1 ps8384d 06/26/01 product features 10 mhz to 134 mhz operating range zero input-output propagation delay, adjustable by external capacitive load on fbk input multiple configurations, see ?available pi6c2308 configurations? table input to output delay, less than 200ps multiple low skew outputs - output-output skew less than 200ps - device-device skew less than 600ps - two banks of four outputs, hi-z by two select inputs low jitter, less than 200ps 3.3v operation space-saving packages: 16-pin, 150-mil soic package (w16) (-1, -1h, -2, -3, -4, -6) 16-pin tssop package (l16) (-1, -1h) available in industrial and commercial temperatures functional description providing two banks of four outputs, the pi6c2308 is a 3.3v zero- delay buffer designed to distribute clock signals in applications including pc, workstation, datacom, telecom, and high-performance systems. each bank of four outputs can be controlled by the select inputs as shown in the select input decoding table. the pi6c2308 provides 8 copies of a clock signal that has 200ps phase error compared to a reference clock. the skew between the output clock signals for pi6c2308 is less than 200ps. when there are no rising edges on the ref input, the pi6c2308 enters a power down state. in this mode, the pll is off and all outputs are hi-z. this results in less than 12a of current draw. the select input decoding table shows additional examples when the pll shuts down. the pi6c2308 configuration table shows all available devices. the base part, pi6c2308-1, provides output clocks in sync with a reference clock. with faster rise and fall times, the pi6c2308-1h is the high drive version of the pi6c2308-1. depending on which output drives the feedback pin, pi6c2308-2 provides 2x and 1x clock signals on each output bank. the pi6c2308-3 allows the user to obtain 4x and 2x frequencies on the outputs. the pi6c 2308-4 provides 2x clock signals on all outputs. pi6 c2308 (-1, -2, -3, -4) allows bank b to be hi-z when all output clocks are not required.the pi6c2308-6 allows bank b to switch from reference clock to half of the frequency of reference clock using the control inputs s1 and s2 if bank a is connected to feedback fbk. in addition, using the control inputs s1 and s2, the pi6c2308-6 allows bank a to switch from reference clock to 2x the frequency of reference clock if bank b is connected to feedback fbk. for testing purposes, the select inputs connect the input clock directly to outputs. block diagrams pin configuration pi6c2308 (?1, ?1h, ?2, ?3, ?4, ?6) 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 3.3v zero-delay buffer pi6c2308 1 2 3 v dd 4 gnd 5 clka2 6 clkb2 7 s1 8 clkb1 fbk clka3 v dd clkb4 clkb3 s2 16 15 14 13 12 11 10 9 ref clka1 gnd clka4 16-pin w, l pll mux ref s2 s1 select input decoding fbk clka1 clka2 clka3 clka4 clkb2 clkb3 clkb4 clkb1 pi6c2308-6 mux 2 2 pll mux extra divider (-3, -4) extra divider (-2,-3) ref s2 s1 select input decoding fbk clka1 clka2 clka3 clka4 clkb2 clkb3 clkb4 clkb1 pi6c2308 (-1, -1h, -2, -3, -4) 2
2 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer 2 s1 s] 4 - 1 [ a k l c] 4 - 1 [ b k l ce c r u o s t u p t u on w o d t u h s l l p 00 z - i hz - i hl l py 01 n e v i r dz - i hl l pn 10 n e v i r dn e v i r de c n e r e f e ry 11 n e v i r dn e v i r dl l pn select input decoding for pi6c2308 (-1, -1h, -2, -3, -4) e c i v e dm o r f k c a b d e e fy c n e u q e r f a k n a by c n e u q e r f b k n a b 1 - 8 0 3 2 c 6 i pb k n a b r o a k n a be c n e r e f e re c n e r e f e r h 1 - 8 0 3 2 c 6 i pb k n a b r o a k n a be c n e r e f e re c n e r e f e r 2 - 8 0 3 2 c 6 i pa k n a be c n e r e f e r2 / e c n e r e f e r 2 - 8 0 3 2 c 6 i pb k n a be c n e r e f e r x 2e c n e r e f e r 3 - 8 0 3 2 c 6 i pa k n a be c n e r e f e r x 2e c n e r e f e r 3 - 8 0 3 2 c 6 i pb k n a be c n e r e f e r x 4e c n e r e f e r x 2 4 - 8 0 3 2 c 6 i pb k n a b r o a k n a be c n e r e f e r x 2e c n e r e f e r x 2 6 - 8 0 3 2 c 6 i pa k n a be c n e r e f e r2 / e c n e r e f e r r o e c n e r e f e r 6 - 8 0 3 2 c 6 i pb k n a be c n e r e f e r x 2 r o e c n e r e f e re c n e r e f e r available pi6c2308 configurations 2 s1 s] 4 - 1 [ a k l c] 4 - 1 [ b k l ce c r u o s t u p t u on w o d t u h s l l p 00 z - i hz - i hl l py 01 e c n e r e f e r = n e v i r d2 / e c n e r e f e r = n e v i r de c n e r e f e ry 10 l l p = n e v i r dl l p = n e v i r dl l pn 11 l l p = n e v i r d2 / l l p = n e v i r dl l pn select input decoding for pi6c2308-6
3 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer to close the feedback loop of the pi6c2308, the fbk pin can be driven from any of the 8 available output pins. the output driving the fbk pin will be driving a total load of 7pf plus any additional load that it drives. the relative loading of this output (with respect to the remaining outputs) can adjust the input-output delay. this is shown in the graph above. zero delay and skew control ref. input to clka/clkb delay vs. difference in loading between fbk pin and clka/clkb pins maximum ratings supply voltage to ground potential ................... ?0.5v to +7.0v dc input voltage (except ref) .................. ?0.5v to v dd +0.5v dc input voltage ref ................................................ ?0.5 to 7v storage temperature ........................................ ?65oc to +150oc maximum soldering temperature (10 seconds) ................ 260oc junction temperature ....................................................... 150oc static discharge voltage (per mil-std-883, method 3015) .................................. >2000v r e t e m a r a pn o i t p i r c s e d. n i m. x a ms t i n u v d d e g a t l o v y l p p u s0 . 36 . 3v t a e r u t a r e p m e t g n i t a r e p o ) t n e i b m a ( 00 7c o c l e c n a t i c a p a c d a o l ? 0 3 f p c n i e c n a t i c a p a c t u p n i ? 7 operating conditions (over operating range, t a = 0oc to +70c, v cc = 3.3v 0.3v) for applications requiring zero input-output delay, all outputs including the one providing feedback should be equally loaded. if input-output delay adjustments are required, use the above graph to calculate loading differences between the feedback output and remaining outputs. 600 800 400 200 0 -200 -400 -600 -800 -900 -1000 -25 -20 -15 -10 -5 0 5 10 15 20 25 output load difference: fbk load - clka/clkb load (pf) ref - input to clka/clkb delay (ps) pi6c2308-1h pi6c2308-1,2,3,4,6
4 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer electrical characteristics for commercial temperature devices r e t e m a r a pn o i t p i r c s e ds n o i t i d n o c t s e t. n i m. x a ms t i n u v l i e g a t l o v w o l t u p n i ) 4 ( ?? 8 . 0 v v h i e g a t l o v h g i h t u p n i ) 4 ( ? 0 . 2 ? i l i t n e r r u c w o l t u p n iv n i =v 0 ? 0 5 m a i h i t n e r r u c h g i h t u p n iv n i =v d d ? 0 0 1 v l o e g a t l o v w o l t u p t u o ) 5 ( i l o ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( a m 8 = i l o ) h 1 - ( a m 2 1 = ? 4 . 0 v v h o e g a t l o v h g i h t u p t u o ) 5 ( i h o ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( a m 8 ? = i h o ) h 1 - ( a m 2 1 ? = 4 . 2 ? i d d ) e d o m d p (t n e r r u c y l p p u s n w o d r e w o pz h m 0 = f e r ? 2 1 m a i d d t n e r r u c y l p p u s , z h m 6 6 . 6 6 , s t u p t u o d e d a o l n u v t a s t u p n i t c e l e s d d d n g r o ? 9 3 a m i d d t n e r r u c y l p p u s t c e l e s z h m 0 0 1 s t u p t u o d e d a o l n u v @ s t u p n i d d d n g r o ? 4 5 n i pl a n g i sn o i t p i r c s e d 1f e r ) 1 ( t u p n i k c o l c m u r t c e p s d a e r p s s w o l l a , t u p n i t n a r e l o t v 5 , y c n e u q e r f e c n e r e f e r t u p n i 21 a k l c ) 2 ( a k n a b , t u p t u o k c o l c 32 a k l c ) 2 ( a k n a b , t u p t u o k c o l c 4v d d y l p p u s v 3 . 3 5d n gd n u o r g 61 b k l c ) 2 ( b k n a b , t u p t u o k c o l c 72 b k l c ) 2 ( b k n a b , t u p t u o k c o l c 82 s ) 3 ( 2 t i b , t u p n i t c e l e s 91 s ) 3 ( 1 t i b , t u p n i t c e l e s 0 13 b k l c ) 2 ( b k n a b , t u p t u o k c o l c 1 14 b k l c ) 2 ( b k n a b , t u p t u o k c o l c 2 1d n gd n u o r g 3 1v d d y l p p u s , v 3 . 3 4 13 a k l c ) 2 ( a k n a b , t u p t u o k c o l c 5 14 a k l c ) 2 ( a k n a b , t u p t u o k c o l c 6 1k b ft u p n i k c a b d e e f l l p pin description
5 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer notes: 1. weak pull-down. 2. weak pull-down on all outputs. 3. weak pull-ups on these inputs. 4. ref and fbk inputs have a threshhold voltage of v dd /2. 5. for definition of t 1-8 , see switching waveforms on page 8. s r e t e m a r a pe m a ns n o i t i d n o c t s e t. n i m. p y t. x a ms t i n u t 1 y c n e u q e r f t u p t u od a o l f p 0 3 o t f p 5 10 14 3 1z h m t 2 e l c y c y t u d ) 5 ( t = 2 ? t 1 ) h 1 - 8 0 3 2 (t u p t u o e v i r d h g i h r o f , v 4 . 1 t a d e r u s a e m5 40 55 5 % t = e l c y c y t u d 2 ? t 1 ) 6 - , 4 - , 3 - , 2 - , 1 - 8 0 3 2 ( t u p t u o e v i r d l a m r o n r o f , v 4 . 1 t a d e r u s a e m0 40 50 6 t 3 e m i t e s i r ) 4 ( f p 0 3 @ v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m 2 . 2 s n e m i t e s i r ) 4 ( f p 5 1 @ 5 . 1 e m i t e s i r ) 4 ( ) h 1 ? ( f p 0 3 @ 5 . 1 t 4 e m i t l l a f ) 4 ( f p 0 3 @ 2 . 2 e m i t l l a f ) 4 ( f p 5 1 @ 5 . 1 e m i t l l a f ) 4 ( ) h 1 ? ( f p 0 3 @ 5 2 . 1 t 5 w e k s t u p t u o o t t u p t u o ) 4 ( e m a s n o ) 6 ? , 4 ? , 3 ? , 2 ? , h 1 ? , 1 ? 8 0 3 2 ( k n a b v , d e d a o l y l l a u q e s t u p t u o l l a d d 2 /0 0 2 s p b k n a b t u p t u o o t a k n a b t u p t u o w e k s 4 ( ) 4 ? , h 1 ? , 1 ? 8 0 3 2 ( ) v , d e d a o l y l l a u q e s t u p t u o l l a d d 2 /0 0 2 b k n a b t u p t u o o t a k n a b t u p t u o w e k s 4 ( ) 6 ? , 3 ? , 2 ? 8 0 3 2 ( ) v , d e d a o l y l l a u q e s t u p t u o l l a d d 2 /0 0 4 t 6 e s a h p ( ) r o r r e e g d e g n i s i r f e r , y a l e d t u p t u o o t t u p n i e g d e g n i s i r k b f o t ) 4 ( v t a d e r u s a e m d d 2 /00 0 2 t 7 w e k s e c i v e d o t e c i v e d ) 4 ( v t a d e r u s a e m d d e h t n o 2 / s e c i v e d f o s n i p k b f 00 0 6 t 8 e t a r w e l s t u p t u o ) 4 ( - n o v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m g n i s u e c i v e d h 1 2 # t i u c r i c t s e t 1s n / v t j r e t t i j e l c y c - o t - e l c y c ) 4 ( ) 4 ? , h 1 ? , 1 ? 8 0 3 2 ( , z h m 7 6 . 6 6 t a d e r u s a e m s t u p t u o f p 0 3 d e d a o l 0 0 2 s p , z h m 3 3 1 t a d e r u s a e m s t u p t u o f p 5 1 d e d a o l 0 0 1 t j r e t t i j e l c y c - o t - e l c y c ) 4 ( ) 6 ? , 3 ? , 2 ? 8 0 3 2 ( , z h m 6 . 6 6 t a d e r u s a e m s t u p t u o f p 0 3 d e d a o l 0 0 4 t k c o l e m i t k c o l l l p ) 4 ( s k c o l c d i l a v , y l p p u s r e w o p e l b a t s s n i p k b f d n a f e r n o d e t n e s e r p 0 . 1s m switching characteristics (5) for commercial temperature device
6 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer r e t e m a r a pn o i t p i r c s e d. n i m. x a ms t i n u v d d e g a t l o v y l p p u s0 . 36 . 3v t a ) e r u t a r e p m e t t n e i b m a ( e r u t a r e p m e t g n i t a r e p o0 4 ?5 8c o c l z h m 0 0 1 w o l e b , e c n a t i c a p a c d a o l 0 3 f p z h m 3 3 1 o t z h m 0 0 1 m o r f , e c n a t i c a p a c d a o l 5 1 c n i e c n a t i c a p a c t u p n i 7 operating conditions for industrial temperature devices r e t e m a r a pn o i t p i r c s e ds n o i t i d n o c t s e t. n i m. x a ms t i n u v l i e g a t l o v w o l t u p n i 8 . 0 v v h i e g a t l o v h g i h t u p n i 0 . 2 i l i t n e r r u c w o l t u p n iv n i v 0 =0 . 0 5 a i h i t n e r r u c h g i h t u p n iv n i v = d d 0 . 0 0 1 v l o e g a t l o v w o l t u p t u o ) 4 ( i l o ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( a m 8 = i l o ) h 1 ? ( a m 2 1 = 4 . 0 v v h o e g a t l o v h g i h t u p t u o ) 4 ( i l o ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( a m 8 = i l o ) h 1 ? ( a m 2 1 = 4 . 2 i d d ) e d o m d p (t n e r r u c y l p p u s n w o d r e w o pz h m 0 = f e r0 . 5 2 m a i d d t n e r r u c y l p p u s , z h m 0 0 1 , s t u p t u o d e d a o l n u v t a s t u p n i t c e l e s d d d n g r o 0 . 4 5 a m ) h 1 ? ( 0 . 0 7 ) h 1 ? ( t p e c x e , f e r , z h m 6 6 , s t u p t u o d e d a o l n u0 . 9 3 ) h 1 ? ( t p e c x e , f e r , z h m 3 3 , s t u p t u o d e d a o l n u0 . 0 2 electrical characteristics for industrial temperature devices
7 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer switching characteristics for industrial temperature devices (5) r e t e m a r a pe m a ns n o i t i d n o c t s e t. n i m. p y t. x a ms t i n u t 1 y c n e u q e r f t u p t u o s e c i v e d l l a , d a o l f p 0 3 0 1 0 0 1 z h m , d a o l f p 0 2h 1 ?s e c i v e d4 3 1 , d a o l f p 5 16 ? , 4 ? , 3 ? , 2 ? , 1 ?s e c i v e d4 3 1 t 2 e l c y c y t u d ) 4 ( t = 2 t 1 ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 0 3 z h m 6 6 . 6 6 < 0 . 0 4 0 . 0 5 0 . 0 6 % f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 5 1 z h m 3 3 1 < f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 5 1 z h m 5 4 <0 . 5 4 0 . 5 5 e l c y c y t u d ) 4 ( t = 2 t 1 ) h 1 ? ( f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 0 3 z h m 6 6 . 6 6 <0 . 5 4 f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 5 1 z h m 3 3 1 <0 . 0 40 . 0 6 f , v 4 . 1 t a d e r u s a e m t u o d a o l f p 0 3 z h m 5 4 <0 . 5 40 . 5 5 t 3 e m i t e s i r ) 4 ( ) 4 ? , 3 ? , 2 ? , 1 ? ( d a o l f p 0 3 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m 2 . 2 s n d a o l f p 5 1 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m0 5 . 1 e m i t e s i r ) 4 ( ) h 1 ? (d a o l f p 0 3 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m0 5 . 1 t 4 e m i t l l a f ) 4 ( ) 4 ? , 3 ? , 2 ? , 1 ? ( d a o l f p 0 3 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m0 5 . 2 d a o l f p 5 1 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m0 5 . 1 e m i t l l a f ) 4 ( ) h 1 ? (d a o l f p 0 3 , v 0 . 2 d n a v 8 . 0 n e e w t e b d e r u s a e m5 2 . 1 t 5 e m a s n o w e k s t u p t u o o t t u p t u o ) 6 ? , 4 ? , 3 ? , 2 ? , 1 ? ( k n a b ) 4 ( d e d a o l y l l a u q e s t u p t u o l l a 0 0 2 s p b k n a b t u p t u o o t a k n a b t u p t u o ) 4 ? , h 1 ? , 1 ? ( w e k s b k n a b t u p t u o o t a k n a b t u p t u o ) 6 ? , 3 ? , 2 ? ( w e k s 0 0 4 t 6 k b f o t e g d e g n i s i r f e r , y a l e d e g d e g n i s i r ) 4 ( v t a d e r u s a e m d d 2 /00 0 2 t 7 w e k s e c i v e d o t e c i v e d ) 4 ( v t a d e r u s a e m d d s e c i v e d f o s n i p k b f e h t n o , z h m 2 /0 0 6 t 8 e t a r w e l s t u p t u o ) 4 ( t s e t g n i s u e c i v e d 5 ? , h 1 n o v 0 . 2 & v 8 . 0 x w t d e r u s a e m 2 # t r c 1s n / v t j r e t t i j e l c y c o t e l c y c ) 4 ( , ) 4 ? , h 1 ? , 1 ? ( d a o l f p 0 3 , s t u p t u o d e d a o l , z h m 7 6 . 6 6 t a d e r u s a e m0 0 2 s p d a o l f p 5 1 , s t u p t u o d e d a o l , z h m 3 3 1 t a d e r u s a e m0 0 1 r e t t i j e l c y c o t e l c y c ) 4 ( , ) 6 ? , 3 ? , 2 ? ( d a o l f p 0 3 , s t u p t u o d e d a o l , z h m 7 6 . 6 6 t a d e r u s a e m0 0 4 t k c o l e m i t k c o l l l p ) 4 ( & f e r n o d e t n e s e r p s k c o l c d i l a v , y l p p u s r e w o p e l b a t s s n i p k b f 0 . 1s m notes: 1. weak pull-down. 2. weak pull-down on all outputs. 3. weak pull-ups on these inputs. 4. ref and fbk inputs have a threshhold voltage of v dd /2. 5. for definition of t 1-8 , see switching waveforms on page 8.
8 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer v dd c load v dd gnd gnd clk out outputs 0.1 m f 0.1 m f test circuit for all parameters except t 8 v dd 10pf v dd gnd gnd clk out outputs 0.1 m f 0.1 m f test circuit for t 8 , output slew rate on -1h device 1k w 1k w switching waveforms test circuit #2 test circuit #1 t 2 t 1 1.4v 1.4v 1.4v t 4 t 3 0.8v 2.0v 0.8v 2.0v output 0v 3.3v 1.4v t 5 output 1.4v output v dd /2 t 6 input v dd /2 fbk v dd /2 t 7 fbk device 1 v dd /2 fbk device 2 duty cycle timing all outputs rise/fall time output-output skew input-output propagation delay device-device skew
9 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer 16-pin soic (w) note: controlling dimensions in millimeters. ref: jedec ms - 012 ac 16-pin tssop (l) seating plane .050 bsc 1 16 0-8? .149 .157 x.xx x.xx denotes dimensions in millimeters 3.78 3.99 .386 .393 9.80 10.00 1.27 .053 .068 1.35 1.75 .2284 .2440 5.80 6.20 .0040 .0098 0.10 0.25 .013 .020 .0155 .0260 0.330 0.508 0.393 0.660 .0075 .0098 0.25 0.50 .0099 .0196 x 45? 0.19 0.25 .016 .050 0.41 1.27 ref .193 .201 .047 max. .002 .006 seating plane .0256 bsc .018 .030 .004 .008 .252 bsc 1 16 .169 .177 x.xx x.xx denotes controlling dimensions in millimeters 0.05 0.15 6.4 0.45 0.75 0.09 0.20 4.3 4.5 1.20 4.9 5.1 0.65 0.19 0.30 .007 .012
10 ps8384d 06/26/01 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 1234567890123456789012345678901212345678901234567890123456789012123456789012345678901234567890121234567890123456789012345678901 2123456789012 pi6c2308 3.3v zero delay buffer pericom semiconductor corporation 2380 bering drive ? san jose, ca 95131 ? 1-800-435-2336 ? fax (408) 435-1100 ? http://www.pericom.com e d o c g n i r e d r oe m a n e g a k c a pe p y t e g a k c a pe g n a r g n i t a r e p o w 1 - 8 0 3 2 c 6 i p 6 1 wc i o s l i m - 0 5 1 n i p - 6 1 l a i c r e m m o c w h 1 - 8 0 3 2 c 6 i p w 2 - 8 0 3 2 c 6 i p w 3 - 8 0 3 2 c 6 i p w 4 - 8 0 3 2 c 6 i p w 6 - 8 0 3 2 c 6 i p l 1 - 8 0 3 2 c 6 i p 6 1 lp o s s t n i p - 6 1 l h 1 - 8 0 3 2 c 6 i p ordering information (commercial temperature device) e d o c g n i r e d r oe m a n e g a k c a pe p y t e g a k c a pe g n a r g n i t a r e p o i w 1 - 8 0 3 2 c 6 i p 6 1 wc i o s l i m - 0 5 1 n i p - 6 1 l a i r t s u d n i i w h 1 - 8 0 3 2 c 6 i p i w 2 - 8 0 3 2 c 6 i p i w 3 - 8 0 3 2 c 6 i p i w 4 - 8 0 3 2 c 6 i p i w 6 - 8 0 3 2 c 6 i p i l 1 - 8 0 3 2 c 6 i p 6 1 lp o s s t n i p - 6 1 i l h 1 - 8 0 3 2 c 6 i p ordering information (industrial temperature device)
|
