SMT Power Inductors Power Beads - PA051XNL, PA121XNL, PA151XNL Series Current Rating: Over 70Apk Inductance Range: 72nH to 470nH Four Package Sizes: PA0512/PA1212: 7.0 x 7.0 x 4.96mm Max PA0511/PA1211: 10.2 x 7.0 x 4.96mm Max PA0515: 11.2 x 11.2 x9.0mm Max PA0513/PA1513: 13.5 x 13.0 x 8.0mm Max 7,8 Electrical Specifications 25C - Operating Temperature -40C to +130C 3 Saturation Current 4 Heating (TYP) 1 2 Part Inductance Inductance Irated DCR Current Number 0ADC Irated (ADC) (m) (A TYP) (nH 20%) (nH TYP) 25C 100C PA0512NL and PA1212NL - 7.0mm x 7.0mm x 4.96mm Max PA0512.700NLT 72 72 31 58 45 PA0512.101NLT 105 102 31 0.32 9.4% 46 38 31 PA0512.151NLT 150 134 24 30 24 PA1212.700NLT 72 72 31 58 45 PA1212.101NLT 105 102 31 0.46 6.5% 46 38 31 PA1212.151NLT 150 134 24 30 24 PA0511NL and PA1211NL - 10.2mm x 7.0mm x 4.96mm Max PA0511.850NLT 85 85 31 70+ 70 PA0511.900NLT 100 100 31 70 65 PA0511.101NLT 120 120 31 0.39 7.7% 52 42 31 PA0511.151NLT 155 150 31 40 36 PA0511.221NLT 220 176 25 33 25 PA1211.850NLT * 85 85 31 70+ 70 PA1211.900NLT * 100 100 31 70 65 PA1211.101NLT 120 120 31 0.55 7.3% 52 42 31 PA1211.151NLT 155 150 31 40 36 PA1211.221NLT 220 176 25 33 25 PA0515NL - 11.2mm x 11.2mm x 9.0mm Max PA0515.221NLT 225 225 35 68 59 PA0515.271NLT 270 280 35 50 44 0.63 9.5% 35 PA0515.321NLT 325 325 35 43 36 PA0515.471NLT 470 380 23 30 23 1 power.pulseelectronics.com SPM2007 29 (02/19) SMT Power Inductors Power Beads - PA051XNL, PA121XNL, PA151XNL Series 7,8 Electrical Specifications 25C - Operating Temperature -40C to +130C 3 Saturation Current 4 Heating (TYP) 1 2 Part Inductance Inductance Irated DCR Current Number 0ADC Irated (ADC) (m) (A TYP) (nH 20%) (nH TYP) 25C 100C PA0513NL and PA1513NL - 13.5mm x 13.0mm x 8.0mm Max PA0513.211NLT 210 210 45 71 64 PA0513.261NLT 260 260 45 60 55 0.32 9.4% 45 PA0513.321NLT 320 285 41 50 45 PA0513.441NLT 440 363 30 35 30 PA1513.211NLT 210 210 45 71 64 PA1513.261NLT 260 260 45 60 55 0.53 11.3% 45 PA1513.321NLT 320 285 41 50 45 PA1513.441NLT 440 363 30 35 30 Notes: 1. The rated current as listed is either the saturation current or the heating current 5. In high volt*time applications, additional heating in the component can occur due to depending on which value is lower. core losses in the inductor which may necessitate derating the current in order to limit 2. The nominal DCR tolerance is by design. The nominal DCR is measured from point the temperature rise of the component. To determine the approximate total losses (or a to point b , as shown below on the mechanical drawing. temperature rise) for a given application, the coreloss and temperature rise curves can 3. The saturation current is the typical current which causes the inductance to drop be used. by 20% at the stated ambient temperatures (25C and 100C). 6. Pulse complies to industry standard tape and reel specification EIA481. This current is determined by placing the component in the specified ambient 7. The temperature of the component (ambient plus temperature rise) must be within the environment and applying a short duration pulse current (to eliminate self- stated operating temperature range. heating effects) to the component. 8. For part marking only the PA0513 series has the name Pulse marked on the part. 4. The heating current is the DC current which causes the part temperature to increase Due to component size, the remaining series of parts are marked only with the Pulse PN, by approximately 40C. This current is determined by soldering the component on a Date Code and Country of Origin. typical application PCB, and then applying the current to the device for 30 minutes * Contact Pulse for availability without any forced air cooling. Mechanical Schematic PAXXXX.XXXNLT .Inches Dimensions: mm PAXXXX.XXXNL Unless otherwise specified, ..010 all tolerances are: 0,25 2 power.pulseelectronics.com SPM2007 29 (02/19)