smbj5.0 thru smbj170ca surface mount transient voltage suppressor breskdown voltage: 5.0-170 volts peak pulse power: 600 wallts case: jedec do-214aa molded plastic body over passivated junction terminals : solder plated , solderable per mil-std 750, method 2026 polarity : color band denotes cathode except for bidirectional types mounting position : any weight : 0.005 ounce,0.138 grams feature mechanical data optimzed for lan protection applications ideal for esd protection of data lines in accordance with iec 1000-4-2(iec801-2) ideal for eft protection of data lines in accordance with iec1000-4-4(iec801-2) plastic package has underwriters laboratory flammability classification 94v-0 glass passivated junction 600w peak pulse power capability excellent clamping capability low incremental xurge resistance fast response time:typically less than 1.0ps from 0v to v (br) min high temperature soldering guaranteed: 265 c/10s at terminals 0.180(4.57) 0.160(4.06) 0.155(3.94) 0.130(3.30) 0.122(3.12) 0.110(2.82) 0.060(1.52) 0.030(0.76) 0.220(5.59) 0.205(5.21) 0.012(0.305) 0.006(0.152) 0.008(0.203)max. do-214aa/smb dimensions in inches and (millimeters) c peak pulse power dissipation with a 10/1000 m s wavetorm(note 1,2,fig.1) peak forward surge current (note 1,2,3) peak pulse current with a 10/1000 m s waveform(note 1) steady state power dissapation (note 3) maximum instantaneous forward voltage at 50a(note 3,4) unidirectional only operating junction and storage temperature range p ppm i fsm i ppm p m(av) v f t stg ,t j symbols units value minimum 600 100.0 see table 1 5.0 3.5/5.0 -55 to + 150 watts amps amps watts volts maximum ratings and characteristics ratings at 25 c ambient temperature unless otherwise specified. devices for bidirectional applications for bidirectional use suffix c or ca for types smbj5.0 thru smbj170 (e.g. smbj5.0c,smbj170ca) electrical characteristics apply in both directions. notes: 1.non-repetitive current pulse,per fig.3 and derated above t a =25 c per fig.2 2.mounted on 5.0mm copper pads to each terminal 3.measured on 8.3ms single half sine-wine.for uni-di rectional devices only. 4.vf=3.5v on smb-5.0 thru smb-90 devices and vf=5.0v on smb-100 thru smb-170 devices 2 0.091 (2.30) 0.067 (1.70) mdd electronic
electrical characteristics (at t a =25 c unless otherwise noted) w o r k ing p eak r e v e r s e v o l t a ge m a x i m um r e v e r s e v o l t a ge a t i r sm ( c l a m ping v o l t a g e) m a x i m um r e v e r s e s u r ge c u rr e nt m a x i m um r e v e r se l ea k a g e at v r wm ( un i) (b i) v r wm ( v o l t s) m in (v) m a x (v) @ i t ( m a) v r sm ( v o l t s) i r sm (a m p s) i r ( a) s m b j 5 .0 s m b j 5 . 0c kd ad 5 .0 6 . 40 7 . 55 10 9 .6 62 .5 800 s m b j 5 . 0a s m b j 5 . 0 ca ke ae 5 .0 6 . 40 7 . 25 10 9 .2 65 .2 800 s m b j 6 .0 s m b j 6 . 0c kf af 6 .0 6 . 67 8 . 45 10 11 .4 52 .3 800 s m b j 6 . 0a s m b j 6 . 0 ca kg ag 6 .0 6 . 67 7 . 67 10 10 .3 58 .3 800 s m b j 6 .5 s m b j 6 . 5c kh ah 6 .5 7 . 22 9 . 14 10 12 .3 48 .7 500 s m b j 6 . 5a s m b j 6 . 5 ca kk ak 6 .5 7 . 22 8 . 30 10 11 .2 53 .6 500 s m b j 7 .0 s m b j 7 . 0c kl al 7 .0 7 . 78 9 . 86 10 13 .3 45 .1 200 s m b j 7 . 0a s m b j 7 . 0 ca km am 7 .0 7 . 78 8 . 95 10 12 .0 50 .0 200 s m b j 7 .5 s m b j 7 . 5c kn an 7 .5 8 . 33 10 . 80 1 .0 14 .3 42 .0 100 s m b j 7 . 5a s m b j 7 . 5 ca kp ap 7 .5 8 . 33 9 . 58 1 .0 12 .9 46 .5 100 s m b j 8 .0 s m b j 8 . 0c kq aq 8 .0 8 . 89 11 . 30 1 .0 15 .0 40 .0 50 s m b j 8 . 0a s m b j 8 . 0 ca kr ar 8 .0 8 . 89 10 . 20 1 .0 13 .6 44 .1 50 s m b j 8 .5 s m b j 8 . 5c ks as 8 .5 9 . 44 11 . 90 1 .0 15 .9 37 .7 20 s m b j 8 . 5a s m b j 8 . 5 ca kt at 8 .5 9 . 44 10 . 80 1 .0 14 .4 41 .7 20 s m b j 9 .0 s m b j 9 . 0c ku au 9 .0 10 . 00 12 . 80 1 .0 16 .9 35 .5 10 s m b j 9 . 0a s m b j 9 . 0 ca kv av 9 .0 10 . 00 11 . 50 1 .0 15 .4 39 .0 10 s m b j 10 s m b j 10c kw aw 10 .0 11 . 10 14 . 10 1 .0 18 .8 31 .9 5 .0 s m b j 10a s m b j 10 ca kx ax 10 .0 11 . 10 12 . 80 1 .0 17 .0 35 .3 5 .0 s m b j 11 s m b j 11c ky ay 11 .0 12 . 20 15 . 40 1 .0 20 .1 29 .9 5 .0 s m b j 11a s m b j 11 ca kz az 11 .0 12 . 20 14 . 40 1 .0 18 .2 33 .0 5 .0 s m b j 12 s m b j 12c ld bd 12 .0 13 . 30 16 . 90 1 .0 22 .0 27 .3 5 .0 s m b j 12a s m b j 12 ca le be 12 .0 13 . 30 15 . 30 1 .0 19 .9 30 .2 5 .0 s m b j 13 s m b j 13c lf bf 13 .0 14 . 40 18 . 20 1 .0 23 .8 25 .2 5 .0 s m b j 13a s m b j 13 ca lg bg 13 .0 14 . 40 16 . 50 1 .0 21 .5 27 .9 5 .0 s m b j 14 s m b j 14c lh bh 14 .0 15 . 60 19 . 80 1 .0 25 .8 23 .3 5 .0 s m b j 14a s m b j 14 ca lk bk 14 .0 15 . 60 17 . 90 1 .0 23 .2 25 .8 5 .0 s m b j 15 s m b j 15c ll bl 15 .0 16 . 70 21 . 10 1 .0 26 .9 22 .3 5 .0 s m b j 15a s m b j 15 ca lm bm 15 .0 16 . 70 19 . 20 1 .0 24 .4 24 .0 5 .0 s m b j 16 s m b j 16c ln bn 16 .0 17 . 80 22 . 60 1 .0 28 .8 20 .8 5 .0 s m b j 16a s m b j 16 ca lp bp 16 .0 17 . 80 20 . 50 1 .0 26 .0 23 .1 5 .0 s m b j 17 s m b j 17c lq bp 17 .0 18 . 90 23 . 90 1 .0 30 .5 19 .7 5 .0 s m b j 17a s m b j 17 ca lr br 17 .0 18 . 90 21 . 70 1 .0 27 .6 21 .7 5 .0 s m b j 18 s m b j 18c ls bs 18 .0 20 . 00 25 . 30 1 .0 32 .2 18 .6 5 .0 s m b j 18a s m b j 18 ca lt bt 18 .0 20 . 00 23 . 30 1 .0 29 .2 20 .5 5 .0 s m b j 20 s m b j 20c lu bu 20 .0 22 . 20 28 . 10 1 .0 35 .8 16 .7 5 .0 s m b j 20a s m b j 20 ca lv bv 20 .0 22 . 20 25 . 50 1 .0 32 .4 18 .5 5 .0 s m b j 22 s m b j 22c lw bw 22 .0 24 . 40 30 . 90 1 .0 39 .4 15 .2 5 .0 s m b j 22a s m b j 22 ca lx bx 22 .0 24 . 40 28 . 00 1 .0 35 .5 16 .9 5 .0 s m b j 24 s m b j 24c ly by 24 .0 26 . 70 33 . 80 1 .0 43 .0 14 .0 5 .0 s m b j 24a s m b j 24 ca lz bz 24 .0 26 . 70 30 . 70 1 .0 38 .9 15 .4 5 .0 s m b j 26 s m b j 26c md cd 26 .0 28 . 90 36 . 80 1 .0 46 .6 12 .4 5 .0 s m b j 26a s m b j 26 ca me ce 26 .0 28 . 90 32 . 20 1 .0 42 .1 14 .2 5 .0 s m b j 28 s m b j 28c mf cf 28 .0 31 . 10 39 . 40 1 .0 50 .0 12 .0 5 .0 s m b j 28a s m b j 28 ca mg cg 28 .0 31 . 10 35 . 80 1 .0 45 .4 13 .2 5 .0 s m b j 30 s m b j 30c mh ch 30 .0 33 . 30 42 . 40 1 .0 53 .5 11 .2 5 .0 s m b j 30a s m b j 30 ca mk ck 30 .0 33 . 30 38 . 30 1 .0 48 .4 12 .4 5 .0 s m b j 33 s m b j 33c ml cl 33 .0 36 . 70 46 . 90 1 .0 59 .0 10 .2 5 .0 s m b j 33a s m b j 33 ca mm cm 33 .0 36 . 70 42 . 20 1 .0 53 .3 11 .3 5 .0 br ea k d o wn v o l t a ge vb r v o l ts d e v i c e m a r k ing c o de d e v i ce u ni- di r e c t i o n al d e v i ce b i- di r e c t i o n al
electrical characteristics (at t a =25 c unless otherwise noted) notes: 1.v (br) measured after i t applied for 300 m s,i t =square wave pulse or equivalent 2.surge current waveform per fig.3 and derated per fig.2 3.for bidirectional types having v wm of 10 volts and less,the i d limit is doubled 4.all items and symbols are consistent with ansi/ieee c62.35 w o r k ing p eak r e v e r s e v o l t a ge m a x i m um r e v e r s e v o l t a ge a t i r sm ( c l a m ping v o l t a g e) m a x i m um r e v e r s e s u r ge c u rr e nt m a x i m um r e v e r se l ea k a g e at v r wm ( un i) (b i) v r wm ( v o l t s) m in (v) m a x (v) @ i t ( m a) v r sm ( v o l t s) i r sm (a m p s) i r ( a) s m b j 36 s m b j 36c mn cn 36 .0 40 .0 50 .7 1 .0 64 .3 9 .3 5 .0 s m b j 36a s m b j 36 ca mp cp 36 .0 40 .0 46 .0 1 .0 58 .1 10 .3 5 .0 s m b j 40 s m b j 40c mq cq 40 .0 44 .4 56 .3 1 .0 71 .4 8 .4 5 .0 s m b j 40a s m b j 40 ca mr cr 40 .0 44 .4 51 .1 1 .0 64 .5 9 .3 5 .0 s m b j 43 s m b j 43c ms cs 43 .0 47 .8 60 .5 1 .0 76 .7 7 .8 5 .0 s m b j 43a s m b j 43 ca mt ct 43 .0 47 .8 54 .9 1 .0 69 .4 8 .6 5 .0 s m b j 45 s m b j 45c mu cu 45 .0 50 .0 63 .3 1 .0 80 .3 7 .5 5 .0 s m b j 45a s m b j 45 ca mv cv 45 .0 50 .0 57 .5 1 .0 72 .7 8 .3 5 .0 s m b j 48 s m b j 48c mw cw 48 .0 53 .3 67 .5 1 .0 85 .5 7 .0 5 .0 s m b j 48a s m b j 48 ca mx cx 48 .0 53 .3 61 .3 1 .0 77 .4 7 .7 5 .0 s m b j 51 s m b j 51c my cy 51 .0 56 .7 71 .8 1 .0 91 .1 6 .6 5 .0 s m b j 51a s m b j 51 ca mz cz 51 .0 56 .7 65 .2 1 .0 82 .4 7 .3 5 .0 s m b j 54 s m b j 54c nd dd 54 .0 60 .0 76 .0 1 .0 96 .3 6 .2 5 .0 s m b j 54a s m b j 54 ca ne de 54 .0 60 .0 69 .0 1 .0 87 .1 6 .9 5 .0 s m b j 58 s m b j 58c nf df 58 .0 64 .4 81 .6 1 .0 103 .0 5 .8 5 .0 s m b j 58a s m b j 58 ca ng dg 58 .0 64 .4 74 .6 1 .0 93 .6 6 .4 5 .0 s m b j 60 s m b j 60c nh dh 60 .0 66 .7 84 .5 1 .0 107 .0 5 .6 5 .0 s m b j 60a s m b j 60 ca nk dk 60 .0 66 .7 76 .7 1 .0 96 .8 6 .2 5 .0 s m b j 64 s m b j 64c nl dl 64 .0 71 .1 90 .1 1 .0 114 .0 5 .3 5 .0 s m b j 64a s m b j 64 ca nm dm 64 .0 71 .1 81 .8 1 .0 103 .0 5 .8 5 .0 s m b j 70 s m b j 70c nn dn 70 .0 77 .8 98 .6 1 .0 125 .0 4 .8 5 .0 s m b j 70a s m b j 70 ca np dp 70 .0 77 .8 89 .5 1 .0 113 .0 5 .3 5 .0 s m b j 75 s m b j 75c nq dq 75 .0 83 .3 106 .0 1 .0 134 .0 4 .5 5 .0 s m b j 75a s m b j 75 ca nr dr 75 .0 83 .3 95 .8 1 .0 121 .0 4 .9 5 .0 s m b j 78 s m b j 78c ns ds 78 .0 86 .7 110 .0 1 .0 139 .0 4 .3 5 .0 s m b j 78a s m b j 78 ca nt dt 78 .0 86 .7 99 .7 1 .0 126 .0 4 .7 5 .0 s m b j 85 s m b j 85c nu du 85 .0 94 .4 119 .2 1 .0 151 .0 3 .9 5 .0 s m b j 85a s m b j 85 ca nv dv 85 .0 94 .4 108 .2 1 .0 137 .0 4 .4 5 .0 s m b j 90 s m b j 90c nw dw 90 .0 100 .0 126 .5 1 .0 160 .0 3 .8 5 .0 s m b j 90a s m b j 90 ca nx dx 90 .0 100 .0 115 .5 1 .0 146 .0 4 .1 5 .0 s m b j 100 s m b j 100c ny dy 100 .0 111 .0 141 .0 1 .0 179 .0 3 .4 5 .0 s m b j 100a s m b j 100 ca nz dz 100 .0 111 .0 128 .0 1 .0 162 .0 3 .7 5 .0 s m b j 110 s m b j 110c pd ed 110 .0 122 .0 154 .0 1 .0 196 .0 3 .0 5 .0 s m b j 110a s m b j 110 ca pe ee 110 .0 122 .0 140 .0 1 .0 177 .0 3 .4 5 .0 s m b j 120 s m b j 120c pf ef 120 .0 133 .0 169 .0 1 .0 214 .0 2 .8 5 .0 s m b j 120a s m b j 120 ca pg eg 120 .0 133 .0 153 .0 1 .0 193 .0 3 .1 5 .0 s m b j 130 s m b j 130c ph eh 130 .0 144 .0 182 .0 1 .0 231 .0 2 .6 5 .0 s m b j 130a s m b j 130 ca pk ek 130 .0 144 .0 165 .0 1 .0 209 .0 2 .9 5 .0 s m b j 150 s m b j 150c pl el 150 .0 167 .0 211 .5 1 .0 268 .0 2 .2 5 .0 s m b j 150a s m b j 150 ca pm em 150 .0 167 .0 192 .0 1 .0 243 .0 2 .5 5 .0 s m b j 160 s m b j 160c pn en 160 .0 178 .0 226 .0 1 .0 287 .0 2 .1 5 .0 s m b j 160a s m b j 160 ca pp ep 160 .0 178 .0 205 .0 1 .0 259 .0 2 .3 5 .0 s m b j 170 s m b j 170c pq eq 170 .0 189 .0 239 .5 1 .0 304 .0 2 .0 5 .0 s m b j 170a s m b j 170 ca pr er 170 .0 189 .0 217 .5 1 .0 275 .0 2 .2 5 .0 br ea k d o wn v o l t a ge vb r v o l ts d e v i c e m a r k ing c o de d e v i ce u ni- di r e c t i o n al d e v i ce b i- di r e c t i o n al
ratings and characteristic curves smbj5.0 thur 170ca 100 10 1.0 0.1 0.1 m s 1.0 m s 10 m s 100 m s 1.0ms 10ms fig. 1-peak pulse power rating curve td,pulse width,sec. 10,000 1,000 100 10 1.0 10 100 200 1.0 10 100 100 0 80 80 40 fig. 4-typical junctional capacitance unidirectional fig.6-maximum non-repetitive forward surge current unidirectional only v (br) ,breakdown voltage,volts number of cycles at 60hz 100 75 50 25 0 0 25 50 75 100 125 150 175 fig. 2-pulse derating curve t a, ambient temperature,( c) ppp m ,peak pulse power,kw i fsm ,peak forward surage current amperes c j ,jinction capacitance,pf peak pulse power(ppp m )or current(ipp m ) derating in percentage,% non-repetitive pulse waveform shown in fig.3 t a =25 c 0.2x0.2 ? (0.5x0.5mm) copper pad areas 0.2x0.2 ? (0.5x0.5mm) copper pad areas 20 t j =t j max. 8.3ms single half sine-wave (jedec method) t j =25 c f=1.0mhz vsig=50mvp-p measured at stand-off voltage,vw m measured at zero bias 5.00 3.75 2.50 1.25 0 0 25 50 75 100 125 150 175 fig.5-steady state power derating curve t l ,lead temperature, c pm (av) ,steady state power dissipation,watts 60hz resistive or inductive load 0.2x0.2 ? (0.5x0.5mm) copper pad areas 150 100 50 0 0 1.0 2.0 3.0 4.0 fig.3-pulse waveform t,time,ms ipp m ,peak pulse current,% 10/1000 m sec waveform as dfined by r.e.a pulse width (td) is defined as the point where the peak current decays to 50% of ipp m peak value ipp m half value i pp m 2 tr=10 m sec td mdd electronic
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