1 of 4 case: do-15 low profile molded plastic axial leaded transient voltage supperssor voltage range: 5.8 - 37 6 v power: 600wa t t s bzw06p5v8b - bzw06p376b s y m bol v a l ue u n it p ea k p ul s e p o w e r f o r 1 m s e c . e x p o n e n t i a l p ul se p pp m ini m u m 600 w a tt s t ea d y s t a t e p o w e r d i ss ip a t i o n ( l=10 mm ) p d 5 .0 w a tt s t o r a g e t e m p e r a t u r e r a nge t s tg - 65 t o + 175 c no t es : ( 1 ) n on -r epe t i t i v e c u rr en t pu ls e , pe r f i g . 5 and de r a t ed abo v e t a = 25 c pe r f i g . 1 ( 2 ) m oun t ed on c oppe r lea f a r ea o f 1 . 57 in 2 ( 40 mm 2 ). ( 3 ) 8 . 3 m s si ng l e ha l f si ne - w a v e , du t y c y cl e = 4 pu ls e s pe r m i nu t e s m a x i m u m. classification rating 94v-o features glass passivated die construction excellent clamping capability fast response time plastic case material has ul flammability ! ! ! ! mechanical data terminals: axial leads, solderable per mil-std-202, method 208 polarity: cathode band or cathode notch weight: 0.40 grams (approx.) ! ! ! ! maximum ratings and electrical characteristics @t a =25c unless otherwise specified www.sunmate.tw a a b c d do-15 dim min max a 25.40 b 5.50 7.62 c 0.686 0.889 d 2.60 3.60 all dimensions in mm characteristic
2 of 4 b z w 06 p 5 v 8b 6 . 45 7 . 48 10 5 . 80 2000 57 10 .5 2000 b z w 06 - 5 v 8b 6 . 45 7 . 14 10 5 . 80 2000 57 10 .5 2000 b z w 06 p 6 v 4b 7 . 13 7 . 25 10 6 . 40 1000 53 11 .3 1850 b z w 06 - 6 v 4b 7 . 13 7 . 88 10 6 . 40 1000 53 11 .3 1850 b z w 06 p 7 v 0b 7 . 79 9 . 02 10 7 . 02 400 50 12 .1 1700 b z w 06 - 7 v 0b 7 . 79 8 . 61 10 7 . 02 400 50 12 .1 1700 b z w 06 p 7 v 8b 8 . 65 10 .0 1 .0 7 . 78 100 45 13 .4 1550 b z w 06 - 7 v 8b 8 . 65 9 . 55 1 .0 7 . 78 100 45 13 .4 1550 b z w 06 p 8 v 5b 9 .5 11 .0 1 .0 8 . 55 20 41 14 .5 1400 b z w 06 - 8 v 5b 9 .5 10 .5 1 .0 8 . 55 20 41 14 .5 1400 b z w 06 p 9 v 4b 10 .5 12 .1 1 .0 9 . 40 10 38 15 .6 1250 b z w 06 - 9 v 4b 10 .5 11 .6 1 .0 9 . 40 10 38 15 .6 1250 b z w 06 p 10b 11 .4 13 .2 1 .0 10 .2 5 .0 36 16 .7 1150 b z w 06 - 10b 11 .4 12 .6 1 .0 10 .2 5 .0 36 16 .7 1150 b z w 06 p 11b 12 .4 14 .3 1 .0 11 .1 5 .0 33 18 .2 1075 b z w 06 - 11b 12 .4 13 .7 1 .0 11 .1 5 .0 33 18 .2 1075 b z w 06 p 13b 14 .3 16 .5 1 .0 12 .8 5 .0 28 21 .2 950 b z w 06 - 13b 14 .3 15 .8 1 .0 12 .8 5 .0 28 21 .2 950 b z w 06 p 14b 15 .2 17 .6 1 .0 13 .6 5 .0 27 22 .5 900 b z w 06 - 14b 15 .2 16 .8 1 .0 13 .6 5 .0 27 22 .5 900 b z w 06 p 15b 17 .1 19 .8 1 .0 15 .3 1 .0 24 25 .2 800 b z w 06 - 15b 17 .1 18 .9 1 .0 15 .3 1 .0 24 25 .2 800 b z w 06 p 17b 19 .0 22 .0 1 .0 17 .1 1 .0 22 27 .2 750 b z w 06 - 17b 19 .0 21 .0 1 .0 17 .1 1 .0 22 27 .2 750 b z w 06 p 19b 20 .9 24 .2 1 .0 18 .8 1 .0 20 30 .6 675 b z w 06 - 19b 20 .9 23 .1 1 .0 18 .8 1 .0 20 30 .6 675 b z w 06 p 20b 22 .8 26 .4 1 .0 20 .5 1 .0 18 33 .2 625 b z w 06 - 20b 22 .8 25 .2 1 .0 20 .5 1 .0 18 33 .2 625 b z w 06 p 23b 25 .7 29 .7 1 .0 23 .1 1 .0 16 37 .5 575 b z w 06 - 23b 25 .7 28 .4 1 .0 23 .1 1 .0 16 37 .5 575 b z w 06 p 26b 28 .5 33 .0 1 .0 25 .6 1 .0 14 .5 41 .5 538 b z w 06 - 26b 28 .5 31 .5 1 .0 25 .6 1 .0 14 .5 41 .5 538 b z w 06 p 28b 31 .4 36 .3 1 .0 28 .2 1 .0 13 .1 45 .7 500 b z w 06 - 28b 31 .4 34 .7 1 .0 28 .2 1 .0 13 .1 45 .7 500 b z w 06 p 31b 34 .2 39 .6 1 .0 30 .8 1 .0 12 .0 49 .9 475 b z w 06 - 31b 34 .2 37 .8 1 .0 30 .8 1 .0 12 .0 49 .9 475 b z w 06 p 33b 37 .1 42 .9 1 .0 33 .3 1 .0 11 .1 53 .9 450 b z w 06 - 33b 37 .1 41 .0 1 .0 33 .3 1 .0 11 .1 53 .9 450 b z w 06 p 37b 40 .9 47 .3 1 .0 36 .8 1 .0 10 .1 59 .3 425 b z w 06 - 37b 40 .9 45 .2 1 .0 36 .8 1 .0 10 .1 59 .3 425 b z w 06 p 40b 44 .7 51 .7 1 .0 40 .2 1 .0 9 .3 64 .8 400 b z w 06 - 40b 44 .7 49 .4 1 .0 40 .2 1 .0 9 .3 64 .8 400 b z w 06 p 44b 48 .5 56 .1 1 .0 43 .6 1 .0 8 .6 70 .1 375 b z w 06 - 44b 48 .5 53 .6 1 .0 43 .6 1 .0 8 .6 70 .1 375 b z w 06 p 48b 53 .2 61 .6 1 .0 47 .8 1 .0 7 .8 77 350 b z w 06 - 48b 53 .2 58 .8 1 .0 47 .8 1 .0 7 .8 77 350 e l e c t ric a l ch a r a c t e ri s t ics r a t i n g a t 25 c a m b i en t t e m p e r a t u r e un l e ss o t he r wi s e s p e c i f i ed t y p i c al c a p a c i y an ce t y p ( p f) rwm rwm breakdown reverse stand-off voltage voltage min. @i t breakdown voltage max. @ i t test current maximum clamping voltage @i pp peak pulse current reverse leakage @v v (v) v br min (v) i pp (a) i r (ua) v c (v) v br max (v) i t (ma) e www.sunmate.tw
3 of 4 e l e c t ric a l ch a r a c t e ri s t ics r a t i n g a t 25 c a m b i en t t e m p e r a t u r e un l e ss o t he r wi s e s p e c i f i ed b z w 06 p 53b 58 .9 68 .2 1 .0 53 1 .0 7 .1 85 325 b z w 06 - 53b 58 .9 65 .1 1 .0 53 1 .0 7 .1 85 325 b z w 06 p 58b 64 .6 74 .8 1 .0 58 .1 1 .0 6 .5 92 313 b z w 06 - 58b 64 .6 71 .4 1 .0 58 .1 1 .0 6 .5 92 313 b z w 06 p 64b 71 .3 82 .5 1 .0 64 .1 1 .0 5 .8 103 288 b z w 06 - 64b 71 .3 78 .8 1 .0 64 .1 1 .0 5 .8 103 288 b z w 06 p 70b 77 .9 90 .2 1 .0 70 .1 1 .0 5 .3 113 275 b z w 06 - 70b 77 .9 86 .1 1 .0 70 .1 1 .0 5 .3 113 275 b z w 06 p 78b 86 .5 100 1 .0 77 .8 1 .0 4 .8 125 263 b z w 06 - 78b 86 .5 95 .5 1 .0 77 .8 1 .0 4 .8 125 263 b z w 06 p 85b 95 110 1 .0 85 .8 1 .0 4 .4 137 250 b z w 06 - 85b 95 105 1 .0 85 .8 1 .0 4 .4 137 250 b z w 06 p 94b 105 121 1 .0 94 .0 1 .0 3 .9 152 235 b z w 06 - 94b 105 116 1 .0 94 .0 1 .0 3 .9 152 235 b z w 06 p 102b 114 132 1 .0 102 1 .0 3 .6 165 225 b z w 06 - 102b 114 126 1 .0 102 1 .0 3 .6 165 225 b z w 06 p 111b 124 143 1 .0 111 1 .0 3 .4 179 210 b z w 06 - 111b 124 137 1 .0 111 1 .0 3 .4 179 210 b z w 06 p 128b 143 165 1 .0 128 1 .0 2 .9 207 200 b z w 06 - 128b 143 158 1 .0 128 1 .0 2 .9 207 200 b z w 06 p 136b 152 176 1 .0 136 1 .0 2 .7 219 190 b z w 06 - 136b 152 168 1 .0 136 1 .0 2 .7 219 190 b z w 06 p 145b 161 187 1 .0 145 1 .0 2 .6 234 185 b z w 06 - 145b 161 179 1 .0 145 1 .0 2 .6 234 185 b z w 06 p 154b 171 198 1 .0 154 1 .0 2 .4 246 180 b z w 06 - 154b 171 189 1 .0 154 1 .0 2 .4 246 180 b z w 06 p 171b 190 220 1 .0 171 1 .0 2 .2 274 175 b z w 06 - 171b 190 210 1 .0 171 1 .0 2 .2 274 175 b z w 06 p 188b 209 242 1 .0 188 1 .0 2 .0 301 165 b z w 06 - 188b 209 231 1 .0 188 1 .0 2 .0 301 165 b z w 06 p 213b 237 275 1 .0 213 1 .0 1 .8 344 155 b z w 06 - 213b 237 263 1 .0 213 1 .0 1 .8 344 155 b z w 06 p 239b 266 308 1 .0 239 1 .0 1 .7 384 150 b z w 06 - 239b 266 294 1 .0 239 1 .0 1 .7 384 150 b z w 06 p 256b 285 330 1 .0 256 1 .0 1 .6 414 145 b z w 06 - 256b 285 315 1 .0 256 1 .0 1 .6 414 145 b z w 06 p 273b 304 352 1 .0 273 1 .0 1 .6 436 140 b z w 06 - 273b 304 336 1 .0 273 1 .0 1 .6 436 140 b z w 06 p 299b 332 285 1 .0 299 1 .0 1 .6 482 135 b z w 06 - 299b 332 368 1 .0 299 1 .0 1 .6 482 135 b z w 06 p 342b 380 440 1 .0 342 1 .0 1 .3 548 180 b z w 06 - 342b 380 420 1 .0 342 1 .0 1 .3 548 180 b z w 06 p 376b 418 484 1 .0 376 1 .0 1 .3 603 175 b z w 06 - 376b 418 462 1 .0 376 1 .0 1 .3 603 175 n o t e: ( 1 ) p u l s e t e s t : t p < 50 m s. t y p i c al c a p a c i y an ce t y p ( p f) rwm rwm breakdown reverse stand-off voltage voltage min. @i t breakdown voltage max. @ i t test current maximum clamping voltage @i pp peak pulse current reverse leakage @v v (v) v br min (v) i pp (a) i r (ua) v c (v) v br max (v) i t (ma) e www.sunmate.tw
4 of 4 fig. 1 - p u l se d e r a ti n g cur ve fig. 2 - p u l se w a ve fo rm 0 25 50 75 100 125 150 175 t a , a mb i e n t t empe r a t ur e , ( c) fig. 3 - s t e a d y s t a t e p o w e r d e r a ti ng fig. 4 - p u l se r a ti n g cur ve 80 60 40 20 120 5 . 00 100 10 0 1 . 25 3 . 75 0 0 .1 2 . 50 1 .0 t p , p ul se w i d th p e a k p u l s e d e r a t i n g i n % o f p e a k p o w e r o r c u r r e n t p p , p e a k p o w e r ( k w ) 100 100 125 175 0 25 50 75 150 0 .1 m s 1 .0 m s 10 m s 100 m s 10 ms 1 . 0 ms 200 t l , l e a d t empe r a t ur e ( c) p d , s t e a d y s t a t e p o w e r d i s s i p a t i o n ( w a t t s ) tp 50 100 0 t r = 10 m s p ea k v a l ue i r sm h a l f v a l u e - i r sm t , t i me(ms) p e a k p u l s e c u r r e n t - % i r m s 1 .0 2 .0 3 .0 4 .0 0 2 t j = 25 c p u l s e w i d t h ( t p ) i s de f i n ed a s t h a t p o i n t w h e r e t h e peak c u rr e n t de c a ys t o 50% o f i r sm 10 x 1000 w a v e f o rm a s de f i n ed b y r . e . a. www.sunmate.tw
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