GLZ51

DATA SHEET GLZ2.0~GLZ56 SURFACE MOUNT ZENER DIODES VOLTAGE 2.0 to 56 Volts POWER 500 mWatts MINI-MELF/LL-34 Unit : inch (mm) FEATURES • Planar Die construction • 500mW Power Dissipation • Ideally Suited for Automated Assembly Processes .055(1.4)DIA. .063(1.6) • Both normal and Pb free product are available : Normal : 80~95% Sn, 5~20% Pb Pb free: 98.5% Sn above MECHANICAL DATA • Case: Molded Glass MINI-MELF • Terminals: Solderable per MIL-STD-202E, Method 208 • Polarity: See Diagram Below • Approx. Weight: 0.03 grams • Mounting Position: Any • Packing information T/R - 2.5K per 7" plastic Reel T/R - 10K per 13" plastic Reel .020(0.5) .012(0.3) .146(3.7) .130(3.3) .020(0.5) .012(0.3) MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS P ar m et r a e P ow erD i si aton atTam b = 25 spi Juncton Tem per t r i aue S t r ge Tem per t r R ange oa aue Vald pr vi ed t atl ads ata di t nce of10m m fom case ar keptatam bi ntt m per t r . i od he sa r e ee aue O S ym bol Val e u 500 175 - 5 t +175 6o U nis t mW O C P TO T TJ TS C C O P ar m et r a e Ther alR esi t nce Juncton t A m bi ntA i m sa io e r For ar Volage atI = 100m A wd t F S ym bol Mi. n - Typ. M ax. 0. 3 1 U nis t K/ W m V Rt A h VF - Vald pr vi ed t atl ads ata di t nce of10m m fom case ar keptatam bi ntt m per t r . i od he sa r e ee aue STAD-FEB.17.2004 PAGE . 1 P ar N um ber t G LZ 2. 0 G LZ 2. 2 G LZ 2. 4 C LA S S A B A B A B A VZ @ I ZT M i .V n 1. 8 8 2. 2 0 2. 2 1 2. 2 2 2. 3 3 2. 3 4 2. 4 5 2. 9 6 2. 5 8 3. 1 0 3. 6 1 3. 2 3 3. 55 4 3. 0 6 3. 4 7 3. 9 8 4. 4 0 4. 7 1 4. 0 3 4. 4 4 4. 5 5 4. 8 6 4. 1 8 4. 4 9 5. 9 0 5. 8 2 5. 5 4 5. 1 6 5. 8 7 5. 6 9 6. 2 1 6. 9 2 6. 9 4 6. 6 6 6. 5 8 7. 7 0 7. 9 2 7. 3 5 7. 8 7 8. 3 0 8. 9 2 8. 7 5 8. 3 8 9. 2 1 9. 1 4 9. 0 7 9. 4 9 10. 8 1 10. 0 5 10. 2 8 M a x. V 2. 0 1 2. 0 2 2. 0 3 2. 1 4 2. 2 5 2. 3 6 2. 5 7 2. 1 9 3. 7 0 3. 2 2 3. 8 3 3. 3 5 3. 95 6 3. 45 8 4. 1 0 I Z (m A ) 20 20 20 20 20 VR (V ) 0. 5 0. 7 1. 0 1. 0 1. 0 1. 0 1. 0 1. 0 I (uA ) R M AX 120 120 120 120 50 20 10 5 It z (m A ) 20 20 20 20 20 20 20 20 Z ZT (Ω) M AX 140 120 100 100 80 70 60 50 I ZK ( A) m 1 1 1 1 1 1 1 1 Z ZK (Ω) M AX 2000 2000 2000 M ar i g kn code 2A 0 2B 0 2A 2 2B 2 2A 4 2B 4 2A 7 G LZ 2. 7 G LZ 3. 0 B A B A 1000 1000 2B 7 3A 0 3B 0 3A 3 G LZ 3. 3 G LZ 3. 6 G LZ 3. 9 B A B A B A 20 20 20 1000 1000 1000 3B 3 3A 6 3B 6 3A 9 3B 9 4A 3 4. 6 1 4. 9 2 4. 3 4 4. 7 5 4. 8 6 4. 0 8 4. 3 9 5. 7 0 5. 0 2 5. 7 3 5. 5 5 5. 3 7 5. 1 9 6. 9 0 6. 7 2 6. 4 4 6. 3 6 6. 3 8 7. 1 0 7. 2 2 7. 5 4 7. 7 6 7. 2 9 8. 9 1 8. 5 4 8. 3 7 9. 1 0 9. 0 3 9. 9 5 9. 0 9 10. 0 2 10. 4 4 10. 1 7 11. 5 0 11. 8 3 10 8. 0 0. 2 10 10 0. 5 120 20 7. 0 0. 2 20 8 0. 5 120 20 6. 0 0. 5 20 8 0. 5 120 20 5. 0 0. 5 20 8 0. 5 120 20 4. 0 0. 5 20 8 0. 5 120 20 3. 5 2 20 8 0. 5 150 20 3. 0 5 20 10 1 300 20 2. 5 5 20 13 1 500 20 1. 5 5 20 20 1 800 20 1. 0 5 20 25 1 900 20 1. 0 5 20 40 1 1000 G LZ 4. 3 B C A 4B 3 4C 3 4A 7 4B 7 4C 7 5A 1 5B 1 5C 1 5A 6 5B 6 5C 6 6A 2 6B 2 6C 2 6A 8 6B 8 6C 8 7A 5 7B 5 7C 5 8A 2 8B 2 8C 2 9A 1 9B 1 9C 1 10A 10B 10C 11D 11A 11B 11C G LZ 4. 7 B C A G LZ 5. 1 B C A G LZ 5. 6 B C A G LZ 6. 2 B C A G LZ 6. 8 B C A G LZ 7. 5 B C A G LZ 8. 2 B C A G LZ 9. 1 B C A B G LZ 10 C D A G LZ 11 B C STAD-FEB.17.2004 PAGE . 2 P ar N um ber t C LA S S A VZ @ I ZT M i .V n 11. 3 1 11. 4 4 11. 4 7 12. 1 1 12. 5 5 12. 9 9 13. 4 4 13. 9 8 14. 5 3 14. 0 8 15. 5 2 15. 9 6 16. 2 2 16. 2 8 17. 2 4 18. 2 0 18. 3 6 19. 3 2 19. 2 7 20. 5 1 20. 4 6 21. 8 0 21. 2 5 22. 5 0 22. 1 6 23. 2 1 23. 3 6 24. 6 2 24. 7 9 25. 3 6 26. 9 2 26. 9 9 27. 0 7 28. 6 3 29. 2 0 29. 8 6 30. 2 3 30. 0 9 31. 9 4 32. 4 1 32. 9 7 33. 0 4 34. 1 0 34. 8 6 35. 6 3 36. 0 0 36. 3 6 40. 0 0 44. 0 0 48. 0 0 53. 0 0 M a x. V 11. 1 7 12. 3 0 12. 5 3 12. 5 7 13. 1 2 13. 6 6 14. 3 1 14. 2 6 15. 9 0 15. 7 5 16. 4 0 16. 1 5 17. 6 0 17. 0 7 18. 3 3 18. 6 9 19. 9 5 20. 2 2 20. 2 7 21. 0 2 21. 1 7 22. 7 1 22. 3 6 23. 8 1 23. 7 7 I Z (m A ) 10 VR (V ) 9. 0 I (uA ) R M AX 0. 2 It z (m A ) 10 Z ZT (Ω) M AX 12 I ZK ( A) M 0. 5 Z ZK (Ω) M AX 110 M a rki g n C ode 12A 12B 12C 13A G LZ 12 B C A G LZ 13 B C A 10 10 0. 2 10 14 0. 5 110 13B 13C 15A G LZ 15 B C A 10 11 0. 2 10 16 0. 5 110 15B 15C 16A G LZ 16 B C A 10 12 0. 2 10 18 0. 5 150 16B 16C 18A G LZ 18 B C A B 10 13 0. 2 10 23 0. 5 150 18B 18C 20A 20B G LZ 20 C D A B C D A B 10 15 0. 2 10 28 0. 5 200 20C 20D 22A 22B 22C 22D 24A 24B G LZ 22 5 17 0. 2 5 30 0. 5 200 G LZ 24 C D A B G LZ 27 C D A B G LZ 30 C D A G LZ 33 B C D A G LZ 36 B C D A B G LZ 39 C D G LZ 43 G LZ 47 G LZ 51 G LZ 56 29. 2 8 30. 1 5 31. 2 2 31. 8 8 32. 0 5 33. 1 1 33. 9 7 34. 9 4 35. 3 1 35. 7 7 36. 7 4 37. 9 1 37. 5 8 38. 2 5 45. 0 0 49. 0 0 54. 0 0 60. 0 0 24. 1 3 24. 5 8 25. 2 5 26. 6 2 26. 5 9 27. 4 6 28. 9 3 29. 3 1 5 19 0. 2 5 35 0. 5 200 24C 24D 27A 27B 5 21 0. 2 5 45 0. 5 250 27C 27D 30A 30B 5 23 0. 2 5 55 0. 5 250 30C 30D 33A 33B 33C 33D 36A 36B 36C 36D 39A 39B 5 25 0. 2 5 65 0. 5 250 5 27 0. 2 5 75 0. 5 250 5 30 0. 2 5 85 0. 5 250 39C 39D 43 47 51 56 5 5 5 5 33 36 39 43 0. 2 0. 2 0. 2 0. 2 5 5 5 5 90 90 110 110 - STAD-FEB.17.2004 PAGE . 3 RATING AND CHARACTERISTIC CURVES POWER DISSIPATION, mWatts 500 400 300 200 100 0 50 100 150 200 250 AMBIENT TEMPERATURE, OC FIG. 1 POWER DERATING CURVE Vz (V) Iz (mA) 50 40 30 20 10 0 5 10 15 20 25 30 Test Current Iz = 20mA 12 11 15 9.1 6.8 6.2 5.6 5.1 4.7 4.3 20 24 3.9 2.7 Fig.2 BREAKDOWN CHARACTERISTICS STAD-FEB.17.2004 PAGE . 4