Thin-Film RF/Microwave Inductor Technology Accu-L Series L0603 AND L0805 SMD High-Q RF Inductor Accu-L 10 nH Inductor (Top View) ACCU-L TECHNOLOGY The Accu-L SMD Inductor is based on thin-film multilayer technology. The Accu-L inductor is particularly suited for the telecommunications This technology provides a level of control on the electrical and physical industry where there is a continuing trend towards miniaturization and characteristics of the component which gives consistent characteristics increasing frequencies. The Accu-L inductor meets both the performance within a lot and lot-to-lot. and tolerance requirements of present cellular frequencies 450MHz and The original design provides small size, excellent high-frequency 900MHz and of future frequencies, such as 1700MHz, 1900MHz and performance and rugged construction for reliable automatic assembly. 2400MHz. FEATURES APPLICATIONS High Q Mobile Communications Satellite TV Receivers RF Power Capability GPS High SRF Vehicle Locations Systems Low DC Resistance Filters Ultra-Tight Tolerance on Inductance Matching Networks Standard 0603 and 0805 Chip Size Low Profile Rugged Construction Taped and Reeled 0603 0805 1.60.10 2.110.10 L (0.0630.004) (0.0830.004) 0.810.10 1.50.10 Operating/Storage Temp. DIMENSIONS: millimeters (inches) W (0.0320.004) (0.0590.004) Range: 0.610.10 0.910.13 T (0.0240.004) (0.0360.005) -55C to +125C 0.0 +0.3/-0.0 top: (0.0+0.012) 0.250.15 B 0.350.20 (0.0100.006) bottom: (0.0140.008) The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 41 012419Thin-Film RF/Microwave Inductor Technology Accu-L Series L0603 AND L0805 SMD High-Q RF Inductor Accu-L HOW TO ORDER L 0805 4R7 D E S TR Packaging Product Size Inductance Tolerance Specification Termination Code Sn100 0603 Expressed in nH for Code Code TR = Tape and Reel (2 significant digits 0805 E = Accu-L 0805 W = Nickel/ L 4.7nH, (3,000/reel) + solder coated technology B = 0.1nH number of zeros) (Sn 63, Pb 37) G = Accu-L 0603 C = 0.2nH Not RoHS Compliant for technology **S = Nickel/Lead D = 0.5nH values <10nH, Free letter R denotes Solder coated 4.7nH<L<10nH, decimal point. (Sn100) C = 0.2nH Example: D = 0.5nH 22nH = 220 **RoHS compliant LEAD-FREE COMPATIBLE 4.7nH = 4R7 COMPONENT L 10nH, For RoHS compliant products, G = 2% please select correct termination style. Engineering Kits Available see J = 5% pages 118-119 ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L 0603 450 MHz 900 MHz 1900 MHz 2400 MHz I max. Test Frequency Test Frequency Test Frequency Test Frequency DC SRF min. R max. DC (mA) (MHz) () Inductance Available Q Q Q (1) L (nH) L (nH) L (nH) Q Typical L (nH) Inductance Tolerance Typical Typical Typical 1.2 0.1, 0.2nH 49 1.2 70 1.2 134 1.2 170 10000 0.04 1000 1.5 0.1, 0.2nH 26 1.54 39 1.52 63 1.52 76 10000 0.06 1000 1.8 0.1, 0.2nH 20 1.74 30 1.73 50 1.72 59 10000 0.07 1000 2.2 0.1, 0.2nH 20 2.2 30 2.24 49 2.24 56 10000 0.08 1000 2.7 0.1, 0.2nH 21 2.7 30 2.75 48 2.79 54 9000 0.08 750 3.3 0.1, 0.2, 0.5nH 24 3.33 35 3.39 56 3.47 64 8400 0.08 750 3.9 0.1, 0.2, 0.5nH 25 3.9 57 4.06 60 4.21 69 6500 0.12 500 4.7 0.1, 0.2, 0.5nH 23 4.68 32 4.92 46 5.2 49 5500 0.15 500 5.6 0.2, 0.5nH 26 5.65 36 5.94 54 6.23 60 5000 0.25 300 6.8 0.2, 0.5nH 23 6.9 33 7.3 47 8.1 39 4500 0.30 300 8.2 0.2, 0.5nH 23 8.4 31 10 35 12.1 31 3800 0.35 300 10.0 2%, 5% 28 10 39 11.8 47 14.1 41 3500 0.45 300 12.0 2%, 5% 28 13.2 38 14.1 30 17.2 20 3000 0.50 300 15.0 2%, 5% 28 16.2 38 25.9 30 49.8 15 2500 0.60 300 (1) IDC measured for 15C rise at 25C ambient temperature when soldered to FR-4 board. Inductance and Q measured on Agilent 4291B / 4287 using the 16196A test fixture. ELECTRICAL SPECIFICATIONS TABLE FOR ACCU-L 0805 450 MHz 900 MHz 1900 MHz 2400 MHz I max. DC Test Frequency Test Frequency Test Frequency Test Frequency (mA) SRF min. R max. DC (MHz) () Inductance L Available Inductance Tolerance Q Typical L (nH) Q Typical L (nH) Q Typical L (nH) Q Typical T = 15C (1) T = 70C (2) (nH) 1.2 0.1nH, 0.2nH, 0.5nH 60 1.2 92 1.2 122 1.2 92 10000 0.05 1000 2000 1.5 0.1nH, 0.2nH, 0.5nH 50 1.5 74 1.5 102 1.5 84 10000 0.05 1000 2000 1.8 0.1nH, 0.2nH, 0.5nH 50 1.8 72 1.8 88 1.9 73 10000 0.06 1000 2000 2.2 0.1nH, 0.2nH, 0.5nH 42 2.2 62 2.2 82 2.3 72 10000 0.07 1000 2000 2.7 0.1nH, 0.2nH, 0.5nH 42 2.7 62 2.8 80 2.9 70 10000 0.08 1000 2000 3.3 0.1nH, 0.2nH, 0.5nH 38 3.3 46 3.4 48 3.5 57 10000 0.11 750 1500 3.9 0.1nH, 0.2nH, 0.5nH 27 3.9 36 4.0 38 4.1 42 10000 0.20 750 1500 4.7 0.1nH, 0.2nH, 0.5nH 43 4.8 62 5.3 76 5.8 60 5500 0.10 750 1500 5.6 0.5nH 50 5.7 68 6.3 73 7.6 62 4600 0.10 750 1500 6.8 0.5nH 43 7.0 62 7.7 71 9.4 50 4500 0.11 750 1500 8.2 0.5nH 43 8.5 56 10.0 55 15.2 32 3500 0.12 750 1500 10 2%, 5% 46 10.6 60 13.4 52 2500 0.13 750 1500 12 2%, 5% 40 12.9 50 17.3 40 2400 0.20 750 1500 15 2%, 5% 36 16.7 46 27 23 2200 0.20 750 1000 18 2%, 5% 30 21.9 27 1700 0.35 500 1000 22 2%, 5% 36 27.5 33 1400 0.40 500 1000 (1) I measured for 15C rise at 25C ambient temperature L, Q, SRF measured on HP 4291A, Boonton 34A and Wiltron 360 Vector DC (2) I measured for 70C rise at 25C ambient temperature Analyzer, RDC measured on Keithley 580 micro-ohmmeter. DC The Important Information/Disclaimer is incorporated in the catalog where these specifications came from or available online at www.avx.com/disclaimer/ by reference and should be reviewed in full before placing any order. 42 111120