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1.5KE39A Datasheet(PDF) 3 Page - GOOD-ARK Electronics |
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1.5KE39A Datasheet(HTML) 3 Page - GOOD-ARK Electronics |
3 / 6 page 595 s c i t s i r e t c a r a h C l a c i r t c e l E (T A=25 oC unless otherwise noted) C E D E J r e b m u n e p y T k r A - d o o G r e b m u n t r a P e g a t l o v n w o d k a e r B V ) R B ( ) s t l o V ( ) 1 ( t s e T t n e r r u c I t a T ) A m ( f f o - d n a t S e g a t l o v V M W ) s t l o V ( m u m i x a M e s r e v e r e g a k a e l V t a M W I D ) 4 ( (u ) A m u m i x a M e s l u p k a e p t n e r r u c I M P P ) 2 ( ) A ( m u m i x a M g n i p m a l c t a e g a t l o v I M P P V C ) s t l o V ( m u m i x a M e r u t a r e p m e t t n e i c i f f e o c V f o ) R B ( / % ( o ) C . n i M. x a M 0 9 2 6 N 12 6 E K 5 . 18 . 5 52 . 8 60 . 12 . 0 50 . 19 . 6 10 . 9 84 0 1 . 0 A 0 9 2 6 N 1A 2 6 E K 5 . 19 . 8 51 . 5 60 . 10 . 3 50 . 16 . 7 10 . 5 84 0 1 . 0 1 9 2 6 N 18 6 E K 5 . 12 . 1 68 . 4 70 . 11 . 5 50 . 13 . 5 10 . 8 94 0 1 . 0 A 1 9 2 6 N 1A 8 6 E K 5 . 16 . 4 64 . 1 70 . 11 . 8 50 . 13 . 6 10 . 2 94 0 1 . 0 2 9 2 6 N 15 7 E K 5 . 15 . 7 65 . 2 80 . 17 . 0 60 . 19 . 3 19 0 15 0 1 . 0 A 2 9 2 6 N 1A 5 7 E K 5 . 13 . 1 78 . 8 70 . 11 . 4 60 . 16 . 4 14 0 15 0 1 . 0 3 9 2 6 N 12 8 E K 5 . 18 . 3 72 . 0 90 . 14 . 6 60 . 17 . 2 18 1 15 0 1 . 0 A 3 9 2 6 N 1A 2 8 E K 5 . 19 . 7 71 . 6 80 . 11 . 0 70 . 13 . 3 13 1 15 0 1 . 0 4 9 2 6 N 11 9 E K 5 . 19 . 1 80 0 10 . 17 . 3 70 . 15 . 1 11 3 16 0 1 . 0 A 4 9 2 6 N 1A 1 9 E K 5 . 15 . 6 85 . 5 90 . 18 . 7 70 . 10 . 2 15 2 16 0 1 . 0 5 9 2 6 N 10 0 1 E K 5 . 10 . 0 90 1 10 . 10 . 1 80 . 14 . 0 14 4 16 0 1 . 0 A 5 9 2 6 N 1A 0 0 1 E K 5 . 10 . 5 95 0 10 . 15 . 5 80 . 19 . 0 17 3 16 0 1 . 0 6 9 2 6 N 10 1 1 E K 5 . 10 . 9 91 2 10 . 12 . 9 80 . 15 . 98 5 17 0 1 . 0 A 6 9 2 6 N 1A 0 1 1 E K 5 . 15 0 16 1 10 . 10 . 4 90 . 19 . 92 5 17 0 1 . 0 7 9 2 6 N 10 2 1 E K 5 . 18 0 12 3 10 . 12 . 7 90 . 17 . 83 7 17 0 1 . 0 A 7 9 2 6 N 1A 0 2 1 E K 5 . 14 1 16 2 10 . 12 0 10 . 11 . 95 6 17 0 1 . 0 8 9 2 6 N 10 3 1 E K 5 . 17 1 13 4 10 . 15 0 10 . 10 . 87 8 17 0 1 . 0 A 8 9 2 6 N 1A 0 3 1 E K 5 . 14 2 17 3 10 . 11 1 10 . 14 . 89 7 17 0 1 . 0 9 9 2 6 N 10 5 1 E K 5 . 16 3 15 6 10 . 11 2 10 . 10 . 75 1 28 0 1 . 0 A 9 9 2 6 N 1A 0 5 1 E K 5 . 13 4 18 5 10 . 18 2 10 . 12 . 77 0 26 0 1 . 0 0 0 3 6 N 10 6 1 E K 5 . 14 4 16 7 10 . 10 3 10 . 15 . 60 3 26 0 1 . 0 A 0 0 3 6 N 1A 0 6 1 E K 5 . 12 5 18 6 10 . 16 3 10 . 18 . 69 1 28 0 1 . 0 1 0 3 6 N 10 7 1 E K 5 . 13 5 17 8 10 . 18 3 10 . 11 . 64 4 28 0 1 . 0 A 1 0 3 6 N 1A 0 7 1 E K 5 . 12 6 19 7 10 . 15 4 10 . 14 . 64 3 28 0 1 . 0 2 0 3 6 N 10 8 1 E K 5 . 12 6 18 9 10 . 16 4 10 . 18 . 58 5 28 0 1 . 0 A 2 0 3 6 N 1A 0 8 1 E K 5 . 11 7 19 8 10 . 14 5 10 . 11 . 66 4 28 0 1 . 0 3 0 3 6 N 10 0 2 E K 5 . 10 8 10 2 20 . 12 6 10 . 12 . 57 8 28 0 1 . 0 A 3 0 3 6 N 1* A 0 0 2 E K 5 . 10 9 10 1 20 . 11 7 10 . 15 . 54 7 28 0 1 . 0 0 2 2 E K 5 . 18 9 12 4 20 . 15 7 10 . 14 . 44 4 38 0 1 . 0 * A 0 2 2 E K 5 . 19 0 21 3 20 . 15 8 10 . 16 . 48 2 38 0 1 . 0 0 5 2 E K 5 . 15 2 25 7 20 . 12 0 20 . 12 . 40 6 30 1 1 . 0 A 0 5 2 E K 5 . 17 3 23 6 20 . 14 1 20 . 14 . 44 4 30 1 1 . 0 0 0 3 E K 5 . 10 7 20 3 30 . 13 4 20 . 15 . 30 3 40 1 1 . 0 A 0 0 3 E K 5 . 15 8 25 1 30 . 16 5 20 . 16 . 34 1 40 1 1 . 0 0 5 3 E K 5 . 15 1 35 8 30 . 14 8 20 . 10 . 34 0 50 1 1 . 0 A 0 5 3 E K 5 . 13 3 38 6 30 . 10 0 30 . 11 . 32 8 40 1 1 . 0 0 0 4 E K 5 . 10 6 30 4 40 . 14 2 30 . 16 . 24 7 50 1 1 . 0 A 0 0 4 E K 5 . 10 8 30 2 40 . 12 4 30 . 17 . 28 4 50 1 1 . 0 0 4 4 E K 5 . 16 9 34 8 40 . 16 5 30 . 14 . 21 3 60 1 1 . 0 A 0 4 4 E K 5 . 18 1 42 6 40 . 16 7 30 . 15 . 22 0 60 1 1 . 0 A 0 8 4 E K 5 . 16 5 44 0 50 . 18 0 40 . 13 . 28 5 60 1 1 . 0 A 0 1 5 E K 5 . 15 8 45 3 50 . 14 3 40 . 11 . 28 9 60 1 1 . 0 A 0 3 5 E K 5 . 15 . 3 0 55 . 6 5 50 . 10 5 40 . 11 . 25 2 70 1 1 . 0 A 0 4 5 E K 5 . 13 1 57 6 50 . 19 5 40 . 10 . 20 4 70 1 1 . 0 A 0 5 5 E K 5 . 15 . 2 2 55 . 7 7 50 . 17 6 40 . 10 . 20 6 70 1 1 . 0 Notes: 1. V (BR) measured after IT applied for 300us, IT=square wave pulse or equivalent 2. Surge current waveform per Fig. 3 and derate per Fig. 2 3. All terms and symbols are consistent with ANSI/IEEE CA62.35 4. For bidirectional types with V R 10 volts and less the ID limit is doubled 5. For parts without A, the V BR is +10% This series of Silicon Transient Suppressors is used in applications where large voltage transients can permanently damage voltage-sensitive components. The TVS diode can be used in applications where induced lightning on rural or remote transmission lines presents a hazard to electronic circuitry (ref: R.E.A. specification P.E. 60). This Transient Voltage Suppressor diode has a pulse power rating of 1500 watts for one millisecond. The response time of TVS diode clamping action is effectively instantaneous (1 x 10-9 seconds bidirectional); therefore, they can protect integrated circuits, MOS devices, hybrids, and other voltage sensitive semiconductors and components. TVS diodes can also be used in series or parallel to increase the peak power ratings. Application: |
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