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W39V040C data sheet 512k 8 cmos flash memory with lpc interface publication release date: apr. 11, 2006 - 1 - revision a1 table of contents- 1. general description ......................................................................................................... 3 2. features ................................................................................................................................. 3 3. pin configurations ............................................................................................................. 4 4. block diagram ...................................................................................................................... 5 5. pin description ..................................................................................................................... 6 6. functional description .................................................................................................... 7 6.1 interface mode selection and description ...................................................................... 7 6.2 read (write) mode ......................................................................................................... 7 6.3 reset operation .............................................................................................................. 7 6.4 accelerated program operation ..................................................................................... 7 6.5 boot block operation and hardware protection at initial- #tbl & #wp ........................ 7 6.6 sector/page erase command ........................................................................................ 8 6.7 program operation ......................................................................................................... 8 6.8 hardware data protection .............................................................................................. 8 6.9 write operation status ..................................................................................................... 8 6.10 dq7: #data polling ......................................................................................................... 9 6.11 ry/#by: ready/#busy .................................................................................................... 9 6.12 dq6: toggle bit .............................................................................................................. 9 6.13 dq5: exceeded timing limits ...................................................................................... 10 7. register for lpc mode ................................................................................................... 11 7.1 general purpose inputs register for lpc mode .......................................................... 11 7.2 identification input pins id[3:0] ..................................................................................... 11 7.3 product identification registers .................................................................................... 11 8. table of operating modes ............................................................................................ 12 8.1 operating mode selection - programmer mode ........................................................... 12 8.2 operating mode selection - lpc mode ........................................................................ 12 8.3 lpc cycle definition ..................................................................................................... 12 9. table of command definition ....................................................................................... 13 9.1 embedded programming algorithm .............................................................................. 14 9.2 embedded erase algorithm .......................................................................................... 15 9.3 embedded #data polling algorithm .............................................................................. 16 9.4 embedded toggle bit algorithm ................................................................................... 17 9.5 software product identification and boot bl ock lockout detection acquisition flow .. 18 10. electrical characteristics ......................................................................................... 19 10.1 absolute maximum ratings .......................................................................................... 19 10.2 programmer interface mode dc operating characteristics ......................................... 19
W39V040C - 2 - 10.3 lpc interface mode dc operating characteristics ...................................................... 20 10.4 power-up timing ........................................................................................................... 20 10.5 capacitance .................................................................................................................. 20 10.6 programmer interface mode ac characteristics .......................................................... 21 10.7 read cycle timing parameters .................................................................................... 21 10.8 write cycle timing parameters .................................................................................... 22 10.9 data polling and toggle bit timing parameters ........................................................... 22 11. timing waveforms for programmer interface mode ....................................... 23 11.1 read cycle timing diagram ......................................................................................... 23 11.2 write cycle timing diagram ......................................................................................... 23 11.3 program cycle timing diagram .................................................................................... 24 11.4 #data polling timing diagram .................................................................................... 24 11.5 toggle bit timing diagram ........................................................................................... 25 11.6 sector/page erase timing diagram ............................................................................. 25 12. lpc interface mode ac characteristics ................................................................. 26 12.1 ac test conditions ....................................................................................................... 26 12.2 read/write cycle timing parameters .......................................................................... 26 12.3 reset timing parameters ............................................................................................. 26 13. timing waveforms for lpc interface mode ........................................................... 27 13.1 read cycle timing diagram ......................................................................................... 27 13.2 write cycle timing diagram ......................................................................................... 27 13.3 program cycle timing diagram .................................................................................... 28 13.4 #data polling timing diagram .................................................................................... 29 13.5 toggle bit timing diagram ........................................................................................... 30 13.6 sector erase timing diagram ....................................................................................... 31 13.7 fgpi register/product id readout timing diagram .................................................... 32 13.8 reset timing diagram .................................................................................................. 32 14. ordering information ..................................................................................................... 33 15. how to read the top marking ...................................................................................... 34 16. package dimensions ......................................................................................................... 35 16.1 32l plcc ..................................................................................................................... 35 16.2 32l stsop ................................................................................................................... 35 17. version history ................................................................................................................. 36 W39V040C publication release date: apr. 11, 2006 - 3 - revision a1 1. general description the W39V040C is a 4-megabit, 3.3-volt only cmos flash memory organized as 512k 8 bits. for flexible erase capability, the 4mbits of data are divided into into 16 x 8 kbytes pages and 6 x 64 kbytes sectors or 8 x 64 kbytes sector s. the device can be programmed and erased in-system with a standard 3.3v power supply. a 12-volt vpp is required for accelerated program. the unique cell architecture of the W39V040C results in fast progr am/erase operations with extremely low current consumption. this device can operate at two modes, programmer bus in terface mode, low pin count (lpc) bus interface mode. as in the programmer interface mode, it acts like the traditional flash but with a multiplexed address inputs. but in the lpc interface mode, this device complies with the intel lpc specification. the device can also be programmed and er ased using standard eprom programmers. 2. features ? single 3.3-volt operations: ? 3.3-volt read ? 3.3-volt erase ? 3.3-volt program ? fast program operation: ? byte-by-byte programming: 7 s (typ.) (v pp = 12v) ? byte-by-byte programming: 10 s (typ.)(v pp = vcc) ? fast erase operation: ? sector erase 0.6 sec. (typ.) ? page erase 0.3 sec. (typ.) ? fast read access time: tkq 11 ns ? endurance: 50k cycles (typ.) ? twenty-year data retention ? 6 even sectors with 64k bytes and 16 even pages with 8k bytes or 8 even sectors with 64 kbytes ? any individual sector can be erasedhardware protection: ? #tbl supports 64-kbyte boot block hardware protection ? #wp supports the whole chip except boot block hardware protection ? low power consumption ? active current: 15 ma (typ. for lpc read mode) ? automatic program and erase timing with internal v pp generation ? end of program or erase detection ? toggle bit ? data polling ? latched address and data ? ttl compatible i/o ? available packages: 32l plcc, 32l stsop 32l plcc lead free, 32l stsop lead free W39V040C - 4 - 3. pin configurations a 1 0 ^ f g p i 4 v 5 6 7 9 10 11 12 13 29 28 27 26 25 24 23 22 21 303132 1 2 34 8 2019 18171615 14 d q 1 ^ l a d 1 v v s s d q 6 ^ r s v v # r e s e t v d d r / # c ^ c l k v a 9 ^ f g p i 3 v 32l plcc dq0(lad0) a7(fgpi1) a6(fgpi0) a4(#tbl) a3(id3) a2(id2) a1(id1) a0(id0) a5(#wp) mode dq7(rsv) #we(#lfram) #oe(#init) nc a 8 ^ f g p i 2 v d q 2 ^ l a d 2 v d q 3 ^ l a d 3 v d q 4 ^ r s v v d q 5 ^ r s v v v ss ry/#by(rsv) v dd nc v p p #we(#lfram) dq4(rsv) dq3(lad3) dq7(rsv) dq6(rsv) #oe(#init) dq5(rsv) 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 32 31 30 29 28 27 26 25 32l stsop 24 23 22 21 20 19 18 17 a3(id3) mode r/#c(clk) nc v dd a10(fgpi4) vpp a9(fgpi3) a8(fgpi2) #reset a7(fgpi1) a6(fgpi0) a2(id2) a1(id1) a0(id0) dq2(lad2) dq1(lad1) dq0(lad0) a5(#wp) a4(#tbl) v ss v ss nc nc ry/#by(rsv) W39V040C publication release date: apr. 11, 2006 - 5 - revision a1 4. block diagram program- mer interface #reset mode a[10:0] dq[7:0] #oe #we r/#c lpc interface clk #lfram lad[3:0] #init #wp #tbl ry/#by 7ffff 00000 1ffff 10000 0ffff 60000 5ffff 64k bytes dector 0 6e000 64k bytes sector 1 7e000 70000 64k bytes sector 5 64k bytes sector 6 64k bytes boot block sector 7 8k bytes 8k bytes 8k bytes 8k bytes 71fff 6ffff 61fff 50000 W39V040C - 6 - 5. pin description interface sym. pgm lpc pin name mode * * interface mode selection #reset * * reset #init * initialize #tbl * top boot block lock #wp * write protect clk * clk input fgpi[4:0] * general purpose inputs id[3:0] * identification inputs they are internal pull down to vss lad[3:0] * address/data inputs #lfram * lpc cycle initial r/#c * row/column select a[10:0] * address inputs dq[7:0] * data inputs/outputs #oe * output enable #we * write enable ry/#by * ready/ busy vdd * * power supply vss * * ground vpp * * accelerate program power s upply rsv * * reserved pins nc * * no connection W39V040C publication release date: apr. 11, 2006 - 7 - revision a1 6. functional description 6.1 interface mode selection and description this device can operate in two interface modes, one is programmer interface mode, and the other is lpc interface mode. the mode pin of the device pr ovides the control between these two interface modes. these interface modes need to be configured before po wer up or return from #reset . when ic (mode) pin is set to v dd , the device will be in the programmer mode; while the mode pin is set to low state (or leaved no connection), it will be in the lpc mode. in programmer mode, this device just behaves like traditional flash parts with 8 data lines. but the row and column address inputs are multiplexed. the row address are mapped to the higher internal address a[18:11]. and the column address are mapped to the lower internal address a[10:0]. for lpc mode, it complies with the lpc interface specification, through the lad[3:0] to communicate with the system chipset . 6.2 read (write) mode in programmer interface mode, the read (write) ope ration of the W39V040C is controlled by #oe (#we). the #oe (#we) is held low for the host to obt ain (write) data from (to) the outputs (inputs). #oe is the output control and is used to gate dat a from the output pins. the data bus is in high impedance state when #oe is high. as for in the lpc interface mode, the read or write is determined by the "start cycle ". refer to the lpc cycle definition and timing waveforms for further details. 6.3 reset operation the #reset input pin can be used in some applicat ion. when #reset pin is at high state, the device is in normal operation mode. when #reset pin is at low state, it w ill halt the device and all outputs will be at high imp edance state. as the hi gh state re-asser ted to the #reset pin, the device will return to read or standby mode, it depends on the control signals. 6.4 accelerated pr ogram operation the device provides accelerated program operations through the acc function.this function is primarily intended to allow a faster manu facturing throughput in the factory. 6.5 boot block operation and hardware protection at initial- #tbl & #wp there is a hardware method to protect the top boot block and other sectors. before power on programmer, tie the #tbl pin to low state and then the top boot block will not be programmed/erased. if #wp pin is tied to low state before power on, the other sectors will no t be programmed/erased. in order to detect whether the boot block feature is set on or not, users can perform software command sequence: enter the product identification mode (s ee command codes for identification/boot block lockout detection for specific code), and then read from addre ss fff2(hex). you can check the dq2/dq3 at the address fff2 to see whether the #tbl/#wp pin is in low or high state. if the dq2 is ?0?, it means the #tbl pin is tied to high state. in such condition, whether boot block can be programmed/erased or not will depend on software setting. on the other hand, if the dq2 is ?1?, it means the #tbl pin is tied to low state, then boot block is locked no matter how the software is set. like the dq2, the dq3 inversely mirrors the #wp state. if the dq3 is ?0?, it means the #wp pin is in high state, then all the sectors except the boot blo ck can be programmed/erased . on the other hand, if the dq3 is ?1?, then all the sector s except the boot block are programm ed/erased inhibited.to return to normal operation, perform a three-byte command sequen ce (or an alternate single-byte command) to exit the identification mode. for the specific c ode, see command codes for identification/boot block lockout detection. W39V040C - 8 - 6.6 sector/page erase command sector/page erase is a six-bus cy cles operation. there are two "unl ock" write cycles, followed by writing the "set-up" command. two more "unlock" write cycles then follows by the sector/page erase command. the sector/page address (any address locati on within the desired sector/page) is latched on the rising edge of r/#c in programmer mode, wh ile the command (30h/50h) is latched on the rising edge of #we. sector/page erase does not require the user to program the device prior to erase. when erasing a sector/ page, the remaining unselect ed sectors/ pages are not affected. the system is not required to provide any controls or timings during these operations. the automatic sector/ page erase begins after the er ase command is completed, right from the rising edge of the #we pulse for the last sector/ page erase command pulse and terminates when the data on dq7, data polling, is "1" at which time the dev ice returns to the read mode. data polling must be performed at an address within any of the sectors/page being erased. refer to the erase command flow chart using typical command strings and bus operations. 6.7 program operation the W39V040C is programmed on a byte-by-byte basis. program operation can only change logical data "1" to logical data "0." the erase operation, which changed entire data in main memory and/or boot block from "0" to "1", is needed before programming. the program operation is initiated by a 4-by te command cycle (see command codes for byte programming). the device will internally enter the program operation immediately after the byte-program command is entered. the internal program timer will automatically time-out (10 s typ. - t bp ) once it is completed and then return to normal read mode. data polling and/or toggle bits can be used to detect end of program cycle. 6.8 hardware data protection the integrity of the data stored in the W39V040C is also hardware protected in the following ways: (1) noise/glitch protection: a #we pulse of less than 5 ns in duration will not initiate a write cycle. (2) v dd power up/down detection: the programming and read operation are inhibited when v dd is less than 2.0v typical. (3) write inhibit mode: forcing #oe low or #we high will inhibit the write operation. this prevents inadvertent writes during powe r-up or power-down periods. 6.9 write operation status the device provides several bits to determine the status of a program or erase operation: dq5, dq6, and dq7. each of dq7 and dq6 provides a meth od for determining whether a program or erase operation is complete or in progress. the device also offers a hardware-based output signal, ry/#by in programmer mode, to determine whether an embedded program or erase operation is in progress or has been completed. W39V040C publication release date: apr. 11, 2006 - 9 - revision a1 6.10 dq7: #data polling the #data polling bit, dq7, indicates whether an embedded program or erase algorithm is in progress or completed. data polling is valid after the rising edge of the final #we pulse in the command sequence. during the embedded program algorithm, the devic e outputs on dq7 and the complement of the data programmed to dq7. once the embedded program algorithm has completed, the device outputs the data programmed to dq7. the system must prov ide the program address to read valid status information on dq7. if a program address falls within a protected sector, #data polling on dq7 is active for about 1 s, and then the device returns to the read mode. during the embedded erase algorithm, #data po lling produces ?0? on dq7. once the embedded erase algorithm has completed, #data polling produc es ?1? on dq7. an address within any of the sectors selected for erasure mu st be provided to read valid status information on dq7. just before the completion of an embedded program or erase operation, dq7 may change asynchronously with dq0-dq6 while output enable (#oe) is set to low. that is, the device may change from providing status information to va lid data on dq7. depending on when it samples the dq7 output, the system may read the status or valid dat a. even if the device has completed the program or erase operation and dq7 has valid data, the data outputs on dq0-dq6 may be still invalid. valid data on dq7-dq0 will appear on successive read cycles. 6.11 ry/#by: ready/#busy the ry/#by is a dedicated, open-drain output pin which indicates whether an embedded algorithm is in progress or complete. the ry/#by status is valid after the rising edge of the final #we pulse in the command sequence. since ry/#by is an open-drain output, several ry/#by pins can be tied together in parallel with a pull-up resistor to v dd . when the output is low (busy), the device is actively erasing or programming. when the output is high (ready), the device is in the read mode or standby mode. 6.12 dq6: toggle bit toggle bit on dq6 indicates whether an embedded program or erase algorithm is in progress or complete. toggle bit i may be read at any address, and is valid after the rising edge of the final #we pulse in the command sequence (before the program or erase operation), and during the sector erase time-out. during an embedded program or erase algorithm oper ation, successive read cycles to any address cause dq6 to toggle. the system may use either #oe to control the read cycles. once the operation has completed, dq6 stops toggling. the system can use dq6 to determine whether a sector is actively erasing. if the device is actively erasing (i.e., the embedded erase algorithm is in progress), dq6 toggles. if a program address falls within a protected sector, dq6 toggles for about 1 s after the program command sequence is written, and then returns to reading array data. W39V040C - 10 - 6.13 dq5: exceeded timing limits dq5 indicates whether the program or erase time ha s exceeded a specified internal pulse count limit. dq5 produces ?1? under these conditions which indicates that the program or erase cycle was not successfully completed. the device may output ?1? on dq5 if the system tries to program ?1? to a location that was previously programmed to ?0.? only the erase operation can change ?0? back to ?1.? under this condition, the device stops the operation, and while the timi ng limit has been exceeded, dq5 produces ?1.? under both these conditions, the system must hardware reset to return to the read mode. W39V040C publication release date: apr. 11, 2006 - 11 - revision a1 7. register for lpc mode there are two kinds of re gisters on this device, the general purpose input registers and product identification registers. users can access these registers through respective address in the 4gbytes memory map. there are detail descriptions in the sections below. 7.1 general purpose inputs register for lpc mode this register reads the fgpi[4:0] pins on the w 39v040c.this is a pass-through register which can read via memory address fbc0100(hex). since it is pass-through register, there is no default value. gpi register table bit function 7 ? 5 reserved 4 read fgpi4 pin status 3 read fgpi3 pin status 2 read fgpi2 pin status 1 read fgpi1 pin status 0 read fgpi0 pin status 7.2 identification input pins id[3:0] these pins are part of mechanism that allows multiple parts to be used on the same bus. the boot device should be 0000b. and all the subsequent parts should use the up-count strapping. note that a 1m byte rom will occupy two ids. for example: a 1mbyte rom's id is 0000b, the next rom's id is 0010b. these pins all are pulled down with internal resistor. 7.3 product identification registers in the lpc interface mode, a read from fbc, 0000( hex) can output the manufac turer code, da(hex). a read from fbc, 0001(hex) can out put the device code 50 (hex). there is an alternative software method (three comm ands bytes) to read out t he product identification in both the programmer interface mode and the lpc interface mode. thus, the programming equipment can automatically matches the device with its proper erase and programming algorithms. in the software access mode, a three-byte (or jedec 3-byte) command sequence can be used to access the product id for programmer interface mode. a read from address 0000(hex) outputs the manufacturer code, da(hex). a read from addres s 0001(hex) outputs the devic e code, 50 (hex). the product id operation can be terminated by a thr ee-byte command sequence or an alternate one-byte command sequence (see command definition table for detail). W39V040C - 12 - 8. table of operating modes 8.1 operating mode selection - programmer mode pins mode #oe #we #reset address dq. read v il v ih v ih ain dout write v ih v il v ih ain din standby x x v il x high z v il x v ih x high z/dout write inhibit x v ih v ih x high z/dout output disable v ih x v ih x high z 8.2 operating mode selection - lpc mode operation modes in lpc interface mode are determined by "start cycle" when it is selected. when it is not selected, its outputs (lad[3:0]) will be disabl e. please reference to the "lpc cycle definition". 8.3 lpc cycle definition field no. of clocks description start 1 "0000b" appears on lpc bus to indicate the initial cycle type & dir 1 "010xb" indicates memory read cy cle; while "011xb" indicates memory write cycle. "x" mean don't have to care. tar 2 turned around time addr. 8 address phase for memory cycle. lpc supports the 32 bits address protocol. the addresses transfer most significant nibble first and least significant nibble last. (i.e. address[31:28] on lad[3:0] first , and address[3:0] on lad[3:0] last.) sync. n synchronous to add wait state. "0000b" means ready, "0101b" means short wait, "0110b" means long wait, "1001b" for dma only, "1010b" means error, othe r values are reserved. data 2 data phase for memory cycle. the data transfer least significant nibble first and most significant nibble last. (i.e. dq[3:0] on lad[3:0] first, then dq[7:4] on lad[3:0] last.) W39V040C publication release date: apr. 11, 2006 - 13 - revision a1 9. table of command definition command no. of 1st cycle 2nd cycle 3rd cycle 4th cycle 5th cycle 6th cycle description cycles (1) addr. data addr. data addr. data addr. data addr. data addr. data read 1 a in d out sector erase 6 5555 aa 2aaa 55 5555 80 5555 aa 2aaa 55 sa (5) 30 page erase 6 5555 aa 2aaa 55 5555 80 5555 aa 2aaa 55 pa (6) 50 byte program 4 5555 aa 2aaa 55 5555 a0 a in d in product id entry 3 5555 aa 2aaa 55 5555 90 product id exit (4) 3 5555 aa 2aaa 55 5555 f0 product id exit (4) 1 xxxx f0 notes: 1. the cycle means the write command cycle not the lpc clock cycle. 2. the column address / row address are mapped to the low / high order internal address. i.e. column address a[10:0] are mapped to the internal a[10:0], row address a[7:0] are mapped to the internal a[18:11] 3. address format: a14 ? a0 (hex); data format: dq7-dq0 (hex) 4. either one of the two product id exit commands can be used. 5. sa: sector address sa = 7xxxxh for unique sector7 (boot sector) sa = 3xxxxh for unique sector3 sa = 6xxxxh for unique sector6 sa = 2xxxxh for unique sector2 sa = 5xxxxh for unique sector5 sa = 1xxxxh for unique sector1 sa = 4xxxxh for unique sector4 sa = 0xxxxh for unique sector0 6. pa: page address pa = 7e000-7ffffh for unique page 15 pa = 6e000-6ffffh for unique page 7 pa = 7c000-7dfffh for unique page 14 pa = 6c000-6dfffh for unique page 6 pa = 7a000-7bfffh for unique page 13 pa = 6a000-6bfffh for unique page 5 pa = 78000-79fffh for unique page 12 pa = 68000-69fffh for unique page 4 pa = 76000-77fffh for unique page 11 pa = 66000-67fffh for unique page 3 pa = 74000-75fffh for unique page 10 pa = 64000-65fffh for unique page 2 pa = 72000-73fffh for unique page 9 pa = 62000-63fffh for unique page 1 pa = 70000-71fffh for unique page 8 pa = 60000-61fffh for unique page 0 W39V040C - 14 - 9.1 embedded programming algorithm start write program command sequence (see below) programming completed 5555h/aah 2aaah/55h 5555h/a0h program address/program data #data polling/ toggle bit program command sequence (address/command): W39V040C publication release date: apr. 11, 2006 - 15 - revision a1 9.2 embedded erase algorithm start write erase command sequence (see below) erasure completed #data polling or toggle bit 5555h/aah 5555h/aah 2aaah/55h 2aaah/55h 5555h/80h sector address/30h (address/command): individual sector erase command sequence page address/50h or W39V040C - 16 - 9.3 embedded #data polling algorithm start read byte (dq0 - dq7) address = sa pass dq7 = data ? yes fail dq5 = 1 no read byte (dq0 - dq7) address = sa dq7 = data yes no yes no note: sa = valid address for programming .dur ing a sector erase operation, a valid address is an address within any sector selected for erasure. W39V040C publication release date: apr. 11, 2006 - 17 - revision a1 9.4 embedded toggle bit algorithm yes no pass read byte (dq0-dq7) start read byte (dq0-dq7) dq5 = 1 ? read byte (dq0-dq7) twin toggle bit =toggle ? toggle bit =toggle ? fail no yes no note: recheck toggle bit because it may stop toggling as dq5 changes to 1 . W39V040C - 18 - 9.5 software product identification and boot block lockout detection acquisition flow product identification entry (1) load data 55 to address 2aaa load data 90 to address 5555 pause 10 s product identification and boot block lockout detection mode (3) read address = 00000 data = da read address = 00001 data =50 read address = fff2 check dq[3:0] of data outputs (4) product identification exit(6) load data 55 to address 2aaa load data f0 to address 5555 normal mode (5) (2) (2) load data aa to address 5555 load data aa to address 5555 pause 10 s notes for software product identificat ion/boot block lockout detection: (1) data format: dq7 ? dq0 (hex); address format: a14 ? a0 (hex) (2) a1? a18 = v il ; manufacture code is read for a0 = v il ; device code is read for a0 = v ih . (3) the device does not remain in identification and boot block lockout detection mode if power down. (4) the dq[3:2] to indicate the sectors protect status as below: dq2 dq3 0 64kbytes boot block unlocked by #tbl hardware trapping whole chip unlocked by #wp hardware trapping except boot block 1 64kbytes boot block locked by #tbl hardware trapping whole chip locked by #wp hardware trapping except boot block (5) the device returns to standard operation mode. (6) optional 1-write cycle (write f0 (hex .) at xxxx address) can be used to exit the product identification/boot block lockout detection. W39V040C publication release date: apr. 11, 2006 - 19 - revision a1 10. electrical characteristics 10.1 absolute maximum ratings parameter rating unit operating temperature 0 to +70 c storage temperature -65 to +150 c power supply voltage to v ss potential -0.5 to +4.0 v d.c. voltage on any pin to ground potential -0.5 to v dd +0.5 v v pp voltage -0.5 to +13 v transient voltage (<20 ns) on any pin to ground potential -1.0 to v dd +0.5 v note: exposure to conditions beyond those listed under absolute maximum ratings may adversely affect the life and reliability of the device. 10.2 programmer interface mode dc operating characteristics (v dd = 3.3v 0.3v, v ss = 0v, t a = 0 to 70 c) limits parameter sym. test conditions min. typ. max. unit power supply current icc in read or write mode, all dqs open address inputs = 3.0v/0v, at f = 3 mhz - 15 30 ma input leakage current i li v in = v ss to v dd - - 90 a output leakage current i lo v out = v ss to v dd - - 90 a input low voltage v il - -0.5 - 0.8 v input high voltage v ih - 2.0 - v dd +0.5 v output low voltage v ol i ol = 2.1 ma - - 0.45 v output high voltage v oh i oh = -0.1ma 2.4 - - v W39V040C - 20 - 10.3 lpc interface mode dc operating characteristics (v dd = 3.3v 0.3v, v ss = 0v, t a = 0 to 70 c) limits parameter sym. test conditions min. typ. max. unit power supply current read icc all i out = 0a, clk = 33 mhz, in lpc mode operation. - 15 25 ma power supply current program/erase icc clk = 33 mhz, in lpc mode operation. - 18 30 ma standby current 1 isb1 lpc4 = 0.9 v dd , clk = 33 mhz, all inputs = 0.9 v dd / 0.1 v dd no internal operation - 20 50 ua standby current 2 isb2 lpc4 = 0.1 v dd , clk = 33 mhz, all inputs = 0.9 v dd /0.1 v dd no internal operation. - 3 10 ma input low voltage v il - -0.5 - 0.3 v dd v input low voltage of #init v ili - -0.5 - 0.2 v dd v input high voltage v ih - 0.5 v dd - v dd +0.5 v input high voltage of #init pin v ihi - 1.35 v - v dd +0.5 v output low voltage v ol i ol = 1.5 ma - - 0.1 v dd v output high voltage v oh i oh = -0.5 ma 0.9 v dd - - v 10.4 power-up timing parameter symbol typical unit power-up to read operation t pu . read 100 s power-up to write operation t pu . write 5 ms 10.5 capacitance (v dd = 3.3v, t a = 25 c, f = 1 mhz) parameter symbol conditions max. unit i/o pin capacitance c i/o v i/o = 0v 12 pf input capacitance c in v in = 0v 6 pf W39V040C publication release date: apr. 11, 2006 - 21 - revision a1 10.6 programmer interface mode ac characteristics ac test conditions parameter conditions input pulse levels 0v to 0.9 v dd input rise/fall time < 5 ns input/output timing level 1.5v/1.5v output load 1 ttl gate and c l = 30 pf ac test load and waveform +3.3v 1.8k 1.3k d out 30 pf (including jig and scope) input 0.9vdd 0v test point test point 1.5v 1.5v output 10.7 read cycle timing parameters (v dd = 3.3v 0.3v, v ss = 0v, t a = 0 to 70 c) W39V040C parameter symbol min. max. unit read cycle time trc 350 - ns row / column address set up time tas 50 - ns row / column address hold time tah 50 - ns address access time taa - 150 ns output enable access time toe - 75 ns #oe low to active output tolz 0 - ns #oe high to high-z output tohz - 35 ns output hold from address change toh 0 - ns W39V040C - 22 - 10.8 write cycle timing parameters parameter symbol min. typ. max. unit reset time trst 1 - - s address setup time tas 50 - - ns address hold time tah 50 - - ns r/#c to write enable high time tcwh 50 - - ns #we pulse width twp 100 - - ns #we high width twph 100 - - ns data setup time tds 50 - - ns data hold time tdh 50 - - ns #oe hold time toeh 0 - - ns byte programming time tbp - 10 200 s sector erase cycle time (note 2) tpec - 0.6 6 s page erase cycle time (note 2) tpec2 - 0.3 0.8 s program/erase valid to ry/#by delay tbusy 90 - - ns notes : 1. all ac timing signals observe the following guide lines for determining setup and hold times: (a) high level signal's reference leve l is input high and (b) low level signal's reference level is input low. ref. to the ac testing condition. 2. exclude 00h pre-program prior to erasure. (in the pre-programming step of the embedded erase algorithm, all bytes are programmed to 00h before erasure 10.9 data polling and toggle bit timing parameters W39V040C parameter symbol min. max. unit #oe to data polling output delay t oep - 350 ns #oe to toggle bit output delay t oet - 350 ns toggle or polling interval (for sector erase only) (note1) - 50 - ms note1 : minimum timing interval between toggle-check or polling-check is required for sector erase only W39V040C publication release date: apr. 11, 2006 - 23 - revision a1 11. timing waveforms for programmer interface mode 11.1 read cycle timing diagram dq[7:0] high-z #oe #we v ih t oh t aa data valid t ohz high-z t olz t oe #reset a[10:0] t rc r/#c t as t ah row address column address t as t ah column address row address t rst 11.2 write cycle timing diagram data valid t cwh t oeh t wp t ds t as t ah t wph t dh dq[7:0] #oe #we #c r/ #reset a[10:0] column address row address t rst t as t ah W39V040C - 24 - 11.3 program cycle timing diagram a[10:0] byte 0 byte 1 byte 2 internal write start dq[7:0] #oe #we byte program cycle t bp t wph t wp 5555 5555 2aaa aa a0 55 programmed address data-in byte 3 note: the internal address a[18:0] are converted from external column/row address. column/row address are mapped to the low/high order internal address. i.e. column address a[10:0] are mapped to the internal a[10:0], row address a[7:0] are mapped to the internal a[18:11]. #cr/ (internal a[18:0]) t busy ry/#by 11.4 #data polling timing diagram a[10:0] dq7 #we #oe x x x t oep t bp #cr/ x (internal a[18:0]) an an an an ry/#by t busy W39V040C publication release date: apr. 11, 2006 - 25 - revision a1 11.5 toggle bit timing diagram a[10:0] dq6 #we #oe t oet t bp #cr/ ry/#by 11.6 sector/page erase timing diagram sb2 sb1 sb0 a[10:0] dq[7:0] #oe #we sb3 sb4 sb5 internal erase starts six-byte code for 3.3v-only sector erase t wp t wph t pec 5555 2aaa 5555 5555 2aaa sa aa 55 80 aa 55 30 sa = sector address, please ref. to the "table of command definition " note: the internal address a[18:0] are converted from external column/row addre s column/row address are mapped to the low/high order internal address i.e. column address a[10:0] are mapped to the internal a[10:0] , row address a[7:0] are mapped to the internal a[18:11] . #cr/ (internal a[18:0]) t busy ry/#by W39V040C - 26 - 12. lpc interface mode ac characteristics 12.1 ac test conditions parameter conditions input pulse levels 0.6 vdd to 0.2 vdd input rise/fall slew rate 1 v/ns input/output timing level 0.4vdd / 0.4vdd output load 1 ttl gate and cl = 10 pf 12.2 read/write cycle timing parameters (v dd = 3.3v 0.3v, v ss = 0v, t a = 0 to 70 c) parameter symbol W39V040C unit min. max. clock cycle time tcyc 30 - ns input set up time tsu 7 - ns input hold time thd 0 - ns clock to data valid tkq 2 11 ns note: minimum and maximum time have different load. please refer to pci specification. 12.3 reset timing parameters parameter symbol min. typ. max. unit vdd stable to reset active tprst 1 - - ms clock stable to reset active tkrst 100 - - s reset pulse width trstp 100 - - ns reset active to output float trstf - - 50 ns reset inactive to input active trst 10 - - s note: all ac timing signals observe the following guideli nes for determining setup and hold times: (a) high level signal's reference le vel is input high and (b) low level signal's reference level is input low. please refer to the ac testing condition. W39V040C publication release date: apr. 11, 2006 - 27 - revision a1 13. timing waveforms for lpc interface mode 13.1 read cycle timing diagram t cyc lad[3:0] start memory read cycle load address in 8 clocks clk 1 clock 1 clock tar next star t 1 clock 2 clocks 1 clock 010xb 0000b a[15:12] address sync tar 1111b tri-state 0000b t kq t hd t su a[11:8] a[7:4] a[3:0] data out 2 clocks d[7:4] data d[3:0] 0000b a[19:16] a[31:28] a[23:20] a[27:24] #lfram #reset 13.2 write cycle timing diagram t cyc lad[3:0] start memory write cycle load address in 8 clocks clk 1 clock 1 clock tar next star t 1 clock 2 clocks 1 clock 011xb 0000b a[15:12] load data in 2 clocks d[7:4] address sync tar data 1111b tri-state 0000b t hd t su a[11:8] a[7:4] a[3:0] d[3:0] 0000b a[19:16] a[31:28] a[23:20] a[27:24] #lfram #reset W39V040C - 28 - 13.3 program cycle timing diagram lad[3:0] 1st start memory write cycle load address "5555" in 8 clocks clk 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x101b 0101b 0101b 0101b load data "aa" in 2 clocks 1010b 1010b write the 1st command to the device in lpc mode. 2nd start load address "2aaa" in 8 clocks 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x010b 1010b 1010b 1010b load data "55" in 2 clocks 0101b 0101b write the 2nd command to the device in lpc mode. 3rd start load address "5555" in 8 clocks 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x101b 0101b 0101b 0101b load data "a0" in 2 clocks 1010b 0000b write the 3rd command to the device in lpc mode. 4th start load ain in 8 clocks clk clk clk 1 clock 1 clock tar sync internal program start tar 1 clock 2 clocks 011xb 0000b a[15:12] load din in 2 clocks d[7:4] write the 4th command(target location to be programmed) to the device in lpc mode. a[11:8] a[7:4] a[3:0] d[3:0] 1111b tri-state 0000b data address address address address sync tar data sync tar data sync tar data 1111b tri-state 0000b 1111b tri-state 0000b 1111b tri-state 0000b memory write cycle memory write cycle memory write cycle internal program start a[19:16] a[31:28] a[23:20] a[27:24] lad[3:0] lad[3:0] lad[3:0] #lfram #reset #lfram #reset #lfram #reset #lfram #reset W39V040C publication release date: apr. 11, 2006 - 29 - revision a1 13.4 #data polling timing diagram read the dq7 to see if the internal write complete or not. start memory read cycle load address in 8 clocks clk 1 clock 1 clock tar next start 1 clock 2 clocks 1 clock 010xb 0000b xxxxb xxxxb xxxxb xxan[17:16] an[15:12] address sync tar 1111b tri-state 0000b an[11:8] an[7:4] an[3:0] data out 2 clocks dn7,xxx data xxxxb 0000b start memory read cycle load address in 8 clocks clk 1 clock tar next start 1 clock 2 clocks 1 clock 010xb 0000b address sync tar 1111b tri-state 0000b data out 2 clocks data 0000b when internal write complete, the dq7 will equal to dn7. dn7,xxx xxxxb an[15:12] an[11:8] an[7:4] an[3:0] lad[3:0] 1st start load address "an" in 8 clocks clk 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b an[15:12] load data "dn" in 2 clocks dn[7:4] write the last command(program or erase) to the device in lpc mode. address sync tar data 1111b tri-state 0000b an[11:8] an[7:4] an[3:0] dn[3:0] memory write cycle 0000b 1 clock a[19:16] a[31:28] a[23:20] a[27:24] an[31:28] an[27:24] an[23:20] an[19:16] lad[3:0] lad[3:0] #lfram #reset #lfram #reset #lfram #reset W39V040C - 30 - 13.5 toggle bit timing diagram read the dq6 to see if the internal write complete or not. lad[3:0] start memory read cycle load address in 8 clocks clk 1 clock 1 clock tar next start 1 clock 2 clocks 1 clock 010xb 0000b xxxxb xxxxb xxxxb address sync tar 1111b tri-state 0000b data out 2 clocks x,d6,xxb data xxxxb 0000b lad[3:0] start memory read cycle load address in 8 clocks clk 1 clock tar next start 1 clock 2 clocks 1 clock 010xb 0000b xxxxb xxxxb xxxxb address sync tar 1111b tri-state 0000b data out 2 clocks data 0000b when internal write complete, the dq6 will stop toggle. x,d6,xxb xxxxb lad[3:0] 1st start load address "an" in 8 clocks clk 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb an[15:12] load data "dn" in 2 clocks dn[7:4] write the last command(program or erase) to the device in lpc mode. address sync tar data 1111b tri-state 0000b an[11:8] an[7:4] an[3:0] dn[3:0] xxan[17:16] memory write cycle xxxxb xxxxb xxxxb xxxxb xxxxb xxxxb xxxxb xxxxb xxxxb xxxxb 1 clock #lfram #reset #lfram #reset #lfram #reset W39V040C publication release date: apr. 11, 2006 - 31 - revision a1 13.6 sector erase timing diagram 6th start load sector address in 8 clocks 1 clock 1 clock tar sync internal erase start tar 1 clock 2 clocks 011xb 0000b xxxxb xxxxb xxxxb xxxxb sa[18:16] load data "30" in 2 clocks 0011b write the 6th command(target sector to be erased) to the device in lpc mode. 0000b 1111b tri-state 0000b data address 1st start load address "5555" in 8 clocks clk 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x101b 0101b 0101b 0101b load data "aa" in 2 clocks 1010b 1010b write the 1st command to the device in lpc mode. clk clk clk address sync tar data 2nd start load address "2aaa" in 8 clocks 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x010b 1010b 1010b 1010b load data "55" in 2 clocks 0101b 0101b write the 2nd command to the device in lpc mode. 3rd start load address "5555" in 8 clocks 1 clocks 1 clocks tar start next command 1 clocks 2 clocks 1 clocks 011xb 0000b xxxxb xxxxb xxxxb xxxxb x101b 0101b 0101b 0101b load data "80" in 2 clocks 1000b 0000b write the 3rd command to the device in lpc mode. address address sync tar data sync tar data 1111b tri-state 0000b 1111b tri-state 0000b 1111b tri-state 0000b 4th start memory write cycle load address "5555" in 8 clocks 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x101b 0101b 0101b 0101b load data "aa" in 2 clocks 1010b 1010b write the 4th command to the device in lpc mode. 5th start load address "2aaa" in 8 clocks 1 clock 1 clock tar start next command 1 clock 2 clocks 1 clock 011xb 0000b xxxxb xxxxb xxxxb xxxxb x010b 1010b 1010b 1010b load data "55" in 2 clocks 0101b 0101b write the 5th command to the device in lpc mode. address address sync tar data sync tar data 1111b tri-state 0000b 1111b tri-state 0000b clk clk xxxxb xxxxb xxxxb memory write cycle memory write cycle memory write cycle memory write cycle memory write cycle internal erase start lad[3:0] lad[3:0] lad[3:0] lad[3:0] lad[3:0] lad[3:0] #lfram #reset #lfram #reset #lfram #reset #lfram #reset #lfram #reset #lfram #reset W39V040C - 32 - 13.7 fgpi register/product id readout timing diagram note: read the dq[4:0] to capture the states(high or low) of the gpi[4:0] input pins. the dq[7:5] are reserved bits. lad[3:0] start memory read cycle load address "ffbc0100(hex)" in 8 clocks & "ffbc0000(hex)/ffbc0001(hex) for product id clk 1 clock 1 clock tar next start 1 clock 2 clocks 1 clock 010xb 0000b 1111b address sync tar 1111b tri-state 0000b data out 2 clocks d[7:4] data 0000b 1111b 1011b xxxxb 1110b 0001b 0000b 0000b d[3:0] #lfram #reset 13.8 reset timing diagram clk vdd lad[3:0] t prst t krst t rstp t rst f t rst #lfram #reset W39V040C publication release date: apr. 11, 2006 - 33 - revision a1 14. ordering information part no. access time (ns) power supply current max. (ma) standby vdd current max. (ma) package W39V040Cp 11 30 10 32l plcc W39V040Cq 11 30 10 32l stsop W39V040Cpz 11 30 10 32l plcc lead free W39V040Cqz 11 30 10 32l stsop lead free notes: 1. winbond reserves the right to make changes to its products without prior notice. 2. purchasers are responsible for per forming appropriate quality assurance test ing on products intended for use in applications where personal injury might occur as a consequence of product failure. W39V040C - 34 - 15. how to read the top marking example: the top marking of 32-pin stsop W39V040Cqz W39V040Cqz 2138977a-a12 345obfa 1 st line: winbond logo 2 nd line: the part number: W39V040Cqz (z: lead free part) 3 rd line: the lot number 4 th line: the tracking code: 345 o b fa 149: packages made in ?03, week 45 o: assembly house id : a means ase, o means ose, ...etc. b: ic revision; a means version a, b means version b, ...etc. fa: process code W39V040C publication release date: apr. 11, 2006 - 35 - revision a1 16. package dimensions 16.1 32l plcc notes: l c 1 b 2 a h e e e b d h d y a a 1 seating plane e g g d 1 13 14 20 29 32 4 5 21 30 1. dimensions d & e do not include interlead flash. 2. dimension b1 does not include dambar protrusion/intrusi o 3. controlling dimension: inches 4. general appearance spec. should be based on final visual inspection sepc. symbol min. nom. max. max. nom. min. dimension in inches dimension in mm a b c d e h e l y a a 1 2 e b 1 g d 3.56 0.50 2.80 2.67 2.93 0.71 0.66 0.81 0.41 0.46 0.56 0.20 0.25 0.35 13.89 13.97 14.05 11.35 11.43 11.51 1.27 h d g e 12.45 12.95 13.46 9.91 10.41 10.92 14.86 14.99 15.11 12.32 12.45 12.57 1.91 2.29 0.004 0.095 0.090 0.075 0.495 0.490 0.485 0.595 0.590 0.585 0.430 0.410 0.390 0.530 0.510 0.490 0.050 0.453 0.450 0.447 0.553 0.550 0.547 0.014 0.010 0.008 0.022 0.018 0.016 0.032 0.026 0.028 0.115 0.105 0.110 0.020 0.140 1.12 1.42 0.044 0.056 0 10 10 0 0.10 2.41 16.2 32l stsop min. dimension in inches nom. max. min. nom. max. symbol 1.20 0.05 0.15 1.05 1.00 0.95 0.17 0.10 0.50 0.00 0 0.22 0.27 ----- 0.21 12.40 8.00 14.00 0.50 0.60 0.70 0.80 0.10 35 0.047 0.006 0.041 0.040 0.035 0.007 0.009 0.010 0.004 ----- 0.008 0.488 0.315 0.551 0.020 0.020 0.024 0.028 0.031 0.000 0.004 035 0.002 a a b c d e e l l y 1 1 2 a h d dimension in mm a a a 2 1 l l 1 y e h d d c b e W39V040C - 36 - 17. version history version date page description a1 apr. 11, 2006 - initial issued important notice winbond products are not designed, intended, authorized or warranted for use as components in systems or equipment intended for surgical im plantation, atomic energy control instruments, airplane or spaceship instruments, transportation instruments, traffic signal instruments, combustion control instruments, or for other ap plications intended to support or sustain life. further more, winbond products are not intended for applications wherein failure of winbond products could result or lead to a situation wherein personal injury, death or severe property or environmental damage could occur. winbond customers using or selling these products fo r 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. |
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