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LL1608-FSL10NJ Datasheet(PDF) 1 Page - TOKO, Inc |
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LL1608-FSL10NJ Datasheet(HTML) 1 Page - TOKO, Inc |
1 / 2 page 8 1.800.PIK.TOKO 1.847.297.0070 www.tokoam.com R-LOG0703A Meeting Your Needs Multilayer Chip Inductors TYPE LL1608FSL STANDARD PARTS SELECTION GUIDE TYPE LL1608-FSL * Add tolerance to part number: S= ±0.3nH, J = ±5% **50MHz, ***25MHz Testing Conditions: (1) L,Q: Agilent 4291A/B (Test fixture 16192A) (2) SRF: Agilent 8719D, 8720D (3) RDC: Agilent 4338A/B Features • Inductance range: 1.2-270nH (E-12 Series) • Miniature size: 0603 footprint (1.6mm x 0.8mm) • Inductance specified at 100MHz and 800MHz • Laminated ceramic allows high SRF • Self-resonant frequency specified at ±15% • Q: 10 ~ 80 typical (at 1800MHz) • High current handling, up to 1A • Temperature coefficient of inductance: +250ppm/ °C • Temperature range: –40 °C to +100°C • S-parameter data available upon request • Packaged on tape and reel in 4,000 piece quantity • Reflow solderable • Lead-free terminations Unit: mm Type L (mm) W (mm) T (mm) A (mm) LL1608FSL 1.6 ±0.15 0.8±0.15 0.8±0.15 0.3±0.2 Part Numbering LL 1608 - FSL 1N2 S Tolerance (S= ±0.3nH, J=±5%) Inductance Material Dimensions (LxW) Type Name L W T A Polarity Marking The LL1608-FSL Series is a multilayer ceramic chip inductor with an EIA standard 0603 footprint, lead-free terminations, and expanded electrical specifications with respect to inductance, Q, and self-resonant frequency. O K O T r e b m u N t r a P e c n a r e l o T & e c n a t c u d n I Q . n i m ) . p y T ( Q F R S ) z H M ( C D R ( Ω ) . x a m C D I ) A m ( . x a m z H M 0 0 1 t az H M ) 0 0 2 , 0 0 3 , 0 0 5 ( 0 0 8 t a o LL o LL . q e r F0 0 10 0 10 0 30 0 50 0 80 0 0 10 0 8 1 ) H n (* . l o T) H n (* . l o T) z H M (z H Mz H Mz H Mz H Mz H Mz H Mz H M S 2 N 1 L S F - 8 0 6 1 L L2 . 1S1 . 1H n 5 . 0 ±0 0 80 10 . 4 18 . 8 13 . 4 25 . 0 36 . 5 30 . 8 4n i m 0 0 0 80 1 . 00 0 0 , 1 S 5 N 1 L S F - 8 0 6 1 L L5 . 1S4 . 1H n 5 . 0 ±0 0 80 11 . 4 19 . 7 28 . 8 31 . 9 48 . 6 50 . 0 8n i m 0 0 0 70 1 . 00 0 0 , 1 S 8 N 1 L S F - 8 0 6 1 L L8 . 1S7 . 1H n 5 . 0 ±0 0 80 16 . 1 17 . 0 29 . 7 24 . 6 32 . 0 40 . 2 5% 5 1 ± 0 0 0 2 10 1 . 00 0 0 , 1 S 2 N 2 L S F - 8 0 6 1 L L2 . 2S1 . 2H n 5 . 0 ±0 0 80 10 . 3 15 . 6 24 . 5 32 . 4 49 . 1 59 . 3 6% 5 1 ± 0 0 1 90 1 . 00 0 0 , 1 S 7 N 2 L S F - 8 0 6 1 L L7 . 2S6 . 2H n 5 . 0 ±0 0 81 11 . 3 14 . 8 26 . 7 32 . 8 47 . 4 50 . 2 7% 5 1 ± 0 0 3 71 1 . 00 0 0 , 1 S 3 N 3 L S F - 8 0 6 1 L L3 . 3S2 . 3H n 5 . 0 ±0 0 82 18 . 3 18 . 7 20 . 6 34 . 6 49 . 2 50 . 8 6% 5 1 ± 0 0 8 53 1 . 00 0 0 , 1 S 9 N 3 L S F - 8 0 6 1 L L9 . 3S8 . 3H n 5 . 0 ±0 0 82 14 . 4 14 . 0 36 . 9 32 . 0 58 . 6 50 . 0 7% 5 1 ± 0 0 5 65 1 . 00 0 0 , 1 S 7 N 4 L S F - 8 0 6 1 L L7 . 4S6 . 4H n 5 . 0 ±0 0 82 19 . 4 17 . 9 20 . 9 32 . 9 46 . 5 50 . 0 7% 5 1 ± 0 0 6 57 1 . 00 0 0 , 1 S 6 N 5 L S F - 8 0 6 1 L L6 . 5S5 . 5H n 5 . 0 ±0 0 82 17 . 5 18 . 8 22 . 8 37 . 7 43 . 3 59 . 1 6% 5 1 ± 0 0 8 40 2 . 00 0 6 J 8 N 6 L S F - 8 0 6 1 L L8 . 6J7 . 6% 0 1 ±0 0 82 18 . 5 14 . 9 20 . 9 33 . 9 48 . 5 55 . 7 6% 5 1 ± 0 0 7 42 2 . 00 0 6 J 2 N 8 L S F - 8 0 6 1 L L2 . 8J1 . 8% 0 1 ±0 0 82 18 . 6 14 . 0 33 . 0 41 . 1 58 . 6 58 . 3 6% 5 1 ± 0 0 2 46 2 . 00 0 6 J N 0 1 L S F - 8 0 6 1 L L0 1J 9 . 9% 0 1 ±0 0 83 13 . 7 13 . 9 26 . 8 31 . 8 48 . 3 57 . 6 5% 5 1 ± 0 0 0 40 3 . 00 0 6 J N 2 1 L S F - 8 0 6 1 L L2 1J2 1% 0 1 ±0 0 83 12 . 8 18 . 1 32 . 2 40 . 3 54 . 8 53 . 3 5% 5 1 ± 0 0 4 35 3 . 00 0 6 J N 5 1 L S F - 8 0 6 1 L L5 1J5 1% 0 1 ±0 0 83 10 . 8 18 . 1 34 . 1 42 . 1 58 . 5 57 . 9 4% 5 1 ± 0 0 2 30 4 . 00 0 6 J N 8 1 L S F - 8 0 6 1 L L8 1J8 1% 0 1 ±0 0 83 17 . 8 15 . 3 38 . 3 47 . 3 55 . 8 51 . 6 4% 5 1 ± 0 0 9 27 4 . 00 0 6 J N 2 2 L S F - 8 0 6 1 L L2 2J3 2% 0 1 ±0 0 83 19 . 9 12 . 2 30 . 2 44 . 0 57 . 2 55 . 4 3% 5 1 ± 0 0 5 24 5 . 00 0 6 J N 7 2 L S F - 8 0 6 1 L L7 2J9 2% 0 1 ±0 0 83 16 . 9 13 . 7 23 . 3 44 . 0 58 . 1 53 . 4 2% 5 1 ± 0 0 3 22 6 . 00 0 6 J N 3 3 L S F - 8 0 6 1 L L3 3J7 3% 0 1 ±0 0 85 16 . 9 12 . 3 32 . 2 40 . 8 49 . 7 49 . 5 1% 5 1 ± 0 0 0 20 7 . 00 0 6 J N 9 3 L S F - 8 0 6 1 L L9 3J5 4% 0 1 ±0 0 85 16 . 0 22 . 2 33 . 1 41 . 6 48 . 4 44 . 1 1% 5 1 ± 0 0 9 10 8 . 00 0 6 J N 7 4 L S F - 8 0 6 1 L L7 4J8 5% 0 1 ±0 0 85 10 . 1 26 . 2 34 . 0 48 . 0 41 . 7 37 . 9% 5 1 ± 0 0 6 10 9 . 00 0 5 J N 6 5 L S F - 8 0 6 1 L L6 5J0 6% 0 1 ±0 0 55 15 . 1 27 . 1 36 . 8 36 . 8 35 . 3 3— % 5 1 ± 0 0 5 10 0 . 10 0 5 J N 8 6 L S F - 8 0 6 1 L L8 6J7 7% 0 1 ±0 0 55 17 . 1 25 . 9 25 . 4 31 . 9 21 . 9 1— % 5 1 ± 0 0 3 10 2 . 10 0 4 J N 2 8 L S F - 8 0 6 1 L L2 8J 4 0 1% 0 1 ±0 0 55 11 . 1 27 . 4 32 . 0 45 . 2 35 . 9 1— % 5 1 ± 0 0 0 10 4 . 10 0 3 J 0 1 R L S F - 8 0 6 1 L L0 0 1J6 3 1% 0 1 ±0 0 55 15 . 0 25 . 5 31 . 9 34 . 0 2— — % 5 1 ± 0 0 90 6 . 10 0 3 J 2 1 R L S F - 8 0 6 1 L L* * 0 2 1J 3 3 1% 0 1 ±0 0 3* * 2 11 . 3 23 . 1 38 . 0 3 ——— % 5 1 ± 0 0 80 0 . 20 0 2 J 5 1 R L S F - 8 0 6 1 L L* * 0 5 1J 4 7 1% 0 1 ±0 0 3* * 1 10 . 0 25 . 7 26 . 1 2 ——— % 5 1 ± 0 4 70 4 . 20 0 2 J 8 1 R L S F - 8 0 6 1 L L* * 0 8 1J 2 2 2% 0 1 ±0 0 3* * 1 18 . 8 11 . 7 21 . 2 1 ——— % 5 1 ± 0 5 60 7 . 20 5 1 J 2 2 R L S F - 8 0 6 1 L L* * 0 2 2J 3 9 2% 0 1 ±0 0 3* * 1 13 . 2 21 . 5 2 ———— % 5 1 ± 0 8 50 0 . 30 5 1 J 7 2 R L S F - 8 0 6 1 L L* * * 0 7 2J 9 1 3% 0 1 ±0 0 2* * * 89 . 1 21 . 1 2 ———— % 5 1 ± 0 7 40 5 . 30 5 1 |
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