SMD Power Inductor 104CDMCC/DS Description • Metal compound molding type construction. • Magnetically shielded. • Low audible core noise. • Suitable for large current. • L W H: 11.5 10.3 4.0 mm Max. • Product weight:2.2 g (Ref.) • Moisture Sensitivity Level: 1 • RoHS compliance. • Halogen Free available. RoHS × × Halogen Free Dimension - [mm] 11.5 Max. 3.8±0.2 3. 0 ± 9. 2 7.5 3 . 0 ± 0 . 0 1 0~0.15 2. 0 ± 0. 5 2.0±0.5 2.5±0.1 Land pattern and Schematics - [mm] × × Environmental Data • Operating temperature range: -55 +125 (including coil’s self temperature rise) • Storage temperature range: -55 +125 • Solder reflow temperature: 260 peak. ℃~ ℃ ℃~ ℃ ℃ Packaging • Carrier tape and reel packaging. • 500pcs/Reel. Applications • Ideally used in notebook, ultrabook, tablet PC, LCD display, Server application. • High current, POL converters. • Low profile, high current power supplies. • Battery powered devices. • DC/DC converters in distributed power systems. 4.1 13.6 5.4 Page 1 of 5 Revised: 29-Aug-15 SMD Power Inductor 104CDMCC/DS Electrical Characteristics Part No. Stamp 104CDMCCDS-R15MC R15 104CDMCCDS-R22MC R22 104CDMCCDS-R30MC R30 104CDMCCDS-R36MC R36 104CDMCCDS-R47MC R47 104CDMCCDS-R56MC R56 104CDMCCDS-R68MC R68 104CDMCCDS-R80MC R80 104CDMCCDS-1R0MC 1R0 104CDMCCDS-1R5MC 1R5 104CDMCCDS-2R2MC 2R2 104CDMCCDS-3R3MC 3R3 104CDMCCDS-4R7MC 4R7 104CDMCCDS-6R8MC 6R8 104CDMCCDS-8R2MC 8R2 104CDMCCDS-100MC 100 104CDMCCDS-150MC 150 104CDMCCDS-220MC 220 104CDMCCDS-330MC 330 104CDMCCDS-470MC 470 104CDMCCDS-680MC 680 Inductance [Within] ( H) 1 μ ※ ± 0.22±20% 0.30±20% 0.36±20% 0.47±20% 0.56±20% 0.68±20% 0.80±20% 1.0±20% 1.5±20% 2.2±20% 3.3±20% 4.7±20% 6.8±20% 8.2±20% 10±20% 15±20% 22±20% 33±20% 47±20% 68±20% 0.15 20% D.C.R (m ) Max.(Typ.) at 25 Saturation Current (A) Max.(Typ.) (at 25 ) 2 Temperature rise current (A) (Typ.) 3 0.65(0.5) 60(71) 43.0 1.0(0.9) 59(70) 38.0 1.1(0.95) 44(52) 35.0 1.2(1.05) 44(52) 32.0 1.7(1.5) 43(51) 28.0 1.8(1.6) 34(40) 27.0 2.4(2.1) 33(39) 23.5 3.0(2.6) 27(32) 23.0 3.3(3.0) 26(31) 19.5 4.2(3.8) 24(29) 19.0 7.0(6.0) 18(21) 15.0 12.0(10.0) 16(18) 12.0 20.0(17.0) 14(16) 11.0 25.0(22.0) 11.0(12.5) 8.5 27.0(25.0) 10.0(12.0) 8.3 30.0(27.0) 8.5(10.0) 7.5 45.0(40.0) 6.1(7.2) 6.3 66.0(58.0) 5.5(6.5) 5.0 92.0(85.0) 4.4(5.2) 4.1 145(130) 3.6(4.3) 3.2 195(178) 3.4(4.0) 2.5 Ω ℃ ※ ℃ ※ ※1 Measuring frequency Inductance at 100kHz ,1.0V ※2 Saturation current: The value of DC current when the inductance is over 30% of its initial value. (at 25℃ ) ※3 Temperature rise current: The actual value of DC current when temperature of coil rise is △T=40℃(Ta=25℃) Page 2 of 5 Revised: 29-Aug-15 SMD Power Inductor 104CDMCC/DS Saturation Current & Temperature Rise Graph ℃ △T L (20 ) μ 1. 104CDMCCDS-R15MC L ( H) 0.18 △T (℃) μ 60 2. 104CDMCCDS-R22MC L ( H) 0.24 0.15 50 0.12 △T (℃) μ △T (℃) 60 3. 104CDMCCDS-R30MC L ( H) 0.36 0.20 50 0.30 50 40 0.16 40 0.24 40 0.09 30 0.12 30 0.18 30 0.06 20 0.08 20 0.12 20 0.03 10 0.04 10 0.06 10 0 0.00 0 0.00 0.00 0 20 40 60 DC (A) 80 μ 4. 104CDMCCDS-R36MC L ( H) 0.6 0 100 △T (℃) 20 40 60 80 DC (A) μ 60 5. 104CDMCCDS-R47MC L ( H) 0.6 0.5 50 0.4 0 0 100 △T (℃) 60 20 40 DC (A) 60 80 μ △T (℃) 60 6. 104CDMCCDS-R56MC L ( H) 0.6 0.5 50 0.5 50 40 0.4 40 0.4 40 0.3 30 0.3 30 0.3 30 0.2 20 0.2 20 0.2 20 0.1 10 0.1 10 0.1 10 0.0 0 0.0 0 0.0 0 0 20 μ 40 60 DC (A) 0 80 △T (℃) 10 20 30 40 50 DC (A) μ 60 8. 104CDMCCDS-R80MC L ( H) 1.2 1.0 50 0.8 7. 104CDMCCDS-R68MC L ( H) 1.2 60 0 △T (℃) 10 20 30 40 DC (A) μ 60 50 △T (℃) 60 9. 104CDMCCDS-1R0MC L ( H) 1.2 1.0 50 1.0 50 40 0.8 40 0.8 40 0.6 30 0.6 30 0.6 30 0.4 20 0.4 20 0.4 20 0.2 10 0.2 10 0.2 10 0 0.0 0 0.0 0.0 0 10 20 30 40 50 0 10 DC (A) 20 30 40 0 0 50 10 DC (A) μ 10. 104CDMCCDS-1R5MC L ( H) 1.8 △T (℃) 60 20 30 40 DC (A) μ 60 11. 104CDMCCDS-2R2MC L ( H) 2.4 1.5 50 1.2 △T (℃) μ △T 60(℃) 60 12. 104CDMCCDS-3R3MC L ( H) 3.6 2.0 50 3.0 50 40 1.6 40 2.4 40 0.9 30 1.2 30 1.8 30 0.6 20 0.8 20 1.2 20 0.3 10 0.4 10 0.6 10 0 0.0 0 0.0 0.0 0 6 12 18 DC (A) 24 30 36 0 6 12 18 DC (A) Page 3 of 5 24 0 0 6 12 18 DC (A) Revised: 29-Aug-15 24 SMD Power Inductor 104CDMCC/DS Saturation Current & Temperature Rise Graph ℃ △T L (20 ) μ 13. 104CDMCCDS-4R7MC L ( H) 6 △T (℃) μ 60 14. 104CDMCCDS-6R8MC L ( H) 9.0 5 50 4 △T (℃) μ △T (℃) 60 15. 104CDMCCDS-8R2MC L ( H) 9.0 7.5 50 7.5 50 40 6.0 40 6.0 40 3 30 4.5 30 4.5 30 2 20 3.0 20 3.0 20 1 10 1.5 10 1.5 10 0 0.0 0 0.0 0 0 3 6 9 12 DC (A) 15 μ 16. 104CDMCCDS-100MC L ( H) 12 0 18 △T (℃) 3 6 9 DC (A) 12 μ 60 17. 104CDMCCDS-150MC L ( H) 18 10 50 8 0 0 15 △T (℃) 60 3 6 9 DC (A) 12 μ 15 △T (℃) 60 18. 104CDMCCDS-220MC L ( H) 24 15 50 20 50 40 12 40 16 40 6 30 9 30 12 30 4 20 6 20 8 20 2 10 3 10 4 10 0 0 0 0 0 0 2 4 6 8 10 DC (A) μ 0 12 △T (℃) 2 4 6 8 DC (A) μ 60 20. 104CDMCCDS-470MC L ( H) 60 30 50 24 19. 104CDMCCDS-330MC L ( H) 0 0 10 △T (℃) 60 2 4 6 DC (A) μ 8 △T (℃) 60 21. 104CDMCCDS-680MC L ( H) 90 50 50 75 50 40 40 40 60 40 18 30 30 30 45 30 12 20 20 20 30 20 6 10 10 10 15 10 0 0 0 0 0 36 0 1 2 3 4 DC (A) 5 6 0 1 2 3 DC (A) Page 4 of 5 4 5 60 0 0 1 2 3 4 DC (A) Revised: 29-Aug-15 5 SMD Power Inductor 104CDMCC/DS Solder Reflow Condition T (℃) 300 250 Heat Endurance 260℃ 230℃ 200 0 60 120 180 240 245℃ PEAK T (s) 40s ± ℃,60~120s 170 10 100 300 ℃ 230 150 60 100 Temperature Chart 200 10 150 50 0 T (℃) 300 250 50 0 0 60 120 180 240 300 T (s) Please refer to the sales offices on our website - http://www.sumida.com Hong Kong Shanghai Shenzhen Taipei Tel.+852-2880-6781 FAX.+852-2565-9600 [email protected] Tel.+86-21-5836-3299 FAX.+86-21-5836-3266 [email protected] Tel.+86-755-8291-0228 FAX.+86-755-8291-0338 [email protected] Tel.+886-2-8751-2737 FAX.+886-2-8751-2738 [email protected] Saitama(Japan) Seoul Singapore San Jose Tel.+81-48-691-7300 FAX.+81-48-691-7340 [email protected] Tel.+82-2-6237-0777 FAX.+82-2-6237-0778 [email protected] Tel.+65-6296-3388 FAX.+65-6841-4426 [email protected] Tel.+1-408-321-9660 FAX.+1-408-321-9308 [email protected] Chicago Obernzell Neumarkt Tel.+1-847-545-6700 FAX. +1-847-545-6720 [email protected] Tel.+49-8591-937-0 FAX. +49-8591-937-103 [email protected] Tel.+49-9181-4509-110 FAX. +49-9181-4509-310 [email protected] Page 5 of 5 Revised: 29-Aug-15