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rf agile transceiver data sheet a d9364 rev. b document feedba ck i n f o rma t io n furn i sh e d b y a n a l o g d e v i c e s is be l i e v ed t o be a c c u r a t e an d r e l i a b le . h o w e v e r , n o r es p ons i b i l i t y i s a ssu med b y a n a l og de v i c e s f o r it s use , nor f o r an y inf rin ge men t s o f p a t en t s o r o t he r r i g h ts o f th ir d par t ies th a t m a y r e su l t f r o m i t s use . s p e ci f ica t io n s su bj e c t t o c h an g e w i th o u t n o ti c e . n o l i c e n s e i s g r an t e d b y imp l ic a t io n o r o t h e r w i s e un d e r an y pa t e n t o r pa t e n t r i g h t s o f a n a l o g d e v i c e s . t r adem ar ks and r eg i st e r ed tr ad ema rks ar e the p r o p er t y of the i r r e sp e c t i v e o wne rs . o ne t e chnology way, p . o. b o x 91 06, nor w ood , ma 020 62- 910 6, u. s . a. t e l: 781. 329. 4 700 ? 2013C 20 14 a nal og device s, i nc. al l r ights r e ser ved . technical support www.analog.com fea t ures rf 1 1 transceiv er with int e gr a t ed 12 -bit d a cs an d a d cs band: 70 mh z to 6.0 gh z suppor ts time division duple x ( t dd) and fr e q uenc y divi sion duple x (f dd) o p er a t io n t u nable chann e l bandwidth ( b w): <200 khz t o 56 mhz 3- band r ec eiv e r : 3 diff er ential or 6 single - ended inputs superior r e c e iv er sensitivit y w ith a noise figur e of <2.5 db rx gain c o n tr o l real -time monit o r and c o ntr o l signals f o r manual gain independen t a u t o ma tic gain con tr o l 2- band diff er ential output t r a n smitt er highly line ar b r oadband tr an smitt e r tx e v m : ? 4 0 d b t x noise: ?1 5 7 dbm/hz nois e floor t x monit o r : 66 db dynamic r a nge with 1 db ac cur a c y int egr a t ed fr ac tional-n s y nth esiz ers 2.4 hz maximu m loc a l oscilla t o r (l o ) st ep size multichip synchr oniza t ion cmo s/l vds di gital inter f ac e applic a t io ns p o in t t o poin t c o mmunic a tion sy st ems f e mt oc ell/pic o c e ll/microc ell base sta tions g e ner a l - purpose r a dio sy st e ms func ti on a l bl ock di a g r am figure 1. gener a l description the AD9364 is a hig h p er f o r ma n c e, hig h l y in t e g r a t ed radio f r e - q u en c y (r f) a g ile t r a n s c ei v e r ? d esig n e d fo r us e in 3g a n d 4g b a s e st a t io n a p p l ica t io n s . i t s p r ogra m m a b i l i ty a n d wideb a n d ca p a b i li ty mak e i t ideal f o r a b r o a d ra n g e o f tra n scei v e r a p p l ica t io n s. t h e d e v i c e co m b in es a n rf f r o n t en d wi t h a f l e x i b le mi xe d - sig n al b a s e b a n d s e c t io n an d in teg r a t e d f r e q uen c y syn t h e sizers, sim p li- f y in g desig n -in b y p r o v id in g a c o nf igura b le dig i t a l i n t er f ace t o a pro c e sso r . t h e AD9364 op er a t es i n t h e 7 0 m h z to 6. 0 g h z r a n ge , c o ve r i n g mo st l i c e ns e d and u n l i ce ns e d b a nd s . c h an nel b a ndw i d t h s f r o m les s tha n 2 00 kh z t o 56 m h z a r e su p p o r t e d . the dir e c t con versio n r e cei v er has s t a t e - o f -t he -a r t n o is e f i gur e a nd li n e a r i t y . th e r e ceiv e (rx) s u bsys t e m i n cl u d es i n dep e n d en t a u t o ma tic ga in co n t r o l (a gc), dc o f fs et co r r ec tio n , q uadr a t ur e co rr ecti o n , a n d d i gi tal f il t e r in g, th e r eb y e l im i na t i n g t h e n e e d f o r th e s e fun c ti o n s i n t h e d i g i tal base ba n d . th e AD9364 also h a s f l ex i b le ma n u a l ga in m o de s t h a t ca n b e ex ter n al l y c o n t r o l l e d . t w o h i g h dy n a m i c r ange a d c s d i g i t i z e t h e re c e ive d i and q s i g n al s and p a ss t h e m t h rou g h c o n f i g u r a b l e d e c i m a t i o n f i l t e r s a nd 128 -ta p fir f i l t ers t o p r o d uce a 12-b i t ou t p u t sig n al a t t h e a ppropr i a t e s a mp l e r a te. th e t r a n smi t t e r us es a dir ec t co n v er sio n a r c h i t e c t u r e tha t ac hie v es h i gh m o d u la ti o n a c cura c y wi th ultralo w n o i s e . t h i s t r a n s m i t t e r de s i g n p r o d uc e s a tx ev m o f ?4 0 db , a l l o wing sig n if ic an t sy ste m ma r g in fo r t h e e x t e rna l p o w e r a m plif ie r (p a) s e le c t io n. t h e o n - b o a r d t r a n sm i t (tx) p o w e r m o ni to r can b e us e d as a p o w e r d e te c t or , en abl i n g h i g h ly ac c u r a te t x p o wer me a s u r e me n t s . the f u l l y in teg r a t e d p h as e - lo c k e d lo o p s (p lls) p r o v ide lo w p o w er f r actio n al -n f r e q uen c y syn t h esis f o r al l rx a n d tx c h a n n e ls . al l v c o an d lo o p f i l t er co m p on e n ts a r e i n teg r a t e d . the co r e o f t h e AD9364 can b e p o w er e d dir e c t ly f r o m a 1.3 v re g u l a tor . t he ic i s c o n t rol l e d v i a a st and ard 4- w i re s e r i a l p o r t and fo ur r e al-t im e in p u t co n t r o l p in s . c o m p r e h e n s i v e p o w e r-do wn m o d e s a r e in c l ud ed t o mi ni m i ze po w e r c o n sum p ti o n d u rin g nor m a l u s e . t h e ad936 4 i s p a ck a g e d in a 10 mm 10 mm, 1 4 4 -b a l l chi p s c al e p a ckage b a l l g r id a r r a y ( c s p _b g a ) . ad9 3 6 4 rx b_ p , rx b_n p 1 _[ d11 : d0 ] / rx _ [ d 5 : d 0] p 0 _[ d11 : d0 ] / tx _ [ d 5 : d 0 ] ra di o s w i t chi n g rx a_ p , rx a_n rx c_ p , rx c_n t x_mon dat a i nt e rf ace rx l o tx lo txa_p, tx a _ n tx b _ p , tx b _ n ct r l au x dacx x t al n aux a dc ctrl spi dac gpo plls dac ad c cl k_ o u t dac adc 11846- 001 no t e s 1. s p i , ct rl , p 0 _ [ d1 1: d0 ] / t x _ [ d 5 : d 0] , p 1 _[ d11 : d 0 ] / rx _ [ d5 : d 0] , an d ra di o s w i t chi n g co n t a i n m ul t i p l e p i ns . http://
AD9364 data sheet t a bl e of co nt e nt s f e at u r e s .............................................................................................. 1 a p p l ic a t io n s ....................................................................................... 1 f u n c t io n a l b l o c k d ia g r am .............................................................. 1 g e n er a l d es c r i p t i o n ......................................................................... 1 r e v is io n h i s t o r y ............................................................................... 2 s p e c if ic a t io n s ..................................................................................... 3 c u r re n t c on s u m p t i o n v dd _ i n t e r f a c e .................................. 7 c u r re n t c on s u m p t i o n v d d d 1 p3 _d i g a n d v d d a x ( c o m b i n a t i o n o f a l l 1 .3 v s u p p li e s) ......................................... 8 a bs o l u t e m ax i m u m r a t in g s ..................................................... 10 ref l o w p r o f i l e .............................................................................. 10 t he r m a l r e s is t a n c e .................................................................... 10 e sd c a ut i o n ................................................................................ 10 p i n c o nf i g u r a t i o n a nd f u n c t i o n d e s c r i p t i o ns ........................... 11 t y p i c a l p e r f o r m a n c e c ha r ac t e r i s t ic s ........................................... 15 800 mh z f r e q u e n c y b a n d ......................................................... 15 2. 4 g h z f r e q ue n c y b a n d .......................................................... 20 5. 5 g h z f r e q ue n c y b a n d .......................................................... 24 th e or y of o p e r a t i on ...................................................................... 28 g e ne r a l ......................................................................................... 28 re c ei ver ........................................................................................ 28 t r ans m it t e r .................................................................................. 28 c l o c k in p ut o p t i o n s .................................................................. 28 s y n t h es i z er s ................................................................................. 29 d i g it a l d a t a i n t e r f ac e ................................................................. 29 e n ab l e s t a t e m a c h i ne ..................................................................... 29 s p i i n t e r fa ce ................................................................................ 30 c on t ro l p i n s ................................................................................ 30 gpo p i n s ( gp o_3 t o gpo_0 ) ................................................. 30 a u x i l i a r y c o n ver t er s .................................................................. 30 p ac ka g i n g an d or d e r in g i n f o r m a t io n ......................................... 31 o u t li ne d i me ns i o ns ................................................................... 31 o r d e r in g g u id e .......................................................................... 31 revision history 2 /14r evision b : i nitial v ersion re v . b | page 2 of 32
data sheet AD9364 sp ec ific a t io n s e l e c t r ic al c ha r ac t e r is t ic s a t vd d _gpo = 3 . 3 v , vdd _ i n t e rf a ce = 1 .8 v , and a l l o t he r vdd x pi n s = 1 .3 v , t a = 25 c , u n l es s o t h er wi s e n o t e d . ta bl e 1 . p ar am et er 1 s y mb o l m in ty p m ax u n it test conditions/comments receiver , general c en t er f r eq u en c y 70 6000 mhz gain mi n i mu m 0 db ma x i mu m 74. 5 db a t 8 0 0 m h z 73. 0 db at 2300 mhz, rxa 72. 0 db at 2300 mhz, rxb , rxc 65. 5 db at 5500 mhz, rxa g ai n s te p 1 db r ec e i v e d s i g n al s tr e n g th indicator rssi r a n ge 100 db a c c ur a c y 2 db receiver, 800 mhz n oi s e f i g u r e nf 2 db maximum rx gain th i r d - or d er i np u t i n te r m od - u l ation in te r c e p t p oi n t iip3 ?1 8 dbm ma x i mu m rx g a in se c o n d - or d er i n p ut int e r m o d - u l ation in te r c e p t p oi n t iip2 40 dbm ma x i mu m rx g a in l oc al o s c i l l ator ( l o ) le ak ag e ? 122 dbm a t rx fr o nt - e nd i np u t q u adrature g a i n erro r 0. 2 % p h a s e erro r 0. 2 d eg rees m odu l ation a c c u ra c y ( ev m ) ?4 2 db 1 9 .2 mhz reference clock inp u t s 11 ?1 0 db r e ceiver, 2.4 ghz n oi s e f i g u r e nf 3 db ma x imum rx gain th i r d - or d er i np u t i n te r m od - u l ation in te r c e p t p oi n t iip3 ?1 4 dbm ma x i mu m rx g a in se c o n d - or d er i n p ut int e r m o d - u l ation i n te r c e p t p oi n t iip2 45 dbm ma x i mu m rx gain l oc al o s c i l l ator ( l o ) le ak ag e ? 110 dbm a t rx fr o nt - e nd i np u t q u adr atu r e g a i n erro r 0. 2 % p h a s e erro r 0. 2 d eg r e es m odu l ation a c c u r a c y ( e v m ) ?4 2 db 4 0 m h z reference clock inp u t s 11 ?1 0 db r e ce i ver, 5.5 ghz n oi s e f i g u r e nf 3. 8 db ma x i mu m rx gain th i r d - or d er i np u t i n te r m od - u l ation in te r c e p t p oi n t iip3 ? 17 dbm ma x i mu m rx g a in se c o n d - or d er i n p ut int e r m o d - u l ation in te r c e p t p oi n t iip2 42 dbm ma x i mu m rx g a in l oc al o s c i l l ator ( lo ) le a k a g e ? 95 dbm a t rx fr o nt - end input quadrature g a i n erro r 0. 2 % p h a s e erro r 0. 2 d eg r e es m odu l ation a c c u r a c y ( e v m ) ? 37 db 4 0 m h z r ef e r en ce cl o c k ( dou b l e d i n t e r n al l y fo r r f syn t h e si z er ) inp u t s 11 ? 10 db tr a n s m i tte r genera l c en t er f r equency 70 6000 mhz p ow e r c o ntrol range 90 db p ow e r c o ntrol resolution 0. 25 db re v . b | page 3 of 32
AD9364 data sheet p ar am et er 1 s y mb o l m in ty p m ax u n it test conditions/comments t r a n s m i t t e r , 800 mh z o ut p ut s 22 ?1 0 db m ax i m u m o u tp u t p ow e r 8 dbm 1 m h z to n e i n to 5 0 ? l oad m odu l ation a c c u r a c y ( e v m ) ?4 0 db 1 9 . 2 m h z r ef er en c e cl o c k th i r d - or d er o ut p ut int e r m o d - u l ation in te r c e p t p oi n t o ip3 23 dbm c ar r i e r le ak ag e ?5 0 dbc 0 db atte n u ati on ?32 dbc 4 0 db atte n u ati on nois e f l o or ? 157 dbm / h z 90 m h z o f f s e t tran sm i t t e r, 2 .4 g h z outp ut s 22 ?1 0 db m ax i m u m o u tp u t p ow e r 7. 5 dbm 1 m h z to n e i n to 5 0 ? l oad modul ation a c c u r a c y ( e v m ) ?4 0 db 4 0 m h z r ef e r en ce cl o c k thir d - or d er o ut p ut int e r m o d - u l ation in te r c e p t p oi n t o ip3 19 dbm c ar r i e r l e ak ag e ?5 0 dbc 0 db atte n u ati on ?3 2 dbc 40 d b atte n u ation noise f l o or ? 156 dbm / h z 90 m h z o f f s e t transm i t t e r, 5 .5 g h z output s 22 ?1 0 db m ax i m u m o u tp u t p ow e r 6. 5 dbm 7 m h z to n e i n to 5 0 ? l oad modulation a c c u r a c y ( e v m ) ?3 6 db 4 0 m h z r ef e r en ce cl o c k ( dou b l e d i n t e r n al l y fo r r f syn t h e si z er ) third - or d er o ut p ut int e r m o d - u l ation in te r c e p t p oi n t o ip3 17 dbm c ar r i e r l e ak ag e ?5 0 dbc 0 db atte n u ati on ?3 0 dbc 4 0 db atte n u ati on noise f l o or ? 151. 5 dbm / h z 90 m h z o f f s e t tx monit o r i n p u t ( t x_ mo n ) maximu m inp u t l e v e l 4 dbm dy n a m i c ra n g e 66 db a c c ur a c y 1 db l o sy nt h e s i ze r lo fre q u en cy st ep 2. 4 hz 2. 4 g h z , 40 m h z r e f e r e n c e cl o ck integ r ate d p h as e n oi s e 800 mhz 0. 13 rm s 100 h z t o 100 mh z , 30. 72 m h z r ef er e n c e c l o c k ( d o ub l e d i n te r n al l y f or r f sy n t h e si z er ) 2.4 ghz 0. 37 rm s 100 h z t o 100 mh z , 40 mh z r ef er e n c e c l o c k 5.5 ghz 0. 59 rm s 100 h z t o 100 mh z , 40 mh z r ef er e n c e c l o c k ( d o ub l e d i n te r n al l y f or r f s y n th e s iz e r ) reference clo c k ( r ef _c l k ) r e f _ c l k i s e i th e r t h e in p u t to th e x ta l p/ x t a ln p i n s o r a l i n e di r e c tl y to t h e x ta l n p i n input fr e quency r a ng e 19 50 mh z c r y s tal i n p u t 10 80 mh z e x te r n al o s c i l l ator signal leve l 1. 3 v p - p a c - c ou p l e d e x t e r n al os c i l l at or auxiliary con v e r t e r s a d c r e solution 12 bi ts in p u t v ol tag e m in imum 0. 05 v max i m u m vd d a 1p 3 _b b ? 0. 05 v d a c r e solution 10 bi ts rev . b | p a ge 4 of 32
data sheet AD9364 parameter 1 symbol min typ max unit test conditions/comments o u tp u t v ol tag e m in i m u m 0. 5 v m ax i m u m v dd _ g p o ? 0. 3 v o ut p ut c ur r e n t 10 ma d ig it a l s pe c i fic a t io n s (c m o s ) l og i c i n p u ts i n p u t v ol tag e h i gh v dd_ i nt e r f a c e 0. 8 vd d _i n t er f ac e v l ow 0 v dd_ i nt e r f a c e 0. 2 v inp u t c u r r e nt h i gh ?1 0 +1 0 a l ow ?1 0 +1 0 a l o gi c o ut p ut s o u tp u t v ol tag e h i gh v dd_ i nt e r f a c e 0 .8 v l ow v d d _i n t er f ac e 0. 2 v d ig it a l s pe c i fic a t io n s (lv d s ) l o gi c inp u t s i n p u t v ol tag e r an g e 825 1575 mv e ac h di f f e r e n ti al i n p u t i n t h e p ai r i n p u t d i f f e r e n tial v ol tag e th r e s h ol d ? 100 + 100 mv r e c e i v e r d i f f e r e n ti a l i n p u t i m p e dan c e 100 ? l o gi c o ut p ut s o u tp u t v ol tag e h i gh 1375 mv l ow 1025 mv o u tp u t d if f e r e n ti al v ol tag e 150 mv p r og r a m m a b l e i n 75 m v s t ep s o u tp u t o f f s e t v ol ta g e 1200 mv g en er al - p u r p o s e o utp ut s o u tp u t v ol tag e h i gh v dd_ g p o 0 .8 v l ow v dd_ g p o 0 .2 v o ut p ut c ur r e n t 10 ma s pi t im in g vd d _ i n t e r f a ce = 1. 8 v s pi_ c lk p e r i od t cp 20 ns p ul s e w i d t h t mp 9 ns s p i _ e n b s e tu p to fi r s t s p i _ c l k r i s i n g e d ge t sc 1 ns l as t s p i _ c l k f al l i n g e dg e to s p i _en b h o ld t hc 0 ns s pi_ d i d ata i n p u t s e tu p t o s pi_ c lk t s 2 ns d ata i n p u t h ol d to s p i _ c l k t h 1 ns s p i _ c l k r i s i n g e dg e to o u tp u t d ata d e l ay 4 - w ir e m ode t co 3 8 ns 3 - w ir e m ode t co 3 8 ns bu s tu r n ar ou n d ti m e , r e ad t hz m t h t co ( m a x ) ns a f te r b a s eb a n d p r oces s o r ( bbp ) dr i v es t h e l a s t a ddr es s b it bu s tu r n ar ou n d ti m e , r e ad t hz s 0 t co ( m a x ) ns af t e r t he a d 9364 dr i v e s th e l as t data b it re v . b | page 5 of 32
AD9364 data sheet parameter 1 symbol min typ max unit test conditions/comments d ig it a l d a t a t im i n g (c m o s ) , vd d _ i n t e r f a ce = 1. 8 v d a ta _ c l k c l oc k p e r iod t cp 16. 276 ns 61. 44 m h z d a t a _ c l k an d fb_ c l k p u l s e w i dth t mp 45% o f t cp 55% o f t cp ns tx d a ta t x _f r am e, p 0 _d , a n d p 1 _d s e tu p to f b_ c l k t s tx 1 ns h ol d to f b_ c l k t h tx 0 ns d a ta _ c l k to d a ta bu s o u t p u t d e l ay t ddr x 0 1. 5 ns d a ta _ c l k to r x _ f r a m e d e l ay t dd dv 0 1. 0 ns p ul s e w i dt h en ab l e t e n pw t cp ns t x n rx t t xn r x p w t cp ns fd d i nd e p e nd e nt e n s m m ode tx n r x s e tu p to e n a bl e t t xn r xs u 0 ns t dd e nsm m o d e bu s tu r n ar ou n d ti m e be f or e rx t rp re 2 t cp ns td d m o de af t e r rx t r ps t 2 t cp ns td d m o de c ap ac i ti v e load 3 pf cap ac i ti v e in p u t 3 pf d ig it a l d a t a t im i n g (c m o s ) , vd d _ i n t e r f a ce = 2. 5 v data _ c l k c l oc k p e r iod t cp 16. 276 ns 61. 44 m h z d a ta _ c l k an d fb_ c l k p u l s e w i dth t mp 45% o f t cp 55% o f t cp ns tx d a ta t x _f r am e, p 0 _d , a n d p 1 _d s e tu p to f b_ c l k t s tx 1 ns h ol d to f b_ c l k t h tx 0 ns d a ta _ c l k to d a ta bu s o u t p u t d e l ay t ddr x 0 1. 2 ns d a ta _ c l k to r x _ f r a m e d e l ay t dd dv 0 1. 0 ns p ul s e w i d t h enable t e n pw t cp ns t xn r x t t xn r x p w t cp ns fd d i nd e p e nd e nt e n s m m ode tx n r x s e tu p to e n a bl e t t xn r xs u 0 ns tdd e nsm m o d e bu s tu r n ar ou n d ti m e before rx t rp re 2 t cp ns td d m o de af t e r rx t r ps t 2 t cp ns tdd m o de c ap ac i ti v e load 3 pf c ap ac i ti v e in p u t 3 pf d ig it a l d a t a t im i n g ( lv d s ) data_c l k c lo c k p e r i od t cp 4. 069 ns 245. 76 m h z d a ta _ c l k an d fb_ c l k p u l s e w i dth t mp 45% of t cp 55% o f t cp ns tx d a ta t x _f r am e a n d t x _d s e tu p to fb_clk t stx 1 ns h old to fb_ c l k t h tx 0 ns d ata_ c l k to d a ta bu s o u t p u t d e l ay t ddr x 0 . 25 1. 2 5 ns d a t a _ c l k t o r x _f r am e d e l ay t dd dv 0 . 25 1. 25 ns p ul s e w i d t h enable t e n pw t cp ns t xnrx t t xn r x p w t cp ns fd d i nd e p e nd e nt e n s m m ode tx n r x s e tu p to e n a bl e t t xn r xs u 0 ns t dd ensm m o d e re v . b | page 6 of 32
data sheet AD9364 p ar am et er 1 s y mb o l m in ty p m ax u n it test conditions/comments bu s tu r n ar ou n d ti m e be f or e rx t rp re 2 t cp ns af t e r rx t r ps t 2 t cp ns c ap ac i ti v e load 3 pf c ap ac i ti v e in p u t 3 pf s u pply c ha r a c t e r is t ic s 1. 3 v m ain s u p p l y v ol tag e 1. 267 1. 3 1. 33 v v dd_ i nt e r f a c e su p p l y n o m in al s e t t in g s cmo s 1. 2 2. 5 v l vd s 1. 8 2. 5 v v dd_ i n t e rf a c e t o l er a n ce ?5 +5 % t ol er a n ce i s a p p l i ca b l e t o a n y vol ta g e s e tti n g v dd_ g p o su p p l y n o m i n a l s e tti n g 1. 3 3. 3 v w h en u n u s ed , m u s t b e s et to 1. 3 v v d d _g p o t o l e ra n c e ?5 +5 % t o l er a n ce i s a p p l i ca b l e t o a n y vol ta g e s e tti n g c u r r e n t consumption vddx, sleep m o d e 180 a s um o f a l l i n p ut c ur r e n t s v dd_ g p o 50 a no l oad 1 w hen r e f e r e nc i ng a s i ng l e f u nc ti o n o f a m u l ti f u nc ti o n pi n i n the p a r a m e ter s , o nl y the po r ti o n o f the p i n na m e tha t i s r e l e v a nt to the s p e ci f i ca ti o n i s l i s ted . f o r f u l l p i n na m e s o f m u l ti f u nc ti o n pi ns , r e f e r to the p i n c o nf i g u r a ti o n a nd f u nc ti o n d e s cr i p ti o ns s e cti o n. c u r r e n t c on s u m p t i on vd d_ i nte r fa c e ta bl e 2. v d d _ i n t er f a ce = 1. 2 v p ar am et er m in ty p m ax un i t t e s t c o n d it io n s/ c o m me n t s s l eep m o d e 45 a p o w er a p p l ie d , d evic e d is a b l ed rx an d t x, do u b le d a t a r a t e ( ddr ) lte 10 mhz singl e po r t 2.9 ma 30.7 2 m h z d a t a cl o c k , cm o s dual port 2.7 ma 15.36 mhz d a t a c l oc k , cm o s lt e 20 mhz d u a l p or t 5.2 ma 30.72 mhz d a t a c l oc k , cm o s ta bl e 3 . vd d _ i n t er f a ce = 1. 8 v p ar am et er m in ty p m ax un i t t e s t c o n d it io n s/ c o m me n t s s l eep m o d e 84 a p o w er a p p l ie d , d evic e d is a b l e d rx and tx, ddr lt e 10 mhz singl e po r t 4.5 ma 30.7 2 m h z d a t a c l oc k , cm o s dual port 4.1 ma 15.36 mhz d a t a c l oc k , cm o s lt e 20 mhz d u a l p or t 8.0 ma 30.72 mhz data clock , cm o s ta bl e 4 . v d d _ i n t er f a ce = 2. 5 v p ar am e t er m in ty p m ax un i t t est c o n d it io n s/ c o m ments s leep m o de 150 a p o w er ap p l ied , d evic e d is a b l ed rx and tx, ddr lt e 1 0 mhz single p or t 6.5 ma 30.72 m h z d a t a c l oc k , cm o s d u al p or t 6.0 ma 15.36 m h z d at a c l oc k , cm o s lt e 2 0 mh z d u al p or t 11.5 ma 30.72 m hz dat a c l oc k , cm o s re v . b | p a ge 7 of 32
AD9364 data sheet c u r r e n t c on s u m p t i on vd d d 1 p3 _ di g a n d v dd a x ( c om b in a t io n o f a l l 1 . 3 v s u ppl i e s ) ta bl e 5 . 80 0 m h z , t d d m od e p ar am e t er m in ty p m ax un i t t est c o n d it io n s/ c o mme n ts rx 5 m h z b and w i d t h 180 ma c on t i nu ou s rx 10 m h z band w i d t h 210 ma c on t i nu ou s rx 20 m h z band w i d t h 260 ma c on t i nu ou s rx tx 5 m h z band w i d t h 7 d bm 340 ma c on t i nu ou s tx ? 27 d bm 190 ma c on t i nu ou s tx 10 m h z band w i d t h 7 d bm 360 ma c on t i nu ou s tx ? 27 d bm 220 ma c on t i nu ou s tx 20 m h z band w i d t h 7 d bm 400 ma c on t i nu ou s tx ? 27 d bm 250 ma c on t i nu ou s tx ta bl e 6 . td d mo d e , 2. 4 g h z pa r am e t er m in ty p m ax un i t t est c o n d it io n s/ c o m m en t s rx 5 m h z band w i d t h 175 ma c on t i nu ou s rx 10 m h z band w i d t h 200 ma c on t i nu ou s rx 20 m h z band w i d t h 240 ma c on t i nu ou s rx tx 5 mhz bandwi d t h 7 dbm 350 ma c on t i nu ou s tx ? 27 d bm 160 ma c on t i nu ou s tx 10 mhz band w i d t h 7 d bm 380 ma c on t i nu ou s tx ? 27 d bm 220 ma c on t i nu ou s tx 20 m h z band w i d t h 7 d bm 410 ma con t i nu ou s tx ? 27 d bm 260 ma c on t i nu ou s tx ta bl e 7. t d d m od e , 5. 5 g h z p ar am e t er m in t yp m ax un i t t est c o n d it io n s/ c o mmen t s rx 5 m h z band w i d t h 175 ma c on t i nu ou s rx 40 m h z band w i d t h 275 ma c on t i nu ou s rx tx 5 m h z band w i d t h 7 dbm 400 ma c on t i nu ou s tx ? 27 d bm 240 ma c on t i nu ou s tx 40 m h z band w i d t h 7 d bm 490 ma c on t i nu ou s tx ? 27 d bm 385 ma c on t i nu ou s tx re v . b | p a ge 8 of 32
data sheet AD9364 ta bl e 8 . f d d m o d e , 80 0 m h z p ar am e t er m in ty p m ax un i t test conditions/comments r x an d tx 5 m h z band w i d t h 7 d bm 490 ma ? 27 d bm 345 ma 10 m h z band w i d t h 7 d bm 540 ma ? 27 d bm 395 ma 20 m h z band w i d t h 7 dbm 615 ma ? 27 d bm 470 ma ta bl e 9 . fd d m o d e , 2. 4 g h z p ar am e t er m in ty p m ax un i t t est c o n d it io n s/ c o mmen t s rx an d tx 5 m h z bandwidth 7 d bm 500 ma ? 27 d bm 350 ma 10 mhz band w i d t h 7 d bm 540 ma ? 27 d bm 390 ma 20 m h z band w i d t h 7 d bm 620 ma ? 27 d bm 475 ma ta bl e 10. f d d m o d e , 5. 5 g h z p ar am e t er m in ty p m ax un i t t est c o n d it io n s/ c o mmen t s rx and tx 5 m h z band w i d t h 7 dbm 550 ma ? 27 d bm 385 ma re v . b | p a ge 9 of 32
AD9364 data sheet a b so l ut e ma x i mum r a t in g s ta bl e 11. p ar am e t er r at i n g vddx to vss x ? 0.3 v to + 1. 4 v vdd_interface to vss x ? 0.3 v to + 3.0 v vdd_gpo to vss x ? 0.3 v to + 3.9 v l og i c i npu t s a n d o utp uts t o v ssx ? 0 . 3 v t o v d d _i n t e r f a ce + 0 .3 v i n p ut c ur r e n t t o a n y p i n e xc e p t s u ppl i e s 10 m a r f inputs (peak power) 2.5 dbm tx m oni t or i npu t p o w e r ( p e ak p owe r ) 9 d bm p a ckage power dissipation (t jmax ? t a )/ ja m ax i m u m j u nc t i on t emp er a t u r e (t j m ax ) 110 c o p er a t in g t emp er a t u r e r a n g e ? 40 c to + 85 c s t o r a g e t emp er a t u r e r a n g e ? 65 c to + 150 c s t r es ses a t o r a b o v e t h o s e l i s te d u n d er a b s o l u t e m a x i m u m r a t i n g s m a y c a u s e p e r m an e n t d a m a g e t o t he p r o d u c t . t his is a s t r e s s r a t i n g o n ly ; f u n c t i o n a l o p e r a t i o n o f t h e p r o d u c t a t t h es e o r a n y o t h e r c o ndi t i o n s a b o v e t h o s e i ndi c a t e d i n t h e o p e r a t i o n a l s e c t io n o f t his s p e c if ic a t io n is n o t im p l ie d . o p e r a t io n b e y o n d t he m a x i m u m o p e r a t i ng c o nd i t i o ns f o r e x t e nd e d p e r i o d s m a y a f f e c t p r o d u c t r e l i a bi l i t y . re f lo w p ro f i le th e a d 9364 r e f l o w p r o f i l e is in ac c o r d an c e w i t h t h e j e d e c j e s d 20 cr i t e r i a f o r pb- f r e e d e vi c es . t h e m a x i m u m r ef l o w t em p er a t u r e i s 2 6 0 c. t he r m a l r e s is t a n c e j a is s p e c if ie d f o r t h e w o r s t - c as e c o n d i t io n s , t h a t is , a d e v ic e s o l d e re d i n a c i rc u i t b o a rd f or s u r f a c e - mo u n t p a c k ag e s. ta bl e 12. t h e r m a l r e si sta n c e p a c k ag e ty p e a irf l o w v e l o ci t y ( m /s ec ) j a 1 , 2 j c 1 , 3 j b 1 , 4 jt 1, 2 unit 144 - b all csp _ bga 0 32. 3 9 .6 20. 2 0. 27 c / w 1 .0 29. 6 0. 43 c / w 2 .5 27. 8 0. 57 c / w 1 pe r jed e c j es d 5 1 - 7 , p lu s j ed e c j es d 51 - 5 2s 2p t e s t bo a r d . 2 p e r je de c je s d5 1 - 2 ( s t il l air ) o r je de c je s d5 1 - 6 ( mo v in g air) . 3 pe r mi l - s td 883, me t h o d 1012. 1. 4 pe r j ed e c je s d5 1 - 8 (st i ll a i r ). esd ca ut i o n re v . b | p a ge 10 o f 32
data sheet AD9364 pi n co nf i gu ra t i o n a n d f u nc t i o n d e s cri p t i ons f i g u r e 2 . p in c on f i g u r at i on , t op v i e w ta bl e 13. p i n fu n c ti o n d e sc r i p ti o n s p i n n o. type 1 mnemonic description a 1, a 2, a4 to a 6, b 1, b 2, b 12, c1, c2, c7 t o c12, d 1, e 1, f1, f3, h 2, h 3, h 6, j 2, k 2, l 2, l 3, l 7 t o l 12, m4 , m6 i v ssa a nal og g r ou nd . t i e t he s e pi ns d i r e c tl y t o t he v s s d d i g i t al g r ou nd on t he p r in t ed cir cu it b o a r d ( o ne g r ou nd pl an e ) . a 3 , m 3 nc nc no connect. do not connect to these pins. a 7 to a 10, d 3 i v d da 1p 3 _r x _ t x 1.3 v s up p l y i n p ut. a 11 i v d da 1p 1_t x _v c o t r ans m i t v c o s u ppl y i npu t . c onne c t t o b 11. a 12 i t x _e x t _l o _i n e x t e r nal t r ans m i t l o c a l o sc i ll a t o r ( lo ) i npu t . w he n t h is p in is u n u s ed , t ie it t o g r ou nd . b 3 o auxdac 1 auxiliary dac 1 output. b4 to b7 o gpo_ 3 to gpo_ 0 3.3 v capable general - purpose outputs. b 8 i vdd_gpo 2.5 v to 3.3 v supply for the auxiliary dac and general - purpose output pins. when the vdd_gpo supply is not used, this supply must be se t to 1.3 v. b 9 i vdda 1p3_tx_lo transmit lo 1.3 v supply input. b 10 i vdda 1 p 3 _tx_vco_ldo transmit vco ldo 1.3 v supply input. connect to b9 . b 11 o tx_vco_ldo_out t ransmit vco ldo output. connect b11 to a11 and a 1 f bypass capacitor in series with a 1 ? resistor to ground. c3 o auxdac 2 auxiliary dac 2 output. c4 i t es t / en ab l e t e s t i npu t . g r ou nd t hi s pi n f or n or m al ope r a t i o n . a n a log i/o dc p o w e r digital i/o ground no connect 1 2 3 4 5 6 7 8 9 10 11 12 k a b c d e f g h j l m vssa vssa nc vssa vssa vssa v dda1p 3_ rx _tx v dda1p 3_ rx _tx v dda1p 3_ rx _tx v dda1p 3_ rx _tx v dda1p 1_ t x _v co t x_ ext _ lo_ in vssa vssa aux dac1 gp o_ 3 gp o_ 2 gp o_ 1 gp o_ 0 v dd_g p o v dda1p 3_ tx _ lo v dda1p 3_ t x _v co _ l do t x _v co _ l do _o ut vssa vssa vssa aux dac2 t est / e nabl e ctrl_i n0 ctrl_i n1 vssa vssa vssa vssa vssa vssa vssa v dda1p 3_ rx _rf v dda1p 3_ rx _tx ctrl_o ut0 ctrl_i n3 ctrl_i n2 p 0_d9/ t x _d4_p p 0_d7/ t x _d3_p p 0_d5/ t x _d2_p p 0_d3/ t x _d1_p p 0_d1/ t x _d0_p vssd vssa v dda1p 3_ rx _lo v dda1p 3_ tx _ lo_ buf f e r ctrl_o ut1 ctrl_o ut2 ctrl_o ut3 p 0_d11/ t x _d5_p p 0_d8/ t x _d4_n p 0_d6/ t x _d3_n p 0_d4/ t x _d2_n p 0_d2/ t x _d1_n p 0_d0/ t x _d0_n vssa v dda1p 3_ rx _v co _ l do vssa ctrl_o ut6 ctrl_o ut5 ctrl_o ut4 vssd p 0_d10/ t x _d5_n vssd f b_cl k_p vssd v ddd1p 3_ di g r x_ ext _ lo_ in rx _v co _ l do _o ut v dda1p 1_ rx _v co ctrl_o ut7 e n_ag c e nabl e rx _ f ram e _n rx _ f ram e _p t x_ f ram e _p f b_cl k_n dat a_ clk_p vssd rx b_p vssa vssa t x nrx s y nc_i n vssa vssd p 1_d11/ rx _d5_p t x_ f ram e _n vssd dat a_ clk_n v dd_ i nte rface rx b_n vssa v dda1p 3_ rx _s y nth s p i _di s p i _cl k clk_o ut p 1_d10/ rx _d5_n p 1_d9/ rx _d4_p p 1_d7/ rx _d3_p p 1_d5/ rx _d2_p p 1_d3/ rx _d1_p p 1_d1/ rx _d0_p rx c_p vssa v dda1p 3_ t x_ syn t h v dda1p 3_ bb r eset b spi _ en b p 1_d8/ rx _d4_n p 1_d6/ rx _d3_n p 1_d4/ rx _d2_n p 1_d2/ rx _d1_n p 1_d0/ rx _d0_n vssd rx c_n vssa vssa rbi as aux adc s p i _do vssa vssa vssa vssa vssa vssa rx a_p rx a_n nc vssa t x_ mo n vssa t x a_p t x a_n t x b_p t x b_n x ta lp x ta ln 1 1846- 002 re v . b | p a ge 11 of 32
AD9364 data sheet pin no. type 1 mnemonic description c5, c6, d 5 , d 6 i ctrl_in 0 to ctrl_in 3 control inputs. use c5, c6, d5, and d6 for manual rx gain and tx attenuation control. d2 i vdda 1p3 _rx_rf receiver 1.3 v supply input . connect to d3 . d 4, e 4 to e6 , f4 t o f6, g 4 o c tr l _ o u t0 , c t r l _ o ut 1 t o c tr l _ o u t3 , c t r l _ o ut 6 t o c t r l _o ut 4, c t r l _o u t 7 control outputs. these pins are multipurpose outputs that have programmable functionality. d7 i /o p 0_d 9/ t x _d 4 _p d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _d 9 , i t f u nc t i ons as par t of t he 12-bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d at a p o r t 0 . a l t er n a t iv el y , t h i s pi n ( t x _d 4_p ) c an f u nc t i on as pa r t of t he lv d s 6 - bi t tx d if f e r en t ia l in p u t b u s w it h in t er n a l l v d s t er min a t io n . d 8 i/o p 0 _d 7 /tx_d 3 _p digital data port p0/transmit differential input bus. this is a dual function pin. as p0_d7, it functions as part of the 12 - bit bidirectional parallel cmos level data port 0. alternatively, this pin (tx_d3_p) can function as part of the lvds 6 - bit tx differential input bus with internal lvds termination. d 9 i /o p 0_d 5/ t x _d 2_ p d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 5 , i t f u nc t i ons as par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 2_p ) c an f u nc t i on as pa r t of t he lv d s 6- bit tx differential input bus with internal lvds termination. d 10 i /o p 0_d 3 /t x _ d 1 _p d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 3 , i t f u nc t i ons as par t of t he 12- bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _d 1_p ) c an f u nc t i on as pa r t of t he lv d s 6- bit tx d i f f e r e n t i al i npu t bu s w i t h i n t e r nal l v d s t e r m i na t i on. d 11 i /o p0_d1 /tx_d 0 _p digital data port p0/transmit differential input bus. this is a dual function pin. as p0_d1, it functions as part of the 12 - bit bidirectional parallel cmos l evel data port 0. alternatively, this pin (tx_d0_p) can function as part of the lvds 6 - bit tx differential input bus with internal lvds termination. d 12, f7, f 9, f11 , g 12, h 7, h 10, k 12 i v ssd d ig it a l g r o u n d . t ie t he s e pi ns d i r e c t l y t o t he v s s a anal og g r ou n d on t he p r in t ed cir cu it b o a r d ( o ne g r ou nd pl an e ) . e 2 i v d da 1p 3 _ rx_lo receive lo 1.3 v supply input. e 3 i v d da 1p 3_t x _lo_buffer 1.3 v supply input. e 7 i /o p 0_d 11 /t x _ d 5 _p d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0_d 11, i t f u n c t i o n s a s par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 5 _ p ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d i f f erential input bus with internal lvds termination. e 8 i /o p 0_d 8 /t x _ d 4 _n d ig it a l d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 8 , i t f u nc t i ons as par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 4 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d if f e rentia l input bus with internal lvds termination. e 9 i /o p 0_d 6 /t x _ d 3 _n d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 6 , i t f u nc t i ons as par t of t he 12- bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 3 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d i f f e r e n t i al i npu t bu s w i t h i n t e r nal l v d s t e r m i na t i on. e 10 i /o p 0_d 4 /t x _ d 2 _n d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 4 , i t f u nc t i ons as par t o f t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 2 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d i f f e rential input bus with internal lvds termination. e 11 i /o p 0_d 2 /t x _ d 1 _n d ig it a l d a t a p o r t p 0 / t r a n s mit d if f er en t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 2 , i t f u nc t i ons as par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 1 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d i f f e rential input bus with internal lvds t ermination. e 12 i /o p 0_d 0 /t x _ d 0 _n d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0 _ d 0 , i t f u nc t i ons as par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 0 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bi t tx d i f f e rential input bus with internal lvds termination. f 2 i vdda 1 p 3 _rx_vco_ldo receive vco ldo 1.3 v s upply input . connect f2 to e2. re v . b | p a ge 12 of 32
data sheet AD9364 pin no. type 1 mnemonic description f8 i /o p 0_d 10 /t x _ d 5 _n d i g i t al d a t a p or t p 0 / t r ans m i t d i f f e r e n t i al i npu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 0_d 10, i t f u n c t i o n s a s par t of t he 1 2 - bi t , bi d i r e c t i onal , p a r a lle l c m o s le v e l d a t a p or t 0 . a l t e r na t i v e l y , t hi s pi n ( t x _ d 5 _ n ) c an f u nc t i on as pa r t of t he lv d s 6- bit tx differential input bus with internal lvds termination. f 10 , g 10 i fb _clk_p, fb_clk_n feedback clock. these pins receive the fb_clk signal that clock s in tx data. in cmos mode, use fb_clk_p as the input and tie fb_clk_n to ground . f12 i v ddd 1p 3 _ dig 1.3 v d i g i t a l su p p l y i npu t . g1 i rx_ext_lo_in external receive lo input. when this pin is unused, tie it to ground. g2 o rx_vco_ldo_out r eceive vco ldo output. connect this pin directly to g3 and a 1 f bypass capacitor in series with a 1 ? resistor to ground. g 3 i vdda 1 p 1 _rx_vco receive vco supply input. connect this pin directly to g2 only . g5 i en_agc manual control input for automatic gain control ( agc ). g 6 i en ab le c on t r ol i npu t . t hi s pi n m ov e s t h e d evic e t h r o u g h v ar i ou s o pe r a t i onal s t a t e s . g7 , g 8 o rx_frame_n, rx_frame_p r eceive digital data framing output signal. th ese pin s transmit the rx_frame signal that ind icate s whether the rx output data is valid. in cmos mode, use rx_frame_p as the o utput and leave rx_frame_n unconnected. g9 , h 9 i tx_frame_p, tx_frame_n t ransmit digital data framing input signal. these pins receive the tx_frame signal that indicates when tx data is valid. in cmos mode, use tx_frame_p as the input and tie tx_frame_n t o ground. g11 , h 11 o data_clk_p, data_clk_n receive data clock output. these pins transmit the data_clk signal that is used by the bbp to clock rx data. in cmos mode, use data_clk_p as the output and leave data_clk_n unconnected. h1 , j 1 i rxb _p, rxb _n re ceive channel differential input b. alternatively , e ach pin can be used as a single - ended input . these inputs experience degraded performance above 3 ghz. unused pins must be tied to ground. h4 i txnrx enable state machine control signal. this pin controls the data port bus direction. logic low selects the rx direction ; logic high selects the tx direction. h5 i sync_in input to synchronize digital clocks between multiple AD9364 devices. if this p in is unused, it must be tied to ground . h 8 i /o p 1_d 11/ r x _d 5 _p d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l ou t pu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 11, i t f u nc t i ons a s par t of t he 1 2 -bi t bi d i r e c t i onal pa r al l e l c m os l e v e l d a t a p or t 1. a l t er n a t iv el y , t hi s pi n ( r x _d 5 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6-bi t rx d if f er en t ia l ou t pu t bu s w i t h i n t e r nal l v d s t e r m i na t i on. h 12 i v dd_ interface 1.2 v to 2.5 v supply for digital i/o pins ( 1.8 v to 2.5 v in lvds mode). j 3 i v d da 1p3 _rx_synth 1.3 v supply input . j 4 i s pi_ di s p i s e r i al d a t a i npu t . j 5 i sp i _clk spi clock input. j 6 o cl k _out output clock. this pin can be configured to output either a buffered version of the external input clock , the dcxo, or a divided - down version of the internal adc_clk. j 7 i/ o p 1_d 10/ r x _d 5 _n d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 10, i t f u n c t i o n s a s par t of t he 1 2 - bi t bi d i r e c t i onal pa r al l e l c m os l e v e l d a t a p or t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _d 5 _ n ) c a n f u nc t i on as pa r t of t he lv d s 6- bi t rx d if f er en t ia l o utp ut bu s w i t h i n t e r nal l v d s t e r m i na t i on. j 8 i /o p 1_d 9/ r x _d 4_ p d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1 _ d 9 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l da ta po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 4 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6- bi t rx d ifferential output bus with internal lvds termination. j 9 i /o p 1_d 7/ r x _d 3_ p d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 7 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 3 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6- bi t rx d ifferential output bus with internal lvds termination. j 10 i /o p 1_d 5/ r x _d 2_ p d i g i t al d a t a p or t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1 _ d 5 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 2 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6- bi t rx d ifferential output bu s with internal lvds termination. j 11 i /o p 1_d 3/ r x _d 1_ p d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1 _ d 3 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 1 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6- bi t rx d ifferential output bus with internal lvds termination. rev. b | page 13 of 32
AD9364 data sheet pin no. type 1 mnemonic description j 12 i /o p 1_d 1/ r x _d 0_ p d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1 _ d 1 , i t f u nc t i ons as par t of t he 1 2 -b it b id ir ec t io n a l p a r a l l e l c m o s l ev el d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 0 _ p ) c a n f u nc t i on as pa r t of t he lv d s 6- bit rx differential output bus with internal lvds termination. k 1 , l 1 i rxc_p, rx c_n r eceive channel differential input c. alternatively , e ach pin can b e used as a single - ended input. these inputs experience degraded performance above 3 ghz. unused pins must be tied to ground. k 3 i v d da 1p 3_t x _s y n t h 1.3 v s u p p l y i npu t . k4 i vdda 1p3 _bb 1.3 v supply input. k5 i resetb asynchronous reset. logic low resets the device. k 6 i spi_enb spi enable input . set this pin to logic low to enable the spi bus. k 7 i /o p 1_d 8 /r x _ d 4 _n d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1 _ d 8 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 4 _ n ) c a n f u nc t i on as pa r t of t he lv d s 6- bit rx differential output bus with internal lvds termination. k 8 i /o p 1_d 6 /r x _ d 3 _n d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 6 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 3_ n ) c a n f u nc t i on as pa r t of t he lv d s 6- bit rx differential output bus with internal lvds termination. k 9 i /o p 1_d 4 /r x _ d 2 _n d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l o utp ut bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 4 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 2_ n ) c a n f u nc t i on as pa r t of t he lv d s 6- bit rx differential output bus with internal lvds termination. k 10 i /o p 1_d 2 /r x _ d 1 _n d ig it a l d a t a p o r t p 1 / r ec eiv e d if f er en t ia l ou t pu t bu s . t hi s i s a d u al f u nc t i on pi n. a s p 1_d 2 , i t f u nc t i ons as par t of t he 1 2 - bi t bi d i r e c t i onal p ar a l l e l c m os l e v e l d at a po r t 1 . a l t e r na t i v e l y , t hi s pi n ( r x _ d 1_ n ) c a n f u nc t i on as pa r t of t he lv d s 6- bit rx differential output bus with internal lvds termination. k11 i/o p1_d0 /rx_d 0 _n digital data port p1/receive differential output bus. this is a dual function pin. as p1_d0 , it functions as part of the 12 - bit bidirectional parallel cmos level data port 1 . alternatively, this pin (rx_d0_ n ) can function as part of the lvds 6 - bit rx differential output bus with internal lvds termination. l4 i rbias bi as input reference. c onnect this pin through a 14.3 k ? ( 1% tolerance) resistor to ground. l5 i auxadc auxiliary adc input. if this pin is unused, tie it to ground. l6 o spi_do spi serial data output in 4- wire mode, high - z in 3- wire mode. m1, m2 i rxa _ p, rxa _n r eceive channe l differential input a. alternatively , each pin can be used as a single - ended input. unused pins must be tied to ground. m5 i tx_mon transmit channel power monitor input. if this pin is unused, tie it to ground. m 7 , m 8 o txa_p, tx a_n transmit channel dif ferential output a. unused pins must be tie d to 1.3 v. m9 , m 10 o txb_p, tx b_n transmit channel differential output b. unused pins must be tied to 1.3 v. m11 , m 12 i xtalp, xtaln reference frequency crystal connections. when a crystal is used, connect it b etween these two pins. when an external clock source is used, connect it to xtaln and leave xtalp unconnected. 1 i i s i n p ut , o i s o ut p ut , i/o i s i n p ut /o ut p ut , n c i s n o t c on n ec t ed . rev . b | p a ge 14 o f 32
data sheet AD9364 t y pi ca l pe rf orm a nce c ha ra ct e ri s t i cs 800 mhz frequency ba nd f i g u r e 3 . rx n o i s e f i g u re v s . f req u en cy f i g u r e 4 . r ssi e r r o r v s . inp ut p o we r , l t e 10 m hz m od u lat i on ( r ef eren c ed t o ? 5 0 d b m inp ut p o we r a t 80 0 m hz ) figure 5 . rssi error vs. input power, edge modulation (referenced to ?5 0 dbm input power at 800 mhz) f i g u r e 6 . rx e v m v s . inp ut p o w e r , 6 4 q a m l t e 10 m h z m o d e, 19. 2 m hz r e f _ c l k figure 7 . rx evm vs. input power, gsm mode, 30.72 mhz ref_clk (doubled internally for rf synthesizer) figure 8 . rx evm vs. interferer power level , lte 10 mhz signal of inte rest with p in = ?82 dbm, 5 mhz ofdm blocker at 7.5 mhz offset 0 0. 5 1. 0 1. 5 2. 0 2. 5 3. 0 3. 5 4. 0 700 750 800 850 900 rx no i s e f i g ure ( d b) f r eq u en c y (mh z) ?40 c + 25 c +85c 1 1846-003 ?3 ?2 ?1 0 1 2 3 4 5 ?100 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 rs s i e rro r ( d b) i np ut p o w e r (d bm) ?40c +25c +85c 1 1846-004 ?3 ?2 ?1 0 1 2 3 ? 1 10 ? 100 ? 90 ? 80 ? 70 ? 60 ? 50 ? 40 ? 30 ? 20 ? 10 rs s i e rro r ( d b) i np ut p o w e r (d bm) ?40c + 25 c + 85 c 1 1846- 005 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 ?75 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 r x evm (d b ) i np ut p o w e r (d bm) ?40 c +25c +85c 1 1846-006 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 r x evm (d b ) i np ut p o w e r (d bm) ?40c + 25 c + 85 c 1 1846- 007 ?30 ?25 ?20 ?15 ?10 ?5 0 ? 72 ? 68 ? 64 ? 60 ? 56 ? 52 ? 48 ? 44 ? 40 ? 36 ? 32 r x evm (d b ) i n t er f er er po w er l eve l ( d bm) ?40c +25c + 85 c 1 1846- 008 re v. b | p a ge 15 o f 32
AD9364 data sheet figure 9 . rx evm vs. interferer power level , lte 10 mhz signal of interest with p in = ?90 dbm, 5 mhz ofdm blocker at 17.5 mhz offset figure 10 . rx n oise figure vs. interferer power level , edge signal of interest with p in = ?90 dbm, cw blocker at 3 mhz offse t, gain index = 64 figure 11 . rx gain vs. frequency, gain index = 76 (maximum setting) figure 12 . third - order input intercept point (iip3) vs. rx gain index, f1 = 1.45 mhz, f2 = 2.89 mhz, gsm mode f i g u r e 13 . s e c on d - o r d e r inp ut int e r c e p t p o i nt ( iip 2 ) v s . rx g ai n i n d e x , f 1 = 2. 00 m hz , f 2 = 2. 0 1 m hz , g s m m o d e fi gure 14 . rx local oscillator (lo) leakage vs. frequency ?16 ?12 ?8 ?4 0 ?56 ?54 ?52 ?50 ?48 ?46 ?44 ?42 ?40 ?38 ?36 r x evm (d b ) i n t er f er er po w er l evel (d b m ) ?40c +25c +85c 1 1846-009 0 2 4 6 8 10 12 14 ?47 ?43 ?39 ?35 ?31 ?27 ?23 rx no i s e f i g ure ( d b) i n t er f er er po w er l evel (d b m ) ?40 c + 25 c +85c 1 1846-010 66 68 70 72 74 76 78 80 700 750 800 850 900 rx g ai n ( d b) f re q ue nc y (mh z) ?40 c + 25 c +85c 1 1846-0 1 1 ?25 ?20 ?15 ?10 ?5 0 5 10 15 20 20 28 36 44 52 60 68 76 i i p 3 ( d bm) ?40c +25c +85c rx gain index 1 1846-012 0 10 20 30 40 50 60 70 80 90 100 20 28 36 44 52 60 68 76 i i p 2 ( d bm) rx g ai n i nde x ?40 c + 25 c +85c 1 1846-013 ?130 ?125 ?120 ?115 ?110 ?105 ?100 700 750 800 850 900 rx l o l e akag e ( d bm) f r eq u en c y (mh z) ?40 c + 25 c +85c 1 1846-014 rev. b | page 16 of 32
data sheet AD9364 f i g u r e 15 . rx e m is s ion at l n a i n p u t , d c t o 1 2 g hz , f l o_ r x = 800 m hz , l t e 10 m hz , f l o_ t x = 86 0 m hz f i g u r e 16 . tx o ut p ut p o we r v s . f r e q u e nc y , a t t e nua t i o n s e t t i ng = 0 d b , si ng l e t o ne o ut p ut f i g u r e 17 . tx p o we r c o nt r o l l i ne a r i t y e r r o r v s . a t t e nua t i o n se t t i ng f i g u r e 18 . tx s p ect r u m v s . f r eq u en cy o f f s et f ro m c a r ri er f req u e n cy , f l o_ t x = 80 0 m hz , l t e 1 0 m hz d ow n l i n k ( d ig it al a t t e n u at i on v ar i at io n s s h ow n ) f ig u r e 19 . tx s p ec t r u m v s . f r e q u e n c y o f f s et f r o m c a r r i e r f r eq u en c y , f l o _ t x = 800 m hz , g s m d ow n lin k ( d ig i t al a t t e n u at ion v ar iat ion s s h o w n ) , 3 m hz r an g e f ig u r e 20 . tx s p ec t r u m v s . f r e q u e n c y o f f s et f r o m c a r r i e r f r eq u en c y , f l o _ t x = 800 m hz , g s m d ow n lin k ( d ig i t al a t t e n u at ion v ar iat ion s s h o w n ) , 12 m h z r an g e ?120 ?100 ?80 ?60 ?40 ?20 0 0 2000 4000 6000 8000 10000 12000 po w er a t ln a i np ut ( d bm/ 750khz ) f re q ue nc y (mh z) 1 1846-015 6.0 6. 5 7. 0 7. 5 8. 0 8. 5 9. 0 9. 5 10. 0 700 750 800 850 900 t x o ut p ut p o w e r ( d bm) f r eq u en c y (mh z) ?40 c + 25 c +85c 1 1846-016 ?0.5 ?0. 4 ?0. 3 ?0. 2 ?0. 1 0 0. 1 0. 2 0. 3 0. 4 0. 5 0 10 20 30 40 50 st e p l i ne ari t y e rro r ( d b) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-017 ?100 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 0 ?15 ?10 ?5 0 5 10 15 t x o ut p ut p o w e r ( d bm/ 100khz ) f re q ue nc y o f f set (mh z) att 0db att 3db att 6db 1 1846-018 ?100 ?80 ?60 ?40 ?20 0 20 t x o ut p ut p o w e r ( d bm/ 30khz ) f re q ue nc y o f f set (mh z) a tt 0 d b a tt 3 d b a tt 6 d b ?1.6 ?1.4 ?1.2 ?1.0 ?0.8 ?0.6 ?0.4 ?0.2 0 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1 1846-019 ?120 ?100 ?80 ?60 ?40 ?20 0 20 ?6 ?4 ?2 0 2 4 6 t x o ut p ut p o w e r ( d bm/ 30khz ) f re q ue nc y o f f set (mh z) a tt 0 d b a tt 3 d b a tt 6 d b 1 1846-020 rev. b | page 17 of 32
AD9364 data sheet f i g u r e 21 . tx e v m v s . tr a ns m i t te r atte n u a ti o n s e tti n g , f l o _ t x = 800 m hz , l t e 1 0 m hz , 6 4 q a m m od u l at i o n , 19. 2 m hz r e f _ c l k figure 22 . tx evm vs. tr ansmitter attenuation setting, f lo_tx = 800 mhz, gsm modulation , 30.72 mhz ref_clk (doubled internally for rf synthesizer) figure 23 . integrated tx lo phase noise vs. frequency, 19.2 mhz ref_clk figure 24 . integrated tx lo phase noise vs. frequency, 30.72 mhz ref_clk (doubled internally for rf synthesizer ) f i g u r e 25 . tx c a r ri e r r ej e ct i o n v s . f r eq u en cy figure 26 . tx second - order harmonic distortion (hd2) vs. frequency ?50 ?45 ?40 ?35 ?30 ?25 ?20 0 5 10 15 20 25 30 35 40 t x evm (d b ) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-021 ?50 ?45 ?40 ?35 ?30 ?25 ?20 0 10 20 30 40 50 t x evm (d b ) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-022 0 0. 1 0. 2 0. 3 0. 4 0. 5 700 750 800 850 900 in te gr a t ed ph a se n o i se ( r ms) f re q ue nc y (mh z) ?40 c + 25 c +85c 1 1846-023 0 0. 05 0. 10 0. 15 0. 20 0. 25 0. 30 700 750 800 850 900 in te gr a t e d p has e no i s e ( rms) f re q ue nc y (mh z) ?40 c +25c +85c 1 1846-024 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 700 750 800 850 900 t x carri e r am p l i t ude ( d bc) f re q ue nc y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-025 ?80 ?75 ?70 ?65 ?60 ?55 ?50 700 750 800 850 900 t x s e co nd- o rde r harm o ni c di s t o rt i o n ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-026 rev. b | page 18 of 32
data sheet AD9364 f i g u r e 27 . tx thi r d - o r d e r h ar m o n i c d i s t or t i on ( hd 3) v s . f req u e n cy figure 28 . tx third - order output intercept point (oip3) vs. attenuation setting figure 29 . tx signal - to - noise ratio (snr) vs. transmitter attenuation setting, lte 10 mhz signal of inter est with noise measured at 90 mhz offset figure 30 . tx signal - to - noise ratio (snr) vs. transmitter attenuation setting, gsm signal of interest with noise measured at 20 mhz offset f i g u r e 31 . tx si ng l e si d e b a nd ( ss b) r e j e c t i o n v s . f r e q ue n c y , 1. 5 3 75 m h z o ffse t ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 700 750 800 850 900 t x t hi rd- o rde r harm o ni c di s t o rt i o n ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-027 0 5 10 15 20 25 30 0 4 8 12 16 20 t x o i p 3 ( d bm) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-028 140 145 150 155 160 165 170 0 3 6 9 12 15 t x s nr ( d b/ hz ) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-029 140 145 150 155 160 165 170 0 4 8 12 16 20 t x s nr ( d b/ hz ) a tte n u a tion s e ttin g ( db ) ?40 c +25c +85c 1 1846-030 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 700 750 800 850 900 t x s i ng l e s i de band am p l i t ude ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-031 rev. b | page 19 of 32
AD9364 data sheet 2.4 ghz frequency ba nd f i g u r e 32 . rx n o i s e f i g u re v s . f req u en c y f i g u r e 33 . r ssi e r r o r v s . inp ut p o w e r , r ef ere n ced t o ? 5 0 d b m inp ut p ow e r at 2. 4 g hz f i g u r e 34 . rx e v m v s . inp ut p o we r , 64 q a m l t e 20 m hz m od e , 40 m hz r e f _ c l k figure 35 . rx evm vs. interferer power level , lte 20 mhz signal of interest with p in = ?75 dbm, lte 20 mh z blocker at 20 mhz offset f i g u r e 36 . rx e v m v s . i n t erf er er p o w e r l ev el , l te 2 0 m h z s i g na l o f int e r e s t wi t h p in = ? 75 d b m , l t e 2 0 m h z b lo c k e r at 4 0 m hz o f f s e t f i g u r e 37 . rx g ain v s . f r e q u e n c y , g ai n i n d e x = 7 6 ( m ax i m u m s e t t in g ) 0 0. 5 1. 0 1. 5 2. 0 2. 5 3. 0 3. 5 4. 0 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 rx no i s e f i g ure ( d b) f r eq u en c y (mh z) ?40 c + 25 c +85c 1 1846-032 ?3 ?2 ?1 0 1 2 3 4 5 ? 100 ? 90 ? 80 ? 70 ? 60 ? 50 ? 40 ? 30 ? 20 ? 10 rs s i e rro r ( d b) i np ut p o w e r (d bm) ?40 c + 25 c +85c 1 1846-033 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 ?75 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 r x evm (d b ) i np ut p o w e r (d bm) ?40c + 25 c + 85 c 1 1846- 034 ?30 ?25 ?20 ?15 ?10 ?5 0 ?72 ?68 ?64 ?60 ?56 ?52 ?48 ?44 ?40 ?36 ?32 ?28 r x evm (d b ) i n t er f er er po w er l eve l ( d bm) ?40 c + 25 c +85c 1 1846-035 ?30 ?25 ?20 ?15 ?10 ?5 0 ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 r x evm (d b ) i n t er f er er po w er l eve l ( d bm) ?40 c + 25 c +85c 1 1846-036 66 68 70 72 74 76 78 80 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 rx g ai n (d b) f re q ue nc y (mh z) ?40c + 25 c + 85 c 1 1846- 037 rev. b | p a ge 20 o f 32
data sheet AD9364 f i g u r e 38 . t h i r d - o r d e r inp ut i n t er cep t p o i n t ( iip 3 ) v s . rx g ain i n d e x , f 1 = 30 m h z , f 2 = 6 1 m h z f i g u r e 39 . s e c on d - o r d e r inp ut int e r c e p t p o i nt ( iip 2 ) v s . rx g ai n i n d e x , f 1 = 60 m h z , f 2 = 6 1 m h z f i g u r e 40 . rx l o ca l o s ci l l a t o r ( l o ) l ea k a g e v s . f req u en cy f i g u r e 41 . rx e m is s ion at l n a i n p u t , d c t o 1 2 g hz , f l o_ r x = 2. 4 g hz , l t e 20 m hz , f l o_ t x = 2. 46 g hz figur e 42 . tx output power vs. frequency, attenuation setting = 0 db, single tone output f i g u r e 43 . tx p o we r c o nt r o l l i ne a r i t y e r r o r v s . a t t e nua t i o n se t t i ng ?25 ?20 ?15 ?10 ?5 0 5 10 15 20 20 28 36 44 52 60 68 76 i i p 3 ( d bm) rx g ai n i nde x ?40c +25c +85c 1 1846-038 20 30 40 50 60 70 80 20 28 36 44 52 60 68 76 i i p 2 ( d bm) rx g ai n i nde x ?40 c + 25 c +85c 1 1846-039 ?130 ?125 ?120 ?115 ?110 ?105 ?100 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 rx l o l e akag e ( d bm) f r eq u en c y (mh z) ?40 c +25c +85c 1 1846-040 ?120 ?100 ?80 ?60 ?40 ?20 0 0 2000 4000 6000 8000 10000 12000 po w er a t ln a i np ut ( d bm/ 750khz ) f re q ue nc y (mh z) 1 1846-041 6.0 6. 5 7. 0 7. 5 8. 0 8. 5 9. 0 9. 5 10. 0 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 t x o ut p ut p o w e r ( d bm) f re q ue nc y (mh z) ?40 c + 25 c +85c 1 1846-042 ?0.5 ?0. 4 ?0. 3 ?0. 2 ?0. 1 0 0. 1 0. 2 0. 3 0. 4 0. 5 0 10 20 30 40 50 st e p l i ne ari t y e rro r ( d b) a tte n u a tion s e ttin g ( db ) ?40 c +25c +85c 1 1846-043 re v . b | p a ge 21 o f 32
AD9364 data sheet f i g u r e 44 . tx s p ec t r u m v s . f r eq u en cy o f f s et f ro m c a r ri er f req u e n cy , f l o_ t x = 2. 3 g h z , l t e 20 m h z d o w n l in k ( d ig it al a t t e n u at i on v ar i at ion s s h ow n ) f i g u r e 45 . tx e v m v s. t r a n sm i tte r atte n u a ti o n s e tti n g , 4 0 m h z re f _ c l k , l t e 20 m hz , 6 4 q a m m od u l at i on f i g u r e 46 . i n t eg ra t ed tx l o p h a s e n o i s e v s . f req u e n cy , 4 0 m h z r e f _ c l k f i g u r e 47 . tx c a r ri e r r ej e ct i o n v s . f r eq u en cy f i g u r e 48 . tx s e c on d - o r d e r h ar m o n ic d is t or t i on ( h d 2 ) v s . f req u en cy f i g u r e 49 . tx thi r d - o r d e r h ar m o n i c d i s t or t i on ( hd 3) v s . f r e q u e n c y ?120 ?100 ?80 ?60 ?40 ?20 0 ?25 ?20 ?15 ?10 ?5 0 5 10 15 20 25 t x o ut p ut p o w e r ( d bm/ 100khz ) f re q ue nc y o f f set (mh z) a tt 0 db a tt 3 db a tt 6 db 1 1846-044 ?50 ?45 ?40 ?35 ?30 ?25 ?20 0 5 10 15 20 25 30 35 40 t x evm (d b ) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-045 0 0. 1 0. 2 0. 3 0. 4 0. 5 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 in te gr a t e d p has e no i s e ( rms) f re q ue nc y (mh z) ?40 c + 25 c +85c 1 1846-046 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 t x carri e r am p l i t ude ( d bc) f re q ue nc y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-047 ?80 ?75 ?70 ?65 ?60 ?55 ?50 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 t x s e co nd- o rde r harm o ni c di s t o rt i o n ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-048 ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 ?20 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 t x t hi rd- o rde r harm o ni c di s t o rt i o n ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-049 rev. b | page 22 of 32
data sheet AD9364 figure 50 . tx third - order output intercept point (oip3) vs. attenuation setting figure 51 . tx signal - to - noise ratio (snr) vs. transmitter attenuation setting, lte 20 mhz signal of interest with noise measured at 90 mhz offset f i g u r e 52 . tx si ng l e si d e b a nd ( ss b) r e j e c t i o n v s . f r e q ue n c y , 3 . 075 m h z o ffse t 0 5 10 15 20 25 30 0 4 8 12 16 20 t x o i p 3 ( d bm) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-050 140 142 144 146 148 150 152 154 156 158 160 0 3 6 9 12 15 t x s nr ( d b/ hz ) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-051 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 1800 1900 2000 2100 2200 2300 2400 2500 2600 2700 t x s i ng l e s i de band am p l i t ude ( d bc) f r eq u en c y (mh z) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-052 rev. b | page 23 of 32
AD9364 data sheet 5.5 ghz frequency ba nd f i g u r e 53 . rx n o i s e f i g u re v s . f req u en c y f i g u r e 54 . r s s i e rr o r v s . i n p u t p o w er, r ef ere n ced t o ?5 0 d bm inp ut p o we r at 5. 8 g hz f i g u r e 55 . rx e v m v s . inp ut p o we r , 6 4 q a m w i m a x 4 0 m hz m od e , 40 m hz r e f _ c l k ( do ub l e d int e r n a l l y f o r r f sy nt he s i z e r ) figure 56 . rx evm vs. interferer power level , wimax 40 mhz signal of interest with p in = ?7 4 dbm, wimax 40 mhz blocker at 40 mhz offset f i g u r e 57 . rx e v m v s . i n t erf er er p o w e r l ev el , w i m a x 4 0 m hz s i g n a l of i n t e r e s t wi t h p in = ? 7 4 d bm , wi m a x 4 0 m hz b l oc k e r at 8 0 m h z o f fse t f i g u r e 58 . rx g ain v s . f r e q u e n c y , g ai n i n d e x = 7 6 ( m ax i m u m s e t t in g ) 0 1 2 3 4 5 6 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 rx no i s e f i g ure ( d b) f re q ue ncy ( g hz ) ?40 c +25c +85c 1 1846-053 ?3 ?2 ?1 0 1 2 3 4 5 ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 rs s i e rro r ( d b) i np ut p o w e r (d bm) ?40 c + 25 c +85c 1 1846-054 ?40 ?35 ?30 ?25 ?20 ?15 ?10 ?5 0 ?74 ?68 ?62 ?56 ?50 ?44 ?38 ?32 ?26 ?20 r x evm (d b ) i np ut p o w e r (d bm) ?40c + 25 c + 85 c 1 1846- 055 ?25 ?20 ?15 ?10 ?5 0 5 ?72 ?67 ?62 ?57 ?52 ?47 ?42 ?37 ?32 r x evm (d b ) i n t er f er er po w er l eve l ( d bm) ?40 c +25c +85c 1 1846-056 ?25 ?20 ?15 ?10 ?5 0 5 ?60 ?55 ?50 ?45 ?40 ?35 ?30 ?25 r x evm (d b ) i n t er f er er po w er l eve l ( d bm) ?40 c + 25 c +85c 1 1846-057 60 62 64 66 68 70 rx g ai n ( d b) ?40c +25 c + 85 c 5. 0 5. 1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 frequenc y (ghz) 1 1846-058 rev. b | p a ge 24 o f 32
data sheet AD9364 f i g u r e 59 . t hi r d - o r d e r inp ut i n t er cep t p o i n t ( iip 3 ) v s . rx g ain i n d e x , f 1 = 5 0 m hz , f 2 = 10 1 m hz f i g u r e 60 . s e c o nd - o r d e r inp ut int e r c e p t p o i nt ( iip 2 ) v s . rx g ai n i n d e x , f 1 = 7 0 m hz , f 2 = 7 1 m h z f i g u r e 61 . rx l o ca l o s ci l l a t o r ( l o ) l ea k a g e v s . f req u en cy f i g u r e 62 . rx e m is s ion at l n a i n p u t , d c t o 2 6 g hz , f l o_ r x = 5. 8 g hz , w i m a x 4 0 m hz f i g u r e 63 . tx o ut p ut p o we r v s . f r e q u e nc y , a t t e nua t i o n s e t t i ng = 0 d b , si ng l e t o ne f i g u r e 64 . tx p ow e r c on t r o l l i n e a r i ty e r r o r v s. atte n u a ti o n s e tti n g ?20 ?15 ?10 ?5 0 5 10 15 20 6 16 26 36 46 56 66 76 i i p 3 ( d bm) rx g ai n i nde x ?40c +25c +85c 1 1846-059 20 30 40 50 60 70 80 20 28 36 44 52 60 68 76 i i p 2 ( d bm) rx g ai n i nde x ?40c +25c +85c 1 1846-060 ?110 ?108 ?106 ?104 ?102 ?100 ?98 ?96 ?94 ?92 ?90 rx l o l e akag e ( d bm) 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 f re q ue ncy ( g hz ) ?40c +25c +85c 1 1846-061 ?120 ?100 ?80 ?60 ?40 ?20 0 0 5 10 15 20 25 30 po w er a t ln a i np ut ( d bm/ 150khz ) f re q ue nc y (g h z) 1 1846- 062 4 5 6 7 8 9 10 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5. 5. 6 5. 7 5. 8 5. 9 6. 0 t x o ut p ut p o w e r ( d bm) f re q ue nc y (g h z) ?40c +25c +85c 1 1846-063 ?0.5 ?0. 4 ?0. 3 ?0. 2 ?0. 1 0. 0 0. 1 0. 2 0. 3 0. 4 0. 5 0 10 20 30 40 50 60 70 80 90 st e p l i ne ari t y e rro r ( d b) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-064 rev. b | page 25 of 32
AD9364 data sheet figure 65 . tx spectrum vs. frequency offset from carrier frequency, f lo_tx = 5.8 ghz, wimax 4 0 mhz downlink (digital attenuation variations shown) figure 66 . tx evm vs. transmitter attenuation setting, wimax 40 mhz, 64 qam modulation , f lo_tx = 5.495 ghz, 40 mhz ref_clk (doubled internally for rf synthesizer) figure 67 . integrated tx lo phase noise vs. frequency, 40 mhz ref_clk (double d internally for rf synthesizer) f i g u r e 68 . tx c a r ri e r r ej e ct i o n v s . f r eq u en cy f i g u r e 69 . tx s e c on d - o r d e r h ar m o n ic d is t or t i on ( hd 2) v s . f r e q u e n c y f i g u r e 70 . tx thi r d - o r d e r h ar m o n i c d i s t or t i on ( hd 3) v s . f r e q u e n c y ?90 ?80 ?70 ?60 ?50 ?40 ?30 ?20 ?10 0 ?50 ?40 ?30 ?20 ?10 0 10 20 30 40 50 t x o ut p ut p o w e r ( d bm/ 1m hz ) f re q ue nc y o f f set (mh z) a tt 0 d b a tt 3 d b a tt 6 d b 1 1846-065 ?40 ?38 ?36 ?34 ?32 ?30 0 2 4 6 8 10 t x evm (d b ) a tte n u a tion s e ttin g ( db ) ?40 c + 25 c +85c 1 1846-066 0 0. 1 0. 2 0. 3 0. 4 0. 5 0. 6 0. 7 0. 8 in te gr a t ed ph a se n o i se ( r ms) 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 frequenc y (ghz) ?40 c + 25 c +85c 1 1846-067 ?70 ?60 ?50 ?40 ?30 ?20 ?10 0 t x carri e r am p l i t ude ( d bc) 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9 6.0 frequenc y (ghz) at t 0, ?40 c att 25, ?40c att 50, ?40c at t 0, + 25 c att 25, +25c att 50, +25c at t 0, + 85 c att 25, +85c att 50, +85c 1 1846-068 ?80 ?75 ?70 ?65 ?60 ?55 ?50 t x s e co nd- o rde r harm o ni c di s t o rt i o n ( d bc) 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 f re q ue ncy ( g hz ) at t 0, ?40 c att 25, ?40c att 50, ?40c at t 0, + 25 c att 25, +25c att 50, +25c att 0, +85c att 25, +85c att 50, +85c 1 1846-069 ?50 ?45 ?40 ?35 ?30 ?25 ?20 ?15 ?10 t x t hi rd- o rde r harm o ni c di s t o rt i o n ( d bc) 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 frequency (ghz) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c at t 0, + 85 c at t 25, + 85 c att 50, +85c 1 1846-070 rev. b | page 26 of 32
data sheet AD9364 figure 71 . tx third - order output intercept point (oip3) vs. attenuation setting , f lo_tx = 5.8 ghz figure 72 . tx signal - to - noise ratio (snr) vs. transmi tter attenuation setting, wimax 40 mhz signal of interest with noise measured at 90 mhz offset , f lo_tx = 5.745 ghz f i g u r e 73 . tx si ng l e si d e b a nd ( ss b) r e j e c t i o n v s . f r e q ue n c y , 7 m h z o f f s e t ?4 0 4 8 12 16 20 0 4 8 12 16 20 t x o i p 3 ( d bm) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-071 142 143 144 145 146 147 148 149 150 0 3 6 9 12 15 t x s nr ( d b/ hz ) a tte n u a tion s e ttin g ( db ) ?40c +25c +85c 1 1846-072 ?70 ?65 ?60 ?55 ?50 ?45 ?40 ?35 ?30 t x s i ng l e s i de band am p l i t ude ( d bc) 5. 0 5. 1 5. 2 5. 3 5. 4 5. 5 5. 6 5. 7 5. 8 5. 9 6. 0 f re q ue ncy ( g hz ) at t 0, ?40 c at t 25, ?40 c att 50, ?40c at t 0, + 25 c at t 25, + 25 c att 50, +25c att 0, +85c att 25, +85c att 50, +85c 1 1846-073 rev. b | page 27 of 32
AD9364 data sheet t he o r y o f ope ra t i on g e n e r a l th e a d 9364 is a hig h l y in t e g r a t e d r ad io f r e q u e n c y ( r f ) t r ans c e iv e r c a p a b l e o f b e i ng c o nf i g u r e d f o r a wid e r a n g e o f ap p l i c at i o n s . th e de v i c e i n t e g r a t e s a l l r f , mi x e d s i g na l , a nd d i g i t a l b lo c k s n e c e s s a r y t o p r o vi d e a l l t r a n s c ei ver f u n c t i o n s i n a si n g le d e v i c e . p r o g r am m ab i l i t y a l l o w s t h is b r o a d b and t r ans c e i v e r t o b e a d a p t e d f o r u s e w i t h m u l t i p l e c o mm u n i c a t i o n s t a nda r ds , in c l u d in g f r e q u e n c y d iv is io n d u p l e x ( f d d ) a n d t i m e d iv is io n d u p le x ( t d d ) s y s t e m s. t h i s p r o g r a m m a b i li t y a ls o a l lo w s t h e d e v i c e t o b e i n t e r f a c e d t o v ar i o u s b a s e b and p r o c e s s o r s ( b b p s ) u s ing a s in g l e 12 - b i t p a r a l le l d a t a p o r t , d u a l 12 - b i t p a r a l le l d a t a p o r t s, or a 12 - b i t l o w v o l t a g e d i f f er en t i a l s i g n a l i n g ( l v ds ) i n t er f a c e. th e a d 9364 a l s o p r o vi d es s el f c a l ib r a t io n an d a u t o m a t ic g ain c o n t r o l ( a g c ) s y s t e m s t o m a i n t a in a hig h p e r f o r m a n c e l e v e l u nd e r v a r y i ng t e m p e r a t u r e s and i n p u t s i g n a l c o nd i t i o ns . i n a ddi - t i o n , t h e d e vi c e i n c l u d es s e v er a l t es t m o d e s t h a t a l l o w s y s t em de s i g ne r s t o i n s er t t es t t o n es a n d c r e a t e i n t er n a l l o o p b a c k m o d es t h a t c a n b e u s e d b y d es i g n er s t o d eb u g t h e i r d es i g n s d u r i n g p r o t o t y p in g an d o p t im i z e t h e ir r ad io c o n f ig u r a t io n f o r a s p e c if ic a p p l ic a t io n . r ec e i v er t h e r e c ei v er s ec ti o n c o n ta i n s a l l b l o c k s n ec e s s a r y t o r ec e i v e r f s ig n a l s a n d c o n v e r t t h e m t o d ig i t a l d a t a t ha t is u s a b l e b y a b b p . i t has t hr e e i n p u t s t ha t c an b e m u l t i p l e x e d t o t h e s ig n a l c ha i n , m a k in g t h e ad9 364 s u i ta b le f o r u s e i n m u l ti ba n d s y s t e m s wi th m u l t i p l e an t e n n a in p u t s . t h e re c e i v e r i s a d i re c t c on v e r s i on sy s t e m t h a t c o n t a i n s a lo w n o i s e a m p li f i e r ( ln a ) , f o l lo w e d b y m at c h e d i n - p has e ( i ) a n d q u ad r a t u r e ( q ) a m p l i f ie r s , m ix e r s , an d b a nd s h a p i ng f i l t e r s t h a t d o w n c o n v er t r e c ei v e d s i g n a l s t o b as e b an d f o r d i g i t iz a t io n . e x t e r n a l l n a s c a n a l s o b e in t e r f ac e d t o t h e d e vi c e , a l l o w i n g d es i g n er s t h e f l ex i b i l i ty to c u s t o m i z e t h e r e c e i v e r f r o n t e n d f o r t h e ir s p e c if ic a p p l ic a t io n . g a i n c o n t r o l is ac hie v e d b y f o l l o w in g a p r e p r o g r am me d g ai n in d e x m a p t ha t d is t r ib u t e s g a i n a m o n g t he b l o c ks f o r o p t im al p er f o r m a n c e a t e a c h l e ve l . t his c a n b e ac hie v e d b y e n a b l in g t he i n t e r nal a g c i n ei t h er f a s t o r s l o w m o d e o r b y u si n g m a n u a l g ai n c o n t r o l , a l l o w i ng t he b b p t o m a ke t he g ai n a dj u s t me n t s a s ne e d e d. a d d i t io n a l l y , e ac h c hann e l c o n t a in s i n d e p e n d e n t r s s i me a s u r e me n t c a p ab i l it y , dc o f f s e t t r ac k in g , an d a l l c ir c u i t r y ne c e ss ar y f o r s el f c a l ib r a t io n . t h e r e c ei v er i n c l u d e s 12 - b it , - ad cs a nd a dju s t ab l e s am p l e r a t es t h a t p r o d u c e d a t a s t r e a m s f r o m t h e r ec ei v e d s i g n a l s . t h e d ig i t ize d s ig n al s c a n b e c o n d i t io n e d f u r t h e r b y a s e r ie s o f d e c i m a t i o n f i l t e r s and a f u l l y p r o g r am mab l e 128 - t a p f i r f i l t er w i t h ad di t i o nal d e c i ma t i o n s e t t in g s. t h e s am p l e r a t e o f e ac h d i g i t a l f i l te r bl o c k i s a dj u s t ab l e b y c ha n g i n g d e c im a t io n f ac t o r s t o p r o d u c e t h e d es i r e d o u t p u t d a t a r a t e . t r a nsm i t t e r t h e t r a n s m i t t e r s e c t i on c on s i s t s of t w o d i f f e r e n t i a l o u t p u t st a ge s t h a t c an b e m u l t i p l e x e d t o t he t r a ns m i t c han ne l . t h e t r a ns m it c h an ne l p r o v i d e s a l l d ig i t a l p r o c e s s in g , m ix e d s i g n a l , and r f b l o c k s n e c es s a r y t o i m p l em en t a d i r e c t c o n v er s i o n sy s t em . t h e d i g i ta l d a ta r ec ei v ed f r o m t h e b b p p a s s e s t hr o u g h a f u l l y p r o g r am m ab l e 1 2 8 - t a p f i r f i l t er w i t h i n t e r p o l a t i o n op t i on s. t he f i r o u t p u t i s s e nt t o a s e r ie s o f in t e r p o l a t io n f i l t er s th a t p r o vi d e a ddi t i o na l f i l t e r i n g a n d da t a r a t e i n t e r p o l a t i o n p r i o r t o r e ac h i ng t he d a c . e ac h 1 2 - b i t d a c has an ad j u s t ab l e s a m p l in g r a t e . b o t h t h e i a nd q c h a nne l s a r e f e d t o t h e r f b l o c k f o r u p c on v e r s i on . whe n c o n v e r t e d t o b a s e b a nd a na lo g s i g na ls, t h e i a nd q s i g na l s ar e f i l t e r e d t o r e mo v e s am p l i ng ar t i f a c t s a nd f e d t o t he u p c o n - ve r s i o n m i xe rs . a t t hi s p o in t , t he i and q s ig n a l s ar e r e c o m b i ne d an d mod u la t e d o n t he c ar r i e r f r e q u e nc y f o r t r a ns m i s si on t o t h e o u t p ut st a ge . t h e c o mb i ne d s i g n a l a l s o p a ss es t h rou g h a n a l o g f i l t e r s t h a t p r o v i de a d di t i o na l b a nd s h a p i ng , a nd t h e n t h e s i g nal is t r ans m it t e d to t h e o u t p u t a m p l i f i er . th e t r an sm i t c h an n e l p r ov i d es a wi d e a t t en u a t i o n a d j u s t m en t r a n g e w i t h f i n e g r a n u l ar it y t o he l p d e sig n e r s o p t im iz e s ig n a l - t o - n o is e r a t io ( s n r ) . s el f c a l ib r a t io n c ir c u i t r y is b u i l t in t o e ac h t r a n s m i t c han n e l t o p ro v i d e a u t om a t i c re a l - t i m e a d ju s t me n t . t he t r ans m it t e r b lo c k a l s o p r o v id e s a t x m o n i t o r b lo c k . t h i s b lo c k m o n i t o r s t h e t r ans m i t t e r o u t p u t an d r o u t e s i t b ac k t hr o u g h t he r e c ei v er c h a n n e l t o t h e b b p f o r si g n a l m o n i t o r i n g. t h e t x m on i t or bl o c k i s a va i l a b l e o n l y i n t d d m o d e o p er a t i o n w h i l e t h e r e c e i ve r i s i d l e. c l oc k i np u t op t i on s th e a d 9364 o p er a t es u s i n g a r ef er en c e c l o c k t h a t c a n b e p r o vi d e d b y tw o d i f f er en t s o u r c es . t h e f ir s t o p t io n is t o u s e a de di c a t e d c r y st a l wi t h a f r eq u en c y b etw e en 1 9 m h z a n d 5 0 mh z co n n e c t e d b e tw e e n t h e x t al p a n d x t al n p in s . t h e s e c on d o p t i on i s t o c o nn e c t a n e x t e r na l o s c i l l a t o r o r c l o c k d i s t r i b u t i o n de v i c e ( s u c h a s t he a d 9548 ) t o th e x t al n p i n ( w i t h t h e x t al p pi n r e mai n i ng u nc o n ne c t e d ) . i f an e x t e r n a l o s c i l la t o r i s u s e d, t he f r e q u e nc y c an va r y b etwe e n 1 0 m h z an d 8 0 m h z. t his r e f e r e n c e c l o c k is u s e d t o s u p p l y t h e sy n t h es i z er b lo c k s t h a t g e n er a t e a l l d a t a c lo c k s, s a m p le c lo c k s, a n d lo c a l o s c i l la t o r s i n si d e t h e d e v i c e . e r r o r s i n t h e c r y s t a l f r e q u e nc y c an b e r e mo v e d b y u si ng t he d i g i t a l l y p r og r a m m a b l e d i g i ta l l y c o n tr o l l ed c r y s ta l o s c i l l a t o r ( d c xo ) f u n c t i on t o a d j u s t a n on - c hi p v a r i a b l e c a p ac i t o r . t hi s c a p a c i t o r c a n t u n e t h e c r y s t a l f r e q u en c y va r i a n c e o u t o f t h e s y s t e m , r e s u l t i n g in a m o r e a c c u r a t e r e f e r e n c e c l o c k f r o m w hic h a l l o th e r f r eq u en c y si g n a ls a r e g e n e r a t e d . t h i s f u n c t i o n c a n a ls o b e u s e d w i t h o n - c h i p tem p er a t u r e s en si n g t o p r o vi d e o s c i l l a t o r f r e q u e n c y t e m p e r at u r e c o m p e n s at i o n d u r i n g n o r m a l o p e r at i o n . rev. b | page 28 of 32
data sheet AD9364 s y n t h e s iz e r s rf pll s th e a d 9364 c o n t a i n s t w o i d e n t i c a l s y n t h es i z er s t o g en er a t e t h e re q u i re d l o si g n a ls f o r t he r f s ig n a l p a t hs o n e f o r t h e r e c ei v e r a nd o ne f o r t h e t r a ns m it t e r . p has e - lo c k e d lo o p ( p ll) sy n t h e si z e r s a re f r a c t i on a l - n d e si g n s i n c or p or a t i n g c o m p l ete l y i n t eg r a te d v o l t a g e c o n t r o l l e d o s c i l l a t o r s ( v c o s ) a nd l o o p f i l t e r s . i n td d mo d e , t h e s y n t he s ize r s t u r n o n a n d o f f as a p p r o p r ia t e f or t h e rx a nd tx f r ame s . i n f d d mo d e , t he tx p ll a nd t he rx pll c a n b e a c t i v a t e d a t t h e s a m e t i m e. t h es e p l l s r e q u i r e n o ex t er n a l c o m p o n e n t s. bb pll th e a d 9364 a ls o c o n t a i n s a b a s e b a n d p ll ( b b pll) s y n t h e s i ze r t ha t is u s e d t o g en er a t e a l l b a s eb a n d r e l a t e d c l o c k s i g na l s . th e s e i n c l u de t h e a d c a n d d a c s a m p l i n g c lo c k s, t h e d a t a _ clk si g na l (s e e t he d ig i t a l d a t a i n t e r f a c e s e c t i o n) , a n d al l da t a f r a m in g s ig n al s . t his p l l is p r o g r a m m e d f rom 700 m hz t o 1 400 m hz b a s e d o n t h e d a t a r a t e a n d s a m p l e r a t e r e q u i r em en ts of t h e sy st e m . d igi t a l d a t a in t e r f a ce th e a d 9364 d a t a i n t e r f a c e u s e s p a r a l le l d a t a p o r t s ( p0 a n d p1 ) t o tr a n s f er d a t a b etw e en t h e d e vi c e a n d t h e b b p . the d a t a p o r t s c a n b e c o n f i gu r e d i n e i t h e r si n gle - en d e d c m o s f o r m a t o r d i f f er en t i a l l v ds f o r m a t. b ot h f o r m a t s c an b e c o nf i g u r e d i n m u l t i p l e a r r an g e - m en ts t o m a t c h s y s t e m re q u i re m e n t s f or d a t a ord e r i n g a n d d at a p or t c on n e c t i on s. t he s e ar r ang e me n t s i n c l u d e s i ng l e p o r t d a t a b u s, d u a l p o r t d a t a b u s, si n g l e d a t a r a t e , a nd d o u b l e d at a r at e . b u s t r ans f e r s ar e c o n t r o l l e d u si ng s i m p l e h ar d w ar e h a nd s h a ke si g n a li n g. th e t w o p o r ts c a n b e o p er a t e d i n ei t h er b i d i re c t i on a l ( ha l f - du p l e x ) mo de o r i n f u l l d u p le x m o d e w h er e h a l f t h e b i ts a r e u s e d f o r t r an s m i t t i ng d a t a and h a l f ar e u s e d f o r r e c e iv i ng d a t a . t he i n t e r f ac e c an a l s o b e c on f i g u re d t o u s e on l y on e of t h e d a t a p o r t s f o r ap p l i c at i o n s t h at do no t r e q u ir e hi g h d a t a r a t e s an d p r ef er t o u s e f ew er i n t er f a c e p i n s. d at a_ c l k si g n a l th e a d 9364 s u p p li e s t h e d a t a _c l k s i g na l t h at t h e bbp u s e s w h en r e c ei vi n g th e d a t a . t he d a t a _clk si g n a l c a n b e s et t o a r a t e t h a t p r o vi d es s i n g l e d at a r at e ( s d r ) t im in g w he r e d a t a is s a m p l e d o n e ac h r is in g c l o c k e d g e , o r i t c a n b e s et t o p r o vi d e do u b l e da t a r a t e ( d d r ) t im in g w h e r e d a t a is c ap t u r e d on b ot h r i si n g a nd f a l l i ng e dg e s. s dr o r ddr t im i n g a p p l ie s t o o p er a t i o n u si n g ei t h er a s i n g l e p o r t o r b o t h p o r ts . f b_ c l k si gn a l f o r t r a n sm i t d a t a , t h e i n t er f a c e u s es t h e f b _ c l k si g na l as t he t i m i n g r ef er en c e . f b _c lk a l lo w s s o u r c e s y n c h ron ou s t i m i ng wi t h r is in g e d g e c a p t u r e f o r b u r s t c o n t r o l s ig n a l s a n d e i t he r r i si n g e d g e ( s dr m o d e) o r b o t h e d g e c a p t u r e ( d d r m o d e) f o r t r a n sm i t si g n a l b u r s t s. t h e f b _ c lk s ig n a l m u s t ha v e t he s am e f r e q u e nc y and du t y c y c le a s d a t a _c l k . rx _ fra m e s i g na l th e d e vi c e g en er a t es a n r x _ f ram e o u t p u t s i g n a l w h en e v er t h e r e c ei v er o u t p u ts va l i d d a t a . t h i s si g n a l h a s t w o m o d e s: le v e l m o d e ( r x _f r a m e s t a y s h i g h a s lo n g a s t he da t a i s v al id ) a n d pu l s e m o d e ( r x _ f r am e p u l s es wi t h a 5 0 % d u ty c y c l e) . si m i l a r ly , t h e b b p m u s t p r o vi d e a t x _f r am e s i g n a l t h a t i n d i c a t es t h e b e g in n in g o f a v a l id d a t a t r a n s m i s s io n w i t h a r i s in g e d g e . s im i l a r t o t he r x _f r a m e si g na l , t h e t x_ f r a m e s ig n a l c an re m a i n hig h t hr o u g h o u t t he b u r s t o r i t c a n be p u l s e d wi th a 50% du t y c y c le. e n a b l e s t a t e m a c h in e t he a d 9364 t r ans c e iv e r i nc l u d e s an e n a b l e s t a t e m a c hin e ( e ns m ) t h at a l lo w s r e a l - t i m e c o n t r o l o ver t h e c u r r en t s t a t e o f t h e d e vi c e. t he d e v ic e c a n b e p l a c e d i n s e ver a l d i f f er e n t s t a t es d u r in g n o r m al o p e r at i o n , i nc l u d i ng ? wa i t p o w e r s a v e , sy n t h e si z e r s d i s a b le d ? s l e ep w a i t w i t h a l l c l o c ks /b b p ll d i s a b le d ? tx tx s ig n a l c ha in e n a b l e d ? rx rx s ig n a l c ha in e n a b l e d ? f dd tx a nd rx si g na l c h a i ns e na b l e d ? al er t sy n t h es i z er s en a b l e d t he e n s m ha s t w o p o s s i b l e c o n t r o l m e t ho d s : sp i c on t ro l a n d p i n c on t r ol . s pi con t r ol m od e i n s p i c o n t r o l mo d e , t he e n s m is c o n t r o l l e d as y nc h r o no u s l y b y wr i t i n g s p i r eg i s t er s t o a d va n c e t h e c u r r e n t s t a te t o t h e n ex t s t a t e. s p i c o n t r o l i s c o n si d e r e d a s y n c h r o n o u s t o t h e d a t a _clk b e ca us e t h e s p i_ c l k ca n b e de r i v e d f r o m a di f f e r e n t cl o ck re f e re n c e and c an st i l l f u n c t i on p rop e rl y . t h e sp i c o n t r o l e n sm m e t h o d i s r e c o mme nde d w h e n r e a l - t i m e c o n t ro l of t h e sy n t h e si z e r s i s n o t n e c e s s a r y . s p i c o n tr o l c a n be u s ed f o r r ea l - t i m e c o n t r o l a s lo n g a s t h e bbp ha s t he ab i l i t y t o p e r f o r m t im e d s p i wr i t es a c c u r a t el y . pin con t r ol m od e in p i n c on t rol mo d e , t he e n ab l e f u nc t i o n o f t he e na b l e pi n and t h e t xnr x p in al l o w r e al - t i m e c o n t r o l o f t h e c u r r en t s t a t e . t he e n s m a l l o ws t d d o r f d d o p er a t i o n d ep e n d i n g o n t h e c on f i g u r a t i on o f t h e c o r r es p o n d i n g s p i r eg i s te r . th e e n a b l e a nd t xn r x p i n c o n t r o l m e t ho d is r e c o m m e n d e d if t he b b p h a s e x t r a c on t ro l ou t p u t s t h a t c a n b e c on t ro l l e d i n re a l t i m e , a l l o w in g a s im p l e 2 - w i r e i n t er f a c e t o c o n t r o l t h e s t a t e o f t h e d e v i c e. t o a d va n c e t h e c u r r en t s t a te o f t h e e n s m t o t h e n ex t s t a t e, t h e e n ab l e f u nc t i o n o f t he e n a b l e p i n c a n b e dr i v e n by ei t h er a p u ls e ( e d g e d e t e c t e d i n ter n a l l y ) o r a l e v e l . whe n a p u l s e is u s e d , i t m u s t ha v e a m in im u m p u l s e w id t h o f on e f b _clk c y cl e . i n le v e l m o d e , t h e e n a b le a n d t x n r x p i n s a r e a l s o e d g e d et e c t e d b y t h e a d 9364 a nd m u s t m e et t h e s a m e m in im u m p u ls e w i d t h r e q u i r e m e n t o f o n e f b _clk c y c le . i n f d d m o d e , th e e n ab l e a n d t x n r x p i n s c a n b e r em a p p e d t o s er v e a s r e a l - ti m e rx and tx d a t a t r a n sf e r c o n t r o l s i g n a l s . in t h i s mo d e , t he e n ab l e f u nc t io n o f t he e n ab l e p i n a s s u m es t h e r xo n rev. b | page 29 of 32
AD9364 data sheet f u n c t i on ( c on t r ol l i ng w he n t he rx p a t h i s e n ab l e d and di s a b l e d) , an d t he t x n r x p i n a s s u me s t he t xo n f un ct i o n ( co nt r o l l i n g w he n t he tx p a t h is e na b l e d a nd d is ab l e d ) . i n t his m o d e , t he e n s m is r e m o v e d f r o m t he s y s t e m f or c on t ro l o f a l l d a t a f lo w b y t he s e p i ns . spi i n t e r f a c e th e a d 9364 u s e s a s er i a l p er i p h e r a l i n t e r f a c e ( spi ) t o c o m m u n i - c at e w i t h t h e bbp . th e sp i c a n b e c o nf i g u r e d a s a 4 - wi r e i n t er f a c e w i t h d e d i c a t e d r e c ei v e a n d t r a n sm i t p o r ts , o r i t c a n be c on f i g u re d a s a 3 - wir e in t e r f ac e w i t h a b i d ir e c t io n al d at a c om m u n i c a t i on p or t . t h i s b u s a l l o w s t h e b b p t o s et a l l d e vi c e c o n t r o l p ar ame t e r s u si n g a si m p le a d d r e s s d a t a s e r ia l b u s p rot o c o l . w r i t e c o m m an d s f o l l o w a 2 4 - b i t f o r m a t. t h e f i r s t si x b i ts a r e u s e d t o s e t t h e b u s d i r e c t i o n a n d n u m b er o f b y tes t o t r a n sf er . t h e n ex t 10 b i ts s et t h e a d d r es s w h er e d a t a i s t o b e w r i tt e n . th e f i na l e i g h t b i ts a r e t h e d a t a t o b e t r a n s f er r e d t o t h e s p e c i f i e d r eg i s t er a d d r es s ( m s b t o l s b ) . th e a d 9364 a ls o s u p p o r t s a n lsb - f i r s t f o r m a t t h a t a l l o w s t h e c o m m a n d s t o be w r i t t e n in l s b t o ms b f o r m a t . in t hi s m o d e , t he r e g is t e r ad d r e s s e s a re i n c re - m en t e d f o r m u l ti b y t e w r i t e s. r e a d c o m m an d s f o l l o w a s im i l ar f o r m a t wi t h t he ex c ep t i on th a t t h e f i r st 1 6 b i ts a r e t r a n sf er r e d o n t h e s p i _d i p i n a n d t h e f i n a l ei g h t b i ts a r e r e a d f r o m t h e a d 9364 , ei t h er o n t h e s p i _d o p i n i n 4 - w i r e m o d e o r o n t h e s p i _di p i n i n 3 - w i re m o d e . c on t r ol p i ns con t r ol o u t p u t s ( ct rl_ o u t7 t o ct rl_ o ut 0) t he a d 9364 p r o vi d es ei g h t s i m u l ta n eo u s r ea l - t i m e o ut p ut s i g n a l s f o r u s e a s i n t er r u p t s t o t h e b b p . the s e o u t p u t s c an b e c o nf i g u r e d to o u t p u t a n u m b e r o f in t e r n a l s e t t in g s an d m e a s u r em en ts t h a t t h e b b p c an u s e w he n mo n i t o r i ng t r ans c e iv e r p e r f o r m anc e i n d i f f e r e n t si t u a t i o n s. t he c o nt r o l o u t p u t p o i nt e r r eg i s t er s e l e c ts w h a t i n f o r m a t io n i s o u t p u t t o t he s e p ins , and t he c o n t r o l o ut p ut e n a b l e r e g is t e r d e t e r m i n e s w hic h s i g n al s a r e ac t i v a t e d f o r m on i t or i n g b y t h e bbp . s i g na l s u s e d f o r ma n u a l g a i n m o d e , c a li b r a t i o n f la gs, s t a t e m ac hin e s t a t e s , and t he a d c o u t p u t ar e amo ng t he o u t p u t s t h a t c a n b e m on i t ore d o n t he s e p ins . con t r ol i np u t s ( ct rl_ i n 3 t o ct rl_ i n 0) th e a d 9364 p r o vi d es f ou r e d g e d e t e c t e d c o nt r o l i np u t p i n s . in m an u a l g ai n mo d e , t he b b p c an u s e t he s e p i ns t o c h ang e t he g ai n t a b le in d e x in r e al t im e . i n t r a n s m i t m o d e , t h e b b p c a n u s e tw o o f t he p i ns t o c h ang e t he t r ans m i t g ai n i n r e a l t i me . g po pi ns ( g po _ 3 t o g p o_ 0 ) th e a d 9364 p r o vi d es f o u r , 3 .3 v c ap a b l e g e ne r a l - pu r p o s e l o g ic o u t p u t p i n s : gp o_3 , gpo_2 , g po_1 , a n d g p o_0 . t h es e pi n s c a n b e u s e d t o c o n t r o l o t h er p er i p h er a l d e vi c es s u c h a s r eg u l a t o r s an d s w i t c he s v i a t he a d 9364 spi b u s , o r th ey c a n f u nc t i o n a s s l av e s f or t h e i n t er n a l a d 9364 s t a t e m ac h i n e . au xil ia r y c on v e r t e r s au x ad c th e a d 9364 co n t ai ns an a u x i l i a r y a d c t h a t c an b e u s e d t o m on - i t or s y s t e m f u n c t i on s s u c h a s t e m p e r a t u re or p o w e r ou t p u t . t he c o n v er t er i s 1 2 b i ts w i d e a n d h a s a n i n p u t r a n g e o f 0. 05 v t o v d d a 1p 3 _b b ? 0. 05 v . w he n e n ab l e d, t he a d c i s f r e e r u n n i ng . s p i re a d s p ro v i d e t he l a s t va l u e l a t c h e d a t t h e a d c o u t p u t. a m u l t i p l e x e r i n f ron t of t h e ad c a l l o ws t h e u s e r t o s e l ec t b etw e en t h e a ux a d c in p u t p in an d a b u i l t - i n tem p er a t u r e s en s o r . a ux d a c1 a n d a ux d a c2 th e a d 9364 c on t a i n s t w o i d e n t i c a l a u x i li a r y d a cs t h a t c a n p r o vi d e p o w er a m p l i f i er ( p a) b i a s o r o t h er s y s t e m f u n c t i o n a l i ty . t h e a u x i l i a r y d a cs a r e 1 0 b i ts w i d e , h a v e a n o u t p ut v o l t a g e r a n ge o f 0 .5 v t o v d d _gpo ? 0 .3 v, a c u r re n t d r i v e of 1 0 m a , and c an b e d i r ec tl y c o n tr o l l ed b y t h e in t e r n a l e n a b l e s t a t e m ac hin e . rev. b | page 30 of 32
data sheet AD9364 pa ck a gi n g a n d o r de ri ng i nf o rm a t i on ou t l in e d i m e n s io n s f i g u r e 74 . 14 4 - b al l c h ip s c a le pa c k ag e b a l l g r i d a r r ay [ c s p_ b g a ] ( bc - 14 4 - 7) d i m e n s i on s s h ow n in m il l i me t e r s or d e r in g g u id e model 1 temperature range package description package option AD9364 bbcz ?40 c to +85 c 144- ball csp_ bga bc -144-7 AD9364 bbcz r eel ? 40c to +85c 144- ball csp_bga bc -144-7 1 z = rohs compliant part. co m p l i ant t o je de c s t andards m o - 275- e e ab- 1. 1 1-18-20 1 1- a 0. 80 0. 60 re f a b c d e f g 9 10 8 11 12 7 5 6 4 2 3 1 bottom view 8. 80 s q h j k l m detail a t o p vi ew d e ta il a co p l anari t y 0. 12 0. 50 0. 45 0. 40 1. 70 m ax ball diameter s e at i ng p l ane 10. 10 10. 00 s q 9. 90 a1 ball corner a1 ball corner 0.32 min 1. 00 m i n rev. b | page 31 of 32
AD9364 data sheet no t e s ? 2013C2 0 14 a n a lo g d e v i ce s , i n c. a ll ri g h t s res erv e d . t rad e m ar k s an d registered trademarks are the property of their respective owners. d11846 -0- 2 /14(b) re v . b | p a ge 32 o f 32

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