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| 2 2 f o 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 the mark PS9402 chap ter title 2 2 f o 2 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 package dimensions (unit: mm) 0.20.15 10.360.4 0.64 min. 7.49 +0.5 ?0.1 3.50.2 0.710.3 10.310.5 1.27 0.46 0.1 0.25 m photocoupler construction ) . n i m ( t i n u r e t e m a r a p m m 8 e c n a t s i d r i a outer creep a g e distanc e 8 mm m m 4 . 0 e c n a t s i d n o i t a l o s i a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 3 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 block diagram (unit: mm) uvlo desa t shield shield clamp v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee i f uvlo (v c c 2 ? v e e ) des a t (pin 14: des a t p i n input) f a ult (pin 3: f a ul t pin outpu t) v o off not active ( > v u vlo + ) not active high l o w on not active ( > v u vlo + ) lo w ( < v d esa t t h ) high high on not active ( > v u vlo + ) high ( > v d esa tth ) l o w ( fault ) l o w on active ( < v u v l o ? ) not active high l o w off activ e ( < v u v l o ? ) not active high l o w < r > < r > < r > < r > < r > < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 4 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 marking example 9402 r nt231 no. 1 pin mark type number assembly lot year assembled (last 1 digit) 2 31 t n rank code in-house code (t: pb-free) week assembled company initial ordering information part number order number solder plating sp ecification packing sty l e safet y standard a p p r o v a l a p plication part number *1 ps940 2 ps940 2-a x pb-f ree 10 pcs ( t ape 10 pcs cut) standar d prod ucts ps940 2 ps940 2-e3 ps940 2-e3-a x (ni/pd/au) embosse d t ape 850 (ul a n d csa pcs/reel approv ed) ps940 2-v ps940 2-v-a x 10 pcs ( t ape 10 pcs cut) din en60 747- 5-2 ps940 2-v-e3 ps940 2-v-e3- ax embosse d t ape 850 (vde08 84 part 2) pcs/reel approv ed ) n o i t p o ( note: *1. f o r the applicat i on of the safet y s ta n dar d , follo w i ng p a r t number sho u l d be use d . < r > < r > < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 5 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 absolute maxim u m ratings (t a = 25 c, unless otherw ise specified) para mete r symbol ratings unit f o r w ard curren t * 1 i f 25 ma peak t ransient f o r w a r d curre nt ( puls e w i d t h < 1 s) i f ( t r a n ) 1 .0 a v e g a t l o v e s r e v e r r 5 v input sup p l y v o ltag e v c c 1 0 to 5.5 v input ic po w e r dissipat i o n * 2 p i 80 m w high l e v e l pea k o u t p u t c u r r e n t * 3 i o h ( peak) 2 .5 a l o w l e v el peak o u t put c u r r e n t * 3 i o l ( p e ak) 2 .5 a f ault output current i faul t 8 ma f ault p in v olt age v fault 0 to v c c 1 v t o tal output suppl y v o ltag e ( v c c 2 ? v e e ) 0 to 33 v negativ e outp ut suppl y v o lta ge ( v e ? v e e ) 0 to 15 v v e g a t l o v t u p t u o o 0 to v c c 2 v peak c l ampi n g sinkin g curre nt i cla m p 1 .7 a miller c l ampi n g pin volta ge v cla m p 0 to v c c 2 v desat voltage v d esa t v e t o v e + 10 v output ic pow e r dissipation * 4 p o 300 m w isolatio n volta g e * 5 bv 5 000 vr.m.s. operati n g amb i ent t e mperatu re t a ? 40 to + 110 c storage t e mperature t s t g ? 55 to + 125 c note s: *1. reduc ed to 0 .5 2 ma/ c a t t a = 8 5 c or more. *2. reduc ed to 1 .6 m w / c a t t a = 7 5 c or more. *3. maximum p u l s e w i dth = 10 s, max i mum duty c y cle = 0.2% *4. reduc ed to 5 .5 m w / c a t t a = 7 0 c or more. *5. ac volta g e for 1 minute a t t a = 2 5 c, rh = 60% bet w e en i n put and o u tput. pins 1-8 sh orte d together, 9- 1 6 shorted tog e t her. recommended operating conditions para mete r symbol min. m a x. unit t o tal output suppl y v o ltag e ( v c c 2 ? v e e ) 15 30 v negativ e outp ut suppl y v o lta ge ( v e ? v e e ) 0 15 v positive output suppl y v o ltag e ( v c c 2 ? v e ) 15 30 ? (v e ? v e e ) v f o r w ard curren t (on ) i f ( on ) 8 12 m a f o r w a rd volt a g e (off) v f (off) ? 2 0.8 v operati n g amb i ent t e mperatu re t a ? 40 110 c < r > < r > < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 6 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 electri cal characteris tics (dc) ( a t recomm ended op erating conditions , v e e = v e = gnd, unless otherw ise specified) pa rame ter sy mbol conditi ons min. typ. * 1 m a x. u nit f ault logic l o w out put voltag e v faultl i faul t = 1.1 ma, v c c 1 = 5.5 v 0.1 v f ault logic high outp ut current i faul t h v fault = 5.5 v, v c c 1 = 5.5 v, t a = 2 5 c 0.5 a h i g h level o u t put c u rren t i o h v o = ( v c c 2 ? 4 v) * 2 ? 0.5 ? 1 .5 a v o = ( v c c 2 ? 15 v ) * 3 ? 2.0 l o w lev el o u t p ut c u r r e n t i o l v o = ( v e e + 2.5 v ) * 2 0.5 1.5 a v o = ( v e e + 15 v ) * 3 2.0 l o w l e vel ou t put curre n t durin g f ault c onditi on i o l f v o ? v e e = 14 v 90 140 230 ma high l e v e l output voltag e v o h i o = 100 m a * 4 v c c 2 ? 3.0 v c c 2 ? 1.3 v i o = ? 650 a * 4 v c c 2 ? 2.5 v c c 2 ? 0.8 l o w l e vel out put voltag e v o l i o v 5 . 0 5 1 . 0 a m 0 0 1 = c l a m p p i n t h r e s h o l d v o l t a g e v tcla m p v 0 . 2 c l a m p l o w lev el s i n k i n g c u r r ent i c l v tcla m p = v e e + 2.5 v 0.35 1.5 a h i g h lev e l s upp l y c u rre n t i c c 2 h i o a m 3 2 a m 0 = l o w l e v el supp l y curren t i c c 2 l i o a m 3 2 a m 0 = bla nking c apaci t o r c h a r g i n g c u r r ent i chg v d esa t = 2 v ? 0.13 ? 0.24 ? 0.33 ma bla nking c apaci t o r d i sch arging c u r r ent i d s chg v d esa t a m 0 3 0 1 v 7 = d e s a t t h r e s h o l d v d esa t t h v c c 2 ? v e > v u vlo ? , v o < 5 v 6.0 6.9 7.5 v u v l o t h reshold v u vlo + v o v 5 . 3 1 6 . 2 1 0 . 1 1 v 5 > v u vlo ? v o 3 . 2 1 3 . 1 1 8 . 9 v 5 < u v lo h y s t e r e s is u vl o hys (v u vlo + ) ? (v u vlo ? ) 0 .4 1 .3 v t h reshold inpu t current (l h) i flh i o = 0 ma, v o > 5 v 1.5 5 ma t h reshold inpu t voltage (h l) v fhl i o = 0 ma, v o < 5 v 0.8 v input f o r w ard voltag e v f i f = 10 ma, t a = 2 5 c 1.2 1.56 1.8 v input revers e current i r v r = 3 v, t a = 2 5 c 10 a input cap a cita nce c i n f = 1 mhz, v f = 0 v 30 p f notes: *1. t y pic a l val ues at t a = 2 5 c. *2. maximum p u l s e w i dth = 50 s, max i mum duty c y cle = 0.5% *3. maximum p u l s e w i dth = 10 s, max i mum duty c y cle = 0.2% *4. v o h i s measu r ed w i th the dc load cu rr ent i n this te st ing (maximum p u lse w i dth = 1 ms, maximum dut y c y c l e = 20%). < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 7 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 switching characteri s tics (ac) (at recommende d operati n g conditions, v e e = v e = gnd, unless othe rw ise specified) pa rame ter sy mbol conditi ons min. typ. * 1 m a x. u nit p ropa gat i o n d ela y t ime (l h) t plh r g = 10 , c g = 10 n f , 50 90 200 ns propa gat i o n d e l a y t ime (h l) t p h l s n 0 0 2 0 1 1 0 5 , z h k 0 1 = f pulse w i dth d i stortion (pw d ) | t p h l ? t plh | dut y c y c le = 50% *2 , 20 100 ns propa gatio n d ela y t ime (difference b e tw e en a n y t w o products) t p h l ? t plh i f = 10 ma, v c c 2 = 30 v ? 1 0 0 100 ns t e m i t e s i r r s n 0 5 t e m i t l l a f f s n 0 5 common m ode t ransient immunit y a t h i gh lev el ou tp u t *3 c m h t a = 2 5 c, i f = 10 ma, v c c 2 = 30 v, v c m = 1.5 kv, c d esat = 100 p f , r f = 2.1 k , v c c 1 = 5 v 25 kv/ s common m ode t ransient immunit y at low level output *4 c m l t a = 2 5 c, v f = 0 v, v c c 2 = 30 v, v c m = 1.5 kv, r f = 2.1 k , v c c 1 = 5 v ? 25 kv/ s d esat sense to 90% v o del a y t d esa t ( 90%) c d esat = 100 p f , r f = 2.1 k , 250 500 ns d esat sense to 10% v o del a y t d esa t ( 10%) r g = 10 , c g = 10 n f v c c 2 = 30 v 1.5 2 3 s desat sense to l o w lev el f ault signal dela y t d esa t (fa u l t ) s n 0 0 8 0 0 4 desat sense to desat low propa gatio n d ela y t d esa t ( l o w ) s n 0 5 2 desat input mute *5 t d esa t (mut e ) 5 s reset to high level fault v c c 1 = 5.5 v 0.3 1.2 3.0 s sign al d e l a y t r ese t (fa u l t ) v c c 1 = 3.3 v 0.5 1.5 4.0 s notes: *1. t y pic a l val ues at t a = 2 5 c. *2. t h is load cond i t ion is e q uiva l e n t to the igb t l oad a t 1 2 00 v /150 a . *3. common mode transi e n t i mmunit y in the h i gh state is the maximum toler able d v c m /dt o f the common mode pulse , v c m , to assure that the output w i l l remain in the high state (i.e., v o > 15 v o r f ault > 2 v). a 100 p f and a 2.1 k? p u ll-u p resistor i s need ed in fa ult detectio n mode. *4. common mode transi e n t i mmunit y in the l o w state is the maximum toler able d v c m /dt o f the common mode pulse , v c m , to assure that the output w i l l remain in a lo w state (i.e., v o < 1.0 v or f ault < 0.8 v). *5. durin g mutin g desat , even i f led (if) input occurs , igb t oper ates turn-o ff and vo state is kept to lo w . afte r unmu ting this d esat , w hen l e d i s tu rned o n , vo /fault becomes high s ta te ( w it h automatic res e t). < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 8 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 test circuit 1 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v faultl i f i f v oh v cc 2 i oh v cc 2 v ol v c c 2 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i faulth i ol v cc 2 v c c 1 i f 2 v c c 1 v o 0.1 f v o i o i o 0 . 1 f 0 . 1 f 0 . 1 f fig. 1 v faultl test circuit fig. 3 i oh test circuit fig. 5 v oh v 6 . g i f t i u c r i c t s e t ol test circuit fig. 4 i ol test circuit fig. 2 i faulth test circuit < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 9 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 test circuit 2 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f i f i cl v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f i cc2h i cc2l i chg 2 v v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i dschg 7 v 2.5 v v desat v cc 2 v cc 2 v cc 2 v cc 2 v cc v 2 cc 2 0 . 1 f 0 . 1 f 0.1 f 0 . 1 f 0 . 1 f 0 . 1 f fig. 7 i cc2h test circuit fig. 9 i chg test circuit fig. 11 i cl v 2 1 . g i f t i u c r i c t s e t desat test circuit fig. 10 i dschg test circuit fig. 8 i cc2l test circuit < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 0 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 test circuit 3 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f 10 10 nf i f v out fault v deset 90% 10% 50% 50% 50% t deset (low) t deset (mute) t deset (10%) t deset (90%) t reset (fault) t deset (fault) v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 i f 2.1 k 10 10 nf 100 pf t phl t plh i f v out 90% 50% 10% t r t f v cc 2 v cc 2 v cc 2 v cc 2 v desat ? + v c c 1 = 5 v 0 . 1 f 0 . 1 f 0.1 f 0 . 1 f fig. 13 v uvlo test circuit fig. 15 t plh/ t phl test circuit fig. 17 t plh /t phl test wave forms fig. 18 t desat test wave forms fig. 14 i flh test circuit fig. 17 t desat test circuit < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 1 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 test circuit 4 v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 10 10 nf + ? scope v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 10 10 nf + ? scope 2.1 k scope v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 10 10 nf ? + 2.1 k scope v s v cc 1 fault v s cathode anode anode cathode v e v led desat v cc 2 v ee v o v clamp v ee 1 2 3 4 5 6 7 8 16 15 14 13 12 11 10 9 10 10 nf ? + v oh v ol 1 v 15 v 1 500 v v cm 0 v v o (cm h : i f = 10 ma) v o (cm l : i f = 0 ma) t r t f 90% 10% gnd open 0.8 v 2 v 1 500 v v cm 0 v v fault (cm h : i f = 10 ma, desat) v fault (cm l : i f = 0 ma, desat) t r t f 90% 10% v cc 2 v cc 2 v cc 1 v cc 2 100 pf v cc 1 v cc 2 0 . 1 f 0.1 f 0.1 f 0.1 f 0 . 1 f 0 . 1 f fig. 19 cm h test circuit (led1 on) fig. 21 cm h test circuit (led2 on) fig. 23 cm h , cm l test wave forms (led1 on, off) fig. 24 cm h , cm l test wave forms (led2 on, off) fig. 22 cm l test circuit (led2 off) fig. 20 cm l test circuit (led1 off) < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 2 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 typical charac t e ristics (t a = 25 c, unless otherw ise specified) ambient t emper ature t a (c) output ic p o w er dissipation p o (mw) output ic power dissipation vs. ambient temperature 0 50 100 150 200 250 300 350 400 ambient t emper ature t a (c) threshold input current i flh (ma) threshold input current vs. ambient temperature 5 4 3 2 1 0 v cc 2 = 30 v, v ee = gnd, v o > 5 v ? 40 ? 20 0 20 40 60 80 100 f orw ard current i f (ma) output v oltage v o (v) output voltage vs. forward current v cc = 30 v, v ee = gnd 1 0 2 4 3 5 35 30 25 20 15 10 5 ambient t emper ature t a (c) input ic p o w er dissipation p i (mw) input ic power dissipation vs. ambient temperature 25 0 50 75 100 125 0 120 100 80 60 40 20 25 0 50 75 100 125 high le v el output v oltage ? output supply v oltage v oh ? v cc 2 (v) high le v el output current i oh (a) high level output voltage ? output supply voltage vs. high level output current ? 2.5 ? 2.0 ? 1.5 ? 1.0 0.0 ? 0.5 0.0 ? 5.0 ? 4.0 ? 3.0 ? 2.0 ? 1.0 v cc = 30 v, v ee = gnd, i f = 10 ma ? 40c t a = 110c 25c f orw ard v oltage v f (v) f orw ard current i f (ma) forward current vs. forward voltage 1.0 0.01 0.1 1.0 10 100 1.2 1.4 1.6 1.8 2.0 2.2 2.4 t a = +100c +85c +50c +25c 0c ? 40c rema r k t he graphs i ndi cate nom ina l characte r i s tics. < r > a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 3 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 output supply v oltage v cc 2 (v) propagation delay time, pulse width distortion vs. output supply voltage propagation dela y time t phl , t plh (ns), pulse width distor tion (pwd) t phl ? t plh (ns) propagation dela y time t phl , t plh (ns), pulse width distor tion (pwd) t phl ? t plh (ns) 15 20 25 30 v ee = gnd, i f = 10 ma, r g = 10 , c g = 10 nf, f = 10 khz, duty cycle = 50% 200 150 100 50 0 t phl pwd t plh propagation delay time, pulse width distortion vs. load capacitance load capacitance c g (nf) 0 10 20 30 40 50 v cc 2 = 30 v, v ee = gnd, i f = 10 ma, r g = 10 , f = 10 khz, duty cycle = 50% t phl t plh pwd propagation delay time, pulse width distortion vs. load resistance v cc 2 = 30 v, v ee = gnd, i f = 10 ma, c g = 10 nf, f = 10 khz, duty cycle = 50% t phl pwd t plh load resistance r g () propagation dela y time t phl , t plh (ns), pulse width distor tion (pwd) t phl ? t plh (ns) propagation dela y time t phl , t plh (ns), pulse width distor tion (pwd) t phl ? t plh (ns) propagation delay time, pulse width distortion vs. ambient temperature ambient t emper ature t a (c) 0 ? 40 ? 20 20 40 60 80 v cc 2 = 30 v, v ee = gnd, i f = 10 ma, r g = 10 , c g = 10 nf, f = 10 khz, duty cycle = 50% t phl t plh 100 pwd 200 150 100 50 0 0 10 20 30 40 50 200 150 100 50 0 200 150 100 50 0 lo w le v el output current i ol (a) lo w le v el output v oltage v ol (v) low level output voltage vs. low level output current 0.0 5.0 4.0 3.0 2.0 1.0 0 0.5 1.0 1.5 2.5 2.0 v cc = 30 v, v ee = gnd, i f = 0 ma ? 40c 25c t a = 110c f orw ard current i f (ma) propagation delay time, pulse width distortion vs. forward current propagation dela y time t phl , t plh (ns), pulse width distor tion (pwd) t phl ? t plh (ns) 7 10 13 16 v cc 2 = 30 v, v ee = gnd, r g = 10 , c g = 10 nf, f = 10 khz, duty cycle = 50% 200 150 100 50 0 t phl pwd t plh rem ark t he graphs i ndi cate nom ina l characte r i s tics. a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 4 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 ambient t emper ature t a (c) high le v el output v oltage ? output supply v oltage v oh ? v cc 2 (v) high level output voltage ? output supply voltage vs. ambient temperature ? 20 0 20 40 80 60 ? 40 0.0 ? 3.0 ? 2.5 ? 2.0 ? 1.5 ? 1.0 ? 0.5 100 ? 20 0 20 40 80 60 ? 40 100 v cc 2 = 30 v, v ee = gnd, i f = 10 ma ambient t emper ature t a (c) high le v el output current i oh (a) high level output current vs. ambient temperature ambient t emper ature t a (c) lo w le v el output v oltage v ol (v) low level output voltage vs. ambient temperature 0.5 0 0.1 0.2 0.3 0.4 v cc 2 = 30 v, v ee = gnd, i f = 10 ma, i o = 100 ma ambient t emper ature t a (c) lo w le v el output current i ol (a) low level output current vs. ambient temperature ? 20 0 20 40 80 60 ? 40 100 0 ? 1 ? 7 ? 6 ? 5 ? 4 ? 3 ? 2 v cc 2 = 30 v, v ee = gnd, i f = 10 ma ? 20 0 20 40 80 60 ? 40 100 5 0 1 2 3 4 v cc 2 = 30 v, v ee = gnd, i f = 10 ma ?100 ma i o = ?650 a v o = v cc 2 ? 4 v v o = v ee +15 v v ee +2.5 v v cc 2 ? 15 v ambient t emper ature t a (c) high level supply current, low level supply current vs. ambient temperature high le v el supply current i cch (ma), lo w le v el supply current i ccl (ma) ? 20 0 20 40 80 60 ? 40 3.0 2.5 2.0 1.5 1.0 0.5 100 v cc 2 = 30 v, v ee = gnd, v o = open i cc2h (i f = 10 ma) i cc2l (i f = 0 ma) output supply v oltage v cc 2 (v) high level supply current, low level supply current vs. output supply voltage high le v el supply current i cch (ma), lo w le v el supply current i ccl (ma) 0 3 0 2 5 1 25 v ee = gnd, v o = open i cc2h (i f = 10 ma) i cc2l (i f = 0 ma) 3.0 2.5 2.0 1.5 1.0 0.5 rem ark t he graphs i ndi cate nom ina l characte r i s tics. a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 5 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 ambient t emper ature t a (c) blanking capacitor discharging current i dschg (ma) blanking capacitor discharging current vs. ambient temperature ? 20 0 20 40 80 60 ? 40 100 60 20 30 40 50 v cc 2 = 30 v, v ee = v e = gnd, i f = 0 ma, v desat = 7 v ambient t emper ature t a (c) desa t threshold v desa tth (v) desat threshold vs. ambient temperature ? 20 0 20 40 80 60 ? 40 100 7.5 6.0 6.3 6.9 6.6 7.2 v ee = v e = gnd, v cc 2 > v uvlo? , v o < 5 v, i f = 10 ma ambient t emper ature t a (c) desa t sense to 90% v o dela y t desa t (90%) (ns) ? 20 0 20 40 80 60 ? 40 100 500 0 100 300 200 400 desat sense to 90% v o delay vs. ambient temperature v ee = v e = gnd, r g = 10 , c g = 10 nf, r f = 2.1 k, c desat = 100 pf, v cc 1 = 5 v v cc 2 = 30 v 15 v ambient t emper ature t a (c) desa t sense to 10% v o dela y t desa t (10%) ( s) ? 20 0 20 40 80 60 ? 40 100 3.0 0.0 1.0 0.5 2.0 1.5 2.5 desat sense to 10% v o delay vs. ambient temperature v cc 1 = 5 v, v ee = v e = gnd, r g = 10 , c g = 10 nf, r f = 2.1 k, c desat = 100 pf v cc 2 = 30 v 15 v ambient t emper ature t a (c) clamp lo w le v el sinking current i cl (a) clamp low level sinking current vs. ambient temperature ? 20 0 20 40 80 60 ? 40 100 4 0 1 2 3 v cc 2 = 30 v, v ee = v e = gnd, v t clamp = 2.5 v ambient t emper ature t a (c) blanking capacitor charging current i chg (ma) blanking capacitor charging current vs. ambient temperature ? 20 0 20 40 80 60 ? 40 100 ? 0.10 ? 0.35 ? 0.30 ? 0.20 ? 0.25 ? 0.15 v cc 2 = 30 v, v ee = v e = gnd, i f = 10 ma, v desat = 2 v rem ark t he graphs i ndi cate nom ina l characte r i s tics. a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 6 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 i f = 10 ma, v ee = gnd output voltage vs. supply voltage supply v oltage v cc 2 ? v ee (v) output v oltage v o (v) 0 5 10 15 20 14 12 10 8 6 4 2 0 uvlo hys v uvlo+ v uvlo? (12.6 v) (11.3 v) load resistance r g () p o w er consumption p er cycle e sw ( j) 20 40 30 0 10 50 8 7 0 1 3 2 5 4 6 power consumption per cycle vs. load resistance q g = 1 000 nc q g = 100 nc q g = 500 nc load resistance r g () desa t sense to 10% v o dela y t desa t (10%) ( s) 20 40 30 10 50 3.0 0.0 1.0 0.5 2.0 1.5 2.5 desat sense to 10% v o delay vs. load resistance v cc 1 = 5 v, v ee = v e = gnd, c g = 10 nf, r f = 2.1 k, c desat = 100 pf v cc 2 = 30 v 15 v load capacitance c g (nf) desa t sense to 10% v o dela y t desa t (10%) ( s) 20 40 30 10 50 12.0 0.0 6.0 3.0 9.0 desat sense to 10% v o delay vs. load capacitance v cc 1 = 5 v, v ee = v e = gnd, r f = 2.1 k, r g = 10 , c desat = 100 pf v cc 2 = 30 v 15 v 0 rem ark t he graphs i ndi cate nom ina l characte r i s tics. a bu s i n e ss par tne r o f r e n esas elec t ro nics c orp o r a tio n . PS9402 chap ter title 2 2 f o 7 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 taping specifications (unit: mm) packing: 850 pcs/reel 2.00.5 r 1.0 13.00.2 3.5 21.00.8 3302.0 1001.0 4.5 0.1 3.8 0.1 0.35 10.8 0.1 4.0 0.1 2.0 0.1 11.5 0.1 1.75 0.1 1.55 0.1 24 0.3 16 0.1 10.9 0.1 2.0 0.5 23.9 to 27.4 outer edge of flange 29.51.0 25.51.0 1.5 +0.1 ?0 PS9402-e3 tape direction outline and dimensions (tape) outline and dimensions (reel) PS9402 chap ter title 2 2 f o 8 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 recommended mount pad dimensions (unit: mm) p ar t number PS9402 lead bending a lead bending type (gull-wing) f or surf ace mount 9.85 b 1.27 c 0.96 d 1.65 d c b a < r > PS9402 chap ter title 2 2 f o 9 1 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 notes on handli n g 1 . r ecommended sol d ering c o n d itions ( 1 ) i n fra red r e flow sol d erin g 0 6 2 e r u t a r e p m e t w o l f e r k a e p ? c or below (pac ka ge s u rface tem p erature) ? ti m e of p eak r ef low t em perature 10 sec o nds or l ess ? tim e of t em p erat ure h i ghe r t h a n 220 c 60 sec o nds or l ess ? tim e t o pre h e a t t e m p erat ure f r o m 1 2 0 t o 1 8 0 c 1 2 0 30 s e e r h t s w o l f e r f o r e b m u n ? x u l f e h t ( e n i r o l h c f o t n u o m a l l a m s g n i n i a t n o c x u l f n i s o r x u l f ? with a m ax i m u m c h l o rin e c o nten t of 0 . 2 w t % is recom m ended. ) 12030 s (preheating) 220c 180c package surface temperature t ( c) time (s) recommended temperature profile of infrared reflow (heating) to 10 s to 60 s 260c max. 120c ( 2 ) wave s o lde r i n g ? tem p erature 260 c or b elow (m o lten so lder tem p eratu r e) ? tim e 10 sec o nds or l ess ? preh eatin g cond itio n s 1 2 0 c or below (pac ka ge s u rface tem p erature) ? n u m b er o f t i mes o n e (allowed t o b e d i p p e d i n s o l d er i n clud i n g p l astic m o l d p o rtion . ) ? f l u x r o s i n f lux c onta i n i ng s m all a m ount o f c h l o r i ne (t he f lux w ith a m axim u m chl o r i ne cont e n t o f 0 . 2 w t % i s recom m ended . ) ( 3) sol deri n g b y s o l d e r ing iron ? peak tem p erature (lead pa rt t e m p erature ) 350 c o r b el o w s s e l r o s d n o c e s 3 ) s n i p h c a e ( e m i t ? a h t i w x u l f e h t ( e n i r o l h c f o t n u o m a l l a m s g n i n i a t n o c x u l f n i s o r x u l f ? m ax i m u m c h l o r i n e c o n t e n t of 0 . 2 w t % i s r e c o mmende d . ) (a) sol d eri n g o f l eads s h o u l d be m ade at t h e poi n t 1 . 5 t o 2 . 0 mm from t h e r oot o f t h e l ead (4 ) ca utions ? f l uxes a v o id rem oving t h e resi dual f l ux w ith fre o n - b ase d a n d chl o r i ne- b ase d c l e a n ing s o l v e n t . 2 . cau tion s r egardi n g n o ise b e aware t h a t whe n v o ltage i s a p p lied s u d d enl y bet w e e n t h e p h o t o c o upl e r?s input a n d o u tpu t a t s t art u p , t h e o u t p u t tran sistor m ay e n ter t h e o n state, e v e n if t h e voltag e is within t h e a b s o l u te max i m u m ratin g s. PS9402 chap ter title 2 2 f o 0 2 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 usage cautions 1 . t h is p r o d u ct is weak for static electricity b y d esign e d w ith h igh -sp ee d i n tegrated circu it s o p r o tect a g a i nst static electricity when handling. 2 . b o a r d design i n g ( 1) by-p ass cap acito r o f m o re t h an 0 . 1 f i s use d bet w ee n v cc a n d gnd n ea r d ev ice. a l s o , e n s ure t h at t h e d i s tan ce b et w een t h e lead s o f t h e p h o t o co u p ler a n d cap acito r i s n o m o r e t h a n 1 0 mm. ( 2 ) w h e n d e s i gni n g t h e p r i n t ed w i r ing b o a r d, e n s u r e t h a t t h e patter n o f t h e i g b t c o llect ors/ e m i t t ers i s not t o o c l ose t o t h e i n p u t b l ock p attern of the p hot o coup ler. if t h e p attern is t o o clo se t o t h e i n p u t b l o c k a n d coup lin g o c c u rs, a sudd en flu ct u ation i n t h e voltag e o n t h e igbt out put s i de m i ght a ffect t h e p hot ocoup l er ? s led i n p u t , l ea d i n g t o m al f u n c tion o r d e gra d a tion o f cha r a c t er i s tics. (if t h e p attern n eeds to b e close t o t h e inpu t b l o c k , t o p r e v e n t t h e led from lig h ting d u r i n g t h e off state d u e to t h e abov e m e n t i one d coupling , d es i g n t h e i n p u t-sid e circu it s o t h at t h e b i as of t h e led is rev e rsed , with i n t h e rang e o f t h e reco mmen d ed operatin g cond itio n s , and b e s u re t o thoroughl y e v alu ate o p eration. ) 3 . mak e s u re t h e rise/fall t i m e of t h e f o r w ard c u r r e n t is 0 . 5 s or less. 4 . in ord e r t o a v oid m alfunctio ns, m ak e sure the rise/fall slop e of t h e v cc 2 is 3 v / s or less . 5 . avoid storage at a high te m p erat ure a n d h igh h u m i d i t y . < r > < r > PS9402 chap ter title 2 2 f o 1 2 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 spe cification of vde marks lice nse document t i n u . c e p s l o b m y s r e t e m a r a p climatic test cl ass (iec 6006 8- 1 2 / 0 1 1 / 0 4 ) 1 - 8 6 0 0 6 n e n i d / 1 dielectric strength maximum o p e r ating i s olati on voltag e t e st voltage ( p artial disc har g e test, procedur e a for t y pe tes t and rand om test) u p r = 1.6 u io rm . , p d < 5 pc u iorm u p r 1 130 1 808 v peak v peak t e st voltage ( p artial disc har g e test, procedur e b for all dev i c es) u p r = 1.875 u iorm . , p d < 5 p c u p r 2 119 v peak u e g a t l o v r e v o e l b i s s i m r e p t s e h g i h t r 8 000 v peak 2 ) 1 t r a p 0 1 1 0 e d v 1 - 4 6 6 0 6 n e n i d ( n o i t u l l o p f o e e r g e d compar ative tracking i n dex (iec 601 12/di n en 601 12 (vd e 0303 part 11)) c t i 175 material group (din en 60664 a i i i ) 1 t r a p 0 1 1 0 e d v 1 - t e g n a r e r u t a r e p m e t e g a r o t s s t g ?55 to + 125 c t e g n a r e r u t a r e p m e t g n i t a r e p o a ?40 to + 110 c isolatio n resist ance, min i mum value v i o = 500 v dc at t a = 25c v i o = 500 v dc at t a max. at l east 100 c ris min. ris min. 1 0 1 2 1 0 1 1 safet y maximum ratings (maximum permiss i b le in c a se of fault, see therm a l derati ng curve) packag e temp erature current (in put current i f , psi = 0) po w e r (o utput or total po w e r dissip a tio n ) isolatio n resist ance v i o = 500 v dc at t a = t si t si isi psi ris min. 175 400 700 1 0 9 c ma m w < r > PS9402 chap ter title 2 2 f o 2 2 e g a p 0 0 . 1 . v e r 0 0 1 0 j e 4 1 0 0 s d 8 0 r jun 22, 2 0 1 2 caution g a a s pro duc t s this product u se s g allium ar s e ni d e (g a a s ) . gaas vap or and powder a r e ha za rdous to human health if inhaled or ingeste d, so please ob se rve the following points. ? follow related laws an d ordinan ces when di spo s i ng of the produ ct . if there a r e no a pplicable laws and/or o r dinance s , dispo s e of the produ ct a s re co mmended below. 1. commission a disposal compa ny able to (with a license to ) collect, tran sport a nd d i spose of materials that co ntain arse nic and ot her such industrial waste mat eri als. 2. exclude the product f r om gene ral industrial wast e and hou sehold garbage, a nd en sure t hat the produ ct is controlled (as indu strial waste subje c t to spe c ial control) u p until final disposal. ? do not burn, de stro y, cut, cru s h, or ch emically dissolve th e prod uct . ? do not lick the produ ct or in an y way allow it to e nter the mou th. all trademarks and registered trademarks are t he property of their respective owners. c - 1 revision history PS9402 data sheet description rev. date page summary 0.01 may 09, 2011 ? first edition issued 1.00 jun 22, 2012 throughout prelimi nary data sheet - > data sheet throughout safety standards approved p.3 modification of block diagram p.4 modification of marking example p.5 modification of absolute maximum ratings p.6 modification of electrical characteristics (dc) p.7 modification of switching characteristics (ac) pp.8 to 11 modification of test circuit pp.12 to 16 addition of typical characteristics p.18 addition of recommended mount pad dimensions p.20 modification of usage cautions p.21 addition of specification of vde marks license document |
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