24 meeting your need s 1.800.pik.toko 1.847.297.0070 www.tokoam.com r-log1104a type llq2012 wi r ewound chip inductors features ?inductance tolerance: 2%, 5%, 10% ?eia standard 0805 footprint (2.0mm x 1.2mm) ?lead-free terminations ?high q ?high self-resonant frequency ?operating temperature: ?0 c to +125 c ?packaged on tape and reel in 3,000 piece quantity ?reflow solderable part numbering electrical characteristics dimensions recommended footprint the toko llq2012 series is a wirewound ceramic chip inductor that conforms to the eia standard 0805 footprint and delivers superb q and srf performance with high inductance tolerance. unit: mm tolerance: 0.1mm 1.27 1.03 0.51 0.51 0.70 1.42 max. 1.70 max. 2.29 max. 1.02 0.76 1.02 1.78 10000 1000 100 10 frequency (mhz) q vs frequency q 0 40 80 120 100 60 20 47n 6n8 r12 22n 10000 1000 100 10 frequency (mhz) inductance vs frequency inductance (nh) 1 10 100 1000 r12 47n 22n 6n8 llq 2012 - f 2n7 j tolerance (g= 2%, j= 5%, k= 10%) inductance material dimensions (lxw) type name
25 meeting your need s r-log1104a 1.800.pik.toko 1.847.297.0070 www.tokoam.com type llq2012 wi r ewound chip inductors standard parts selection guide type llq2012 * add tolerance to part number: g = 2%, j = 5%, k = 10% testing conditions: l,q: agilent 4287a (test fixture agilent 16193a). srf: agilent 8720es. rdc: agilent 34420a. idc: agilent 34401a o k o t r e b m u n t r a p e c n a t c u d n iq t n a n o s e r f l e s y c n e u q e r f ) z h m ( . n i m c d e c n a t s i s e r ( ? . x a m ) c d i ) a m ( . x a m o l ) h n ( e c n a r e l o t . q e r f t s e t ) z h m ( q ) . n i m ( . q e r f t s e t ) z h m ( * _ 7 n 2 f - 2 1 0 2 q l l7 . 2k , j0 5 20 80 0 5 10 0 9 76 0 . 00 0 8 * _ 0 n 3 f - 2 1 0 2 q l l0 . 3k , j0 5 25 60 0 5 10 0 9 76 0 . 00 0 8 * _ 3 n 3 f - 2 1 0 2 q l l3 . 3k , j0 5 20 50 0 5 10 0 9 78 0 . 00 0 6 * _ 6 n 5 f - 2 1 0 2 q l l6 . 5k , j0 5 25 60 0 0 10 0 5 58 0 . 00 0 6 * _ 8 n 6 f - 2 1 0 2 q l l8 . 6k , j0 5 20 50 0 0 10 0 5 51 1 . 00 0 6 * _ 5 n 7 f - 2 1 0 2 q l l5 . 7k , j0 5 20 50 0 0 10 0 5 44 1 . 00 0 6 * _ 2 n 8 f - 2 1 0 2 q l l2 . 8k , j , g0 5 20 50 0 0 10 0 7 42 1 . 00 0 6 * _ n 0 1 f - 2 1 0 2 q l l0 1k , j , g0 5 20 60 0 50 0 2 40 1 . 00 0 6 * _ n 2 1 f - 2 1 0 2 q l l2 1k , j , g0 5 20 50 0 50 0 0 45 1 . 00 0 6 * _ n 5 1 f - 2 1 0 2 q l l5 1k , j , g0 5 20 50 0 50 0 4 37 1 . 00 0 6 * _ n 8 1 f - 2 1 0 2 q l l8 1k , j , g0 5 20 50 0 50 0 3 30 2 . 00 0 6 * _ n 2 2 f - 2 1 0 2 q l l2 2k , j , g0 5 25 50 0 50 0 6 22 2 . 00 0 5 * _ n 4 2 f - 2 1 0 2 q l l4 2k , j , g0 5 20 50 0 50 0 0 22 2 . 00 0 5 * _ n 7 2 f - 2 1 0 2 q l l7 2k , j , g0 5 25 50 0 50 0 5 25 2 . 00 0 5 * _ n 3 3 f - 2 1 0 2 q l l3 3k , j , g0 5 20 60 0 50 5 0 27 2 . 00 0 5 * _ n 6 3 f - 2 1 0 2 q l l6 3k , j , g0 5 25 50 0 50 0 7 17 2 . 00 0 5 * _ n 9 3 f - 2 1 0 2 q l l9 3k , j , g0 5 20 60 0 50 0 0 29 2 . 00 0 5 * _ n 3 4 f - 2 1 0 2 q l l3 4k , j , g0 0 20 60 0 50 5 6 14 3 . 00 0 5 * _ n 7 4 f - 2 1 0 2 q l l7 4k , j , g0 0 20 60 0 50 5 6 11 3 . 00 0 5 * _ n 6 5 f - 2 1 0 2 q l l6 5k , j , g0 0 20 60 0 50 5 5 14 3 . 00 0 5 * _ n 8 6 f - 2 1 0 2 q l l8 6k , j , g0 0 20 60 0 50 5 4 18 3 . 00 0 5 * _ n 2 8 f - 2 1 0 2 q l l2 8k , j , g0 5 15 60 0 50 0 3 12 4 . 00 0 4 * _ n 1 9 f - 2 1 0 2 q l l1 9k , j , g0 5 15 60 0 50 0 2 18 4 . 00 0 4 * _ 0 1 r f - 2 1 0 2 q l l0 0 1k , j , g0 5 15 60 0 50 0 2 16 4 . 00 0 4 * _ 1 1 r f - 2 1 0 2 q l l0 1 1k , j , g0 5 10 50 5 20 0 0 18 4 . 00 0 4 * _ 2 1 r f - 2 1 0 2 q l l0 2 1k , j , g0 5 10 50 5 20 0 1 11 5 . 00 0 4 * _ 5 1 r f - 2 1 0 2 q l l0 5 1k , j , g0 0 10 50 5 20 2 96 5 . 00 0 4 * _ 8 1 r f - 2 1 0 2 q l l0 8 1k , j , g0 0 10 50 5 20 7 84 6 . 00 0 4 * _ 2 2 r f - 2 1 0 2 q l l0 2 2k , j , g0 0 10 50 5 20 5 80 7 . 00 0 4 * _ 4 2 r f - 2 1 0 2 q l l0 4 2k , j , g0 0 14 40 5 20 9 60 0 . 10 5 3 * _ 7 2 r f - 2 1 0 2 q l l0 7 2k , j , g0 0 18 40 5 20 5 60 0 . 10 5 3 * _ 3 3 r f - 2 1 0 2 q l l0 3 3k , j , g0 0 18 40 5 20 0 60 4 . 10 1 3 * _ 9 3 r f - 2 1 0 2 q l l0 9 3k , j , g0 0 18 40 5 20 6 50 5 . 10 9 2 * _ 7 4 r f - 2 1 0 2 q l l0 7 4k , j0 53 30 0 15 7 36 7 . 10 5 2 * _ 6 5 r f - 2 1 0 2 q l l0 6 5k , j5 23 20 50 4 30 9 . 10 3 2 * _ 8 6 r f - 2 1 0 2 q l l0 8 6k , j5 23 20 58 8 10 2 . 20 9 1 * _ 2 8 r f - 2 1 0 2 q l l0 2 8k , j5 23 20 55 1 25 3 . 20 8 1
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