SMT Power Inductors High Current Molded Power Inductor - PA5404 & PM5404 Series Height: 5.0mm Max Footprint: 7.6mm x 6.9mm Max Current Rating: up to 32A Inductance Range: 0.1 to 68uH High current, low DCR, and high efficiency Shielded construction and compact design Minimized acoustic noise and minimized leakage flux noise 200 Vdc Isolation Between Terminal and Core Available in Commercial (PA) and Automotive (PM) grades Electrical Specifications 25C - Operating Temperature -55C to +125C 3 2 Rated DC Saturation 5 SRF Inductance Current Resistance Current 6,7 6,7 100KHz, 1.0V Commercial Automotive TYP. TYP. MAX. TYP. Typ uH20% A m m A MHz PA5404.101NLT PM5404.101NLT 0.10* 32 0.65 0.78 65 350 PA5404.111NLT PM5404.111NLT 0.11* 32 0.65 0.78 65 350 PA5404.151NLT PM5404.151NLT 0.15* 30 1.3 1.7 50 210 PA5404.221NLT PM5404.221NLT 0.22 25 1.6 1.9 35 150 PA5404.331NLT PM5404.331NLT 0.33 25 2.5 3 32 100 PA5404.401NLT PM5404.401NLT 0.4 23 3.1 3.7 31 100 PA5404.471NLT PM5404.471NLT 0.47 22 3.5 3.9 30 95 PA5404.561NLT PM5404.561NLT 0.56 20 3.6 4.2 27 80 PA5404.601NLT PM5404.601NLT 0.6 19 3.8 4.3 25 80 PA5404.681NLT PM5404.681NLT 0.68 18 4 4.5 24 75 PA5404.821NLT PM5404.821NLT 0.82 16.5 4.6 4.9 22 70 PA5404.102NLT PM5404.102NLT 1.0 15 6.1 6.5 20 50 PA5404.122NLT PM5404.122NLT 1.2 14 6.7 7.5 18 45 PA5404.152NLT PM5404.152NLT 1.5 12 8.6 9 16.5 43 PA5404.182NLT PM5404.182NLT 1.8 12 9.5 11 15 38 PA5404.222NLT PM5404.222NLT 2.2 10 11.2 12 14 30 PA5404.332NLT PM5404.332NLT 3.3 8 19 20.9 12 26 PA5404.472NLT PM5404.472NLT 4.7 6.5 28 30.8 10 22 PA5404.492NLT PM5404.492NLT 4.9 6.3 32 38 9.5 21 PA5404.562NLT PM5404.562NLT 5.6 6 43.5 49 9 20 PA5404.682NLT PM5404.682NLT 6.8 5.5 46 51.5 8.5 18 Power.PulseElectronics.com P877. B (09/20) 1SMT Power Inductors High Current Molded Power Inductor - PA5404 & PM5404 Series Electrical Specifications 25C - Operating Temperature -55C to +125C 3 2 Rated DC Saturation 5 SRF Inductance Current Resistance Current 6,7 6,7 100KHz, 1.0V Commercial Automotive TYP. TYP. MAX. TYP. TYP. uH20% A m m A MHz PA5404.822NLT PM5404.822NLT 8.2 5 56 63 8 16 PA5404.103NLT PM5404.103NLT 10.0 3.8 60 69 7.5 15 PA5404.123NLT PA5404.123NLT 12 3.5 68 80 6.7 13 PA5404.153NLT PM5404.153NLT 15 3.5 81 92 6 12 PA5404.223NLT PM5404.223NLT 22 2.5 140 170 5.5 9 PA5404.333NLT PM5404.333NLT 33 2 173 200 3.5 8 PA5404.423NLT PM5404.423NLT 42 2 212 245 2.8 8 PA5404.473NLT PM5404.473NLT 47 1.9 290 330 2.7 8 PA5404.563NLT PM5404.563NLT 56 1.6 342 396 2.1 7 PA5404.683NLT PM5404.683NLT 68 1.2 386 445 2 6 Notes: 1. Actual temperature of the component during system operation (ambient plus 5. Please note that the inductance tolerance of all parts are 20%, except those temperature rise) must be within the standard operating range. indicated by an * which are +/- 30%. 2. The saturation current is the current at which the initial inductance drops 6. Parts shown in bold are standard catalog parts and are available through sample approximately 30% at the stated ambient temperature. This current is determined stock and distribution. Parts in lighter font are available but are not necessarily held by placing the compnent in the specified ambient environment and applying a short in sample stock or distribution and lead times may be longer. Please contact Pulse duration pulse current (to eliminate self-heating effect) to the component. for availablity. 3. The rated current is the DC current required to raise the component temperature by 7. The PM prefix parts are AEC-Q200 qualified and has full automotive IATF16949 approximately 40C. Take note that the components performance varies depending certification. The mechanical dimensions are 100% tested in production but do not on the system condition. It is suggested that the component be tested at the system necessarily meet a product capability index (Cpk) 1.33 and therefore may not strictly level, to verify the temperature rise of the component during system operation. conform to PPAP. 4. The part temperature (ambient+temp rise) should not exceed 125C under worst 8. Special characteristics case operating conditions. Circuit design, PCB trace size and thickness, airflow and other cooling provisions all affect the part temperature. Part temperature should be verified in the end application. Power.PulseElectronics.com P877. B (09/20) 2