View W958D6DB_8242379.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 1 - revision : a 0 1 - 00 3 1. general descripti on winbond x16 admux products are high - speed, cmos pseudo - static random access memory developed for low - power, portable applications. the device has a dram core organized. these devices are a variation of the industry - standard flash control interface, with a multipl exed address/data bus. the multiplexed address and data functionality dramatically reduce the required signal count, and increase read/write bandwidth. for seamless operation on a burst flash bus, winbond x16 admux products incorporate a transparent self - refresh mechanism. the hidden refresh requires no additional support from the system memory controller and has no significant impact on device read/write performance. two user - accessible control registers define device operation. the bus configuration r egister (bcr) defines how the winbond x16 admux device interacts with the system memory bus and is nearly identical to its counterpart on burst mode flash devices. the refresh configuration register (rcr) is used to control how refresh is performed on the dram array. these registers are automatically loaded with default settings during power - up and can be updated anytime during normal operation. special attention has been focused on standby current consumption during self refresh. winbond x16 admux produc ts include two mechanisms to minimize standby current. partial - array refresh (par) enables the system to limit refresh to only that part of the dram array that contains essential data. temperature - compensated refresh (tcr) uses an on - chip sensor to adjust the refresh rate to match the device temperature the refresh rate decreases at lower temperatures to minimize current consumption during standby. the system - configurable refresh mechanisms are accessed through the rcr. winbond x16 admux is compliant with the industry - standard cellularram 1.5 x16 a/d mux. 2. features ?supports asynchronous and burst operations ? vcc, vccq voltages: 1.7v C 1.95v vcc 1.7v C 1.95v vccq ? random access time: 70ns ? burst mode read and write access: 4, 8, 16, or 32 words, or continuous burst burst wrap or sequential max clock rate: 133 mhz (tclk = 7.5ns) ? low power consumption: asynchronous read: <25 ma continuous burst read: <35 ma standby current: 400a ? low - power features on - chip temperature compensated refresh (tcr) par tial array refresh (par) deep power - down (dpd) mode ? package: 54 ball vfbga ? 16 - bit multiplexed address/data bus ? operating temperature range : - 4 0c~85c
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 2 - revision : a 0 1 - 00 3 3 . ordering informati on part number vdd/vddq i/o width type others W958D6DBcx7i 1.8/1.8 x16 pkg cram a/d mux,133mhz, - 40c~85c
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 3 - revision : a 0 1 - 00 3 table of content s 1. general descripti on ................................ ................................ ................................ .......... 1 2. features ................................ ................................ ................................ ................................ .. 1 3. ordering informat io n ................................ ................................ ................................ ....... 2 4. pin configuration ................................ ................................ ................................ ................ 5 4.1 ball assignment ................................ ................................ ................................ ................................ .. 5 5. pin description ................................ ................................ ................................ ..................... 6 5.1 signal description ................................ ................................ ................................ ............................... 6 6. block d iagram ................................ ................................ ................................ ...................... 7 7. instruction set ................................ ................................ ................................ .................... 8 7.1 bus operation ................................ ................................ ................................ ................................ ..... 8 8. functional descri ption ................................ ................................ ................................ .... 9 8.1 power up initialization ................................ ................................ ................................ ........................ 9 8.1.1 power - up initialization timing ................................ ................................ ................................ ................... 9 8.2 bus operating modes ................................ ................................ ................................ ......................... 9 8.2.1 asynchronous modes ................................ ................................ ................................ ................................ 9 8.2.1.1 read operation (adv# low) ................................ ................................ ................................ ....................... 10 8.2.1.2 write operation (adv# low) ................................ ................................ ................................ ..................... 10 8.2.2 burst mode operation ................................ ................................ ................................ .............................. 11 8.2.2. 1 burst mode read (4 - word burst) ................................ ................................ ................................ ................... 11 8.2.2.2 burst mode write (4 - word burst) ................................ ................................ ................................ ................. 12 8.2.2.3 refresh collision during variable - latency read operation ................................ ................................ ......... 13 8.2.3 mixed - mode operation ................................ ................................ ................................ ............................ 14 8.2.4 wait operation ................................ ................................ ................................ ................................ ....... 14 8.2.4.1 wired - or wait configuration ................................ ................................ ................................ ....................... 14 8.2.5 lb#/ ub# operation ................................ ................................ ................................ ................................ . 15 8.3 low power operation ................................ ................................ ................................ ....................... 15 8.3.1 standby mode operation ................................ ................................ ................................ ......................... 15 8.3.2 temperature compensated refresh ................................ ................................ ................................ ....... 15 8.3.3 partial - array refresh ................................ ................................ ................................ ............................... 15 8.3.4 deep power - down operation ................................ ................................ ................................ .................. 15 8.4 registers ................................ ................................ ................................ ................................ ........... 16 8.4.1 access using cre ................................ ................................ ................................ ................................ .. 16 8.4.1.1 configuration register write asynchronous mode followed by read operation ................................ ...... 17 8.4.1.2 configuration register write synchronous mode followed by read operation ................................ ........ 18 8.4.1.3 register read asynchronous mode followed by read array operation ................................ ................. 19 8.4.1.4 register read synchronous mode followed by read array operation ................................ ................... 20 8.4.2 software access ................................ ................................ ................................ ................................ ...... 21 8.4.2.1 load configuration register ................................ ................................ ................................ ........................... 21 8.4.2.2 read configuration register ................................ ................................ ................................ .......................... 22 8.4.3 bus configuration register ................................ ................................ ................................ ...................... 22 8.4.3.1 bus configuration register definition ................................ ................................ ................................ ............. 23 8.4.3.2 burst length (bcr[2:0]) default = continuous burst ................................ ................................ ..................... 24 8.4.3.3 burst wrap (bcr[3]) default = no wrap ................................ ................................ ................................ ........ 24 8.4.3.4 sequence and burst length ................................ ................................ ................................ ........................... 25 8.4.3.5 drive strength (bcr[5:4]) default = outputs use half - drive strength ................................ ........................... 26 8.4.3.6 table of drive strength ................................ ................................ ................................ ................................ ... 26 8.4.3.7 wait configuration. (bcr[8]) ................................ ................................ ................................ ........................ 26 8.4.3.8 wait polarity (bcr[10]) ................................ ................................ ................................ ................................ . 26 8.4.3.9 wait configuration during burst operation ................................ ................................ ................................ ... 27 8.4.3.10 latency counter (bcr[13:11]) default = three clock latency ................................ ................................ .... 27 8.4.3.11 initial access latency (brc[14]) default = variable ................................ ................................ ..................... 27 8.4.3.12 allowed latency counter settings in variable latency mode ................................ ................................ ....... 27 8.4.3.13 latency counter (variable initial latency, no refresh collision) ................................ ................................ .. 28 8.4.3.14 allowed lat ency counter settings in fixed latency mode ................................ ................................ ........... 28 8.4.3.15 latency counter (fixed latency) ................................ ................................ ................................ ................. 29
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 4 - revision : a 0 1 - 00 3 8.4.3.16 operating mode (bcr[15]) ................................ ................................ ................................ ........................... 29 8.4.4 refresh configuration register ................................ ................................ ................................ ............... 29 8.4.4.1 refresh configuration register mapping ................................ ................................ ................................ ....... 30 8.4.4.2 partial array refresh (rcr[2:0]) default = full array refresh ................................ ................................ ....... 30 8.4.4.3 address patterns for par (rcr [4] = 1) ................................ ................................ ................................ ......... 31 8.4.4.4 deep power - down (rcr[4]) default = dpd disabled ................................ ................................ ................... 31 8.4.5 device identification register ................................ ................................ ................................ .................. 31 8.4.5.1 device identification register mapping ................................ ................................ ................................ .......... 31 8.4.5.2 virtual chip enable function: ................................ ................................ ................................ ......................... 31 9. electrical charac teristic ................................ ................................ ........................... 32 9.1 absolute maximum dc, ac ratings ................................ ................................ ................................ . 32 9.2 electrical characteristics and operating conditions ................................ ................................ ......... 32 9.3 partial array self refresh standby current ................................ ................................ ...................... 33 9.4 capacitance ................................ ................................ ................................ ................................ ...... 33 9.5 ac input - output reference wave form ................................ ................................ ............................ 33 9.6 ac output load circuit ................................ ................................ ................................ ..................... 33 10. timing requirmen ts ................................ ................................ ................................ ......... 34 10.1 read, write timing requirements ................................ ................................ ................................ .. 34 10.1.1 asynchronous read cycle timing requirements ................................ ................................ ............... 34 10.1.2 burst read cycle timing requirements ................................ ................................ .............................. 35 10.1.3 asynchronous write cycle timing requirements ................................ ................................ .............. 36 10.1.4 burst write cycle timing requirements ................................ ................................ ............................ 37 10.2 timing diagrams ................................ ................................ ................................ ....................... 38 10.2.1 initialization period ................................ ................................ ................................ ................................ . 38 10.2.2 dpd entry and exit timing parameters ................................ ................................ ................................ 38 10.2.3 initialization and dpd timing parameters ................................ ................................ ............................. 38 10.2.4 asynchronous read ................................ ................................ ................................ ............................. 39 10.2.5 s ingle access burst read operation - variable latency ................................ ................................ ..... 40 10.2.6 four word burst read operation - variable latency ................................ ................................ ............ 41 10.2.7 single - access burst read operation - fixed latency ................................ ................................ ........... 42 10.2.8 four word burst read operation - fixed latency ................................ ................................ ................. 43 10.2.9 burst read terminate at end - of - row (wrap off) ................................ ................................ ................ 44 10.2.10 burst read row boundary crossing ................................ ................................ ................................ . 45 10.2.11 asynchronous write ................................ ................................ ................................ ......................... 46 10.2.12 burst write operation variable latency mode ................................ ................................ .............. 47 10.2.13 burst write operation - fixed latency mode ................................ ................................ ..................... 48 10.2.14 burst write terminate at end of row (wrap off) ................................ ................................ ............. 49 10.2.15 burst write row boundary crossing ................................ ................................ ................................ 50 10.2.16 burst write followed by burst read ................................ ................................ ............................... 51 10.2.17 asynchronous write followed by burst read ................................ ................................ ................ 52 10.2.18 burst read followed by asynchronous write ................................ ................................ ................ 53 10.2.19 asynchronous write followed by asynchronous read ................................ ................................ .. 54 11. package descript ion ................................ ................................ ................................ ...... 55 11.1 package dimension ................................ ................................ ................................ ........................ 55 12. revision history ................................ ................................ ................................ ............... 56
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 5 - revision : a 0 1 - 00 3 4 . pin configuration 4 .1 ball assignment 1 2 3 4 5 6 a lb # oe # nc nc nc cre b a dq8 ub # nc nc ce # a dq0 c a dq9 a dq10 nc nc a dq1 a dq2 d vssq a dq11 a17 nc a dq3 v cc e v cc q a dq12 a21 a16 a dq4 vss f a dq14 a dq13 nc nc a dq5 a dq6 g a dq15 a19 nc nc we # a dq7 h a18 nc nc nc nc a20 j wait clk adv # a22 a23 nc (top view) pin configuration
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 6 - revision : a 0 1 - 00 3 5 . p in description 5 .1 signal description symbol type description a[ max :16] input address inputs: inputs for addresses during read and write operations. addresses are internally latched during read and write cycles. the address lines are also used to define the value to be loaded into the bcr or the rcr. a[max:16]= a[23:16] (256mb) . clk (note 1 ) input clock: synchronizes the memory to the system operating frequency during synchronous operations. when configured for synchronous operation, the address is latched on the first rising clk edge when adv# is active. clk must be static ( high or low) during asynchronous access read and write operations when burst mode is enab led. adv# (note 1 ) input address valid: indicates that a valid address is present on the address inputs. addresses are latched on the rising edge of adv# during asynchronous read and write operations. cre input control register enable: when cre is high, write operations load the rcr or bcr, and read operations access the rcr, bcr, or didr. ce# input chip enable: activates the device when low. when ce# is high, the device is disabled and goes into standby mode. oe# input output enable: enables the output buffers when low. when oe# is high, the output buffers are disabled. we# input write enable: determines if a given cycle is a write cycle. if we# is low, the cycle is a write to either a configuration register or to the memory array. lb# input lower byte enable. dq[7:0] . ub# input upper byte enable. dq[15:8] . a/dq[15:0] input/output address/data i/os: these pins are a multiplexed address/data bus. as inputs for addresses, these pins behave as a[15:0]. a[ 0] is the lsb of the 16 - bit word address within the cellularram device. address, rcr, and bcr values are loaded with adv# low. data is input or output when adv# is high. wait (note 1 ) output wait: provides data - valid feedback during burst read and write operations. wait is used to arbitrate collisions between refresh and read/write operations. wait is also asserted at the end of a row unless wrapping within the burst length. wait should be ignored during asynchronous operations. wait is high - z when ce# is high. nc reserved for future use. vcc supply device power supply: power supply for device core operation. vccq supply i/o power supply: power supply for input/output buffers. vss supply vss must be connected to ground. vssq supply vssq must be connected to ground. notes: 1 . when using asynchronous mode exclusively, clk can be tied to vssq or vccq . wait should be ignored during asynchronous mode operations.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 7 - revision : a 0 1 - 00 3 6 . b lock diagram a d d r e s s d e c o d e l o g i c r e f r e s h c o n f i g u r a t i o n r e g i s t e r ( r c r ) d e v i c e i d r e g i s t e r ( d i d r ) b u s c o n f i g u r a t i o n r e g i s t e r ( b c r ) d r a m m e m o r y a r r a y i n p u t / o u t p u t m u x a n d b u f f e r s c o n t r o l l o g i c c e # a / d q [ 7 : 0 ] a [ m a x : 1 6 ] i n t e r n a l e x t e r n a l a / d q [ 1 5 : 8 ] w e # o e # c l k a d v # c r e w a i t l b # u b #
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 8 - revision : a 0 1 - 00 3 7 . instruction set 7 .1 bus operation asynchronous mode bcr[15] = 1 (default) power clk adv# ce# oe# we# cre lb#/ ub# wait *2 a/dq[15:0] *3 notes r ead active x l l h l l low - z data out 4 w rite active x l x l l l high - z data in 4 standby standby h or l x h x x l x high - z high - z 5, 6 no operation idle x x l x x l x low - z x 4, 6 configuration register write active x l h l h x low - z high - z configuration register read active x l l h h l low - z config. reg. out dpd deep power - down x x h x x x x high - z high - z 10 burst mode bcr[15] = 0 power clk*1 adv# ce# oe# we# cre lb#/ ub# wait*2 a/dq[15:0]*3 notes read active h or l l l h l l low - z data out 4, 7 write active h or l l x l l l high - z data in 4 standby standby h or l x h x x l x high - z high - z 5, 6 no operation idle h or l x l x x l x low - z x 4, 6 initial burst read active l l x h l l low - z address 4, 8 initial burst write active l l h l l x low - z address 4, 8 burst continue active h l x x x l low - z data in or data out 4, 8 configuration register write active l l h l h x low - z high - z 8, 9 configuration register read active l l l h h l low - z config. reg. out 8, 9 dpd deep power - down l x h x x x x high - z high - z 10 notes: 1. with burst mode enabled, clk must be static (high or low) during asynchronous reads and asynchronous writes and to achieve standby power during standby mode. 2. the wait polarity is configured through the bus configuration register (bcr[10]). 3. when lb# and ub# are in select mode (low), dq[15:0] are enabled. when only lb# is in select mode, dq[7:0] are enabled. when o nly ub# is in the select mode, dq[15:8] are enabled. 4. the device will consume active power in this mode whenever addresses are changed. 5. when the device is in standby mode, address inputs and data inputs/outputs are internally isolated from any external influenc e. 6. vin = vccq or 0v; all devic e balls must be static (unswitched) in order to achieve standby current. 7. when the bcr is configured for synchronous mode, synchronous read and write and asynchronous write and read are supported . 8. burst mode operation is initialized through the bus c onfiguration register (bcr[15]). 9. initial cycle. following cycles are the same as burst continue. ce# must stay low for the equivalent of a single - word burst (as indicated by wait). 10. dpd is initiated when ce# transitions from low to high after writin g rcr[4] to 0. dpd is maintained until ce# transitions from high to low.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 9 - revision : a 0 1 - 00 3 8 . f unctional description in general, admux p s ram devices are high - density alternatives to sram and pseudo sram products, popular in low - pow er, portable applications. both devices implement a multiplexed address/data bus. this multiplexed configuration supports greater bandwidth through the x16 data bus, yet still reduces the required signal count. the admux p s ram bus interface supports both asynchronous and burst mode transfers. 8 .1 power up initialization admux pram products include an on - chip voltage sensor used to launch the power - up initialization process. initialization will configure the bcr and the rcr with their default settings. vcc and vccq must be applied simultaneously . when they reach a stable level at or above 1.7v, the device will require 150s to complete its self - initialization process. during the initialization period, ce# should remain high. when initialization is complete, the device is ready for normal operatio n. 8 .1.1 power - up initialization timing 8 .2 bus operating modes this asynchronous/burst admux psram products incorporate a burst mode interface found on flash products targeting low - power, wireless applications. this bus interface supports asynchron ous, and burst mode read and write transfers. the specific interface supported is defined by the value loaded into the bcr. 8 . 2.1 asynchronous modes u s ing industry - standard sram control signals (ce#, adv#, oe#, we#, and lb#/ub#). read operations are initiated by bringing ce#, adv#, and lb#/ub# low while keeping oe# and we# high, and driving the address onto the a/dq bus. adv# is taken high to capture the add ress, and oe# is taken low. valid data will be driven out of the i/os after the specified access time has elapsed. write operations occur when ce#, adv#, we#, and lb#/ub# are driven low with the address on the a/dq bus. adv# is taken high to capture the a ddress, then the write data is driven onto the bus. during asynchronous write operations, the oe# level is a Ddon't care, and we# will override oe#; however, oe# must be high while the address is driven onto the a/dq bus. the data to be written is latched on the rising edge of ce#, we#, ub#, or lb# (whichever occurs first). during asynchronous operation with burst mode enabled, the clk input must be held static ( high or low). wait will be driven during asynchronous reads, and its state should be ignored. we# low time must be limited to tcem. t p u > = 1 5 0 u s d e v i c e i n i t i a l i z a t i o n d e v i c e r e a d y f o r n o r m a l o p e r a t i o n v c c = 1 . 7 v v c c v c c q
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 10 - revision : a 0 1 - 00 3 8 . 2.1.1 read operation (adv# low) 8 . 2.1.2 write operation (adv# low) a d d r e s s a d d r e s s h i g h - z d a t a a [ m a x : 1 6 ] c e # o e # w e # a / d q [ 1 5 : 0 ] l b # / u b # a d v # d o n t c a r e a d d r e s s a [ m a x : 1 6 ] c e # a d d r e s s d a t a a / d q [ 1 5 : 0 ] l b # / u b # a d v # o e # w e # < t c e m d o n t c a r e u n d e f i n e d
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 11 - revision : a 0 1 - 00 3 8 . 2.2 b urst mode operation burst mode operations enable high - speed synchronous read and write operations. burst operations consist of a multi - clock sequence that must be performed in an ordered fashion . after ce# goes low, the address to access is latched on the first clk edge after adv# low. during this first clock rising edge, we# indic ates whether the operation is going to be a read (we# = high) or write (we# =low). 8 . 2.2. 1 burst mode read (4 - word burst) note : non - default bcr settings for burst mode read (4 - word burst): fixed or variable latency, latency code 2 (3 clocks), wait active low, wait asserted during delay. diagram is representative of variable latency with no refresh collision or fixed - latency access . a [ m a x : 1 6 ] c e # a / d q [ 1 5 : 0 ] l b # / u b # a d v # o e # w e # w a i t c l k l a t e n c y c o d e 2 ( 3 c l o c k s ) r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) v a l i d a d d r e s s v a l i d a d d r e s s d 0 d 1 d 2 d 3 i n v a l i d d o n t c a r e u n d e f i n e d
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 12 - revision : a 0 1 - 00 3 8 . 2.2 .2 burst mode write (4 - word burst) note : non - default bcr settings for burst mode write (4 - word burst) : fixed or variable latency , latency code 2(3 clocks) , wait active low , wait asserted during delay. a [ m a x : 1 6 ] c e # a / d q [ 1 5 : 0 ] l b # / u b # a d v # o e # w e # w a i t c l k l a t e n c y c o d e 2 ( 3 c l o c k s ) w r i t e b u r s t i d e n t i f i e d ( w e # = l o w ) v a l i d a d d r e s s v a l i d a d d r e s s d 0 d 1 d 2 d 3 d o n t c a r e
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 13 - revision : a 0 1 - 00 3 the size of a burst can be specified in the bcr either as a fixed length or continuous. fi xed - length bursts consist of 4, 8, 16, or 32 words. continuous bursts have the ability to start at a specified address and burst to the end of the address. it goes back to the first address and continues to burst when continuous bursts meet the end of addr ess. the latency count stored in the bcr defines the number of clock cycles that elapse before the initial data value is transferred between the processor and admux psram device. the initial latency for read operations can be configured as fixed or variable (write operations always use fixed latency). variable latency allows the admux psram to be configured for minimum latency at high clock frequencies, but the controller must monitor wait to detect any conflict with refresh cycles. fixed latency outputs the first data word after the worst - case access delay, including allowance for refresh collisions. the initial latency time and clock speed determine the latency count se tting. fixed latency is used when the controller cannot monitor wait. fixed latency also provides improved performance at lower clock frequencies. the wait output asserts when a burst is initiated, and de - asserts to indicate when data is to be transferre d into (or out of) the memory. wait will again be asserted at the boundary of the row, unless wrapping within the burst length. with wrap off, the admux psram device will restore the previous rows data and access the next row, wait will be de - asserted, an d the burst can continue across the row boundary. if the burst is to terminate at the row boundary, ce# must go high w ithin 2 clocks of the last data . ce# must go high before any clock edge following the last word of a defined - length bur st write . the ce# low time is limited by refresh considerations. ce# must not stay low longer than tcem. if a burst suspension will cause ce# to remain low for longer than tcem, ce# should be taken high and the burst restarted with a new ce# low/adv# low cycle. 8 . 2.2 .3 ref resh collision during variable - latency read operation note : non - default bcr settings for refresh collision during variable - latency read operation : latency code 2(3 clocks) , wait active low , wait asserted during delay. d 0 a d d i t i o n a l w a i t s a t a t e s i n s e r t e d t o a l l o w r e f r e s h c o m p l e t i o n h i g h - z c l k v a l i d a d d r e s s d o n t c a r e u n d e f i n e d v a l i d a d d r e s s v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l a [ m a x : 1 6 ] c e # a / d q [ 1 5 : 0 ] l b # / u b # a d v # o e # w e # w a i t v o l v o h d 1 d 2 d 3
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 14 - revision : a 0 1 - 00 3 8 . 2. 3 mixed - mode operation the device supports a combination of synchronous write / read and asynchronous write / read operations when the bcr is configured for synchronous operation. the asynchronous write operations require that the clock (clk) remain static ( high or low ) during the entire sequence. the adv# signal can be used to latch the target address, or it can remain low during the entire write operation. ce# can remain low when transitioning between mixed - mode operations with fixed latency enabled; howe ver, the ce# low time must not exceed tcem. mixed - mode operation facilitates a seamless interface to legacy burst mode flash memory controllers. 8 . 2.4 wait operation the wait output on a admux psram device is typically connected to a shared, system level wait signal. the shared wait signal is used by the processor to coordinate transactions with multiple memories on the synchronous bus. 8 . 2.4.1 wired - or wait configuration when a burst read or write operation has been initiated, wait goes active to ind icate that the admux psram device requires additional time before data can be transferred. for read operations, wait will remain active until valid data is output from the device. for write operations, wait will indicate to the memory controller when data will be accepted into the admux psram device. when wait transitions to an inactive state, the data burst will progress on successive clock edges. during a burst cycle, ce# must remain asserted until the first data is valid. bringing ce# high during this i nitial latency may cause data corruption. when using variable initial access latency (bcr[14] = 0), the wait output performs an arbitration role for burst read operations launched while an on - chip refresh is in progress. if a collision occurs, wait is ass erted for additional clock cycles until the refresh has completed. when the refresh operation has completed, the burst read operation will continue normally. wait is also asserted when a continuous read or write burst crosses a row boundary. the wait asse rtion allows time for the new row to be accessed. wait will be asserted after oe# goes low during asynchronous read operations. wait will be high - z during asynchronous write operations. wait should be ignored during all asynchronous operations. by using fixed initial latency (bcr[14] = 1), this admux psram device can be used in burst mode without monitoring the wait signal. however, wait can still be used to determine when valid data is available at the start of the burst and at the end of the row. if wai t is not monitored, the controller must stop burst accesses at row boundaries on its own. r e a d y c e l l u l a r r a m w a i t w a i t o t h e r d e v i c e w a i t o t h e r d e v i c e p r o c e s s o r e x t e r n a l p u l l - u p / p u l l - d o w n r e s i s t o r
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 15 - revision : a 0 1 - 00 3 8 . 2.5 lb#/ ub# operation the lb# enable and ub# enable signals support byte - wide data writes. during write operations, any disabled bytes will not be transferred to the ram array and the internal value will remain unchanged. during an asynchronous write cycle, the data to be written is latched on the rising edge of ce#, we#, lb#, or ub#, whichever occurs first. lb# and ub# must be low during read cycles. when both the lb# and ub# are disabled (high) during an operation, the device will disable the data bus from receiving or transmitting data. although the device will seem to be deselected, it remains in an active mode as long as ce# remains low. 8 . 3 low power o per ation 8 . 3 .1 standby mode operation during standby, the device current consumption is reduced to the level necessary to perform the dram refresh operation. standby operation occurs when ce# is high. the device will enter a reduced power state upon completio n of a read or write operation, or when the address and control inputs remain static for an extended period of time. this mode will continue until a change occurs to the address or control inputs. 8 . 3 .2 temperature compensated refresh temperature - compensa ted refresh (tcr) allows for adequate refresh at different tem peratures. this admux psram device includes an on - chip temperature sensor that automatically adjusts the refresh rate according to the operating temperature. the device continually monitors the temperature to select an appropriate self - refresh rate. 8 . 3 .3 partial - array refresh par tial - array refresh (par) restricts refresh operation to a portion of the total memory array. this feature enables the device to reduce standby current by refreshing only that part of the memory array required by the host system. the refresh options are ful l array, one - half array, one - quarter array, one - eighth array, or none of the array. the mapping of these partitions can start at either the beginning or the end of the address map . read and write operations to address ranges receiving refresh will not be affected. data stored in addresses not receiving refresh will become corrupted. when additional portions of the array need to be re - enabled, the new portions are available immediately after the completion of the write cycle that updates the rcr with the ne w configuration. 8.3. 4 deep power - down operation deep power - down (dpd) operation disables all refresh - related activity. this mode is used if the system does not require the storage provided by the admux psram device. any stored data will become corrupted when dpd is enabled. when refresh activity has been re - enabled, the admux psram device will require 150s to perform an initialization procedure before normal operations can resume. during this 150s period, the current consumption will be higher than the specified standby levels, but considerably lower than the active current specification. dpd can be enabled by writing to the rcr using cre or the software access sequence; dpd starts when ce# goes high. dpd is disabled the next time ce# goes low and stays low for at least 10s.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 16 - revision : a 0 1 - 00 3 8 . 4 r egisters two user - accessible configuration registers define the device operation. the bus configuration register (bcr) defines how the admux psram interacts with the system memory bus and is nearly identical to its count erpart on burst mode flash devices. the refresh configuration register (rcr) is used to control how refresh is performed on the dram array. these registers are automatically loaded with default settings during power - up, and can be updated any time the devi ces are operating in a standby state. a didr provides information on the device manufacturer, cellularram generation, and the specific device configuration. the didr is read - only. 8 . 4.1 access using cre the registers can be accessed using either a synchronous or an asynchronous operation when the control register enable (cre) input is high. when cre is low, a read or write operation will access the memory array. the configuration register values are writt en via addresses a[ max:16] and adq[15 :0]. in an asynchronous write, the values are latched into the configuration register on the rising edge of adv#, ce#, or we#, whichever occurs first; lb# and ub# are Ddont care. the bcr is accessed when a[19:18] are 10b; the rcr is accessed when a[19:18] are 00b. the didr is read when a[19:18] are 01b. for reads, address inputs other than a[19:18] are Ddont care, and register bits 15:0 are output on dq[15:0]. immediately after performing a configuration register rea d or write operation, reading the memory array is highly recommended.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 17 - revision : a 0 1 - 00 3 8 . 4.1 .1 configuration register write asynchronous mode followed by read operation notes: 1. a[19:18] = 00b to load rcr, and 10b to load bcr . o p c o d e a d d r e s s t a v s t a v s t a v h r s e l e c t c o n t r o l r e g i s t e r v a l i d d a t a o p c o d e a d d r e s s d o n t c a r e t v p t a v h t c w t c p h t w p i n i t i a t e c o n t r o l r e g i s t e r a c c e s s w r i t e a d d r e s s b u s v a l u e t o c o n t r o l r e g i s t e r ( e x c e p t a [ 1 9 : 1 8 ] ) a [ m a x : 1 6 ] c e # a d v # o e # w e # c r e l b # / u b # a / d q [ 1 5 : 0 ] a [ 1 9 : 1 8 ] 1 a d d r e s s
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 18 - revision : a 0 1 - 00 3 8 . 4.1. 2 configuration register write synchronous mode followed by read operation notes: 1. non - default bcr settings for synchronous mode configuration register write followed by read array operation: latency code 2 (3 clocks), wait active low, wait asserted during delay. 2. a/dq[19:18] = 00b to load rcr, and 10b to load bcr. 3. ce# must remain low to complete a burst - of - one write. wait must be monitored additional wait cycles caused by refresh collisions require a cor responding number of additional ce# low cycles . d a t a v a l i d h i g h z o p c o d e a d d r e s s a d d r e s s t c b p h t k h t l t h d t s p t h d t h d t s p t c s p t s p t s p t h d l a t c h c o n t r o l r e g i s t e r a d d r e s s l a t c h c o n t r o l r e g i s t e r v a l u e c l k a [ m a x : 1 6 ] ( e x c e p t a [ 1 9 : 1 8 ] ) a [ 1 9 : 1 8 ] 2 c r e a d v # c e # o e # w e # l b # / u b # w a i t a / d q [ 1 5 : 0 ] h i g h - z d o n t c a r e n o t e s 3 o p c o d e a d d r e s s
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 19 - revision : a 0 1 - 00 3 8 . 4.1 .3 register read asynchronous mode followed by read array operation note : a / dq [19:18] = 00b to read rcr, 10b to read bcr , and 01b to read didr. a d d r e s s a d d r e s s t a v h t a v s s e l e c t r e g i s t e r t a a t a v h t a a t a v s t v p t a a d v t c o i n i t i a t e r e g i s t e r a c c e s s t o e t b a t o l z t b h z t o h z t h z t c p h v a l i d c r v a l i d d a t a a [ m a x : 1 6 ] a [ 1 9 : 1 8 ] 1 c r e a d v # c e # o e # w e # l b # / u b # a / d q [ 1 5 : 0 ] ( e x c e p t a [ 1 9 : 1 8 ] ) d o n t c a r e u n d e f i n e d t c p h a d d r e s s
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 20 - revision : a 0 1 - 00 3 8 . 4.1 .4 register read synchronous mode followed by read array operation notes :1. non - default bcr settings for synchronous mode register read followed by read array operation : latency code2(3 clocks) : wait active low;wait asserted during delay. 2.a[19:18]=00b to read rcr,10b to read bcr, and 01b to read didr. 3.ce# must remain low to complete a burst - of - one read. wait must be monitored additional wait cycles caused by refresh collisions require a corresponding number of additional ce# low cycles. v a l i d d a t a h i g h - z a d d r e s s a d d r e s s t c b p h h i g h - z t k h t l t h d t h d t s p t c s p t s p t s p l a t c h c o n t r o l r e g i s t e r a d d r e s s l a t c h c o n t r o l r e g i s t e r v a l u e c l k a [ m a x : 1 6 ] ( e x c e p t a ) [ 1 9 : 1 8 ] a [ 1 9 : 1 8 ] 2 c r e a d v # c e # o e # w e # l b # / u b # w a i t a / d q [ 1 5 : 0 ] t k o h v a l i d c r t o l z t a c l k t h d t b o e t s p t o h z t h z t a b a d o n t c a r e u n d e f i n e d t h d a d d r e s s n o t e 3
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 21 - revision : a 0 1 - 00 3 8 . 4.2 software access software access of the registers uses a sequence of asynchronous read and asynchronous write operations. the contents of the configuration registers can be modified and all registers can be read using the software sequence. the configuration registers are loaded using a four - step sequence consisting of two asynchronous read operations followed by two asynchronous write operations. the read sequence is virtually identical except that an asynchronous read is performed during the fourth operation. the address used during all read and write operations is the highest address of the admux psram device being accessed; the contents of this address are not changed by using this sequence. the data value presented during the third operat ion (write) in the sequence defines whether the bcr, rcr, is to be accessed. if the data is 0000h, the sequence will access the rcr; if the data is 0001h, the sequence will access the bcr. during the fourth operation, adq [15:0] transfer data in to or out o f bits 15 : 0 of the registers. the use of the software sequence does not affect the ability to perform the standard (cre - controlled) method of loading the configuration registers. however, the software nature of this access mechanism eliminates the need f or cre. if the software mechanism is used, cre can simply be tied to v ss . the port line often used for cre control purposes is no longer required. 8 . 4.2. 1 load configuration register a d d r e s s ( m a x ) w r i t e w r i t e r e a d r e a d d o n t c a r e a d d r e s s a d d r e s s a d d r e s s a d d r e s s ( m a x ) x x x x a d d r e s s ( m a x ) x x x x a d d r e s s a d d r e s s ( m a x ) c r v a l u e i n 0 n s ( m i n ) r c r : 0 0 0 0 h b c r : 0 0 0 1 h c e # o e # w e # l b # / u b # a / d q [ 1 5 : 0 ] a [ m a x : 1 6 ] a d v # ( m a x ) ( m a x ) ( m a x ) ( m a x )
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 22 - revision : a 0 1 - 00 3 8 . 4.2 .2 read configuration register 8 . 4.3 bus configuration register the bcr defines how the admux psram device interacts with the system memory bus. at power - up, the bcr is set to 9d1fh. the bcr is accessed with cre high and a[19:18] = 10b, or through the reg ister access software sequence with a / dq = 0001h on the third cycle. a d d r e s s ( m a x ) r e a d w r i t e r e a d r e a d d o n t c a r e a d d r e s s a d d r e s s a d d r e s s a d d r e s s ( m a x ) x x x x a d d r e s s ( m a x ) x x x x a d d r e s s a d d r e s s ( m a x ) c r v a l u e o u t 0 n s ( m i n ) r c r : 0 0 0 0 h b c r : 0 0 0 1 h d i d r : 0 0 0 2 h c e # o e # w e # l b # / u b # a / d q [ 1 5 : 0 ] a [ m a x : 1 6 ] a d v # ( m a x ) ( m a x ) ( m a x ) ( m a x )
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 23 - revision : a 0 1 - 00 3 8 . 4.3 .1 bus configuration register definition notes: 1. burst wrap and length apply to both read and write operations. 2. reserved bits must be set to zero. reserved bits not set to zero will affect device functionality. bcr[15:0] will be read back as written. r e s e r v e d r e g i s t e r s e l e c t r e s e r v e d o p e r a t i n g m o d e i n i t i a l l a t e n c y l a t e n c y c o u n t e r w a i t p o l a r i t y r e s e r v e d w a i t c o n f i g u r a t i o n ( w c ) r e s e r v e d r e s e r v e d d r i v e s t r e n g t h b u r s t w r a p ( b w ) * b u r s t l e n g t h ( b l ) * m a x - 2 0 1 9 - 1 8 1 7 - 1 6 1 5 1 4 - 1 1 1 0 9 8 7 6 2 - 0 5 4 3 a l l m u s t b e s e t t o " 0 " m u s t b e s e t t o " 0 " m u s t b e s e t t o " 0 " m u s t b e s e t t o " 0 " m u s t b e s e t t o " 0 " b c r [ 1 0 ] w a i t p o l a r i t y 0 1 a c t i v e l o w a c t i v e h i g h ( d e f a u l t ) b c r [ 1 5 ] 0 1 o p e r a t i n g m o d e s y n c h r o n o u s b u r s t a c c e s s m o d e a s y n c h r o n o u s a c c e s s m o d e ( d e f a u l t ) b c r [ 1 8 ] b c r [ 1 9 ] r e g i s t e r s e l e c t 0 0 0 0 1 1 s e l e c t r c r s e l e c t b c r s e l e c t d i d r b c r [ 3 ] b u r s t w r a p ( n o t e 1 ) 0 1 b u r s t w r a p s w i t h i n t h e b u r s t l e n g t h b u r s t n o w r a p s ( d e f a u l t ) 0 1 0 0 1 1 b c r [ 5 ] b c r [ 4 ] d r i v e s t r e n g t h f u l l 1 / 2 ( d e f a u l t ) 1 / 4 r e s e r v e d 0 1 0 1 b c r [ 8 ] w a i t c o n f i g u r a t i o n a s s e r t e d o n e d a t a c y c l e b e f o r e d e l a y ( d e f a u l t ) a s s e r t e d d u r i n g d e l a y 0 b c r [ 2 ] b c r [ 1 ] b c r [ 0 ] 0 1 0 1 0 0 1 1 1 0 0 1 1 1 o t h e r s r e s e r v e d c o n t i n u o u s b u r s t ( d e f a u l t ) 3 2 w o r d s 1 6 w o r d s 8 w o r d s 4 w o r d s b u r s t l e n g t h ( n o t e 1 ) a [ m a x : 2 0 ] a [ 1 9 : 1 8 ] a [ 1 7 : 1 6 ] a / d q 1 5 a / d q 1 4 a / d q [ 1 3 : 1 1 ] a / d q 1 0 a / d q 9 a / d q 8 a / d q 7 a / d q 6 a / d q 5 a / d q 4 a / d q 3 a / d q [ 2 : 0 ] 0 1 0 b c r [ 1 4 ] 0 0 1 1 1 0 1 b c r [ 1 2 ] 1 1 1 0 0 1 0 a l l o t h e r s b c r [ 1 3 ] 0 0 0 1 1 v a r i a b l e f i x e d 0 0 b c r [ 1 1 ] 1 0 1 1 0 1 1 a l l o t h e r s 1 1 0 l a t e n c y c o d e 2 c o d e 3 c o d e 4 c o d e 3 ( d e f a u l t ) c o d e 2 r e s e r v e d c o d e 4 c o d e 5 c o d e 6 r e s e r v e d 1 0 0 0 c o d e 8
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 24 - revision : a 0 1 - 00 3 8 . 4.3 .2 burst length (bcr[2:0]) default = continuous burst burst lengths define the number of words the device outputs during burst read and write operations. the device supports a burst length of 4, 8, 16, or 32 words. the device can also be set in continuous burst mode where data is output sequentially without regard to address boundaries; the internal address wraps to 0 00000h if the device is read past the last address. 8 . 4.3 .3 burst wrap (bcr[3]) default = no wrap the burst - wrap option determines if a 4 - , 8 - , 16 - , or 32 - word read or write burst wraps within the burst length, or steps through sequential addresses. if th e wrap option is not enabled, the device accesses data from sequential addresses without regard to address boundaries; the internal address wraps to 000000h if the device is read past the last address.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 25 - revision : a 0 1 - 00 3 8 . 4.3 .4 sequence and burst length burst wrap start addr 4 - word burst length 8 - word burst length 16 - word burst length 32 - word burst length continuous burst bcr[3] wrap deci - mal linear linear linear linear linear 0 yes 0 0 - 1 - 2 - 3 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 0 - 1 - 2 - ... - 29 - 30 - 31 0 - 1 - 2 - 3 - 4 - 5 - 6 - 1 1 - 2 - 3 - 0 1 - 2 - 3 - 4 - 5 - 6 - 7 - 0 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 1 - 2 - 3 - ... - 30 - 31 - 0 1 - 2 - 3 - 4 - 5 - 6 - 7 - 2 2 - 3 - 0 - 1 2 - 3 - 4 - 5 - 6 - 7 - 0 - 1 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 2 - 3 - 4 - ... - 31 - 0 - 1 2 - 3 - 4 - 5 - 6 - 7 - 8 - 3 3 - 0 - 1 - 2 3 - 4 - 5 - 6 - 7 - 0 - 1 - 2 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 - 2 3 - 4 - 5 - ... - 0 - 1 - 2 3 - 4 - 5 - 6 - 7 - 8 - 9 - 4 4 - 5 - 6 - 7 - 0 - 1 - 2 - 3 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 - 2 - 3 4 - 5 - 6 - ... - 1 - 2 - 3 4 - 5 - 6 - 7 - 8 - 9 - 10 - 5 5 - 6 - 7 - 0 - 1 - 2 - 3 - 4 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 - 2 - 3 - 4 5 - 6 - 7 - ... - 2 - 3 - 4 5 - 6 - 7 - 8 - 9 - 10 - 11 - 6 6 - 7 - 0 - 1 - 2 - 3 - 4 - 5 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 - 2 - 3 - 4 - 5 6 - 7 - 8 - ... - 3 - 4 - 5 6 - 7 - 8 - 9 - 10 - 11 - 12 - 7 7 - 0 - 1 - 2 - 3 - 4 - 5 - 6 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 0 - 1 - 2 - 3 - 4 - 5 - 6 7 - 8 - 9 - ... - 4 - 5 - 6 7 - 8 - 9 - 10 - 11 - 12 - 13 - ... ... ... ... 14 14 - 15 - 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 14 - 15 - 16 - ... - 11 - 12 - 13 14 - 15 - 16 - 17 - 18 - 19 - 20 - ... 15 15 - 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 15 - 16 - 17 - ... - 12 - 13 - 14 15 - 16 - 17 - 18 - 19 - 20 - 21 - ... ... ... ... 30 30 - 31 - 0 - ... - 27 - 28 - 29 30 - 31 - 32 - 33 - 34 - ... 31 31 - 0 - 1 - ... - 28 - 29 - 30 31 - 32 - 33 - 34 - 35 - ... 1 no 0 0 - 1 - 2 - 3 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 0 - 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 0 - 1 - 2... -- 29 - 30 - 31 0 - 1 - 2 - 3 - 4 - 5 - 6 - 1 1 - 2 - 3 - 4 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 1 - 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 16 1 - 2 - 3 - ... - 30 - 31 - 32 1 - 2 - 3 - 4 - 5 - 6 - 7 - 2 2 - 3 - 4 - 5 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 2 - 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 16 - 17 2 - 3 - 4 - ... - 31 - 32 - 33 2 - 3 - 4 - 5 - 6 - 7 - 8 - 3 3 - 4 - 5 - 6 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 3 - 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 16 - 17 - 18 3 - 4 - 5 - ... - 32 - 33 - 34 3 - 4 - 5 - 6 - 7 - 8 - 9 - 4 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 4 - 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - 15 - 16 - 17 - 18 - 19 4 - 5 - 6 - ... - 33 - 34 - 35 4 - 5 - 6 - 7 - 8 - 9 - 10 - 5 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 5 - 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - ... - 15 - 16 - 17 - 18 - 19 - 20 5 - 6 - 7 - ... - 34 - 35 - 36 5 - 6 - 7 - 8 - 9 - 10 - 11 6 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 6 - 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - ... - 16 - 17 - 18 - 19 - 20 - 21 6 - 7 - 8 - ... - 35 - 36 - 37 6 - 7 - 8 - 9 - 10 - 11 - 12 7 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 7 - 8 - 9 - 10 - 11 - 12 - 13 - 14 - ... - 17 - 18 - 19 - 20 - 21 - 22 7 - 8 - 9 - ... - 36 - 37 - 38 7 - 8 - 9 - 10 - 11 - 12 - 13 ... ... ... ... 14 14 - 15 - 16 - 17 - 18 - 19 - ... - 23 - 24 - 25 - 26 - 27 - 28 - 29 14 - 15 - 16 - ... - 43 - 44 - 45 14 - 15 - 16 - 17 - 18 - 19 - 20 - 15 15 - 16 - 17 - 18 - 19 - 20 - ... - 24 - 25 - 26 - 27 - 28 - 29 - 30 15 - 16 - 17 - ... - 44 - 45 - 46 15 - 16 - 17 - 18 - 19 - 20 - 21 - ... ... ... 30 30 - 31 - 32 - ... - 59 - 60 - 61 30 - 31 - 32 - 33 - 34 - 35 - 36 - ... 31 31 - 32 - 33 - ... - 60 - 61 - 62 31 - 32 - 33 - 34 - 35 - 36 - 37 - ...
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 26 - revision : a 0 1 - 00 3 8 . 4.3 .5 drive strength (bcr[5:4]) default = outputs use half - drive strength the output driver strength can be altered to full, one - half, or one - quarter strength to adjust for different data bus loading scenarios. the reduced - strength options are intended for stacked chip (flash + admux psram ) environments when there is a dedicate d memory bus. the reduced - drive - strength option minimizes the noise generated on the data bus during read operations. full output drive strength should be selected when using a discrete admux psram device in a more heavily loaded data bus environment. out puts are configured at half - drive strength during testing. 8 . 4.3 .6 table of drive strength bcr[5] bcr[4] drive strength impedance typ () use recommendation 0 0 full 25 C 30 cl = 30pf to 50pf 0 1 1/2 (default) 50 cl = 15pf to 30pf 1 0 1/4 100 cl = 15pf or lower 1 1 reserved 8 . 4.3.7 wait config uration . (bcr[8]) default = wait transitions 1 cl oc k before data valid/ invalid the wait configuration bit is used to determine when wait transitions between the asserted and the de - asserted state with respect to valid data presented on the data bus. the memory controller will use the wait signal to coordinate data transfer during synchronous read and write operations. when bcr[8] = 0, data will be valid or invalid on the clock edge immediately after wait transitions to the de - asserted or asserted state, respectively . when bcr[8] = 1, the wait signal transitions one clock period prior to the data bus going valid or invalid. 8 . 4.3.8 wait polarity (bcr[10]) default = wait active high the wait polarity bit indicates whether an asserted wait output should be high or low. this bit will determine whether the wait signal requires a pull - up or pull - down resistor to maintain the de - asserted state. the default value is bcr[10]=1, indicating wait active high.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 27 - revision : a 0 1 - 00 3 8 . 4.3.9 wait configuration during burst operation note : signals shown are for wait active low, no wrap. 8 . 4.3.1 0 latency counter (bcr[13:11]) default = t hree clock latency the latency counter bits determine how many clocks occur between the beginning of a read or write operation and the first data value transferred. for allowable latency codes, see the following tables and figures. 8 . 4.3.11 initial access latency (brc[14]) default = variable variable initial access latency outputs data after the number of clocks set by the latency counter. however, wait must be monitored to detect delays caused by collisions with refresh operations. fixed initial access latency outputs the first data at a consistent time that allows for worst - case refresh collisions. the latency counter must be configured to match the initial latency and the clock frequency. it is not necessary to monitor wait with fixed initial latency. the burst begins after the number of clock cycles configured by the latency counter. 8 . 4.3.12 allowed latency counter settings in variable latency mode bcr[13:11] latency configuration code latency *1 max input clk frequency (mhz) normal maximum with refresh collision 133 104 010 2 (3 clocks) 2 4 66 (15ns) 66 (15ns) 011 3(4clocks) d 0 d 1 d 2 d 3 e n d o f r o w b c r [ 8 ] = 0 d a t a v a i l d i n c u r r e n t c y c l e b c r [ 8 ] = 1 d a t a v a i l d i n n e x t c y c l e c l k w a i t a / d q [ 1 5 : 0 ] d o n t c a r e w a i t i n i t i a l l a t e n c y
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 28 - revision : a 0 1 - 00 3 8 . 4.3.13 latency counter (variable initial latency, no refresh collision) 8 . 4.3.14 allowed latency counter settings in fixed latency mode bcr[13:11] latency configuration code latency count (n) max input clk frequency (mhz) 133 104 010 2 (3 clocks) 2 33 (30ns) 33 (30ns) 011 3 (4 clocks) default 3 52 (19.2ns) 52 (19.2ns) 100 4 (5 clocks) 4 66 (15ns) 66 (15ns) 101 5 (6 clocks) 5 75 (13.3ns) 75 (13.3ns) 110 6 (7 clocks) 6 104 (9.62ns) 104 (9.62ns) 000 8 (9 clocks) 8 133 (7.5ns) others reserved c l k v a l i d a d d r e s s v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t a [ m a x : 1 6 ] a d v # a / d q [ 1 5 : 0 ] a / d q [ 1 5 : 0 ] c o d e 2 c o d e 3 ( d e f a u l t ) d o n t c a r e u n d e f i n e d v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t a / d q [ 1 5 : 0 ] c o d e 4 v a l i d a d d r e s s v a l i d a d d r e s s v a l i d a d d r e s s
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 29 - revision : a 0 1 - 00 3 8 . 4.3.15 latency counter (fixed latency) 8 . 4.3.16 operating mode (bcr[15]) default = asynchronous operation the operating mode bit selects either synchronous burst operation or the default asynchronous mode of operation. 8 . 4.4 refresh configuration register the refresh configuration register (rcr) defines how the admux psram device performs its transparent self refresh. altering the refresh parameters can dramatically reduce current consumption during standby mode. at power - up, the rcr is set to 0010h. the rcr is accessed with cre high and a[19:18] = 00b; or through the regist er access software sequence with a / dq = 0000h on the third cycle. c l k v a l i d a d d r e s s v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t a [ m a x : 1 6 ] a d v # a / d q [ 1 5 : 0 ] ( r e a d ) a / d q [ 1 5 : 0 ] ( w r i t e ) v a l i d i n p u t c e # t s p t h d t a a d v t a a t c o t a c l k c y c l e n n - 1 c y c l e s b u r s t i d e n t i f i e d ( a d v # = l o w ) d o n t c a r e u n d e f i n e d v a l i d a d d r e s s v a l i d i n p u t v a l i d i n p u t v a l i d i n p u t v a l i d i n p u t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 30 - revision : a 0 1 - 00 3 8 . 4.4 .1 refresh configuration register mapping notes : reserved bits must be set to zero. reserved bits not set to zero will affect device functionality. rcr[ 15:0] will be read back as written. 8 . 4.4 .2 partial array refresh (rcr[2:0] ) default = full array refresh the par bits restrict refresh operation to a portion of the total memory array. this feature allows the device to reduce standby current by refresh ing only that part of the memory array required by the host system. the refresh options are full array, one - half array, one - quarter array, one - eighth array, or none of the array. the mapping of these partitions can start at either the beginning or the end of the address map. r e s e r v e d m a x - 2 0 1 9 - 1 8 1 7 - 7 6 5 4 3 2 0 1 r e s e r v e d r e g i s t e r s e l e c t r e s e r v e d p a r r c r [ 2 ] r c r [ 1 ] r c r [ 0 ] r e f e r s h c o v e r a g e 0 0 0 0 0 1 0 1 0 0 1 1 1 0 0 1 0 1 1 1 0 1 1 1 f u l l a r r a y ( d e f a u l t ) b o t t o m 1 / 2 a r r a y b o t t o m 1 / 4 a r r a y t o p 1 / 2 a r r a y b o t t o m 1 / 8 a r r a y n o n e o f a r r a y t o p 1 / 4 a r r a y t o p 1 / 8 a r r a y r c r [ 1 9 ] 0 1 r c r [ 1 8 ] 0 0 0 1 r e g i s t e r s e l e c t s e l s e c t r c r s e l s e c t b c r s e l s e c t d i d r a [ m a x : 2 0 ] a [ 1 9 : 1 8 ] a [ 1 7 : 1 6 ] , a d q [ 1 5 : 7 ] a d q 6 a l l m u s t b e s e t t o 0 a l l m u s t b e s e t t o 0 s e t t i n g i s i g n o r e d m u s t b e s e t t o 0 a d q 5 a d q 4 a d q 3 a d q 2 a d q 1 a d q 0 d e e p p o w e r - d o w n 0 1 d p d e n a b l e d p d d i s a b l e ( d e f a u l t ) r c r [ 4 ] i g n o r e d d p d
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 31 - revision : a 0 1 - 00 3 8 . 4.4 .3 address patterns for par (rcr [4] = 1) rcr[2] rcr[1] rcr[0] active section address space size density 0 0 0 full die 000000h C ffffffh 16 meg x 16 256mb 0 0 1 one - half of die 000000h C 7fffffh 8 meg x 16 128mb 0 1 0 one - quarter of die 000000h C 3fffffh 4 meg x 16 64mb 0 1 1 one - eighth of die 000000h C 1fffffh 2 meg x 16 32mb 1 0 0 none of die 0 0 meg x 16 0mb 1 0 1 one - half of die 800000h C ffffffh 8 meg x 16 128mb 1 1 0 one - quarter of die c00000h C ffffffh 4 meg x 16 64mb 1 1 1 one - eighth of die e00000h C ffffffh 2 meg x 16 32mb 8.4.4.4 deep power - down (rcr[4]) default = dpd disabled the deep power - down bit enables and disables all refresh - related activity. this mode is used if the system does not require the storage provided by the admux psram device. any stored data will become corrupted when dpd is enabled. when refresh activity has been re - enabled, the cellularram device will require 150s to perform an initialization procedure before normal operations can resume. deep power - down is enabled by setting rcr[4] = 0 and taking ce# high. dpd can be enabled using cre or the software sequ ence to access the rcr. taking ce# low for at least 10s disables dpd and sets rcr[4] = 1; it is not necessary to write to the rcr to disable dpd. bcr and rcr values (other than bcr[4]) are preserved during dpd. 8 . 4 .5 device identification register the didr provides information on the device manufacturer, cellularram generation, and the specific device configuration. this register is read - only. the didr is accessed with cre high and a[19:18] = 01b, or through the register access software sequence wi th adq = 0002h on the third cycle. 8 . 4.5.1 device identification register mapping bit field didr[15] didr[14:11] didr[10:8] didr[7:5] didr[4:0] field name row length device version device density cellularram generation vendor id options length bit setting version bit setting density bit setting generation bit setting vendor bit setting 256 words 1b 1st 0000b 256mb 100b cr1.5 010b winbond 00110b 2nd 0001b 8 .4.5.2 virtual chip enable function: a 512mb device can be implemented by a mcp consisting of two stacked 256mb devices with virtual chip enable function. by proper configuration, one 2568mb device of the mcp is mapped to the lower 256mb memory space of the 512mb device and the another one 25 6mb device is mapped to the upper 256mb memory space of the 512mb device. the 256mb device with virtual chip enable function provides a vce input pin which is controlled by the a24 (the msb of address bus of 512mb memory space). when the 256mb device is ma pped to the lower 256mb memory space, the device will be active if a24 is low. when the 256mb device is mapped to the upper 256mb memory space, the device will be active if a24 is high.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 32 - revision : a 0 1 - 00 3 9 . electrical characteristic 9 .1 absolute maximum dc, ac ratings parameter min max unit operating temperature (case) wireless - 4 0 +85 oc storage temperature (plastic) - 55 +150 oc soldering temperature and time 10s (solder ball only) +260 oc voltage to any ball except vcc, vccq relative to vss - 0.3 vccq +0.3 v voltage on vcc supply relative to vss - 0.20 +2.45 v voltage on vccq supply relative to vss - 0.20 +2.45 v stresses greater than those listed may cause permanent damage to the device. this is a stress rating only, and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect reliability. 9 .2 electrical characteristics and operating conditions description conditions symbol min max unit note supply voltage vcc 1.7 1.95 v i/o supply voltage vccq 1.7 1.95 v input high voltage vih vccq C 0.4 vccq+0.2 v 1 input low voltage vil C 0.20 0.4 v 2 output high voltage ioh= C 0.2ma voh 0.8 x vccq v 3 output low voltage iol=+0.2ma vol 0.2x vccq v 3 input leakage current vin=0 tovccq ili 1 a output leakage current oe#=vih or chip disabled ilo 1 a operating current asynchronous random read/write vin = vccq or 0v chip enabled, iout=0 icc1 trc/twc=70ns - 25 ma 4 initial access, burst read/write icc2 133mhz - 40 ma 4 104mhz - 35 continuous burst read icc3r 133mhz - 35 ma 4 104mhz - 30 continuous burst write icc3w 133mhz - 40 ma 4 104mhz - 35 standby current vin = vccq or 0v, ce# = vccq isb standard - 4 00 ua 5,6 notes: 1. input signals may overshoot to vccq + 1.0v for periods less than 2ns during transitions. 2. input signals may undershoot to vss C 1.0v for periods less than 2ns during transitions. 3. bcr[5:4] = 01b (default setting of one - half drive strength). 4. this parameter is specified with the outputs disabled to avoid external loading effects. the user must add the current required to drive output capacitance expected in the actua l system . 5. isb (max) values measured with par set to full array and at +85c. in order to achieve low standby current, all inputs must be driven to either vccq or vss. isb might be slightly higher for up to 500ms after power - up, or when entering standby m ode.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 33 - revision : a 0 1 - 00 3 9 .3 deep power - down specifications description conditions symbol typical unit deep power - down vin = vccq or 0v; vcc, vccq = 1.95v; +85c izz 10 a zz value applies across all operating temperatures and voltages. 9 . 3 partial array self refresh standby current description conditions symbol array partition max unit partial - array refresh standby current vin = vccq or 0v, ce# = vccq ipar standard power (no designation) full 400 ua 1 / 2 330 1 / 4 300 1 / 8 280 0 250 9 . 4 c apacitance description conditions symbol min max unit note input capacitance tc = +25oc; f = 1 mhz; vin = 0v cin 2.0 6 pf 1 input/output capacitance ( a / dq ) cio 3.0 6 .5 pf 1 notes: 1. these parameters are verified in device characterization and are not 100% tested. 9 . 5 ac input - output reference wave form notes: 1. ac test inputs are driven at v cc q for a logic 1 and v ss q for a logic 0. input rise and fall times (10% to 90%) <1.6ns. 2. input timing begins at v cc q/2. 3. output timing ends at v cc q/2. 9 . 6 ac output load circuit notes: all tests are performed with the outputs configured for default setting of half drive strength (bcr[5:4] = 01b). t e s t p o i n t s v c c q / 2 3 v c c q / 2 2 o u t p u t i n t p u t 1 v c c q v s s q d u t 3 0 p f v c c q / 2 5 0 o h m t e s t p o i n t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 34 - revision : a 0 1 - 00 3 10 . timing requirments 10 .1 read, write timing requirements 10 .1.1 asynchronous read cycle timing requirements all tests performed with outputs configured for default setting of half drive strength, (bcr[5:4] = 01b). parameter symbol min max unit note address access time taa 70 ns adv# access time taadv 70 ns address hold from adv# high tavh 2 ns address setup to adv# high tavs 5 ns lb#/ub# access time tba 70 ns lb#/ub# disable to dq high - z output tbhz 7 ns 1 chip select access time tco 70 ns ce# low to adv# high tcvs 7 ns chip disable to dq and wait high - z output thz 7 ns 1 output enable to valid output toe 20 ns oe# low to wait valid toew 1 7.5 ns output disable to dq high - z output tohz 7 ns 1 output enable to low - z output tolz 3 ns 2 adv# pulse width tvp 5 ns notes: 1. low - z to high - z timings are tested with ac output load circuit . the high - z timings measure a 100mv transition from either v oh or v ol toward v cc q/2. 2. high - z to low - z timings are tested with the circuit. the low - z timings measure a 100mv transition away from the high - z (v cc q/2) level toward either v oh or v ol .
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 35 - revision : a 0 1 - 00 3 10 .1.2 burst read cycle timing requirements all tests performed with outputs configured for default setting of half drive strength, (bcr[5:4] = 01b). parameter symbol 133 m h z 104 m h z unit note min max min max address access time (fixed latency) taa 70 70 ns adv# access time (fixed latency) taadv 70 70 ns burst to read access time (variable latency) taba 35.5 35.9 ns clk to output delay taclk 5.5 7 ns address hold from adv# high (fixed latency) tavh 2 2 ns burst oe# low to output delay tboe 20 20 ns ce# high between subsequent burst or mixed - mode operations tcbph 5 5 ns 1 maximum ce# pulse width tcem 4 4 s 1 clk period tclk 7.5 9.6 2 ns chip select access time (fixed latency) tco 70 70 ns ce# setup time to active clk edge tcsp 2.5 3 ns hold time from active clk edge thd 1.5 2 ns chip disable to dq and wait high - z output thz 7 7 ns 2 clk rise or fall time tkhkl 1.2 1.6 ns clk to wait valid tkhtl 5.5 7 ns output hold from clk tkoh 2 2 ns clk high or low time tkp 3 3 ns output disable to dq high - z output tohz 7 7 ns 2 output enable to low - z output tolz 3 3 ns 3 setup time to active clk edge tsp 2 3 ns notes: 1. a refresh opportunity must be provided every t cem. a refresh opportunity is satisfied by either of the following two conditions: a) clocked ce# high, or b) ce# high for longer than 15ns. 2. low - z to high - z timings are tested with the circuit. the high - z timings measure a 100mv transition from either v oh or v ol toward v cc q/2. 3. high - z to low - z timings are tested with the circuit. the low - z timings measure a 100mv transition away from the high - z (v cc q/2) level toward either v oh or v ol . .
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 36 - revision : a 0 1 - 00 3 10 .1.3 asynchronous write cycle timing requirements parameter symbol min max unit note address and adv# low setup time tas 0 ns address hold from adv# going high tavh 2 ns address setup to adv# going high tavs 5 ns address valid to end of write taw 70 ns lb#/ub# select to end of write tbw 70 ns ce# high between subsequent asynchronous operations tcph 5 ns ce# low to adv# high tcvs 7 ns chip enable to end of write tcw 70 ns data hold from write time tdh 0 ns data write setup time tdw 20 ns chip disable to wait high - z output thz 7 ns 1 adv# pulse width tvp 5 ns adv# setup to end of write tvs 70 ns write to dq high - z output twhz 7 ns 1 write pulse width twp 45 ns 2 write recovery time twr 0 ns notes: 1. low - z to high - z timings are tested with ac output load circuit . the high - z timings measure a 100mv transition from either v oh or v ol toward v cc q/2. 2. we# low time must be limited to t cem (4s).
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 37 - revision : a 0 1 - 00 3 10 .1.4 burst write cycle timing requirements parameter symbol 133 m h z 104 m h z unit note min max min max address and adv# low setup time tas 0 0 ns 1 address hold from adv# high (fixed latency) tavh 2 2 ns ce# high between subsequent burst or mixed - mode operations tcbph 5 5 ns 2 maximum ce# pulse width tcem 4 4 s 2 clock period tclk 7.5 9.62 ns ce# setup to clk active edge tcsp 2.5 3 ns hold time from active clk edge thd 1.5 2 ns chip disable to wait high - z output thz 7 7 ns 3 clk rise or fall time tkhkl 1.2 1.6 ns clock to wait valid tkhtl 5.5 7 ns output hold from clk tkoh 2 2 ns clk high or low time tkp 3 3 ns setup time to activate clk edge tsp 2 3 ns notes: 1. t as required if t csp > 20ns. 2. a refresh opportunity must be provided every t cem. a refresh opportunity is satisfied by either of the following two conditions: a) clocked ce# high, or b) ce# high for longer than 15ns. 3. low - z to high - z timings are tested with the circuit. the high - z timings measure a 100mv transition from either v oh or v ol toward v cc q/2.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 38 - revision : a 0 1 - 00 3 10 .2 timing diagrams 10 .2.1 initialization period 10 .2.2 dpd entry and exit timing parameters 10 .2. 3 initialization and dpd timing parameters description symbol min max unit ce# high after write bcr[4]=0 tdpd 150 - s s s c e # w r i t e r c r [ 4 ] = 0 d p d e n a b l e d t d p d t p u d p d e x i t d e v i c e i n i t i a l i z a t i o n d e v i c e r e a d y f o r n o r m a l o p e r a t i o n t d p d x v c c , v c c q = 1 . 7 v t p u v c c ( m i n ) d e v i c e r e a d y f o r n o r m a l o p e r a t i o n
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 39 - revision : a 0 1 - 00 3 10 .2. 4 asynchronous read v a l i d o u t p u t t a v h v a l i d a d d r e s s d o n ' t c a r e u n d e f i n e d v a l i d a d d r e s s t a v s t a a d v t c v s t a a t v p t c o t b a t o e t o l z t a v s t a v h t o e w t o h z t b h z t h z t h z t a a v o h v o l v i h v i l a [ m a x : 1 6 ] c e # a / d q [ 1 5 : 0 ] l b # / u b # a d v # o e # w e # w a i t h i g h - z h i g h - z v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l h i g h - z
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 40 - revision : a 0 1 - 00 3 10 .2. 5 single access burst read operation - variable latency note: non - default bcr settings: latency code 2 (3 clocks), wait active low, wait asserted during delay. r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) h i g h z k h t l v a l i d a d d r e s s v a l i d o u t p u t h i g h - z h d a c l k h i g h - z s p s p h d o l z b o e o h z h z h d a b a c s p c e m s p h d v a l i d a d d r e s s s p h d t k h k l c l k k p v i h v i l v i h v i l v o h v o l w a i t a / d q [ 1 5 : 0 ] w e # o e # l b # / u b # c e # a [ m a x : 1 6 ] a d v # v i h v i l v i h v i l c l k v i h v i l d o n ' t c a r e u n d e f i n e d h d v o h v o l k o h k h t l k p s p k o h t t t t t t t t t t t t t t t t t t t t t t t t t t v i l v i h v i h v i h v i l v i l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 41 - revision : a 0 1 - 00 3 10 .2. 6 four word burst read operation - variable latency notes: 1. non - default bcr settings: latency code 2 (3 clocks), wait active low, wait asserted during delay. 2. wait will remain de - asserted even if ce# remains low past the end of the defined burst length. 3. a/dq[15:0] will output undefined data if ce# remains low past the end of the defined burst lengt h . r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) a c l k v a l i d o u t p u t h i g h - z h d k o h k h t l k h t l h i g h - z s p s p h d o l z b o e o h z h z h d c b p h a b a c s p c e m s p h d v a l i d a d d r e s s t s p h d k h k l c l k k p k p v i h v i l v o h v o l w a i t a / d q [ 1 5 : 0 ] w e # o e # l b # / u b # c e # a [ m a x : 1 6 ] a d v # c l k d o n ' t c a r e u n d e f i n e d v a l i d a d d r e s s s p h d v o h v o l n o t e 2 n o t e 3 h i g h - z k o h t t t t t t t t t t t t t t t t t t t t t t t t t t t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v i h v i h v i h v i h v i h v i h v i h v i l v i l v i l v i l v i l v i l v i l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 42 - revision : a 0 1 - 00 3 10 .2. 7 single - access burst read operation - fixed latency note: non - default bcr settings: fixed latency, latency code 4 (5 clocks), wait active low, wait asserted during delay. v a l i d a d d r e s s v i h v i l v i h v i l v i h v i l v o h v o l w a i t w e # o e # l b # / u b # c e # a d v # v i h v i l v i h v i l v i h v i l c l k k h k l s p s p h d c s p h d h z o h z c e m b o e o l z s p h d s p k h t l h i g h - z h i g h - z h d k o h k h t l d o n ' t c a r e u n d e f i n e d t c l k k p k p v i h v i l r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) a c l k v a l i d o u t p u t v i h v i l v a l i d a d d r e s s s p v o h v o l a / d q [ 1 5 : 0 ] a [ m a x : 1 6 ] h i g h - z a v h c o a a d v a a a v h k o h t t t t t t t t t t t t t t t t t t t t t t t t t t t t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 43 - revision : a 0 1 - 00 3 10 .2. 8 four word burst read operation - fixed latency notes: 1. non - default bcr settings: fixed latency, latency code 2 (3 clocks), wait active low, wait asserted during delay. 2. wait will remain de - asserted even if ce# remains low past the end of the defined burst length. 3. a/dq[15:0] will output undefined data if ce# remains low past the end of the defined burst length . r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) h i g h - z k h t l o l z s p s p h d h d o h z h z c b p h h d b o e c o c s p a a d v s p h d a v h a a s p t k h k l c l k k p k p v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l h i g h - z c l k a d v # c e # o e # w e # l b # / u b # w a i t v a l i d a d d r e s s c e m d o n t c a r e u n d e f i n e d a c l k v a l i d o u t p u t k o h a / d q [ 1 5 : 0 ] v i h v i l v a l i d a d d r e s s s p a v h v o h v o l n o t e 3 h i g h - z a [ m a x : 1 6 ] n o t e 2 k o h t t t t t t t t t t t t t t t t t t t t t t t t t t t t t k h t l v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 44 - revision : a 0 1 - 00 3 10 .2. 9 burst read terminate at end - of - row (wrap off) notes: 1. non - default bcr settings for burst read at end of row: fixed or variable latency, wait active low, wait asserted during delay (shown as solid line). 2. for burst reads, ce# must go high before the second clk after the wait period begins (before the second clk after wait asserts with bcr[8] = 0, or before the third clk after wait asserts with bcr[8] = 1). v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # c l k e n d o f r o w k h t l h z h z h i g h - z v a l i d o u t p u t n o t e 2 t c l k d o n ' t c a r e a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] h d c s p k o h u n d e f i n e d t t t t t t v a l i d o u t p u t v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l v o h v o l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 45 - revision : a 0 1 - 00 3 10 .2. 10 burst read row boundary crossing notes: 1. non - default bcr settings for burst read at end of row: fixed or variable latency, wait active low, wait asserted during delay (shown as solid line). 2. wait will be asserted for lc cy cles for variable latency, or lc cycles for fixed latency. v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # c l k e n d o f r o w v a l i d o u t p u t t c l k d o n ' t c a r e a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] n o t e 2 k o h k h t l k o h k h t l u n d e f i n e d t t t t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l v o h v o l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 46 - revision : a 0 1 - 00 3 10 .2. 11 asynchronous write v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # h i g h - z a v s a s w p b w c w a w a w a s a s v p t a v s a v h v a l i d a d d r e s s v s d o n ' t c a r e v o h v o l d w d h v a l i d i n p u t v a l i d a d d r e s s a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] c v s a v h t t t t t t t t t t t t t t t t v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 47 - revision : a 0 1 - 00 3 10 .2. 1 2 burst write operation variable latency mode notes: 1. non - default bcr settings for burst write operation in variable latency mode: latency code 2 (3 clocks), wait active low, wait asserted during delay, burst length 4, burst wrap enabled. 2. wait asserts for lc cycles for both fixed and variable latency. lc = latency code (bcr[13:11]). 3. t as is required if t csp > 20ns. 4. ce# must go high before any clock edge following the last word of a defined - length burst. w r i t e b u r s t i d e n t i f i e d ( w e # = l o w ) t s p v a l i d a d d r e s s t s p t k h k l t c l k t k p v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # c l k t k p t h d t h d t a s 3 t a s 3 t s p t h d t s p d 1 d 2 d 3 d 0 h i g h - z t h z t c b p h t h d t c e m t c s p t s p t h d t k h t l t k h t l h i g h - z t h d v o h v o l d o n ' t c a r e v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] n o t e 4 n o t e 2 v a l i d a d d r e s s t a s 3 t s p t h d v i h v i l t k o h u n d e f i n e d
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 48 - revision : a 0 1 - 00 3 10 .2.1 3 burst write operation - fixed latency mode notes: 1. non - default bcr settings for burst write operation in fixed latency mode: fixed latency, latency code 2 (3 clocks), wait active low, wait asserted during delay, burst l ength 4, burst wrap enabled. 2. wait asserts for lc cycles for both fixed and variable latency. lc = latency code (bcr[13:11]). 3. t as is required if t csp > 20ns. 4. ce# must go high before any clock edge following the last word of a defined - length burst. w r i t e b u r s t i d e n t i f i e d ( w e # = l o w ) t s p v a l i d a d d r e s s t s p t k h k l t c l k t k p v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # c l k t k p t h d t h d t a s 3 t a s 3 t s p t h d t s p d 1 d 2 d 3 d 0 h i g h - z t h z t c b p h t h d t c e m t c s p t s p t h d t k h t l t k h t l h i g h - z v o h v o l d o n ' t c a r e v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] n o t e 4 n o t e 2 v a l i d a d d r e s s t a s 3 t s p t a v h t a v h v i h v i l t k o h u n d e f i n e d
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 49 - revision : a 0 1 - 00 3 10 .2.1 4 burst write terminate at end of row (wrap off) notes: 1. non - default bcr settings for burst write at end of row: fixed or variable latency, wait active low, wait asserted during delay (shown as solid line). 2. for burst writes, ce# must go high before the second clk after the wait period begins (before the second clk after wait asserts with bcr[8] = 0, or before the third clk after wait asserts with bcr[8] = 1). v i h v i l v i h v i l v i h v i l w a i t w e # o e # l b # / u b # a d v # c l k c e # t s p t h d v a l i d i n p u t e n d o f r o w t c l k t k h t l t h z t h z h i g h - z d o n ' t c a r e v i h v i l v i h v i l v i h v i l v o h v o l v i h v i l v i h v i l a / d q [ 1 5 : 0 ] a [ m a x : 1 6 ] t c s p t h d n o t e 2 t k o h u n d e f i n e d v a l i d i n p u t v a l i d i n p u t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 50 - revision : a 0 1 - 00 3 10 .2.1 5 burst write row boundary crossing notes: 1. non - default bcr settings for burst write at end of row: fixed or variable latency, wait active low, wait asserted during delay (shown as solid line). 2. wait will be asserted for lc cycles for variable latency, or lc cycles for fixed latency. v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l w a i t w e # o e # l b # / u b # c e # a d v # v i h v i l v i h v i l c l k e n d o f r o w v a l i d i n p u t t c l k v o h v o l d o n ' t c a r e a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] n o t e 2 v i h v i l t k h t l t s p t h d t k o h t k h t l t k o h u n d e f i n e d v a l i d i n p u t v a l i d i n p u t v a l i d i n p u t v a l i d i n p u t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 51 - revision : a 0 1 - 00 3 10 .2.1 6 burst write followed by burst read notes: 1. non - default bcr settings for burst write followed by burst read: fixed or variable latency, latency code 2 (3 clocks), wait active low, wait asserted during delay. 2. a refresh opportunity must be provided every tcem. a refresh opportunity is satisf ied by either of the following two conditions: a) clocked ce# high, or b) ce# high for longer than 15ns. d o n ' t c a r e u n d e f i n e d h i g h - z h i g h - z s p h d s p h d s p h d b o e a c l k k o h v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t d 0 d 1 d 2 d 3 o h z c s p h d c b p h c s p s p h d v a l i d a d d r e s s v a l i d a d d r e s s s p h d v a l i d a d d r e s s s p h d s p h d i n / o u t w e # o e # l b # / u b # c e # v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l v i h v i l w a i t a d v # c l k v o h o l s p a / d q [ 1 5 : 0 ] a [ m a x : 1 6 ] v a l i d a d d r e s s v a l i d a d d r e s s s p h d s p h d n o t e 2 c l k t h d t t t t t t t t t t t t t t t t t t t t t t t t t t t t v
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 52 - revision : a 0 1 - 00 3 10 .2.1 7 asynchro nous write followed by burst read notes: 1. non - default bcr settings for asynchronous write, with adv# low, followed by burst read: fixed or variable latency, latency code 2 (3 clocks), wait active low, wait asserted during dela y. 2. when the device is transitioning between asynchronous and variable - latency burst operations, ce# must go high. ce# can stay low when the device is transitioning to fixed - latency burst reads. a refresh opportunity must be provided every t cem. a refresh opportunity is satisfied by either of the following two conditions: a) clocked ce# high, or b) ce# high for longer than 15ns. a s d w k h t l b o e k o h a c l k d a t a v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t v a l i d o u t p u t h i g h - z o h z h d s p w c w p c w c b p h c s p s p h d s p h d v p t a v s a v h v a l i d a d d r e s s v a l i d a d d r e s s c l k v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l v i h v i l c l k a d v # l b # / u b # c e # o e # w e # w a i t h d s p a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] a s v o h v o l v a l i d a d d r e s s s p h d v a l i d a d d r e s s a v s a v h d h n o t e 2 b w a s d o n ' t c a r e u n d e f i n e d t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 53 - revision : a 0 1 - 00 3 10 .2.1 8 burst read followed by asynchronous write notes: 1. non - default bcr settings for burst read followed by asynchronous write using adv#: fixed or variable latency, latency code 2 (3 clocks), wait active low, wait asserted during delay. 2. when the device is transitioning between asynchronous and variable - latency burst operations, ce# must go high. ce# can stay low when the device is transitioning from fixed - latency burst reads; asynchronous operation begins at the falling edge of adv#. a refresh opportunity must be provided every t cem. a refresh opportunity is satisfied by either of the following two conditions: a) clocked ce# high, or b) ce# high for longer than 15ns. v a l i d i n p u t v a l i d o u t p u t k o h a c l k h i g h - z k h t l h i g h - z s p s p h d o l z h d b w d w d h w p h w p o h z h z h d c b p h v p v s a w b o e h d s p h d t s p c l k v i h v i l c l k a d v # c e # w e # l b # / u b # w a i t o e # v a l i d a d d r e s s r e a d b u r s t i d e n t i f i e d ( w e # = h i g h ) d o n ' t c a r e u n d e f i n e d v a i l d a d d r e s s c s p n o t e 2 a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] v a l i d a d d r e s s v o h v o l v a l i d a d d r e s s v i h v i l k h t l s p h d a v h a v s a s a v h a v s a s a s c w k o h t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v i h v i l v o h v o l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 54 - revision : a 0 1 - 00 3 10 .2. 1 9 asynchronous write followed by asynchronous read notes: 1. when configured for synchronous mode (bcr[15] = 0), ce# must remain high for at least 5ns ( t cph) to schedule the appropriate refresh interval. otherwise, t cph is only required after ce# - controlled writes. a v h h z o h z o e h z b h z b a c p h c o b w a w v a l i d a d d r e s s v a l i d o u t p u t v a l i d a d d r e s s d a t a v o h v o l v i h v i l a d v # l b # / u b # c e # o e # w e # w a i t d o n ' t c a r e u n d e f i n e d t a v s a v h w p v a l i d a d d r e s s a s v s c v s a [ m a x : 1 6 ] a / d q [ 1 5 : 0 ] v a l i d a d d r e s s v p a s a v s a v h v a l i d i n p u t d s d h a w a v s o e w a a v o h v o l o l z h i g h - z n o t e 1 a v h a v s w r v p c v s a a a a d v c w a s t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t t v i h v i l v i l v i h v i h v i l v i h v i l v i h v i l v i h v i l
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 55 - revision : a 0 1 - 00 3 11 . package descriptio n 11 .1 package dimension 54 ball vfbga (6x8 mm^2,ball pitch:0.75mm, ? =0.4mm) note: 1. ball land:0.45mm. ball opening:0.35mm. pcb ball land suggested <=0. 35 mm
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 56 - revision : a 0 1 - 00 3 12. revision history version date page description a 01 - 00 1 0 2 / 21 / 20 1 3 all new create document. a 01 - 00 2 0 3 / 26 /201 3 2 1~38 update ordering information. add dpd mode. a 01 - 00 3 06 / 27 /201 3 3 2 remove note 6 in section 9.2.
w958d6d b 256 mb async./burst/sync./a/d mux publication release date : june 27 , 201 3 - 57 - revision : a 0 1 - 00 3 important notice winbond products are not designed, intended, authorized or warranted for use as components in systems or equipment intended for surgical implantation, atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, or for other applications intended to s upport or sustain life. further more, winbond products are not intended for applications wherein failure of winbond products could result or lead to a situation where n in personal injury, death or severe property or environmental damage could occur. winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify winbond for any damages resulting from such improper use or sales. ----------------------------------------------------------------------------------------------------------------------------- -------------------- please note that all data and specifications are subject to change without notice. all the trademarks of products and companies mentioned in the datasheet belong to their respective owners.

▲Up To Search▲

Price & Availability of W958D6DB

	To Download W958D6DB Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .