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| mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) 3-terminal 1a positive voltage regulators the mc78xx series of three-terminal positive regulators are available in the to-220/d-pak package and with several fixed output voltages, making them useful in a wide range of applications. each type employs internal current limiting, thermal shut-down and safe area protection, making it essentially indestructible. if adequate heat sinking is provided, they can deliver over 1a output current. although designed primarily as fixed voltage regulators, these devices can be used with external components to obtain adjustable voltages and currents. features output current up to 1a output voltages of 5, 6, 8, 9, 10, 11, 12, 15, 18, 24v thermal overload protection short circuit protection output transistor soa protection device output voltage tolerance package operating temperature mc78xx ct (lm78xxct) (ka78xx) 4% ka78xxa 2% ka78xxi to-220 -40 ~ +125 c mc78xx c d t ( ka78xx r ) ka78xx r a 2% ka78xxri 4% d-pak -40 ~ +125 c to-220 d-pak 1: input 2: gnd 3: output block diagram 1 ordering information ? 1999 fairchild semiconductor corporation rev. c 0 ~ +125 c 0 ~ +125 c 4%
mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) absolute maximum ratings (t a = +25 c, unless otherwise specified ) lm7805/i/r/ri electrical characteristics (refer to test circuit, t min < t j < t max , i o = 500ma, v i = 10v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * t min mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7806a/ra electrical characteristics (refer to the test circuits. t j = 0 to+150 c, i o = 1a, v i = 11v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 5.58 6 6.12 output voltage v o i o = 5ma to 1a, p d 15w v i = 8.6 to 21v 5.76 6 6.24 v v i = 8.6 to 25v i o = 500ma 5 60 line regulation d v o v i = 9v to 13v 3 60 mv v i = 8.3v to 21v 5 60 v i = 9v to 13v 1.5 30 t j =+25 c i o = 5ma to 1.5a 9 100 i o = 5ma to 1a 4 100 i o = 250 to 750ma 5.0 50 quiescent current i q t j =+25 c 4.3 6 ma i o = 5ma to 1a 0.5 quiescent current change d i q v i = 9v to 25v, i o = 500ma 0.8 ma v i = 8.5v to 21v, t j =+25 c 0.8 output voltage drift i o = 5ma -0.8 mv/ c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 m v/v o ripple rejection rr f = 120hz, i o = 500ma v i = 9v to 19v 65 db dropout voltage v d i o = 1a, t j =+25 c 2 v output resistance r o f = 1khz 17 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c d v/ d t mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7808a/ra electrical characteristics (refer to the test circuits. t j = 0 to+150 c, i o = 1a, v i = 14v, c i = 0.33 m f, c o =0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 7.84 8 8.16 output voltage v o i o = 5ma to 1a, p d 15w v i = 8.6 to 21v 7.7 8 8.3 v v i = 10.6 to 25v i o = 500ma 6 80 line regulation d v o v i = 11to 17v 3 80 mv v i = 10.4v to 23v 6 80 v i = 11v to 17v 2 40 t j =+25 c i o = 5ma to 1.5a 12 100 i o = 5ma to 1a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.0 6 ma i o = 5ma to 1a 0.5 quiescent current change d i q v i = 11v to 25v, i o = 500ma 0.8 ma v i = 10.6v to 23v, t j =+25 c 0.8 output voltage drift i o = 5ma -0.8 mv / c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 m v/v o ripple rejection rr f = 120hz, i o = 500ma v i = 11.5v to 21.5v 62 db dropout voltage v d i o = 1a, t j =+25 c 2 v output resistance r o f = 1khz 18 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c d v/ d t mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7809a/ra electrical characteristics (refer to the test circuits. t j = 0 to +125 c, i o = 1a, v i = 15v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 8.82 9.0 9.18 output voltage v o i o = 5ma to 1a, p d 15w v i = 11.2 to 24v 8.65 9.0 9.35 v v i = 11.7 to 25v i o = 500ma 6 90 line regulation d v o v i = 12.5 to 19v 4 45 mv v i = 11.5v to 24v 6 90 v i = 12.5v to 19v 2 45 t j =+25 c i o = 5ma to 1.0a 12 100 i o = 5ma to 1.0a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.0 6.0 ma v i = 11.7v to 25v, t j =+25 c 0.8 quiescent current change d i q v i = 12v to 25v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.5 output voltage drift i o = 5ma -1.0 mv/ c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 12v to 22v 62 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 17 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c d v/ d t m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7810a/ra electrical characteristics (refer to the test circuits. t j = 0 to+125 c, i o = 1a, v i = 16v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 9.8 10 10.2 output voltage v o i o = 5ma to 1a, p d 15w v i =12.8 to 25v 9.6 10 10.4 v v i = 12.8 to 26v i o = 500ma 8 100 line regulation d v o v i = 13to 20v 4 50 mv v i = 12.5v to 25v 8 100 v i = 13v to 20v 3 50 t j =+25 c i o = 5ma to 1.5a 12 100 i o = 5ma to 1.0a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.0 6.0 ma v i = 13v to 26v, t j =+25 c 0.5 quiescent current change d i q v i = 12.8v to 25v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.5 output voltage drift i o = 5ma -1.0 mv c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 14v to 24v 62 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 17 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c d v/ d t m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7811a/ra electrical characteristics (refer to the test circuits. t j = 0 to +125 c, i o = 1a, v i = 18v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 10.8 11.0 11.2 output voltage v o i o = 5ma to 1a, p d 15w v i = 13.8 to 26v 10.6 11.0 11.4 v v i = 12.8 to 26v i o = 500ma 10 110 line regulation d v o v i = 15 to 21v 4 55 mv v i = 13.5v to 26v 10 110 v i = 15v to 21v 3 55 t j =+25 c i o = 5ma to 1.5a 12 100 i o = 5ma to 1.0a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.1 6.0 ma v i = 13.8v to 26v, t j =+25 c 0.8 quiescent current change d i q v i = 14v to 27v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.5 output voltage drift d v o / d t i o = 5ma -1.0 mv / c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 14v to 24v 61 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 18 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7812a/ra electrical characteristics (refer to the test circuits. t j = 0 to +125 c, i o = 1a, v i = 19v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 11.75 12 12.25 output voltage v o i o = 5ma to 1a, p d 15w v i = 14.8 to 27v 11.5 12 12.5 v v i = 14.8 to 30v i o = 500ma 10 120 line regulation d v o v i = 16 to 22v 4 120 mv v i = 14.5v to 27v 10 120 v i = 16v to 22v 3 60 t j =+25 c i o = 5ma to 1.5a 12 100 i o = 5ma to 1.0a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.1 6.0 ma v i = 15v to 30v, t j =+25 c 0.5 quiescent current change d i q v i = 14v to 27v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.8 output voltage drift d v o / d t i o = 5ma -1.0 mv/ c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 14v to 24v 60 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 18 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o mv m v/v o t j =+25 c mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7815a/ra electrical characteristics (refer to the test circuits. t j = 0 to +150 c, i o =1a, v i =23v, c i = 0.33 m f, c o =0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 14.7 15 15.3 output voltage v o i o = 5ma to 1a, p d 15w v i = 17.7 to 30v 14.4 15 15.6 v v i = 17.9 to 30v i o = 500ma 10 150 line regulation d v o v i = 20 to 26v 5 150 mv v i = 17.5v to 30v 11 150 v i = 20v to 26v 3 75 t j =+25 c i o = 5ma to 1.5a 12 100 i o = 5ma to 1.0a 12 100 i o = 250 to 750ma 5 50 quiescent current i q t j =+25 c 5.2 6.0 ma v i = 17.5v to 30v, t j =+25 c 0.5 quiescent current change d i q v i = 17.5v to 30v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.8 output voltage drift d v o / d t i o = 5ma -1.0 mv/ c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 18.5v to 28.5v 58 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 19 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7818a/ra electrical characteristics (refer to the test circuits. t j = 0 to +150 c, i o =1a, v i = 27v, c i = 0.33 m f, c o = 0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 17.64 18 18.36 output voltage v o i o = 5ma to 1a, p d 15w v i = 21 to 33v 17.3 18 18.7 v v i = 21 to 33v i o = 500ma 15 180 line regulation d v o v i = 21 to 33v 5 180 mv v i = 20.6v to 33v 15 180 v i = 24v to 30v 5 90 t j =+25 c i o = 5ma to 1.5a 15 100 i o = 5ma to 1.0a 15 100 i o = 250 to 750ma 7 50 quiescent current i q t j =+25 c 5.2 6.0 ma v i = 21v to 33v, t j =+25 c 0.5 quiescent current change d i q v i = 21v to 33v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.8 output voltage drift d v o / d t i o = 5ma -1.0 mv/ c output noise voltage v n f = 10hz to 100khz t a =+25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 18.5v to 28.5v 57 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 19 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 c m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) lm7824a/ra electrical characteristics (refer to the test circuits. t j = 0 to +150 c, i o =1a, v i = 33v, c i = 0.33 m f, c o =0.1 m f, unless otherwise specified) * load and line regulation are specified at constant, junction temperature. change in v o due to heating effects must be taken into account separately. pulse testing with low duty is used. characteristic symbol test conditions min typ max unit t j =+25 c 23.5 24 24.5 output voltage v o i o = 5ma to 1a, p d 15w v i = 27.3 to 38v 23 24 25 v v i = 27 to 38v i o = 500ma 18 240 line regulation d v o v i = 21 to 33v 6 240 mv v i = 26.7v to 38v 18 240 v i = 30v to 36v 6 120 t j =+25 c i o = 5ma to 1.5a 15 100 i o = 5ma to 1.0a 15 100 i o = 250 to 750ma 7 50 quiescent current i q t j =+25 c 5.2 6.0 ma v i = 27.3v to 38v, t j =+25 c 0.5 quiescent current change d i q v i = 27.3v to 38v, i o = 500ma 0.8 ma i o = 5ma to 1.0a 0.8 output voltage drift d v o / d t i o = 5ma -1.5 mv/ c output noise voltage v n f = 10hz to 100khz t a = 25 c 10 ripple rejection rr f = 120hz, i o = 500ma v i = 18.5v to 28.5v 54 db dropout voltage v d i o = 1a, t j =+25 c 2.0 v output resistance r o f = 1khz 20 m w short circuit current i sc v i = 35v, t a =+25 c 250 ma peak current i pk t j =+25 c 2.2 a load regulation d v o t j =+25 o c m v/v o mv mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) typical performance characteristics fig. 1 quiescent current fig. 2 peak output current fig. 3 output voltage fig. 4 quiescent current mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) typical applications fig. 5 dc parameters fig. 6 load regulation fig. 7 ripple rejection mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) typical applications (continued) fig. 8 fixed output regulator fig. 9 constant current regulator notes : (1) to specify an output voltage. substitute voltage value for "xx." a common ground is required between the input and the output voltage. the input voltage must remain typically 2.0v above the output voltage even during the low point on the input ripple voltage. (2) c i is required if regulator is located an appreciable distance from power supply filter. (3) c o improves stability and transient response. fig. 10 circuit for increasing output voltage fig. 11 adjustable output regulator (7 to 30v) i ri 3 5 i q v o = v xx (1+r 2 /r 1 )+i q r 2 mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) typical applications (continued) fig. 12 high current voltage regulator fig. 13 high output current with short circuit protection fig. 14 tracking voltage regulator fig. 15 split power supply ( 15v-1a) mc78xx (lm78xx) (ka78xx ) fixed voltage regulator (positive) typical applications (continued) fig. 16 negative output voltage circuit fig. 17 switching regulator trademarks t h e f o l l o w i ng a r e r e g i s t e r e d a n d u n r e g i s t e r e d t r a d e ma r ks f a i r c h i l d s e m i c o n d uc t o r o w n s o r i s a u t h o r i z e d t o us e a n d i s n o t i n t e nd e d t o b e a n e x h a u s t i v e l i s t o f a l l s uc h t r a d em a r k s . a c e x ? cool f et? c r o ss v o l t? e 2 c m os? f a c t ? f a c t q u i e t s e r i e s ? f a s t ? f a s t r ? g t o? h i sec? i s o pl a n a r? m i cr o wir e ? p o p? p o wer t re n c h q f e t? q s ? q u iet s e r ies? supers o t ? -3 supers o t ? -6 supers o t ? -8 t i n yl o gic? uhc? vcx? d i sclaimer f a i rch i ld sem i conductor rese r v e s the r i gh t to ma k e changes w i thou t f u r ther not i c e to any products h e r e i n t o i mpro v e reliab i l i t y , funct i o n o r des i gn. f a i r ch i ld does no t assume any l i abil i ty a r i sing ou t of the applicat i o n or us e of a n y product or circu i t described herein ; neither doe s i t c o n ve y a ny license unde r i ts patent r i ght s , nor th e r i ght s o f other s . li f e s u pp o r t p o l i cy f a i r c h il d s p r o d u c t s a r e n o t a u t h o r i z e d f o r u s e a s cr it i c a l c o m p o n e n t s i n l i f e s u p p o r t d e v i c e s o r s y s t e m s wi t h o ut t h e e x p r e s s w r it t e n a p pr o v al o f f a i r c h i l d s e m i c o n d u c t o r c o r p o r a ti o n. a s u se d h e r e i n : 1. l i f e s u pp o r t d e v i c es o r s ys t e m s a r e d e v i c e s or s y s t e m s w h i c h , ( a ) a r e i n t e nd e d f o r su r g i c al i m p l a n t i n t o t he b o d y , or ( b ) s up p o r t or s u s t a in li f e , or ( c) w ho s e f a ilu r e t o p e r f o r m w hen p r o pe r ly u s ed in a c c o r d an c e wi t h i n s t r u c t i ons f o r u s e p r ov i d e d i n t h e l ab e l i n g, can b e r e a s on a b l y exp e c t ed t o r e s u l t i n s i g n i f i ca n t i n j u r y t o t he u s e r . 2. a c r i t i c a l c o m po n ent i s a n y co m p on e nt o f a l i f e su p po r t device or s y s t em w h o s e f a ilu r e t o pe r f o r m can be r ea s on a b ly e x p e c t e d t o ca u se t h e f a ilu r e of t he li f e su p po r t dev i ce or s y s t e m , o r t o a f f e c t i t s sa f e t y o r e f f ec t i ven e ss. pr o d uct s t a tus def i nit i ons d e fin i tion o f t er m s d a ta s h e et i d e ntif i c a tion p r o d u ct s tat u s d e fini t ion a d v a n c e i n f o r m a t i o n f o r m a t i v e o r i n d es i gn t h is d at a s h e et c o n t a i ns t h e d e s i gn s p e c i fi c a ti o ns for p r o d u c t d e v e l o p m e n t. s p ec i f i c a t i o n s m a y c h a n g e i n a n y m a n n e r w i t h o u t n o t i c e . p r e l i m i n a r y f i r s t p r o d u c t i on t h is d at a s h e et c o n t a i ns p r e l i m i n a r y d at a , a n d s u p p l e m e n t a r y d a t a w i l l b e p u b l i s h ed a t a l a t e r d a t e . f a i r c h i l d s e m i c o n d u c tor r e s e r ves t h e r i g h t to m ake c h a n g es a t a ny ti m e w i t h o u t n o ti c e in o r d e r to i m p rove d e s i g n. n o i d e n ti f i c at i on n e e d ed f u l l p r o d u c ti o n t h is d at a s h e e t c o n t a i ns f i n a l s p e c if i c a t i o n s. f a ir c h i ld s e m i c on d u c t o r r e s e r v e s t h e r i g h t t o m a k e c h a ng e s a t a n y t i me w i th o ut n o t i ce in o r d e r t o i m p r ov e d e s i g n . o b s o l e te n o t i n p r o d u c t i on t h is d at a s h e et c o n t a i ns s p e c i fi c a ti o ns o n a p r o d u ct t h at h a s b e e n d i sc o n t i n u e d b y f a i r c h i l d se m i c on d u c t o r . t h e d a t a s h e e t is p r i n t e d for r e f e r e n c e info r m a t i o n o n l y . trademarks t h e f o l l o w i ng a r e r e g i s t e r e d a n d u n r e g i s t e r e d t r a d e ma r ks f a i r c h i l d s e m i c o n d uc t o r o w n s o r i s a u t h o r i z e d t o us e a n d i s n o t i n t e nd e d t o b e a n e x h a u s t i v e l i s t o f a l l s uc h t r a d em a r k s . a c e x ? cool f et? c r o ss v o l t? e 2 c m os? f a c t ? f a c t q u i e t s e r i e s ? f a s t ? f a s t r ? g t o? h i sec? i s o pl a n a r? m i cr o wir e ? p o p? p o wer t re n c h ? q f e t? q s ? q u iet s e r ies? supers o t ? -3 supers o t ? -6 supers o t ? -8 t i n yl o gic? uhc? vcx? d i sclaimer f a i rch i ld sem i conductor rese r v e s the r i gh t to ma k e changes w i thou t f u r ther not i c e to any products h e r e i n t o i mpro v e reliab i l i t y , funct i o n o r des i gn. f a i r ch i ld does no t assume any l i abil i ty a r i sing ou t of the applicat i o n or us e of a n y product or circu i t described herein ; neither doe s i t c o n ve y a ny license unde r i ts patent r i ght s , nor th e r i ght s o f other s . li f e s u pp o r t p o l i cy f a i r c h il d s p r o d u c t s a r e n o t a u t h o r i z e d f o r u s e a s cr it i c a l c o m p o n e n t s i n l i f e s u p p o r t d e v i c e s o r s y s t e m s wi t h o ut t h e e x p r e s s w r it t e n a p pr o v al o f f a i r c h i l d s e m i c o n d u c t o r c o r p o r a ti o n. a s u se d h e r e i n : 1. l i f e s u pp o r t d e v i c es o r s ys t e m s a r e d e v i c e s or s y s t e m s w h i c h , ( a ) a r e i n t e nd e d f o r su r g i c al i m p l a n t i n t o t he b o d y , or ( b ) s up p o r t or s u s t a in li f e , or ( c) w ho s e f a ilu r e t o p e r f o r m w hen p r o pe r ly u s ed in a c c o r d an c e wi t h i n s t r u c t i ons f o r u s e p r ov i d e d i n t h e l ab e l i n g, can b e r e a s on a b l y exp e c t ed t o r e s u l t i n s i g n i f i ca n t i n j u r y t o t he u s e r . 2. a c r i t i c a l c o m po n ent i s a n y co m p on e nt o f a l i f e su p po r t device or s y s t em w h o s e f a ilu r e t o pe r f o r m can be r ea s on a b ly e x p e c t e d t o ca u se t h e f a ilu r e of t he li f e su p po r t dev i ce or s y s t e m , o r t o a f f e c t i t s sa f e t y o r e f f ec t i ven e ss. pr o d uct s t a tus def i nit i ons d e fin i tion o f t er m s d a ta s h e et i d e ntif i c a tion p r o d u ct s tat u s d e fini t ion a d v a n c e i n f o r m a t i o n f o r m a t i v e o r i n d es i gn t h is d at a s h e et c o n t a i ns t h e d e s i gn s p e c i fi c a ti o ns for p r o d u c t d e v e l o p m e n t. s p ec i f i c a t i o n s m a y c h a n g e i n a n y m a n n e r w i t h o u t n o t i c e . p r e l i m i n a r y f i r s t p r o d u c t i on t h is d at a s h e et c o n t a i ns p r e l i m i n a r y d at a , a n d s u p p l e m e n t a r y d a t a w i l l b e p u b l i s h ed a t a l a t e r d a t e . f a i r c h i l d s e m i c o n d u c tor r e s e r ves t h e r i g h t to m ake c h a n g es a t a ny ti m e w i t h o u t n o ti c e in o r d e r to i m p rove d e s i g n. n o i d e n ti f i c at i on n e e d ed f u l l p r o d u c ti o n t h is d at a s h e e t c o n t a i ns f i n a l s p e c if i c a t i o n s. f a ir c h i ld s e m i c on d u c t o r r e s e r v e s t h e r i g h t t o m a k e c h a ng e s a t a n y t i me w i th o ut n o t i ce in o r d e r t o i m p r ov e d e s i g n . o b s o l e te n o t i n p r o d u c t i on t h is d at a s h e et c o n t a i ns s p e c i fi c a ti o ns o n a p r o d u ct t h at h a s b e e n d i sc o n t i n u e d b y f a i r c h i l d se m i c on d u c t o r . t h e d a t a s h e e t is p r i n t e d for r e f e r e n c e info r m a t i o n o n l y . |
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