breakdown voltage: 6.8 to 600 v peak pulse power: 1500 w � � � � � � � � � � � � except bipolar mounting position: any lead: solderable per mil-std-750, method 2026 polarity: color band denotes cathode end mechanical data case: molded plastic epoxy: ul 94v-0 rate flame retardant 1500 w peak pulse power capability with a 10/1000 �� s waveform, repetitive rate (duty cycle):0.01 % low leakage uni and bidirectional unit excellent clamping capability very fast response time rohs compliant 1.5smc series features smc/ do-214ab glass passivated chip note: (3)v f <3.5v for devices of v br <200v and v f <5.0v for devices of v br >201v (1)non-repetitive current pulse per fig.5 and derated above t a = 25 c per fig.1 (2)measured on 8.3 ms single half sine-wave or equivalent square wave, duty cycle = 4 pulses per minute maximum maximum instantaneous forward voltage at 100 a for unidirctional only (3) v f 3.5/5.0 v operating junction and storage temperature range t j , t stg ?55 to +150 c power dissipation on infinite heatsink at t l = 75 c p d 6.5 w peak forward surge current, 8.3 ms single half sine- wave unidirectional only (2) i fsm 200 a peak power dissipation with a 10/1000 �� s waveform (1) p pp 1500 w peak pulse current wih a 10/1000 �� s waveform (1) i pp see next table a maximum ratings(t a =25 �w unless otherwise noted) parameter s y mbol value unit transient voltage suppressors ht t p : // w w w.lgesemi .c o m m a il:lge@lgesemi.com revision:201 70301 -p1 breakdown voltage: 6.8 to 600 v peak pulse power: 1500 w � � � � � � � � � � � � except bipolar mounting position: any lead: solderable per mil-std-750, method 2026 polarity: color band denotes cathode end mechanical data case: molded plastic epoxy: ul 94v-0 rate flame retardant 1500 w peak pulse power capability with a 10/1000 �� s waveform, repetitive rate (duty cycle):0.01 % low leakage uni and bidirectional unit excellent clamping capability very fast response time rohs compliant 1.5smc series surface mount transient voltage suppressors features smc/ do-214ab glass passivated chip note: (3)v f <3.5v for devices of v br <200v and v f <5.0v for devices of v br >201v (1)non-repetitive current pulse per fig.5 and derated above t a = 25 c per fig.1 (2)measured on 8.3 ms single half sine-wave or equivalent square wave, duty cycle = 4 pulses per minute maximum maximum instantaneous forward voltage at 100 a for unidirctional only (3) v f 3.5/5.0 v operating junction and storage temperature range t j , t stg ?55 to +150 c power dissipation on infinite heatsink at t l = 75 c p d 6.5 w peak forward surge current, 8.3 ms single half sine- wave unidirectional only (2) i fsm 200 a peak power dissipation with a 10/1000 �� s waveform (1) p pp 1500 w peak pulse current wih a 10/1000 �� s waveform (1) i pp see next table a maximum ratings(t a =25 �w unless otherwise noted) parameter s y mbol value unit
uni bi min (v) max (v) i t (ma) 1.5smc6.8a 1.5smc6.8ca 6v8a 6v8c 6.46 7.14 10 1000 5.8 142.86 10.5 1.5smc7.5a 1.5smc7.5ca 7v5a 7v5c 7.13 7.88 10 500 6.4 132.74 11.3 1.5smc8.2a 1.5smc8.2ca 8v2a 8v2c 7.79 8.61 10 200 7.0 123.97 12.1 1.5smc9.1a 1.5smc9.1ca 9v1a 9v1c 8.65 9.56 1 50 7.8 111.94 13.4 1.5smc10a 1.5smc10ca 10a 10c 9.50 10.50 1 10 8.6 103.45 14.5 1.5smc11a 1.5smc11ca 11a 11c 10.45 11.55 1 5 9.4 96.15 15.6 1.5smc12a 1.5smc12ca 12a 12c 11.40 12.60 1 5 10.2 89.82 16.7 1.5smc13a 1.5smc13ca 13a 13c 12.35 13.65 1 1 11.1 82.42 18.2 1.5smc15a 1.5smc15ca 15a 15c 14.25 15.75 1 1 12.8 70.75 21.2 1.5smc16a 1.5smc16ca 16a 16c 15.20 16.80 1 1 13.6 66.67 22.5 1.5smc18a 1.5smc18ca 18a 18c 17.10 18.90 1 1 15.3 59.52 25.2 1.5smc20a 1.5smc20ca 20a 20c 19.00 21.00 1 1 17.1 54.15 27.7 1.5smc22a 1.5smc22ca 22a 22c 20.90 23.10 1 1 18.8 49.02 30.6 1.5smc24a 1.5smc24ca 24a 24c 22.80 25.20 1 1 20.5 45.18 33.2 1.5smc27a 1.5smc27ca 27a 27c 25.65 28.35 1 1 23.1 40.00 37.5 1.5smc30a 1.5smc30ca 30a 30c 28.50 31.50 1 1 25.6 36.23 41.4 1.5smc33a 1.5smc33ca 33a 33c 31.35 34.65 1 1 28.2 32.82 45.7 1.5smc36a 1.5smc36ca 36a 36c 34.20 37.80 1 1 30.8 30.06 49.9 1.5smc39a 1.5smc39ca 39a 39c 37.05 40.95 1 1 33.3 27.83 53.9 1.5smc43a 1.5smc43ca 43a 43c 40.85 45.15 1 1 36.8 25.30 59.3 1.5smc47a 1.5smc47ca 47a 47c 44.65 49.35 1 1 40.2 23.15 64.8 1.5smc51a 1.5smc51ca 51a 51c 48.45 53.55 1 1 43.6 21.40 70.1 1.5smc56a 1.5smc56ca 56a 56c 53.20 58.80 1 1 47.8 19.48 77.0 1.5smc62a 1.5smc62ca 62a 62c 58.90 65.10 1 1 53.0 17.65 85.0 1.5smc68a 1.5smc68ca 68a 68c 64.60 71.40 1 1 58.1 16.30 92.0 1.5smc75a 1.5smc75ca 75a 75c 71.25 78.75 1 1 64.1 14.56 103.0 1.5smc82a 1.5smc82ca 82a 82c 77.90 86.10 1 1 70.1 13.27 113.0 1.5smc91a 1.5smc91ca 91a 91c 86.45 95.55 1 1 77.8 12.00 125.0 1.5smc100a 1.5smc100ca 100a 100c 95.00 105.00 1 1 85.5 10.95 137.0 1.5smc110a 1.5smc110ca 110a 110c 104.50 115.50 1 1 94.0 9.87 152.0 1.5smc120a 1.5smc120ca 120a 120c 114.00 126.00 1 1 102.0 9.09 165.0 1.5smc130a 1.5smc130ca 130a 130c 123.50 136.50 1 1 111.0 8.38 179.0 1.5smc150a 1.5smc150ca 150a 150c 142.50 157.50 1 1 128.0 7.25 207.0 1.5smc160a 1.5smc160ca 160a 160c 152.00 168.00 1 1 136.0 6.85 219.0 1.5smc170a 1.5smc170ca 170a 170c 161.50 178.50 1 1 145.0 6.41 234.0 1.5smc180a 1.5smc180ca 180a 180c 171.00 189.00 1 1 154.0 6.10 246.0 1.5smc200a 1.5smc200ca 200a 200c 190.00 210.00 1 1 171.0 5.47 274.0 1.5smc220a 1.5smc220ca 220a 220c 209.00 231.00 1 1 185.0 4.57 328.0 1.5smc250a 1.5smc250ca 250a 250c 237.50 262.50 1 1 214.0 4.36 344.0 1.5smc300a 1.5smc300ca 300a 300c 285.00 315.00 1 1 256.0 3.62 414.0 1.5smc350a 1.5smc350ca 350a 350c 332.50 367.50 1 1 299.3 3.11 482.0 1.5smc380a 1.5smc380ca 380a 380c 361.00 399.00 1 1 324.9 2.86 524.4 1.5smc400a 1.5smc400ca 400a 400c 380.00 420.00 1 1 342.0 2.72 548.0 1.5smc440a 1.5smc440ca 440a 440c 418.00 462.00 1 1 376.2 2.47 602.0 1.5smc500a 1.5smc500ca 500a 500c 475.00 525.00 1 1 427.5 2.17 690.0 1.5smc520a 1.5smc520ca 520a 520c 494.00 546.00 1 1 444.6 2.09 717.6 1.5smc550a 1.5smc550ca 550a 550c 522.50 577.50 1 1 470.3 1.98 759.0 1.5smc600a 1.5smc600ca 600a 600c 570.00 630.00 1 1 513.0 1.81 828.0 note: electrical characteristics(t a =25 unless otherwise noted) part number (uni) part number (bi) device marking code breakdown voltage v br @i t maximum reverse leakage i r @v rwm (ua) working peak reverse voltage v rwm (v) maximum reverse surge current i pp (a) maximum clamping voltage v c @i pp (v) 1. the available parts are "a" type only,the parts without a(v br is 10%) is not available 2. add suffix 'c 'or ' ca ' after part number to specify bi-directional devices 3. for bi-directional devices having v of 10 volts and under, the i limit is double 1.5smc series transient voltage suppressors ht t p : // w w w.lgesemi .c o m m a il:lge@lgesemi.com revision:201 70301 -p1 uni bi min (v) max (v) i t (ma) 1.5smc6.8a 1.5smc6.8ca 6v8a 6v8c 6.46 7.14 10 1000 5.8 142.86 10.5 1.5smc7.5a 1.5smc7.5ca 7v5a 7v5c 7.13 7.88 10 500 6.4 132.74 11.3 1.5smc8.2a 1.5smc8.2ca 8v2a 8v2c 7.79 8.61 10 200 7.0 123.97 12.1 1.5smc9.1a 1.5smc9.1ca 9v1a 9v1c 8.65 9.56 1 50 7.8 111.94 13.4 1.5smc10a 1.5smc10ca 10a 10c 9.50 10.50 1 10 8.6 103.45 14.5 1.5smc11a 1.5smc11ca 11a 11c 10.45 11.55 1 5 9.4 96.15 15.6 1.5smc12a 1.5smc12ca 12a 12c 11.40 12.60 1 5 10.2 89.82 16.7 1.5smc13a 1.5smc13ca 13a 13c 12.35 13.65 1 1 11.1 82.42 18.2 1.5smc15a 1.5smc15ca 15a 15c 14.25 15.75 1 1 12.8 70.75 21.2 1.5smc16a 1.5smc16ca 16a 16c 15.20 16.80 1 1 13.6 66.67 22.5 1.5smc18a 1.5smc18ca 18a 18c 17.10 18.90 1 1 15.3 59.52 25.2 1.5smc20a 1.5smc20ca 20a 20c 19.00 21.00 1 1 17.1 54.15 27.7 1.5smc22a 1.5smc22ca 22a 22c 20.90 23.10 1 1 18.8 49.02 30.6 1.5smc24a 1.5smc24ca 24a 24c 22.80 25.20 1 1 20.5 45.18 33.2 1.5smc27a 1.5smc27ca 27a 27c 25.65 28.35 1 1 23.1 40.00 37.5 1.5smc30a 1.5smc30ca 30a 30c 28.50 31.50 1 1 25.6 36.23 41.4 1.5smc33a 1.5smc33ca 33a 33c 31.35 34.65 1 1 28.2 32.82 45.7 1.5smc36a 1.5smc36ca 36a 36c 34.20 37.80 1 1 30.8 30.06 49.9 1.5smc39a 1.5smc39ca 39a 39c 37.05 40.95 1 1 33.3 27.83 53.9 1.5smc43a 1.5smc43ca 43a 43c 40.85 45.15 1 1 36.8 25.30 59.3 1.5smc47a 1.5smc47ca 47a 47c 44.65 49.35 1 1 40.2 23.15 64.8 1.5smc51a 1.5smc51ca 51a 51c 48.45 53.55 1 1 43.6 21.40 70.1 1.5smc56a 1.5smc56ca 56a 56c 53.20 58.80 1 1 47.8 19.48 77.0 1.5smc62a 1.5smc62ca 62a 62c 58.90 65.10 1 1 53.0 17.65 85.0 1.5smc68a 1.5smc68ca 68a 68c 64.60 71.40 1 1 58.1 16.30 92.0 1.5smc75a 1.5smc75ca 75a 75c 71.25 78.75 1 1 64.1 14.56 103.0 1.5smc82a 1.5smc82ca 82a 82c 77.90 86.10 1 1 70.1 13.27 113.0 1.5smc91a 1.5smc91ca 91a 91c 86.45 95.55 1 1 77.8 12.00 125.0 1.5smc100a 1.5smc100ca 100a 100c 95.00 105.00 1 1 85.5 10.95 137.0 1.5smc110a 1.5smc110ca 110a 110c 104.50 115.50 1 1 94.0 9.87 152.0 1.5smc120a 1.5smc120ca 120a 120c 114.00 126.00 1 1 102.0 9.09 165.0 1.5smc130a 1.5smc130ca 130a 130c 123.50 136.50 1 1 111.0 8.38 179.0 1.5smc150a 1.5smc150ca 150a 150c 142.50 157.50 1 1 128.0 7.25 207.0 1.5smc160a 1.5smc160ca 160a 160c 152.00 168.00 1 1 136.0 6.85 219.0 1.5smc170a 1.5smc170ca 170a 170c 161.50 178.50 1 1 145.0 6.41 234.0 1.5smc180a 1.5smc180ca 180a 180c 171.00 189.00 1 1 154.0 6.10 246.0 1.5smc200a 1.5smc200ca 200a 200c 190.00 210.00 1 1 171.0 5.47 274.0 1.5smc220a 1.5smc220ca 220a 220c 209.00 231.00 1 1 185.0 4.57 328.0 1.5smc250a 1.5smc250ca 250a 250c 237.50 262.50 1 1 214.0 4.36 344.0 1.5smc300a 1.5smc300ca 300a 300c 285.00 315.00 1 1 256.0 3.62 414.0 1.5smc350a 1.5smc350ca 350a 350c 332.50 367.50 1 1 299.3 3.11 482.0 1.5smc380a 1.5smc380ca 380a 380c 361.00 399.00 1 1 324.9 2.86 524.4 1.5smc400a 1.5smc400ca 400a 400c 380.00 420.00 1 1 342.0 2.72 548.0 1.5smc440a 1.5smc440ca 440a 440c 418.00 462.00 1 1 376.2 2.47 602.0 1.5smc500a 1.5smc500ca 500a 500c 475.00 525.00 1 1 427.5 2.17 690.0 1.5smc520a 1.5smc520ca 520a 520c 494.00 546.00 1 1 444.6 2.09 717.6 1.5smc550a 1.5smc550ca 550a 550c 522.50 577.50 1 1 470.3 1.98 759.0 1.5smc600a 1.5smc600ca 600a 600c 570.00 630.00 1 1 513.0 1.81 828.0 note: electrical characteristics(t a =25 unless otherwise noted) part number (uni) part number (bi) device marking code breakdown voltage v br @i t maximum reverse leakage i r @v rwm (ua) working peak reverse voltage v rwm (v) maximum reverse surge current i pp (a) maximum clamping voltage v c @i pp (v) 1. the available parts are "a" type only,the parts without a(v br is 10%) is not available 2. add suffix 'c 'or ' ca ' after part number to specify bi-directional devices 3. for bi-directional devices having v r of 10 volts and under, the i r limit is double
ambie n average forward current, (a) 0 100 1 200 25 100 100 30 150 0 0 6.5 0.1 30 70 6.5 10000 0.45 ## 0 ratings and charact eristics curves (t a =25 �w unless otherwise noted) fig. 1 - pulse derating curve fig. 2 - maximum non-repetitive surge current 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 steady state power dissipation, (w) 0 40 80 120 160 200 1 10 100 peak forward surge current, (a) number of cycles at 60 hz t j = t j max. 8.3 ms single half sine-wave 0 25 50 75 100 0 25 50 75 100 125 150 175 200 peak pulse derating in percentage of peak power or current, (%) ambient temperature ,t a ( �w ) 1 10 100 peak power (kw) �6 �5�6�1 0 0 �2�2�1�1�1 �3�1�1 0.2 100 �6 �5�6�1 0.5 76 �8�1�1�1 �2�1�1 1 50 �6 �5�6�1 1.5 33 �7�1�1�1 �2�8 2 23 �6 �5�6�1 3 13 �6�1�1�1 �3�2 4 10 fig. 5 - pulse waveform fig. 6 - typical junction capacitance fig. 3 - steady state power derating curve fig. 4 - peak pulse power rating curve 1 10 100 1000 10000 100000 1 10 100 1000 junction capacitance,c j (pf) reverse breakdown voltage,v br (v) uni-directional @v rwm bi-directional @v rwm t j =25 c f=1.0mhz 0.0 0 25 50 75 100 125 150 175 200 lead temperature , t l ( �w ) 0 50 100 0 1 2 3 4 peak pulse current , (% ) time , (ms) t j = 25 � c pulse width (td) is defined as the point where the peak current decays to 50 % of ipp 10/1000 �� sec. waveform as defined by r.e.a. peak value (ipp) half value = ipp 2 td tr=10 �� s bi-directional @zero bias uni-directional @zero bias 0.1 0.1 1 10 100 1000 10000 pulse width ,t d ( �� s) 1.5smc series transient voltage suppressors ht t p : // w w w.lgesemi .c o m m a il:lge@lgesemi.com revision:201 70301 -p1 pa c kage spq/p cs c a r t on spq/p cs c a r t on si z e/ cm c a r t on g w /kg c a r t on n w /kg s mc 3000 / r eel 42000 36 x 36 x 36 .5 18 . 50 15 . 50 ambie n average forward current, (a) 0 100 1 200 25 100 100 30 150 0 0 6.5 0.1 30 70 6.5 10000 0.45 ## 0 ratings and charact eristics curves (t a =25 �w unless otherwise noted) fig. 1 - pulse derating curve fig. 2 - maximum non-repetitive surge current 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 steady state power dissipation, (w) 0 40 80 120 160 200 1 10 100 peak forward surge current, (a) number of cycles at 60 hz t j = t j max. 8.3 ms single half sine-wave 0 25 50 75 100 0 25 50 75 100 125 150 175 200 peak pulse derating in percentage of peak power or current, (%) ambient temperature ,t a ( �w) 1 10 100 peak power (kw) �6 �5�6�1 0 0 �2�2�1�1�1 �3�1�1 0.2 100 �6 �5�6�1 0.5 76 �8�1�1�1 �2�1�1 1 50 �6 �5�6�1 1.5 33 �7�1�1�1 �2�8 2 23 �6 �5�6�1 3 13 �6�1�1�1 �3�2 4 10 fig. 5 - pulse waveform fig. 6 - typical junction capacitance fig. 3 - steady state power derating curve fig. 4 - peak pulse power rating curve 1 10 100 1000 10000 100000 1 10 100 1000 junction capacitance,c j (pf) reverse breakdown voltage,v br (v) uni-directional @v rwm bi-directional @v rwm t j =25 c f=1.0mhz 0.0 0 25 50 75 100 125 150 175 200 lead temperature , t l ( �w) 0 50 100 0 1 2 3 4 peak pulse current , (% ) time , (ms) t j = 25 � c pulse width (td) is defined as the point where the peak current decays to 50 % of ipp 10/1000 �� sec. waveform as defined by r.e.a. peak value (ipp) half value = ipp 2 td tr=10 �� s bi-directional @zero bias uni-directional @zero bias 0.1 0.1 1 10 100 1000 10000 pulse width ,t d ( �� s)
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