power inductors type: cdh5d14/s please refer to the sales offices on our website fo r a representative near you www.sumida.com 1/2 5.80.2 5 . 8 0 . 2 (1.4) 2.1 1.6 2.1 4 . 8 1.5 max. 1.4 2.7 5 . 0 2 1 2 1 product description ? 6.0 6.0mm max.(l w), 1.5mm max. height. ? inductance range: 0.72 100 h. ? rated current range: 0.32 3.9a. ? custom design is available. feature ? magnetically unshielded construction. ? ideally used pda,mp3,dsc/dvc etc as dc-dc converter inductors. ? dropping impact reinforced types. ? rohs compliance. dimensions (mm) land pattern (mm) schematics (bottom) (0.72 h 3.3 h) ) (4.7 h 100 h)
power inductors type: cdh5d14/s please refer to the sales offices on our website fo r a representative near you www.sumida.com 2/2 b: box c: carrier tape specification part name stamp inductance (h) 100khz/1v d.c.r. (m:) ( 20 ) saturation current (a) 1 temperature rise current (a) 2 cdh5d14snp-r72m r72 0.7220 1820% 3.90 4.10 cdh5d14snp-1r1m 1r1 1.120 2320% 3.20 3.80 cdh5d14snp-1r6m 1r6 1.620 2920% 2.65 3.60 cdh5d14snp-2r2m 2r2 2.220 3220% 2.30 3.40 cdh5d14snp-2r7m 2r7 2.720 4220% 2.10 2.90 cdh5d14snp-3r3m 3r3 3.320 4620% 1.90 2.80 cdh5d14snp-4r7m 4r7 4.720 6220% 1.60 2.40 cdh5d14snp-5r9m 5r9 5.920 7620% 1.45 2.15 cdh5d14snp-7r5m 7r5 7.520 10020% 1.30 1.95 cdh5d14snp-8r5m 8r5 8.520 11020% 1.20 1.90 cdh5d14snp-100m 100 1020 11820% 1.10 1.75 cdh5d14snp-120m 120 1220 16020% 1.00 1.27 cdh5d14snp-150m 150 1520 18520% 0.90 1.22 cdh5d14snp-180m 180 1820 24020% 0.80 1.08 cdh5d14snp-220m 220 2220 27520% 0.72 1.03 cdh5d14snp-270m 270 2720 32020% 0.64 0.93 cdh5d14snp-330m 330 3320 41020% 0.60 0.78 cdh5d14snp-390m 390 3920 47520% 0.56 0.74 cdh5d14snp-470m 470 4720 63520% 0.48 0.58 cdh5d14snp-560m 560 5620 74020% 0.43 0.56 cdh5d14snp-680m 680 6820 82520% 0.40 0.54 cdh5d14snp-820m 820 8220 98020% 0.36 0.46 cdh5d14snp-101m 101 10020 113020% 0.32 0.44 description of part name cdh5d14snp-r72m 1.saturation current: the dc current at which the i nductance decreases to 70% of its nominal value. 2.temperature rise current: the dc current at which the temperature rise is t 40 (ta 20 ) .
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