- refresh to all refresh addresses in or within 6.4ms period on the condition (1) and (2) below. (1) enter self-refresh mode within 7.8 us after either burst refresh or distributed refresh at equal interval until all refresh addresses are completed. (2) start burst refresh or distributed refresh at equal interval to all refresh addreses within 7.8 us after exiting from self-refresh mode. others power-down mode: the sdram enters power-down mode when cke goes low in the idle state. in power-down mode, power consumption is suppressed by deactivating the input initial circuit. power-down mode continues while cke is held low. in addition, by setting cke to high, the sdram exits from the power-down mode, and command input is enabled from the next clock. in this mode, internal refresh is not performed. 1. self refresh mode should only be used at temperatures below 70 c . 97sd3248 m e m o r y 37 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 clock suspend mode: by driving cke to low during a bank-active or read/write operation, the sdram enters clock suspend mode. during clock suspend mode, external input signals are ignored and the internal state is maintained. when cke is driven high, the sdram terminates clock suspend mode, and command input is enabled from the next clock. for more details, refer to the ? cke truth table ? . power-up sequence: the sdram should use the following sequence during power-up: the clk, cke, cs , dqm and dq pins stay low until power stabilizes. the clk pin is stable within 100ms after power stabilizes before the following initialization sequence. the cke and dqm is driven high between when power stabilizes and the initialization sequence. this sdram has v cc clamp diodes for clk, cke, cs , dqm and dq pins. if these pins go high before power up, the large current flows from these pins to v cc through the diodes. initialization sequence: when 200ms or more has past after the power up sequence, all banks must be precharged using the precharge command (pall). after t rp delay, set 8 or more auto refresh commands (ref). set the mode register set command (mrs) to initialize the mode register. it is recommended that by keeping dqm and cke high, the output buffer becomes high-z during initialization sequence, to avoid dq bus contention on a memory system formed with a number of devices. 97sd3248 m e m o r y 38 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 note: all dimensions in inches. 132-l ead q uad r ad -s tack p ackage s ymbol d imension ( inches ) min nom max a .385 .398 .411 b .006 .008 .010 c .005 .006 .008 d 1.337 1.350 1.363 d1 .795 .800 .805 e .025 s1 .266 f1 .997 1.000 1.003 l 2.485 2.500 2.505 l1 1.685 1.700 1.715 a1 .355 .368 .381 x 1.030 1.040 1.050 y .965 .975 .985 z .060 .065 .070 u 1.160 1.260 1.360 v 1.160 1.160 1.360 n 132 97sd3248 m e m o r y 39 all data sheets are subject to change without notice ?2005 maxwell technologies all rights reserved. 1.5gb (8-meg x 48-bit x 4-banks) sdram 02.04.05 rev 3 important notice: these data sheets are created using the chip manufacturer ? s published specifications. maxwell technologies verifies functionality by testing key parameters either by 100% testing, sample testing or characterization. the specifications presented within these data sheets represent the latest and most accurate information available to date. however, these specifications are subject to change without notice and maxwell technologies assumes no responsibility for the use of this information. maxwell technologies ? products are not authorized for use as critical components in life support devices or systems without express written approval from maxwell technologies. any claim against maxwell technologies must be made within 90 days from the date of shipment from maxwell techoogies. maxwell technologies ? liability shall be limited to replacement of defective parts. |
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