Document 267 SPICE Model – MOS6020 This lumped-element (SPICE) model data simulates the frequency-dependent behavior of Coilcraft power inductors within the frequency range shown in the accompanying table for each individual inductor. The data represents de-embedded measurements, as described below. Effects due to different customer circuit board traces, board materials, ground planes or interactions with other components are not included and can have a significant effect when comparing the simulation to measurements of the inductors using other production verification instruments and fixtures. The value of the frequency-dependent variable resistor RVAR1 is calculated from: RVAR1 = k1 * • k1 is shown for each value in the accompanying table. • f is the frequency in Hz • RVAR1 is the resistance in Ohms The value of the frequency-dependent variable resistor RVAR2 is calculated from: RVAR2 = k2 * Lumped Element Modeling Method • k2 is shown for each value in the accompanying table. Measurements were made using a 50 Ohm impedance analyzer. Fixture compensation was performed to remove fixture effects. No DC bias current was applied in any of the measurements. The lumped element values were determined by optimizing the simulation model to an average of the measurements. This method results in a model that represents as closely as possible the typical frequency-dependent behavior of the component within the model frequency range. • f is the frequency in Hz The equivalent lumped element model schematic is shown below. Each model should be analyzed only at the input and output ports. Conclusions based on individual lumped element values may be erroneous. RVAR2 VAR C R2 RVAR1 VAR R1 LVAR • RVAR2 is the resistance in Ohms The value of the frequency-dependent inductance LVAR is calculated from: LVAR = k3 − k4 * LOG (k5 * f) • k3, k4, and k5 are shown in the accompanying table. • f is the frequency in Hz • LVAR is the inductance in µH Disclaimer Coilcraft makes every attempt to provide accurate measurement data and software, representative of our components, in a usable format. Coilcraft, however, disclaims all warrants relating to the use of its data and software, whether expressed or implied, including without limitation any implied warranties of merchantability or fitness for a particular purpose. Coilcraft cannot and will not be liable for any special, incidental, consequential, indirect or similar damages occurring with the use of the data and/ or software. Specifications subject to change without notice. Document 267-1 Revised 02/19/03 Document 267 SPICE Model for Coilcraft MOS6020 Power Inductors Part number MOS6020-222 MOS6020-332 MOS6020-472 MOS6020-682 MOS6020-103 MOS6020-153 MOS6020-223 MOS6020-333 MOS6020-473 MOS6020-683 MOS6020-104 MOS6020-154 MOS6020-224 MOS6020-334 MOS6020-474 Frequency limit of model (MHz) Lower Upper 0.1 100 0.1 100 0.1 90 0.1 80 0.1 70 0.1 60 0.1 50 0.1 40 0.1 30 0.1 20 0.1 20 0.1 20 0.1 10 0.1 10 0.1 6 LVAR Coefficients ⏲) R1 (⏲ 30 120 120 132 80 60 66 110 100 115 94 240 350 400 350 ⏲) R2 (⏲ 0.035 0.046 0.050 0.078 0.092 0.130 0.182 0.290 0.420 0.520 0.800 1.28 2.00 2.84 4.40 C (pF) 0.850 0.823 0.965 1.19 1.42 1.31 1.50 1.51 1.85 1.81 1.52 1.94 2.12 1.84 2.55 k1 1.00E-08 3.65E-05 8.20E-05 1.00E-05 1.00E-05 1.06E-04 1.00E-05 1.00E-05 1.00E-05 1.00E-05 1.00E-05 1.00E-05 1.00E-05 1.00E-05 1.00E-05 k2 0.247 0.435 0.680 1.21 1.45 2.11 4.18 6.35 7.54 12.2 16.3 40 80 88 280 k3 2.2 3.3 4.7 6.8 10 15 22 33 47 68 100 150 220 330 470 Specifications subject to change without notice. k4 0.005 0.001 0.030 0.040 0.059 0.086 0.130 0.230 0.306 0.400 0.680 0.595 0.600 0.600 0.600 k5 9.20E-06 3.00E-06 9.40E-06 9.70E-06 9.78E-06 9.50E-06 9.80E-06 9.87E-06 9.80E-06 9.88E-06 9.87E-06 1.02E-05 1.06E-05 1.11E-05 1.43E-05 Document 267-37 Revised 11/30/04