THT Power Inductors Toroid - Bare Coil Series Low cost solutions for VRM, Game Console and Consumer applications Current Range: up to 48A Inductance Range: 5H to 12H Frequency Range: up to 1MHz Custom configurations are possible Electrical Specifications 25C Operating Temperature -40C to +130C Reference Data Design Calculation Data Inductance Inductance Part* Irated 2 DCR Irated 0ADC Build H1 K1 K2 K3 K4 K5 Number (A) m MAX) (H TYP) (H 20%) Material 18 PG0122NL 0.48 30.5 2.0 0.60 T60-18 1.3 134 8.2E-03 1.2 2.3 47 3x18GA,4T Material 18 PG0123NL 0.49 48.0 0.85 0.86 T60-18 1.7 107 8.2E-03 1.2 2.3 47 3x17GA,5T Material 52 PA0690NL 0.50 22.5 1.5 0.88 T44-52 2.4 202 3.1E-03 1.3 2.1 80 1x16GA,5T Material 8/90 PA0235LNL 0.67 22.5 2.6 0.86 T50-8/90 2.8 128 6.4E-03 1.1 2.4 64 1x17GA,7T Material 52 PA0689NL 0.80 21.5 2.0 1.70 T44-52 3.3 144 3.1E-03 1.3 2.1 80 1x16GA,7T Material 52 PA0430LNL 0.86 37.5 1.6 1.96 T68-52 2.1 80 8.8E-03 1.3 2.1 42 2x16GA,7T Material 52 P1967LNL 0.93 23.8 3.8 1.44 T68-52 1.8 93 8.8E-03 1.3 2.1 42 1x16GA,6T Material 52 PG0116NL 1.02 14.9 4.2 1.70 T44-52 3.3 144 3.1E-03 1.3 2.1 80 1x18GA,7T Material 52 PA0489LNL 1.05 19.0 2.7 2.24 T44-52 3.8 126 3.1E-03 1.3 2.1 80 1x16GA,8T Material 52 PG0112NL 1.10 13.8 7.0 2.50 T50-52 3.6 99 4.2E-03 1.3 2.1 64 3x22GA,9T Material 52 P1715LNL 1.81 14.3 5.0 3.50 T44-52 4.7 101 3.1E-03 1.3 2.1 80 1x17GA,10T Material 52 PA0431LNL 3.22 20.5 5.5 7.80 T68-52 4.2 40 8.8E-03 1.3 2.1 42 1x16GA,14T Material 52 PA0432LNL 5.00 20.5 7.5 12.10 T80-52 4.2 25 1.4E-02 1.3 2.1 32 1x16GA,17T *NOTE: The NL suffix indicates an RoHS-compliant part number. Non-NL suffixed parts are not necessarily RoHS compliant, but are electrically and mechanically equivalent to NL versions. If a part number does not have the NL suffix, but an RoHS compliant version is required, please contact Pulse for availability. 1 pulseelectronics.com SPM2007 (06/11)THT Power Inductors Toroid - Bare Coil Series Notes from Tables 1. The temperature of the component (ambient plus temperature rise) must be within the stated Estimated Temperature Rise: operating temperature range833 Trise = AirFlowFactor * K5 * (Coreloss(W) + Copperloss(W)) (C) 2. The rated current is the current that will cause the temperature Where of the part to increase by 40C with 3.6 volt * sec across the AirFlowFactor = 1 (no air flow), 0.53 (100LFM), 0.39 (200LFM), 0.35 (300LFM), 0.30 (400LFM) component and 100LFM of forced air cooling. 2 CopperLoss = Irms * DCR Typical (m) / 1000 3. To determine the inductance of a component at a different operating current, use the graph DCR Typical (mW) = .85 * DCR Max(from table) below for the appropriate material type. K3 K4 CoreLoss = K2 * (Freq kHz) * (DB/2000) 4. In high volt-sec applications additional heating may occur due to core losses in the inductor which may necessitate derating the DB = K1 * Volt-sec current in order to limit the temperature rise of the component. In order to determine the approximate total losses (or temperature rise) of the component in particular applications, the following formulas can be used. Mechanical Dimensions (in/mm) Part No. A B C D E F Part No. A B C D E F .807 .374 .748 .126 .098 .354 PG0122 20,50 9,50 19,00 3,20 2,50 9,00 .807w .413 .748 .126 .106 .354 PG0123 20,50 10,50 19,00 3,20 2,68 9,00 .625 .345 .545 .129 .052 .300 PA0690 15,90 8,80 13,80 3,30 1,30 7,60 .400 .660 .150 .050 .300 PA0235L N/A 10,20 16,80 3,80 1,30 7,60 .625 .345 .545 .129 .052 .300 PA0689 15,90 8,80 13,80 3,30 1,30 7,60 .874 .374 .250 .245 PA0430L N/A N/A Schematic 22,20 9,50 6,40 6,20 .906 .492 .906 .130 .055 .300 P1967L 23,00 12,50 23,00 3,30 1,40 7,60 Inches Dimensions: mm .571 .276 .571 .126 .041 .276 PG0116 14,50 7,00 14,50 3,20 1,05 7,00 .604 .323 .556 .157 .048 .250 PA0489L 15,30 8,20 14,10 4,00 1,20 6,40 .630 .374 .630 .140 .063 .295 PG0112 16,00 9,50 16,00 3,60 1,60 7,50 .610 .325 .130 .045 .300 P1715L N/A 15,50 8,30 3,30 1,10 7,60 .874 .374 .250 .054 .240 PA0431L N/A 22,20 9,50 6,40 1,40 6,10 .980 .440 .980 .250 .054 .310 PA0432L 24,90 11,20 24,90 6,40 1,40 7,90 2 pulseelectronics.com SPM2007 (06/11)