View PUMA84FV256006-12_4280172.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

!""#$!%!!&'( !""#%!)*+ ,-.. hmp

!"
# $%&'(
' # ) *'+) # ,-

./-
0-
/--
# 11, 2

-
/-$
/ 0

#
34-

(&' '
( # 5 4 2-! 673"-8 /- # 14 - 8 # / 0 9-/ 0 $-
/ / 3 !! "#!$%$% %$/0!!"
:8 -
$ ; 0-;
8 8 3& /-$
/ -3 / < 8 3 /0 < 8
$

- 8 ; :8
3

;
- /-3 8 / 2=& 52>
11=? :8 ;
- $$-
$ /0-
0
8

34/-$ /-
&' -(4 < :85)(
(&)52> /

0

<8 80 < 8811,,,

- $%@'(@'
-
;

4 :8 ) ;
;

4 -

/-
0-
/--
4m x 8 flash a0 ~a21 /cs1 /cs2 /cs3 /cs4 /cs6 /cs7 /cs8 d0 ~ 7 d8 ~ 15 d16 ~ 23 d24 ~ 31 d0 ~ 7 d8 ~ 15 d16 ~ 23 d24 ~ 31 4m x 8 flash 4m x 8 flash 4m x 8 flash 4m x 8 flash 4m x 8 flash 4m x 8 flash 4m x 8 flash /we /oe /reset /cs5 description signal address input a0~a21 data input/output d0~d31 chip select /cs1~8 write enable /we output enable /oe hardware reset /reset no connect nc power v cc ground gnd
%$/0!!" " !! 175 view from above 84 54 33 12 11 32 53 74 pin signal pin signal 1 v cc 43 v cc 2 nc 44 a13 3 /cs1 45 a12 4 /cs2 46 a11 5 /cs3 47 a10 6 /cs4 48 a9 7 a17 49 a8 8 a18 50 a7 9 d16 51 d0 10 a19 52 nc 11 a20 53 nc 12 a21 54 nc 13 nc 55 nc 14 d17 56 d1 15 d18 57 d2 16 d19 58 d3 17 gnd 59 gnd 18 d20 60 d4 19 d21 61 d5 20 d22 62 d6 21 d23 63 d7 22 v cc 64 v cc 23 d24 65 d8 24 d25 66 d9 25 d26 67 d10 26 d27 68 d11 27 gnd 69 gnd 28 d28 70 d12 29 d29 71 d13 30 d30 72 d14 31 nc 73 nc 32 nc 74 nc 33 /reset 75 d15 34 nc 76 a14 35 d31 77 a15 36 a6 78 a16 37 a5 79 /we 38 a4 80 /oe 39 a3 81 /cs5 40 a2 82 /cs6 41 a1 83 /cs7 42 a0 84 /cs8
%$/0!!" 166? 30pf i/o pin 1.76v &
' (
)* ( # .0/0/ ; a)) # .0/-
$
a( # .0/
?/0/ -$- ; a') # ?/0/
a2

-
# / (4 #) b) *'+ +
,-
- (()' (

!"# $%&%$ '( & ) !" )$%&$ $
*+ , -,',. *+ , &-,',. !" #$%&%$ ( *+ , &-,',. $/"0"!" 1%&$ 1
" "& %"00"& 2" 0 & '#" "& "0 !0 &"&0." !3% 0 %"&0" !"0 & 2" &0& " 0 %"%"0%0 &,(%"&02( 0 & %( &&&!%%0&02! parameter symbol min typ max unit supply voltage v cc 3.0 3.3 3.6 v input high voltage v ih v cc x 0.7 - v cc +0.3 v input low voltage v il -0.5 - 0.8 v operating temperature (commercial ) t a 0 - 70 o c (industrial) t ai -40 - 85 o c (i suffix) parameter symbol min typ max unit supply voltage v cc -2.0 - +7.0 v voltage on v cc relative to gnd v t -0.5 - +4.0 v voltage on a9, /oe, /r eset relative to gnd v a9 -0.5 - +12.5 v all other pins relative to gnd v aa -0.5 - v cc +0.5v v storage temperature t stg -65 - +100 o c '
."400& & parameter symbol test condition min typ max unit input capacitance c in v in =0v - 6 7.5 pf output capacitance c out v out =0v - 8.5 12 pf
%$/0!!" parameter symbol test condition min typ max unit input load current i li1 v in = gnd to v cc , v cc = v cc max -8 - +8 a a9 input load current i li2 v cc = v cc max ; a9 = 12.5 v - - 280 a output leakage current i lo v out = gnd to v cc , v cc = v cc max -8 - +8 a v cc active read (1,2) 32 bit i ccr32 /cs# = v il , /oe = v ih , 5mhz - - 77 ma 16 bit i ccr16 as above - - 39 ma 8 bit i ccr8 as above - - 20 ma v cc active write (1,3,5) 32 bit i ccw32 /cs# = v il , /oe = v ih - - 144 ma 16 bit i ccw16 as above - - 72 ma 8 bit i ccw8 as above - - 36 ma standby supply current (1) ttl i sb v cc =v cc max,/cs=v ih (1) /oe=v ih - - 40 a v cc reset current (1) i ccres /reset = gnd 0.3 v, 40 a automatic sleep mode (1,4) i ccasm v ih = v cc 0.3 v; v il = gnd 0.3 v 40 a autoselect and temporary sector unprotect voltage v id v cc = 3.3 v 11.5 - 12.5 v output voltage low v ol i ol =12ma, v cc = v cc min - - 0.45 v output voltage high v oh1 i oh =-2.5ma, v cc = v cc min 2.4 - - v low v cc lock-out voltage (5) v lko 2.3 - 2.5 v '.'/

! "# $% $
& #' # #' () ) * ' %% + , %%-
%$/0!!" 90 120 150 parameter symbol min typ max min typ max min typ. max units write cycle time t wc 90 - - 120 - - 150 - - ns address setup time t as 0 - - 0 - - 0 - - ns address hold time t ah 45 - - 50 - - 55 - - ns data setup time t ds 45 - - 50 - - 55 - - ns data hold time t dh 0 - - 0 - - 0 - - ns read recover before write t ghwl 0 - - 0 - - 0 - - ns /cs setup time t cs 0 - - 0 - - 0 - - ns /cs hold time t ch 0 - - 0 - - 0 - - ns /we pulse width t wp 45 - - 50 - - 55 - - ns /we pulse width high t wph 30 - - 30 - - 30 - - ns programming operation (2) t whwh1 - 9 - - 9 - - 9 - s sector erase operation (2) t whwh2 - - 0.7 - - 0.7 - - 0.7 s v cc setup time t vcs 50 - - 50 - - 50 - - s 90 120 150 parameter symbol min max min max min max units read cycle time t rc 90 - 120 - 150 - ns address to output delay t acc - 90 - 120 - 150 ns chip select to output t ce - 90 - 120 - 150 ns output enable to output t oe - 40 - 50 - 55 ns output enable to output high z t df - 30 - 30 - 35 ns output hold from address /cs or /oe whichever occurs first t oh 0 - 0 - 0 - ns -('0 .
$
5& $
."& 0&"
%$/0!!"
.
$ $' (1

5& $
."& 0&" 90 120 150 parameter symbol min typ max min typ max min typ. max units write cycle time (1) t wc 90 - - 120 - - 150 - - ns address setup time t as 0 - - 0 - - 0 - - ns address hold time t ah 45 - - 50 - - 55 - - ns data setup time t ds 45 - - 50 - - 55 - - ns data hold time t dh 0 - - 0 - - 0 - - ns read recover before write t ghel 0 - - 0 - - 0 - - ns /we setup time t ws 0 - - 0 - - 0 - - ns /we hold time t wh 0 - - 0 - - 0 - - ns /cs pulse width t cp 45 - - 50 - - 55 - - ns /cs pulse width high t cph 30 - - 30 - - 30 - - ns programming operation (2) t whwh1 - 9 - - 9 - - 9 - s sector erase operation (2) t whwh2 - 0.7 - - 0.7 - - 0.7 - s parameter description test setup all speed options unit t ready /reset pin low (not during embedded algorithms) to read or write* max 500 ns t rp /reset pulse width min 500 ns t rh /reset high time before read* min 50 ns 2(3-
4$-..&5 6 5&
%$/0!!" /cs1~8, /oe /reset t rh t rp t ready . ) ," ) #' ) . ) ) #' ) /cs1~8, /oe /reset t rp addresses stable output valid addresses /cs1~8 /oe /we outputs /reset high z high z t rc t acc t oe t oeh t ce t df t oh -()
&
-..&&

%$/0!!" addresses /cs1~8 /oe data v cc xxxh pa pa pa a0h status d out program command sequence (last two cycles) read status data (last two cycles) t wc t as t ah t ch t wp t wph t whwh1 t vcs t cs t dh t ds /we pd note : pa = program address, pd = program data, dout is the true data at the program address. ) &
'/$ .
) &
addresses /cs1~8 /oe data v cc xxxh sa va va 55h complete t wc t as t ah t ch t wp t wph t whwh2 t vcs t cs t dh t ds /we xxxh for chip erase in progress 30h 10 for chip erase note : sa=sector address. va=valid address for reading status data. erase command sequence (last two cycles) read status data
%$/0!!" va va va complement complement true true valid data valid data status data status data addresses /cs1~8 /oe /we d7 d0~d6 t rc t acc t ce t ch t oeh t oe t df t oh high z high z note : va = valid address. illustration shows first status cycle after command sequence, last status read cycle, and array data read cycle. &
4.+((( /
5
addresses /cs1~8 /oe /we d6/d2 va va va va t rc t acc t ce t ch t oeh t df t oh vs vs vs vd note : va=valid address; not required for d6. illustration shows first two status cycle after command sequence, last status read cycle, and array data read cycle. vs=valid status, vd=valid data (first read) (second read) (stops toggling) t oe high z & &
4.+((( /
5
%$/0!!" /we d6 d2 note : the system can use /oe or /cs1~8 to toggle d2/d6. d2 toggles only when read at an address within an erase-suspended sector. enter embedded erasing erase suspend enter erase suspend program erase resume erase erase suspend read erase suspend program erase suspend read erase erase complete 6
$ & /reset sa,a6, a1,a0 data /cs1~8 /we /oe valid* valid* valid* status 60h 60h 40h sector/sector block protect/unprotect verify 1 s sector/sector block protect : 150 s sector/sector block unprotect : 15ms note : for sector protect, a6=0, a1=1, a0=0. for sector unprotect, a6=1, a1=1, a0=0. v id v ih
%$/0!!" $'' (1) &
addresses /we /oe /cs1~8 data /reset d7 d out pa data polling xxx for program xxx for erase pa for program sa for sector erase xxx for chip erase a0 for program 55 for erase pd for program 30 for sector erase 10 for chip erase t wc t as t wh t ghel t cp t ws t cph t ds t dh t rh t whwh1 or 2 notes: 1. pa =program address, pd=program data, sa=sector address, d7=compliment of data input, d out =array data. 2. figure indicates the last two bus cycles of the command sequence. t ah /reset /cs1~8 /we program or erase command sequence 0 to 5v 12v t vdir t vdir t rsp 0 to 5v & 0 $ & !
! %$/0!!" ) start write program command sequence data poll from system verify data last address increment address programming completed no no yes yes embedded program algorithm in progress note : see the appropriate command definitions table for program command sequence .
) start write erase command sequence data poll from system data =ffh? erasure completed no embedded erase algorithm in progress note : 1. see the appropriate command definitions table for erase command sequence. 2. see ?d3 : sector erase timer? for more information. yes
%$/0!!" & 0 ) 4%75 start reset = v id (1) perform erase or program operations reset = v ih temporary sector unprotect completed (2) notes : 1. all protected sectors unprotected. 2. all previously protected sectors are protected once again.
%$/0!!" 8"0
$ /
start first write cycle=60h? sector protect : write 60h to sector address with a6 = 0, a1 = 1, a0 = 0. read from sector address with a6 = 0, a1 = 1,a0 = 0 plscnt = 1 reset# = v id wait 1 s temporary sector unprotect mode setup sector address wait 150 s verify sector protect : write 40h to sector address with a6 = 0,a1 = 1, a0 = 0. increment plscnt reset plscnt = 1 plscnt = 25? data = 01h? device failed protect another sector? remove v id from reset# write reset command sector protect complete sector protect algorithm no yes yes no no no yes yes start data = 00h? last sector verified? plscnt = 1000? protect all sectors : the indicated portion of the sector protect algorithm must be performed for all unprotected sectors prior to issuing the first sector unprotect address plscnt = 1 reset# = v id wait 1 s first write cycle=60h? temporary sector unprotect mode all sectors protected? setup first sector address sector unprotect : write 60h to sector address with a6 = 0, a1 = 1, a0 = 0. wait 15ms verify sector unprotect : write 40h to sector address with a6 = 1,a1 = 1, a0 = 0. read from sector address with a6 = 1, a1 = 1,a0 = 0 increment plscnt set up next sector address device failed remove v id from reset# write reset command sector unprotect complete sector unprotect algorithm yes no no yes yes no no yes yes
%$/0!!" /
start read d7~d0 addr=va d7=data? d5=1? read d7~d0 addr = va no yes yes note : 1. va = valid address for programming. during a sector erase operartion, a valid adddress is an address within any sector selected for erasure. during chip erase, a valid address is any non-protected sector address. 2. d7 should be rechecked even if d5 = ?1? beceause d7 may change simultaneously with d5. d7=data? fail pass yes no no & / start read d7~d0 toggle bit = toggle? d5=1? read d7~d0 twice no yes yes note : 1. read toggle bit twice to determine whether or not it is toggling. see text. 2. recheck toggle bit because it may stop toggling as d5 changes to ?1? . see text. program/erase operation not complete, write reset command. yes no read d7~d0 toggle bit = toggle? program/erase operation complete (note 1.) (notes 1,2) no
"# %$/0!!"
:8 - 4 8 -c/ -
/ $8 ; 4/ 0-
&<8 8
-
8-/88 -

- - :8
- - $/03
3
-
4 -3
:8- - 0$
88
-8
&
< 8 8
-

$-
/ 8
:8$8- --;
0/8 -

8 :8

8 /0/
8$/ $8 ; :
4 ' 8; 4/0-
&8 0/
- ; 83-c/ -&
8-/ /0/:8$ < /4 - 4
8$80-
$/-8-
-9
-(0 :-

--
3

$-8/0/&83/- ;8@,2d
@?10 ) @,2d 80<--
8; @?1 8/0/-

--
3

8/0/0 @e18/ -

) :8 -

8 $--

--
3

/0; 0<-/0& -
$-
8
-<
- - :8 /- 8
0/- /
-
$8-3/-/- 80<--
f

-3 8 4

--
3

2

- -0---
3 8

-;

-8;
- 0/ 0-/ ;

8 ;

/0/ :8 ; -

4 $--

/ 8
- -
-
- 2g=
--
3

h$-- $-
=$-8,=
?0-

4 $- 0 $

5 /-'$-8
-
. @. @.
8,,8
-
-
4 -0-8
;/--0 $
$--

--
3

1' (
$' (9
: <-

-
c/ !<8 8 / 0--

8;
-
-$-3"&8 3/- ;@e1
@,2d) &
@?1) :8 ; $
/-
1.2 30, $

$
- 0--
?8; -8 730
& 3< <- 3
--c/ -0--

43&
$$/-:8g73 --
,
2c/h 8

0--

8; / 48

-
730

c/ -
0-

-
-&/ 0 -&-8 - ; :
4
8
-0
8

8-/0 g-
-h $8
-4 -c/ -/ c/ 3
- :8 ge- 0 $
-

- c/ 8
- -
; 0-
:
4 % $ 8 ;
- -
c/ e- --
-

;
/-<- 8 8 0-0-c/- 8; -

--
3

h 8

-

- -8 -8 0&-/0 @-/ 8-
0-

%$/0!!" $-83<- 8
/
c/&8; -8
/ :83
8-

/ $-8 -
- -!<8 8 0
-
$-8-3
--
3" ij2

--
3
00 3 8 =$-8 /
/ ,
2c/ $- - $-
. @. @.
8 , ,8
-
-
4 -0-8
;/--0 $
$-8<- :8g, ,8
-
- h
0 $

4

-
$-<- 0-
(.
)
/-
-
-0--
0-
&83
388
/ $80-
43-
8
/4 ij2

--
3
. @. @.
-
0 $

00 3=$- ge- ?0-
2
/h $- - $-
&
g, ,8
-
- h$-
-
(+0 ( e883 -
-<- 8; &
0
8 ; 8
43.8 &/--/0 -
3 -/&
8 /0/
- 0
8 8 8 0

& 0$8@?1 0/ :8; -8,?2
43<88@,2d
@=121: 0
-488
) k)!f8
8
--- ;
-
8
) ".$@,2d
@=121:
-8
) &4/ < 8 ) k)&8; < 4 8
43&4/8
43 /--< 4-
-:8; -c/ -

-
! " $--

<88; 8-$8
43& 4$- -
3-

:8;
-8
43<88@=121:0 - ; <=$-8 &g@=121:a>
-<
-= h .$8; /- -
/--0--
&8; -
<
;/--/ 80-
0 . 8 , ,8
-
-
4 -0- 8
43 /-- 0 $

%$/0!!" ( :8
/
0 l 5
8 ; -3 /0 :8 ;
/

3
4 8 <8
--

4 $- *:8
/
0 0 $ 8 @,2d& @e1&
@?1 -
2

-
-
0-; <

<8
-
-8
e8 0&/0/

8

<
3
;

4 8 3. 8,,8
-
-
4 -0-8
/
0/--0 $
$-..&:2(3-
:8@=121:0 0-;
8
-<
-8$- 8; -

--
3

e88@=121:0 - ; <$-

0- $ & 8 ; 0
3 0-
0--&-

/0/0 &
-
-
@<-
$-8/-
$8@=121:0/ :8;
-8 -

8 -

--
3

:80-
8
<
--/0 8/ 4 -
8 ; -
3
0
8-
c/&/-

- 3 ,/-- -/$-8/-
$8@=121:0/ e8@=121: 8
9fk)&8; -
<,?2
43/--!. " .$@=121: 8
) 4/< 8 9fk)&8
43/-- < 4-
- :8@=121:0
34 83- -/ -33- </ 8/
-85
8-3&
4 83-
8 4/0$ -<
-$-85
8-3 =$-8,,8
-
-
4 $-@=121:0
-
-
5 /-($-8
-
)
+ ( e88@?1 0/
) &/0/$-8;
4 :8 /0/0
-0
88 8 0

%$/0!!"
( :8
/ 0-;
/$
/--
; $
&
-0- ;- $
&8-/8 $ -/0/ij :8 0-
- 3 $- 0--
c/ 0
/

3
8
; 40--
< 8 --0 0--

- 8><;-&8
/

4
38-/88
- - e8/ 0--
c/ 0&8
/ -c/ -) !'')'()"
-0 %-0 &'&
/ 4
8< :
4 .
&<8;- $3 -0- &8 -
-/
00
-8
00-0-
8 8--
- 4 !:
4 ":
4 8<8-

-4 8

-
- e8

-3 4 8
; 4
-c/ -& 8 0--
c/ 0
3 8 -
8 --0 $ - i :
8
/ 3&883
/ 8
/
;
8
- -&
8< :
4 %:8 8-c/ -) 2ge- 0 $
-

- c/ 8
- -
; 0-
:
4 % $ 8 ;
- -
c/e- --
-

;
/-<- 8 8 0-0-c/-8; -

--
3

h$-
/ 8
/ $ ( !fa5-8$ < / &8-g-h
00 48 -
- 4 - 4 $ < - -
m
-8

-0--/0-
8
:
4 " :8 8
-<
- - 0- $
/-
4 48 0--

-
0-

3 - :8 8
-<
- - /0- $
/--
4 480--

-
0-
0-; / 3 0--2-0- @/0-
4 0 ;
<8 :80-
-38-c/ -) 8@=121:0 3&

4 0 8- 3-;
0--
c/ 05 /-' 8< 8
- 8
5 /- 8< 8
-
:8 8 /

- -0-- 4/ 3 5- - /0-&
/0--/$ -40-0- -8$ - -/0-<- 3 :8
-
8 3 $- 0--
c/ 0 -c/ -)
-0 %
@?1:8; 8 00< 8
- /0- . 0 4 - <88-
- 0--/0-2g/ h$-

%$/0!!" & 0 $ !fa5-8$ < / &8-g-h
00 48 -
- 4 - 4 $ < - -
m
-8

-0--/0-
8
& :
4 " :8 $
/-
< 0-
-3 /0- $ 0-; / 3 0- - 8

3 :8 2- 0-
;
43 8@=121:0 ) /- 8 &$-- 3 0--
40--
--
43 8-
-?) -;$-8@=121:0 &
80-; / 3 0--
-0-

5 /-'8<8
- 8&
5 /-%8<8
-
&$-8 $
/- 2(3 :8
c/-c/ -$/ 3 $-0--
--
0-;

0-

;-<- !-$- :
4 %$-
$ ".
&8$ < 8
-<
-

0-
/-0-;

-
/--0--
& <8 8 8 8-< 4
/ 43 0/- / 3 ;
/- ) 0<-/0
0<-<-
&-$-3 * 3 18/+ e8) 8
) &8;
0
3<- 3 :8 0-

/- ) 0<-/0
0<-<:8
- -

-
0--
@-
-/
-
4 &
8 ; -2/4c/<-
- -/ ) -
-8
) :83/0-; 80-0-
8- 0 0-;/
<- <8) -
-8
) 1
;</= f 0/ $ 8
!30
"@?1&@,2d-@e1

<- 3 * 8/+ e- 3
- 8 4 438
3$@?1b) &@,2db) - @e1b) :

<- 3 &@,2d
@e1/4

l- <8 @?1

3"18/+ .$@e1b@,2db)
@?1b) /- 0<-/0&8;
0
8- 0-$@e1:8 -

8
/

3--

--
3

0<-/0
%$/0!!" '))>*2.)-?8>&.-'.4'85 :8,5
8.-$
!,5."0 $
/ ;
83$<
- --
8
8
&<8 8
<0 $ ;-0 $ $<
-
- 84/$- -$
$ ; 2$<
-/00-
84; 0&11,. 0&
$-<
-
4
<
-0
4 $-80 $ $
8 ; $
5
8 ;-

- l 8 - -$
$- -0
4 3 :8 ; -8,5.n/-3<883<- 8,5. n/-3
&%8&
-8&
3 8; -
3 -

--
3

:83
-
,5. $-

8
- ; :
4 j:-
-
,5.

&83/ <- 8-
:83

<- 8,5.c/-3
<88; 8
/ :8; -8,5.c/-3&
8 3
-
,5.

8
- ; :
4 j:8 3 / <- 8 -
-/- 8 ; 8
/
%$/0!!" e- 0 $
-

-c/ 8
- -
; 0-
:
4 %$ 8;
- -
c/ e- .. 4 -<- 8 8 ,,5. -8; -

--
3

-
-
88$
$@e1d -@,2d&<8 8;-8
00
-

88- $@e1-@,2d&<8 8;-8
00$ -=$-8
00-0-

-
8g,,8
-
- h -(0 :8;
/

3-

--
3

$-; 0<- /0f

--c/ --- ;

:8;
-
3 -

--
3

$-0
14--
-14 1-

- 8 $-8;
0
1-
2/0
&8; - 81-
2/0:83
-

--
3

/ 8

--
&08
$ -

-< 8 -
/0-&8; /0/
/

$-0
0--
0-
81-
2/0&83
3

-

--
3

< 8 8
0 2 g1-
2/0@1-
=/ ,
h $- - $-
8 :83 /8-
-
4 8; $- -

--
3

$8 8&-<8 8
/ 2 8g=,
h & 2
g=c/ -$-=
--
3

h 8g; 7/ ?0-
h $-- $-
:8=
?0-

4 0-; 8-
0
-
-&
5 /-'8<8
-
-
' ( e- 8-
8; -8; -

--
3

-4
-
-$-8
:8-

34<- 4<8c/3
-

c/4$--
4 :8 -8; -

--
3

?-
/-4 &8<;-&8; - -
/ 80-
0 :8-

34<- 4<8c/3
0--

c/4$-0--
4 :8 - 8; -

--
3

!

00 0--
1-
2/0 " ? 0--
4 & 8<;-& 8 ; --
/ 80-
0 :8-

34<- 4<8c/3

/
c/? 8
/ &8-
4<- -/--

--
3

!

00
/ /- 1-
2/0" .$8 8/-
0--
--
0-
&<- 8-
-/-8; -

--
3

!

00 /- 1-
2/0"
%$/0!!"
' (9 :8
/
c/
<883
8
/$
/--
; &
- <88--
- 0-:
4 %8<8
-

-c/ - :8 8

-
;8
8< :
4 &<8 8 $-=?0--
-
-c/ -)
-4 % :8
/
c/
43<- </ 3 &$ <438
/
:8; 8-8
/ &
83
3-

3
-
3/4- $ &< 8/

8-
c/-
3

- oo8 -- ; 8
/$
/-- -
3

-oo'8-/-8; -
3

-
-!2"
8
-(8-/-'8 $8
- 0-& -8 $ /0-=$-:
4 $-;
-
- :83/<- 8-
8
/
-/--

--
3

0 ' (9 :8; 0--
43$

$-
80--
0-
:8
c/-c/ -$/-4/3 &

43<- </ <- 3 &$ <4380--
/0
:8 0--

-

-<- &<8 8 /-
8 14--

- 8:83 -c/ -0-; $/-8- - - :8 ;
/

3 -
8 0--
0/
;- $ 80--

- :
4 %8< 8
-

-c/ - $- 8 43 0--

c/ e8814--

- 8 0 &8; 8 -/--

--
3

-
- -
8:8 3
- 8
/$80--
0-
43/ i - 2ge- ?0-
2
/h$- $-
8
/4 3
<- 8; /- 814--
- 8
- - f 8

6
3 -
80--
0-
:873--

c/8/ 4-
8; 8
--

--
3

& /-

- 3 --

<
3 c/

--4/
- '7 . 7, 89!:7.2 9": 0
38
80-

g'&h-
/8

- 8
80-
<
/$/ ><;-&
/ -
< 8<8
8

gh? 3-
0-

;-
gh
g'h
%$/0!!" 0
' (9 :8/ 430
$
/-
<830--
438 ; $
-8
/ 8

-0--

c/:8 / 430

c/
43$ -<- </ 3 :8 $ < 43
8 - <- 3
8 / 430

&(8:8; 8-8/ 430
<3 / 430
0--

c/
8
-c/ - 0--
8 :8 $ - 3 8 c/
8/ 430
0--

&8p83
80--

-

0--
8

-:8 0< 88
</ 3 -c/ - 8

-0--

c/&-/ $
-
0--
:
4 %8<8-c/ -$-8
c/ /- 8/ 430
& 38 730
--

730
=

-;
: 8/ 430
& 8 3 / / 8 <3 / 430
-
c/ :8 $ - 3 /
8

%8p 8 3 8

8-
-
-$-483 :8; 8-/--

--
3

'/.
' (9 ,8 0 -

4/ 3 0-
:8 8 0 -

c/
43<- </ 3 &$ <43
/0
:<

/ <- 3
-8$ <438 8 0 -

& <8 8 /- ; 8 14 1-

- 8:8; -c/ -830-0--
0- - -
:8141-

- 8
/

30-0--

;- $ 8 - -3 $-

l-

0
- 0- - -
-
:83 -c/ -0-;
3- - /- 80-
:
4 %8<8
-

-c/ -$-88 0-

c/ 3
<- 88 0/- 8141-

- 8
- -f8

6 /- 88 0-
0-

3 -
8 0-
:8 ,8 0 1-

c/8/ 4-
8; 8
-/--

--
3

&/-

- 3 :83
- 8
/$8-
0-
43/ i& -(2ge- ?0-
2
/h$- $-
8
/ 4 e8 8 14 1-

- 8 0 & 8 ; -/--

--
3

-
- -
8 5 /-'( /-
8
- 8$-8-
0-
281-
--
?0-

4 g,,8
-
- h$-0
-
-&
5 /-$-
-

%$/0!!" .
' (9 2--

4/3 0-
:8--

c/
43<- </ 3 &$ <43
/0
:<

/ <- 3
-8$ <438
-$8-4-
&
8--

:
4 %8<8
-

-c/ -$-8--

c/ :8; -c/ -830-0--
8-30- - -
:8141-

- 8
/

30--

;- $ 8-$-

l-

0
-0- - -
-
:8 3 -c/ -0-;
3- - /- 8 0-
$-8
c/ <- &
--
/$q 4 /- 8 / 0- &

-
-
--

34<-
8--
4/$$-
34
3c/&
8/4-$-
34$- -
-:8 4<8

3 / 4 8
q&8-< 8

-

8 4
0&
-
/-
34 . -8
0-- --/0 4
4 /- 8 /-

-
0:8 --/0
4-
4
$-8
2-1-

<- .$ 8 4<

- -

4
/4 8
q&83 - '0 . . , * , 4. 0 :83/-<- 8
c/

3

-
-

:83
-- $8--
-8
/!28ga2-1-
: -h ":8 / 4 $- 8 - $ 8 $
@e1 0/ 8
c/ ?8--
0-
8
4/& 381-
2/0
;
8-

- - f 8

6 /- 8 - -
0-

3 -
80-
:82-1-

c/8/ 4-
8; 8
-/--

--
3

& /-

- 3 e88141-

- 8 0 &8; -/- -

--
3

-
- -
8:83
- 8
/$8-
0-
43/ i& -(!=$- ge- ?0-
2
/h$- $-
8
/4 " 5 /-'( /-
8
- 8$-8-
0-
=$-8 1-
@--
?0-

4 8g,,8
-
- h $- 0
-
-&
5 /-$-
-

%$/0!!"
.

($.
-
' (
:81-
2/0

<83 --/0
- -
0-

8-

$-&-0--

&
3- $--
/-:8
;
3/- 8- -
0-
& / 8 /0- q/- 8- -

c/:81-
2/0
- $ <- /- 8 8 0 -
0-
- 14 --

- 8e- 81-
2/0
/- 82-1-
/
3-
8 /0-
/08 -
0-
-
-g
-h<8<- 81-
2/0
e881-
2/0
<- /-
--
0-
&8; -c/ -

/$(q/08-
0-
><;-& <8 8 1-
2/0
<- /- 8--
/&8;
3-
8 /0-
/08-
0-
$-8-
0-
8
4/0&83
-

--
3

$--0--

3- $--
/- !:8; g-
/0h
- $--
/-"f-
-

<-

$
00 3=

3
-< 8 -
/0-0-/
/

ij :83
/i&-
(8-&- $
-
; 3 -
- -
/0 2 ge- ?0-
2
/h$- $-
8
/4 $-
-
/00--
0-
0 &83

-

--
3

< 8 /0 - :8 3
- 8
/$80--
0-
/ 8i -
/4 &m/
8

-0--
0-
2ge- ?0-
2
/h$-- $-
:83
3
<- 8
/
c/<88 ; 8 1-
2/0 :8 ;
< -

/ ;

-< 8 -
-& 8
-- 8-3
--
3e88; 8
/ &8; -;-81-
2/0&
-
3 $-
8- ;
0-
2 g/ ,
2c/h$-- $-
:83/<- 81-
=/
!
-4
- g
-h" 8-
/0
/8- -
0-
5/-8-<- $8=/

- - 8-1-
2/0

4<-
$-8; 8
-/-

%$/0!!" :8 ; 0-; ;-
4 - 8
/ $
<- 0-
a (& & &
i :
4 '
8 $ < /4 - 48$/ $84 i

8$$-
8 $- - <88-
0--
- -
0-
0 - 0--:88-4
- /$ - @: :8

4 & i&
8 8 3 <88-
14 - 8 0---0 &-<88-8; 1-
2/0

;

$-8- $8$
@e10/ 80--
--

c/ /- 814--

- 8&8; /0/i8 0 $ 8
/ 0--
i :8 i
/

00 0--
/- 1-
2/0e8814 --

- 8 0 & 8 ; /0/ 8
/ 0--
i:83/0-; 80--

- -
;

/ $-
i.$
0--

-$
< 8
0--&

i
;$-
00-
3'q& 88; -/--

--
3

/- 8141-

- 8&

0-/
gh ie88141-

- 8 0 &- $8; -81-
2/0&

0-/
g'hi:8

/80 @-/
//0/- 4$-8 14--

- 8a8-
$/ 8

84
-g'hp0- -8 &8; /0/8g0 &h-gh :83/0-;

-< 8
3$8- $--
/--
;

/ $-
i $-
-

c/ <- & $
- $- -

-0-&

i
;$-
00-
3 'q&88; -/--

--
3

.$
-
- 0-& 8 14 1-

- 8 -
8 /0- -&
- 8 - 8

- 0- e883i8
8
$-80 -/

&
-
;

ij8 ) -
3 :8 4
/i
38

38-/ 3< 8j <8 ?/0/ 1
4 !@?1"
- <5 /-&

: !/- 14 - 8"& 8g,,8
-
- h /-
8 :
4 '8<8/0/$-

i5 /-'8< 8

- 8
%$/0!!" :& 8 : 7 .
<88-
14--
-1-

- 8 0---0 &-<88-8; 8
- 81-
2/0: 7 .
34-

3
-&
;

$- 8 - $ 8 $
@e1 0/ 8
c/ !0- - 8 0--
- -
0-
"&
/- 8 --
/ /-
14 --
- 1-

- 8 0-
& / ;-
3
3
-
/ !:83
3/ 8-@?1-@,2- 8-
3 "e880-
0 & 0 $-
-

c/ <- & $
- $- -

-0-& $-
00-
3'q&8-/- -

--
3

.$
-
- 0-& 8 141-

- 8-
8/0--&
- 8 -8

-0- :83
/
(8-- <88-
-
; 3-
- -
/0e88;
; 3 -
!8
& 8 14 1-

- 8 0--"& e88; -81-
2/0& 0 ><;-&83/
/(- <8 8 -
--
--
/0 -
; 3&83
/i!8/4 ia

" .$
0--

- $
< 8
0- -& $-
00-
3'q
$-80--

c/ <- & 8-/--

--
3

/- 8-
/00--
&
0 814--

- 8 0 :
4 '8<8/0/$-: 7 . 5 /-' 8<8 4
- 8 $ <8
-$-&
8 g=
: 7 @(h0
8
- 85 /- 8g,,8
-
- h 8< 8 4
-
5 /- i 8< 8 $$- 4< (
-
08
$- 2
8 /4 (a: 7 ..
%$/0!!" :& 88 :8 g: 7 ..h (& <8 / < 8 &
<88-
0
- /
- -
; 3 -
!8
& 8 14 1-

- 8 0--"&-<88-8
- -
/0 : 7 .. ;

$-8- $8$
@e10/ 8
c/ ( <883-

-< 8 8- 8
8
;4 $--
/-!:83
3/ 8-@?1- @,2d- 8-
3 "7/(
/ 8<88-8 -
; 3-
- -
/0 &430
- &
<88-8;
; 3-
&- 1-
2/0& 4/
/ 8<8 8-
- $--
/-:8/&48
/4
--c/ -$--
$-
=$-:
4 '0
-/0/$-(
5 /- ' 8< 8 4
- 8 $ <8
- $-&
8 g=
: 7 @(h0
8
- 82
8 a: 7 ./4 5 /- 8<8 4
-
5 /-i8<8 $$-4<(
-
08
$- -(&
$ =$-5 /-' $-8$ < / e8;-83
34 -
4
/& /-
ij

<
-<- <88-
4 :30
3&8 3</
-8;
/$8 4
$-8$ --
$-8-
&83</ 0
-8<;
/$8 4 < 88$ -.$8 4 &8; 8
0 80--
--
0-
:83
-

--
3

ij8$ < -
3 ><;-& $
$-8
<-
3 &83- 8
8 4 &83
8/ <88-8 ;
/$ 8 8!8 ".$ &838/ 8 -

<88-8 4 & 8 4
38
;00 m/
<8 8.$8 4 - &8; 8
/$/ 30 80--
- -
0-
.$ &8; 0 8 0-
/$/ 3&
83/<- 8-
-/--

--
3

:8-

- 8
83
3- 8
8 4
8
8 8:83
3 / - 8 4
8-/8 / ; -
3 & - 8
/
- 4 8 0-; / 0
-
-
08 -
; 3&
380-$-8-3
.8
& 83/
-
84 $8
- 8<8 -/- - 8
/$80-
!0$5 /-' " :
4 '8<8/0/$-: 7 . 5 /-' 8<8 4
- 85 /- 8g,,8
-
- h 8< 8 4
-
5 /-i8<8 $$-4< (
-
08
$-2
8/4 (a: 7 ..
%$/0!!" :.,((&*

<88- 8 0--
- -
8

0 $ -
0/ / -8 0-/
g'h:8
$
/- 8

80--
--
3 <
/$/ 30 :8$
/-
3
00
- $83- 0--

g'h

8
0-; / 3 0--
gh ;0 , ..9!:7.2 9": -8 &8 ; 8
80-
&
<880-
8
8 &0-/
g'h -488 &83/ /8-
-/-8; -

--
3

7: .
& $-<-
--

c/&83
3-
- <88--
-
0-
8
4/!:8 - -
-
00 3 8 8 0 -

" .$

-
- $- -
/-& 8 - /

00
$-
8

--

e88 / 0 &< 8$-ghg'h.$8 4<

--

$-83
4
/4 8
q&83 -2
8g2-1-
,
2c/h $-8--

c/ <- &838/ -
8
/i!

"- !: 7 ."/-8 ; 8

08
c/&
8-
.$ g'h& 8 -
3 - -
3 8
4/p
$/-8-
!8- 8
1-
2/0"
- - / 8 -
0-
0 .$ gh&8; <
0

- -

:/-8
8
4
0&8 3$<
-8/ 88
/$0- -
$ <
8/4c/--

.$ 8 88
/8&8

88
;4
0:
4 ' 8<8/0/$-
$ %$/0!!" &+%"6
)

!
""
#$!$%!&'()&$(&*$&&+!$& ","-".(/01$2 operation /cs# /oe /we /reset addresses d0~d7 read l l h h a in d out write l h l h a in d in standby v cc + 0.3v x x v cc + 0.3v x high-z output disable l h h h x high-z hardware reset x x x l x high-z sector/sector block protect (1) l h l v id sa, a6=l, a1=h, a0=l d in , d out sector/sector block unprotect (1) l h l v id sa, a6=h, a1=h, a0=l d in , d out temporary sector/sector block unprotect x x x v id a in d in
%$/0!!" &+" ((
&+ sector a21 a20 a19 a18 a17 a16 address range sa0 0 0 0 0 0 0 000000~00ffff sa1 0 0 0 0 0 1 010000~01ffff sa2 0 0 0 0 1 0 020000~02ffff sa3 0 0 0 0 1 1 030000~03ffff sa4 0 0 0 1 0 0 040000~04ffff sa5 0 0 0 1 0 1 050000~05ffff sa6 0 0 0 1 1 0 060000~06ffff sa7 0 0 0 1 1 1 070000~07ffff sa8 0 0 1 0 0 0 080000~08ffff sa9 0 0 1 0 0 1 090000~09ffff sa10 0 0 1 0 1 0 0a0000~0affff sa11 0 0 1 0 1 1 0b0000~0bffff sa12 0 0 1 1 0 0 0c0000~0cffff sa13 0 0 1 1 0 1 0d0000~0dffff sa14 0 0 1 1 1 0 0e0000~0effff sa15 0 0 1 1 1 1 0f0000~0fffff sa16 0 1 0 0 0 0 100000~10ffff sa17 0 1 0 0 0 1 110000~11ffff sa18 0 1 0 0 1 0 120000~12ffff sa19 0 1 0 0 1 1 130000~13ffff sa20 0 1 0 1 0 0 140000~14ffff sa21 0 1 0 1 0 1 150000~15ffff sa22 0 1 0 1 1 0 160000~16ffff sa23 0 1 0 1 1 1 170000~17ffff sa24 0 1 1 0 0 0 180000~18ffff sa25 0 1 1 0 0 1 190000~19ffff sa26 0 1 1 0 1 0 1a0000~1affff sa27 0 1 1 0 1 1 1b0000~1bffff sa28 0 1 1 1 0 0 1c0000~1cffff sa29 0 1 1 1 0 1 1d0000~1dffff sa30 0 1 1 1 1 0 1e0000~1effff sa31 0 1 1 1 1 1 1f0000~1fffff / &
%$/0!!" sector a21 a20 a19 a18 a17 a16 address range sa32 1 0 0 0 0 0 200000~20ffff sa33 1 0 0 0 0 1 210000~21ffff sa34 1 0 0 0 1 0 220000~02ffff sa35 1 0 0 0 1 1 230000~23ffff sa36 1 0 0 1 0 0 240000~24ffff sa37 1 0 0 1 0 1 250000~25ffff sa38 1 0 0 1 1 0 260000~26ffff sa39 1 0 0 1 1 1 070000~27ffff sa40 1 0 1 0 0 0 280000~28ffff sa41 1 0 1 0 0 1 290000~29ffff sa42 1 0 1 0 1 0 2a0000~2affff sa43 1 0 1 0 1 1 2b0000~2bffff sa44 1 0 1 1 0 0 2c0000~2cffff sa45 1 0 1 1 0 1 2d0000~2dffff sa46 1 0 1 1 1 0 2e0000~2effff sa47 1 0 1 1 1 1 2f0000~2fffff sa48 1 1 0 0 0 0 300000~30ffff sa49 1 1 0 0 0 1 310000~31ffff sa50 1 1 0 0 1 0 320000~32ffff sa51 1 1 0 0 1 1 330000~33ffff sa52 1 1 0 1 0 0 340000~34ffff sa53 1 1 0 1 0 1 350000~35ffff sa54 1 1 0 1 1 0 360000~36ffff sa55 1 1 0 1 1 1 370000~37ffff sa56 1 1 1 0 0 0 380000~38ffff sa57 1 1 1 0 0 1 390000~39ffff sa58 1 1 1 0 1 0 3a0000~3affff sa59 1 1 1 0 1 1 3b0000~3bffff sa60 1 1 1 1 0 0 3c0000~3cffff sa61 1 1 1 1 0 1 3d0000~3dffff sa62 1 1 1 1 1 0 3e0000~3effff sa63 1 1 1 1 1 1 3f0000~3fffff &+" ((
&+4 (5
%$/0!!" description /cs# /oe /we a20 to a16 a15 to a10 a9 a8 to a7 a6 a5 to a2 a1 a0 d7 to d0 01h (protected) sector protection verification l l h sa x v id x l x h l 00h (unprotected) &+7"
' (
42/ / (5 0 0) 0 ! 0) ) ! 1 1 ! 2 34 &+" ((

$ sector/sector block a21~a16 sector/sector block size sa0 000000 64 kbytes sa1~sa3 000001,000010,000011 192 (3 x 64) kbytes sa4~sa7 000100, 000101, 000110, 000111 256 (4 x 64) kbytes sa8~sa11 001000, 001001, 001010, 001011 256 (4 x 64) kbytes sa12~sa15 001100, 001101, 001110, 001111 256 (4 x 64) kbytes sa16~sa19 010000, 010001, 010010, 010011 256 (4 x 64) kbytes sa20~sa23 010100, 010101, 010110, 010111 256 (4 x 64) kbytes sa24~sa27 011000, 011001, 011010, 011011 256 (4 x 64) kbytes sa28~sa31 011100, 011101, 011110, 011111 256 (4 x 64) kbytes sa32~sa35 100000, 100001, 100010, 100011 256 (4 x 64) kbytes sa36~sa39 100100, 100101, 100110, 100111 256 (4 x 64) kbytes sa40~sa43 101000, 101001, 101010, 101011 256 (4 x 64) kbytes sa44~sa47 101100, 101101, 101110, 101111 256 (4 x 64) kbytes sa48~sa51 110000, 110001, 110010, 110011 256 (4 x 64) kbytes sa52~sa55 110100, 110101, 110110, 110111 256 (4 x 64) kbytes sa56~sa59 111000, 11101, 111010, 111011 256 (4 x 64) kbytes sa60~sa62 111100, 111101, 111110 192 (3 x 64) kbytes sa63 111111 64 kbytes
%$/0!!" &+"'8a08( addresses data description 10h 51h 11h 52h 12h 59h query unique ascii string ? qry ? 13h 02h 14h 00h primary oem command set 15h 40h 16h 00h address for primary extended table 17h 00h 18h 00h alternate oem command set (00h = none exists) 19h 00h 1ah 00h address for alternate oem extended table (00h = none exists) &+ "0
8 addresses data description 1bh 27h v cc min. (write/erase) d7 ? d4: volt, d3 ? d0: 100 millivolt 1ch 36h v cc max. (write/erase) d7 ? d4: volt, d3 ? d0: 100 millivolt 1dh 00h v pp min. voltage (00h = no v pp pin present) 1eh 00h v pp max. voltage (00h = no v pp pin present) 1fh 04h typical timeout per single byte/word write 2 n s 20h 00h typical timeout for min. size buffer write 2 n s (00h = not supported) 21h 0ah typical timeout per individual block erase 2 n ms 22h 00h typical timeout for full chip erase 2 n ms (00h = not supported) 23h 05h max. timeout for byte/word write 2 n times typical 24h 00h max. timeout for buffer write 2 n times typical 25h 04h max. timeout per individual block erase 2 n times typical 26h 00h max. timeout for full chip erase 2 n times typical (00h = not supported)
%$/0!!"
&+@"6< 0 addresses data description 27h 16h device size = 2 n byte 28h 00h 29h 00h flash device interface description (refer to cfi publication 100) 2ah 00h 2bh 00h max. number of byte in multi-byte write = 2 n (00h = not supported) 2ch 01h number of erase block regions within device. 2dh 3fh 2eh 00h 2fh 00h 30h 01h erase block region 1 information (refer to cfi specification or cfi publication 100) 31h 00h 32h 00h 33h 00h 34h 00h erase block region 2 information 35h 00h 36h 00h 37h 00h 38h 00h erase block region 3 information 39h 00h 3ah 00h 3bh 00h 3ch 00h erase block region 4 information
%$/0!!" &+"0( .,((a0 addresses data description 40h 50h 41h 52h 42h 49h query-unique ascii string ? pri ? 43h 31h major version number, ascii 44h 30h minor version number, ascii 45h 01h address sensitive unlock : 0 = required, 1 = not required 46h 02h erase suspend 0 = not supported, 1 = to read only, 2 = to read & write 47h 01h sector protect : 0 = not supported, x = number of sectors in group. 48h 04h sector temporary unprotect : 04 = supported 49h 04h sector protect/unprotect scheme 01 = 29f040 mode, 02 = 29f016 mode, 03 = 29f400 mode, 04 = 29lv800a mode. 4ah 20h simultaneous operation : 20 = not supported 4bh 00h burst mode type : 00 = not supported, 01 = supported 4ch 00h page mode type : 00 = not supported, 01 = 4 word page, 02 = 8 word page
%$/0!!" &+#"' (
%&&'() %&(3!$ %&&'()$&&(%(( % -45-"6$!( )$&&(0(%-45-"6 $!( %)*%) 7 8!+!('(' "0 %'
"#)( %$%)!$ ((*(!9&( : 59$'!(
(()!'($ ; )%!(/&&'(
9$0"+! %!'(%&&+!
? '(%&&+!
) &!)%*%'7:
%*%':78;#%!'(%!$-)(/ %$-)(/ #1(/.'$&&+!$1(/.'$0&&& #1(/.'$3&&+!!'* 1(/.'$& #'&&'$&%!@
!(&
5"!$&#5"!$&&*(('!$ : #53!&&&*(('!5"!$& ; &&*(*''*!(& bus cycles (2-4) first second third fourth fifth sixth command sequence (1) cycles. addr data addr data addr data addr data addr data addr data read (5) 1 ra rd reset (6) 1 xxx f0 xxx xxx 00 auto~ select (7) spv (9) 4 xxx aa xxx 55 0xxxxx or 2xxxxx 90 (sa) x02 01 byte program 4 xxx aa xxx 55 xxx a0 pa pd unlock bypass 3 xxx aa xxx 55 xxx 20 unlock bypass program (10) 2 xxx a0 pa pd unlock bypass reset (11) 2 xxx 90 xxx 00 chip erase 6 xxx aa xxx 55 xxx 80 xxx aa xxx 55 xxx 10 sector erase 6 xxx aa xxx 55 xxx 80 xxx aa xxx 55 sa 30 erase suspend (12) 1 xxx b0 erase resume (13) 1 xxx 30 cfi query (14) 1 xxx 98
%$/0!!" &+%!"1)
operation d7 (2) d6 d5 (1) d3 d2 (2) embedded program algorithm d7 toggle 0 n/a no toggle standard mode embedded erase algorithm 0 toggle 0 1 toggle reading within erase suspended sector 1 no toggle 0 n/a toggle reading within non-erase suspended sector data data data data data erase suspend mode erase-suspend-program d7 toggle 0 n/a n/a
a 5&)0&5&)5$9&9&!& &(&",b59#&&2%&%& =+!*(!%&3%$$$!)% %!(
%"& %$/0!!"
"#$"%&'()*+,&--"&(.& 0.90 (0.035) typ. 29.20 (1.150) 28.20 (1.110) 5.08 (0.200) max 1.27 (0.050) typ. 0.46 (0.018) typ. 30.10 (1.185) sq. 30.35 (1.195) sq.
%$/0!!" ' )(8 !" #!!! !!!!!! !$% !$"# !$ "!" & & &' ( & )!!& "&#!'*#$!%!' ! " #&!! ! " && % +& % ! && "#&!$ '
20 % b % '( b '( ' b ' :0-
/-=
7
b ,-
. b ./-
-3?-

( b $ /-
4
(&' ' - ( <-,/0 ) b ) *'+) :8 3 5 b 52>

b

▲Up To Search▲

Price & Availability of PUMA84FV256006-12

	To Download PUMA84FV256006-12 Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .