SMT Power Inductors Shielded Drum Core PF0552NL and PF0553NL Series Single, coupled or (1:1) transformer applications Footprint: PF0552NL - 12.5mm x 12.55mm x 6mm Max PF0553NL - 12.5mm x 12.55mm x 8mm Max Current Rating: up to 17.72A Inductance Range: 0.47H to 4H 260C reflow peak temperature qualified 200Vac isolation between windings 6 Electrical Specifications 25C - Operating Temperature -40C to +125C 6 7 8 Inductance* Inductance Saturation Heating Core Loss 2,3 5 Part 0ADC Irated Irated DCR Current ISAT Current IDC Factor Connection** Number (H 20%) (H TYP) (A) (m MAX) -30% (A) +40C (A) (K2) Mode PF0552.471NL 0.49 0.49 14.2 1.6 33 14.2 100 Parallel PF0552.102NL 0.91 0.91 12.9 2.4 24 12.9 140 Parallel PF0552.152NL 1.5 1.5 12.4 2.9 18.4 12.4 180 Parallel PF0552.471NL 2.0 2.0 7.1 6.4 16.4 7.1 210 Series PF0552.222NL 2.2 2.2 11.1 3.9 15 11.1 210 Parallel PF0552.332NL 3.1 3.1 10.1 5.8 12.8 10.1 250 Parallel PF0552.102NL 3.6 3.6 6.5 9.6 11.8 6.5 270 Series PF0552.472NL 5.3 4.7 8.5 9.2 9.8 8.5 330 Parallel PF0552.152NL 5.9 5.9 6.2 12 9.2 6.2 350 Series PF0552.682NL 6.6 6.6 7.3 12 8.8 7.3 370 Parallel PF0552.822NL *** 8.1 8.1 6.5 18 7.8 6.5 410 Parallel PF0552.222NL 8.8 8.8 5.6 16 7.5 5.6 430 Series PF0552.103NL 9.7 9.7 6.0 19 7.2 6.0 450 Parallel PF0552.332NL 12 12 5.0 23 6.4 5.0 490 Series PF0552.153NL 15 15 5.5 24 5.8 5.5 550 Parallel PF0552.472NL 21 19 4.3 37 4.9 4.3 660 Series PF0552.223NL 22 22 4.6 35 4.8 4.6 670 Parallel PF0552.682NL 27 27 3.7 48 4.4 3.7 760 Series PF0552.822NL *** 32 32 3.3 66 3.9 3.3 810 Series PF0552.333NL 34 33 3.7 54 3.9 3.7 840 Parallel PF0552.103NL 39 39 3.0 73 3.6 3.0 900 Series PF0552.473NL 47 47 3.2 69 3.2 3.3 980 Parallel PF0552.153NL 61 60 2.8 97 2.9 2.8 1100 Series PF0552.683NL 68 68 2.7 100 2.7 2.8 1200 Parallel PF0552.823NL 84 82 2.4 130 2.4 2.4 1300 Parallel PF0552.223NL 89 88 2.3 140 2.4 2.3 1400 Series PF0552.104NL 100 100 2.2 160 2.2 2.3 1400 Parallel 1 power.pulseelectronics.com SPM2007 28 (02/19) SMT Power Inductors Shielded Drum Core PF0552NL and PF0553NL Series 6 Electrical Specifications 25C - Operating Temperature -40C to +125C 6 7 8 Inductance* Inductance Saturation Heating Core Loss 2,3 5 Part 0ADC Irated Irated DCR Current ISAT Current IDC Factor Connection** Number (H 20%) (H TYP) (A) (m MAX) -30% (A) +40C (A) (K2) Mode PF0552.333NL 135 130 1.9 220 2.0 1.9 1700 Series PF0552.154NL 150 150 1.8 230 1.8 1.8 1800 Parallel PF0552.473NL 190 190 1.7 270 1.6 1.7 2000 Series PF0552.224NL 220 220 1.4 350 1.5 1.4 2100 Parallel PF0552.683NL 270 270 1.4 400 1.4 1.4 2400 Series PF0552.823NL 330 330 1.2 530 1.2 1.2 2600 Series PF0552.334NL 340 330 1.2 470 1.2 1.2 2700 Parallel PF0552.104NL 410 400 1.1 640 1.1 1.1 2900 Series PF0552.474NL 470 470 1.0 690 1.0 1.0 3100 Parallel PF0552.154NL 600 600 0.88 930 0.91 0.88 3500 Series PF0552.684NL 680 680 0.81 1000 0.86 0.81 3700 Parallel PF0552.824NL *** 830 830 0.69 1400 0.78 0.69 4100 Parallel PF0552.224NL 870 870 0.71 1400 0.76 0.71 4200 Series PF0552.105NL 1000 1000 0.65 1600 0.70 0.65 4500 Parallel PF0552.334NL 1300 1300 0.61 1900 0.62 0.61 5100 Series PF0552.474NL 1900 1900 0.51 2700 0.51 0.51 6300 Series PF0552.684NL 2700 2700 0.4 4100 0.43 0.4 7400 Series PF0552.824NL *** 3300 3300 0.34 5500 0.39 0.34 8200 Series PF0552.105NL 4000 4000 0.32 6400 0.35 0.32 9100 Series PF0553.471NL 0.43 0.43 17 1.6 56 17 53 Parallel PF0553.102NL 0.86 0.86 15 2.4 40 15 76 Parallel PF0553.152NL 1.4 1.4 13 2.9 31 13 97 Parallel PF0553.471NL 1.7 1.7 9.0 6.4 28 9.0 110 Series PF0553.222NL 2.0 2.0 13 3.7 25 13 110 Parallel PF0553.332NL 2.8 2.8 10 5.4 21 10 130 Parallel PF0553.102NL 3.4 3.4 7.7 9.4 20 7.7 150 Series PF0553.472NL 4.8 4.7 8.1 9.2 16 8.1 180 Parallel PF0553.152NL 5.4 5.4 6.7 12 16 6.7 190 Series PF0553.682NL 7.4 6.8 7.2 12 13 7.2 220 Parallel PF0553.222NL 8.1 8.1 6.2 15 13 6.2 230 Series PF0553.822NL *** 8.9 8.2 6.2 15 12 6.2 240 Parallel PF0553.103NL 10.5 10 6.0 17 11 6.0 260 Parallel PF0553.332NL 11.3 11.3 5.2 22 11 5.2 270 Series PF0553.153NL 14 15 5.0 24 9.6 5.0 300 Parallel PF0553.472NL 19 19 4.1 37 8.2 4.1 350 Series 2 power.pulseelectronics.com SPM2007 28 (02/19)