technology of tomorrow inductors revision: 02 . n o v . 2005 europe gmbh ?kaddenbusch 6 ?d-25578 d?geling / itzehoe ?phone: +49 (0) 48 21/89 89-0 ?fax: +49 (0) 48 21/89 89 89 ?internet: www.koaeurope.de specifications given herein may be changed at any time without prior notice. please confirm technical specifications before you order and/or use. multilayer ceramic inductors mhl (mhi) features monolithic structure provides high reliability in wide temperature and humidity range anti-leaching nickel barrier terminations wide range of electrical properties high quality ceramic material and unique manufacturing process provides high q at high frequency suitable for high frequency equipment including cellular phones, pagers, radar detectors, computer communications etc. operating temperature range: -55?...+125? suitable for reflow and wave soldering lab kit available identification 1 solder plating 2 diffusion barrier 3 silver metallisation 4 ceramic 5 electrodes mhl 1e brown mhl 1j white with one black stripe none mhl 2a white dimensions (mm) type body color marking structure size l w t c 0402 (1e) 1.0 0.10 0.50 0.10 0.50 0.10 0.25 0.10 0603 (1j) 1.6 0.15 0.80 0.15 0.80 0.15 0.30 0.20 0805 (2a) 2.0 0.20 1.25 0.20 0.90 0.30 ; 39 nh 0.50 0.30 1.0 0.30 > 3 9 nh type designation (how to order) mhi product code c permeability code 0805 size t j inductance tolerance taping* tp, td, te, teb mhl c te 2a termination surface material t: sn l: sn/pb 68n nominal inductance 68n old part no. new part no. (pb-free) inductance tolerance j te *please see ?ackaging 3 digits c, t s (?.3nh) j (?%) 1e = 0402 1j = 0603 2a = 0805 inductors products with pb-free terminations meet rohs requirements
inductors technology of tomorrow revision: 02. nov. 2005 europe gmbh ?kaddenbusch 6 ?d-25578 d?geling / itzehoe ?phone: +49 (0) 48 21/89 89-0 ?fax: +49 (0) 48 21/89 89 89 ?internet: www.koaeurope.de specifications given herein may be changed at any time without prior notice. please confirm technical specifications before you order and/or use. mhl 1e c tp 1n0 s 1.0 nh 0.12 mhl 1e c tp 1n2 s 1.2 nh 11 34 mhl 1e c tp 1n5 s 1.5 nh >15000 mhz 0.13 mhl 1e c tp 1n8 s 1.8 nh 30 14000 mhz 0.14 mhl 1e c tp 2n2 s 2.2 nh s(?.3nh) 12000 mhz 0.16 mhl 1e c tp 2n7 s 2.7 nh 29 9500 mhz 0.17 300 ma mhl 1e c tp 3n3 s 3.3 nh 8500 mhz 0.19 mhl 1e c tp 3n9 s 3.9 nh 7000 mhz 0.22 mhl 1e c tp 4n7 s 4.7 nh 10 28 6000 mhz 0.24 mhl 1e c tp 5n6 s 5.6 nh 5400 mhz 0.27 mhl 1e c tp 6n8 j 6.8 nh 5000 mhz 0.32 mhl 1e c tp 8n2 j 8.2 nh 8 4600 mhz 0.37 mhl 1e c tp 10n j 10 nh 30 3700 mhz 0.42 mhl 1e c tp 12n j 12 nh 31 3200 mhz 0.50 250 ma mhl 1e c tp 15n j 15 nh 3100 mhz 0.55 mhl 1e c tp 18n j 18 nh 30 2900 mhz 0.65 mhl 1e c tp 22n j 22 nh 2100 mhz 0.80 200 ma mhl 1e c tp 27n j 27 nh j(?%) 27 1900 mhz 0.90 mhl 1e c tp 33n j 33 nh 11 25 1600 mhz 1.00 mhl 1e c tp 39n j 39 nh 24 1400 mhz 1.20 mhl 1e c tp 47n j 47 nh 23 1200 mhz 1.30 150 ma mhl 1e c tp 56n j 56 nh 21 1100 mhz 1.40 mhl 1e c tp 68n j 68 nh 9 1000 mhz 2.20 mhl 1e c tp 82n j 82 nh 9 5 900 mhz mhl 1e c tp r10 j 100 nh 3 850 mhz 2.50 100 ma mhl 1j c td 1n2 s 1.2 nh 40 >17000 mhz mhl 1j c td 1n5 s 1.5 nh 12 mhl 1j c td 1n8 s 1.8 nh 36 13000 mhz 0.10 mhl 1j c td 2n2 s 2.2 nh 37 12000 mhz mhl 1j c td 2n7 s 2.7 nh s(?.3nh) 8600 mhz mhl 1j c td 3n3 s 3.3 nh 8 41 6500 mhz 0.12 mhl 1j c td 3n9 s 3.9 nh 13 6300 mhz 0.14 mhl 1j c td 4n7 s 4.7 nh 5400 mhz 0.16 mhl 1j c td 5n6 s 5.6 nh 42 4600 mhz 0.18 mhl 1j c td 6n8 j 6.8 nh 4500 mhz 0.22 mhl 1j c td 8n2 j 8.2 nh 14 3800 mhz 0.24 mhl 1j c td 10n j 10.0 nh 3700 mhz 0.26 mhl 1j c td 12n j 12.0 nh 43 3200 mhz 0.28 mhl 1j c td 15n j 15.0 nh 15 2900 mhz 0.32 mhl 1j c td 18n j 18.0 nh 2100 mhz 0.35 300 ma mhl 1j c td 22n j 22.0 nh 16 2100 mhz 0.40 mhl 1j c td 27n j 27.0 nh 10 2000 mhz 0.45 mhl 1j t td 27n j 27.0 nh 12 1400 mhz 0.55 mhl 1j c td 33n j 33.0 nh 44 1600 mhz 0.55 mhl 1j c td 39n j 39.0 nh j(?%) 17 40 1500 mhz 0.60 mhl 1j t td 39n j 39.0 nh 1400 mhz 0.65 mhl 1j c td 47n j 47.0 nh 35 1200 mhz 0.70 mhl 1j c td 56n j 56.0 nh 12 12 1100 mhz 0.75 mhl 1j c td 68n j 68.0 nh 5 1000 mhz 0.85 mhl 1j c td 82n j 82.0 nh 15 850 mhz 0.95 mhl 1j c td r10 j 100.0 nh 750 mhz 1.20 mhl 1j c td r12 j 120.0 nh 700 mhz 1.30 mhl 1j c td r15 j 150.0 nh 8 14 650 mhz 1.40 mhl 1j c td r18 j 180.0 nh 550 mhz 1.50 mhl 1j c td r22 j 220.0 nh 12 450 mhz 1.70 mhl 2a c te 1n5 s 1.5 nh 60 mhl 2a c te 1n8 s 1.8 nh 8 5 5 0.10 mhl 2a c te 2n2 s 2.2 nh 18 53 > 6000 mhz mhl 2a c te 2n7 s 2.7 nh mhl 2a c te 3n3 s 3.3 nh s(?.3nh) 16 0.13 mhl 2a c te 3n9 s 3.9 nh 12 18 54 5600 mhz 0.15 mhl 2a c te 4n7 s 4.7 nh 5500 mhz 0.20 mhl 2a c te 5n6 s 5.6 nh 60 4700 mhz 0.23 mhl 2a c te 6n8 j 6.8 nh 3900 mhz 0.25 mhl 2a c te 8n2 j 8.2 nh 20 63 3200 mhz 0.28 mhl 2a c te 10n j 10.0 nh 3100 mhz 0.30 mhl 2a c te 12n j 12.0 nh 2800 mhz 0.35 mhl 2a c te 15n j 15.0 nh 15 22 60 2400 mhz 0.40 mhl 2a c te 18n j 18.0 nh 2100 mhz 0.45 mhl 2a c te 22n j 22.0 nh 2000 mhz 0.50 mhl 2a c te 27n j 27.0 nh 58 1800 mhz 0.55 mhl 2a c te 33n j 33.0 nh 55 1700 mhz 0.60 300 ma mhl 2a c te 39n j 39.0 nh j(?%) 23 47 1400 mhz 0.65 mhl 2a c te 47n j 47.0 nh 43 1200 mhz 0.70 mhl 2a c te 56n j 56.0 nh 18 39 1000 mhz 0.75 mhl 2a c te 68n j 68.0 nh 30 900 mhz 0.80 mhl 2a c te 82n j 82.0 nh 21 900 mhz 0.90 mhl 2a c te r10 j 100.0 nh 700 mhz mhl 2a c te r12 j 120.0 nh 20 600 mhz 0.95 mhl 2a c te r15 j 150.0 nh 13 500 mhz 1.00 mhl 2a c te r18 j 180.0 nh 430 mhz 1.10 mhl 2a c te r22 j 220.0 nh 19 400 mhz 1.20 mhl 2a c te r27 j 270.0 nh 12 18 340 mhz 1.30 mhl 2a c te r33 j 330.0 nh 17 320 mhz 1.50 rating* type nominal inductance inductance tolerance quality factor 100 mhz (typ.) 800 mhz (typ.) self-resonant frequency (typ.) dc resistance (max.) allowable dc current (max.) 100 mhz (min.) multilayer, ceramic inductors, mhl (mhi) *operating temperature range: -55??125? enter the code for termination surface material (t, l) inductors
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