VERSA-PAC Inductors and Transformers (Surface Mount) Description RoHS 2002/95/EC Six winding, surface mount devices that offer more than 500 usable inductor or transformer configurations High power density and low profile Low radiated noise and tightly coupled windings Power range from 1 Watt 70 Watts Frequency range to over 1MHz 500 VAC Isolation Ferrite core material Applications Inductors: buck, boost, coupled, choke, filter, resonant, noise filtering, differential, forward, common mode Transformers: flyback, feed forward, push-pull, multiple output, inverter, step-up, step-down, gate drive, base Packaging drive, wide band, pulse, control, impedance, isolation, Supplied in tape and reel packaging, 600 (VP01), bridging, ringer, converter, auto 300 (VP02), and 200 (VP03) per reel Environmental Data Supplied in bulk packaging (VP04 and VP05) Storage temperature range: -55C to 125C VP04 & VP05 tape and reel packaging available. Operating ambient temperature range: -40C to +85C Please contact factory for details. (range is application specific). The internal hot spot temperature defines the maximum allowable currents, which are limited to 130C, including ambient Solder reflow temperature: +260C max for 10 seconds max. Leakage Thermal (1) Part L(BASE)ISAT(BASE)IRMS(BASE)R(BASE) Volt-SEC(BASE)EPEAK(BASE) Inductance Resistance Number H Amps Amps Ohms Vs J (BASE) H C/Watt (2) (3)(4) (3)(5) (6) (7) (8) (9) (NOM) (TYP) (TYP) (MAX) (MAX) (TYP) (TYP) (TYP) (10) VPH1-1400-R 201.6 +/-30% 0.04 0.55 0.344 32.9 0.11 0.212 60.7 (10) VP1-1400-R 89.6 +/-30% 0.06 0.85 0.145 21.8 0.11 0.096 60.7 VPH1-0190-R 27.4 +/-20% 0.29 0.55 0.344 32.9 0.77 0.212 60.7 VP1-0190-R 12.2 +/-20% 0.43 0.85 0.145 21.8 0.77 0.096 60.7 VPH1-0102-R 14.7 +/-20% 0.53 0.55 0.344 32.9 1.45 0.212 60.7 VP1-0102-R 6.5 +/-20% 0.80 0.85 0.145 21.8 1.45 0.096 60.7 VPH1-0076-R 10.9 +/-20% 0.72 0.55 0.344 32.9 1.92 0.212 60.7 VP1-0076-R 4.9 +/-20% 1.06 0.85 0.145 21.8 1.92 0.096 60.7 VPH1-0059-R 8.5 +/-20% 0.92 0.55 0.344 32.9 2.48 0.212 60.7 VP1-0059-R 3.8 +/-20% 1.37 0.85 0.145 21.8 2.48 0.096 60.7 (10) VPH2-1600-R 160 +/-30% 0.07 0.95 0.159 48.3 0.29 0.165 44.0 (10) VP2-1600-R 78.4 +/-30% 0.10 1.26 0.090 33.7 0.29 0.083 44.0 VPH2-0216-R 21.6 +/-20% 0.53 0.95 0.159 48.3 2.11 0.165 44.0 VP2-0216-R 10.6 +/-20% 0.76 1.26 0.090 33.7 2.11 0.083 44.0 VPH2-0116-R 11.6 +/-20% 0.99 0.95 0.159 48.3 3.94 0.165 44.0 VP2-0116-R 5.7 +/-20% 1.41 1.26 0.090 33.7 3.94 0.083 44.0 VPH2-0083-R 8.3 +/-20% 1.39 0.95 0.159 48.3 5.47 0.165 44.0 VP2-0083-R 4.1 +/-20% 1.95 1.26 0.090 33.7 5.47 0.083 44.0 VPH2-0066-R 6.6 +/-20% 1.74 0.95 0.159 48.3 7.01 0.165 44.0 VP2-0066-R 3.2 +/-20% 2.50 1.26 0.090 33.7 7.01 0.083 44.0 (10) VPH3-0780-R 132 +/-30% 0.07 0.97 0.14 39.8 0.24 0.125 43.4 (10) VP3-0780-R 63.2 +/-30% 0.10 1.47 0.061 27.7 0.24 0.058 43.4 VPH3-0138-R 23.3 +/-20% 0.41 0.97 0.14 39.8 1.36 0.125 43.4 VP3-0138-R 11.2 +/-20% 0.59 1.47 0.061 27.7 1.36 0.058 43.4 VPH3-0084-R 14.2 +/-20% 0.67 0.97 0.14 39.8 2.23 0.125 43.4 VP3-0084-R 6.8 +/-20% 0.97 1.47 0.061 27.7 2.23 0.058 43.4 VPH3-0055-R 9.3 +/-20% 1.02 0.97 0.14 39.8 3.38 0.125 43.4 VP3-0055-R 4.5 +/-20% 1.46 1.47 0.061 27.7 3.38 0.058 43.4 VPH3-0047-R 7.94 +/-20% 1.19 0.97 0.14 39.8 4.00 0.125 43.4 VP3-0047-R 3.8 +/-20% 1.73 1.47 0.061 27.7 4.00 0.058 43.4 VERSA-PAC Inductors and Transformers (Surface Mount) Leakage Thermal (1) Part L(BASE)ISAT(BASE)IRMS(BASE)R(BASE) Volt-SEC(BASE)EPEAK(BASE) Inductance Resistance Number H Amps Amps Ohms Vs J (BASE) H C/Watt (2) (3)(4) (3)(5) (6) (7) (8) (9) (NOM) (TYP) (TYP) (MAX) (MAX) (TYP) (TYP)(TYP) (10) VPH4-0860-R 159.65 +/-30% 0.11 1.41 0.0828 64.6 0.57 0.156 39.4 (10) VP4-0860-R 87.0 +/-30% 0.15 1.70 0.057 44.7 0.57 0.075 39.4 VPH4-0140-R 23.7 +/-20% 0.65 1.41 0.0828 64.6 3.54 0.156 39.4 VP4-0140-R 11.3 +/-20% 0.95 1.70 0.057 44.7 3.54 0.075 39.4 VPH4-0075-R 12.7 +/-20% 1.21 1.41 0.0828 64.6 6.55 0.156 39.4 VP4-0075-R 6.1 +/-20% 1.75 1.70 0.057 44.7 6.55 0.075 39.4 VPH4-0060-R 10.1 +/-20% 1.52 1.41 0.0828 64.6 8.16 0.156 39.4 VP4-0060-R 4.9 +/-20% 2.18 1.70 0.057 44.7 8.16 0.075 39.4 VPH4-0047-R 7.94 +/-20% 1.94 1.41 0.0828 64.6 10.52 0.156 39.4 VP4-0047-R 3.8 +/-20% 2.81 1.70 0.057 44.7 10.52 0.075 39.4 (10) VPH5-1200-R 173 +/-30% 0.14 1.70 0.0711 98.4 1.11 0.235 30.3 (10) VP5-1200-R 76.8 +/-30% 0.20 2.08 0.047 65.6 1.11 0.105 30.3 VPH5-0155-R 22.3 +/-20% 1.05 1.70 0.0711 98.4 8.83 0.235 30.3 VP5-0155-R 9.9 +/-20% 1.60 2.08 0.047 65.6 8.83 0.105 30.3 VPH5-0083-R 12 +/-20% 1.96 1.70 0.0711 98.4 16.07 0.235 30.3 VP5-0083-R 5.3 +/-20% 2.95 2.08 0.047 65.6 16.07 0.105 30.3 VPH5-0067-R 9.65 +/-20% 2.43 1.70 0.0711 98.4 19.83 0.235 30.3 VP5-0067-R 4.3 +/-20% 3.63 2.08 0.047 65.6 19.83 0.105 30.3 VPH5-0053-R 7.63 +/-20% 3.07 1.70 0.0711 98.4 25.10 0.235 30.3 VP5-0053-R 3.4 +/-20% 4.59 2.08 0.047 65.6 25.10 0.105 30.3 (1) The first three digits in the part number signify the size of the (8) Maximum Energy capability of each winding. This is based on 30% package. The next four digits specify the AL, or nanoHenries per turn saturation of the core: squared. 2 2 1 Energy = S x x 0.7L x I SERIES BASE SAT(BASE) (2) LBASE = Nominal Inductance of a single winding. 2 BASE SAT(BASE) RMS(BASE) 2 2 (3) I is the lessor of I and I . 1 Energy = P x x 0.7L x I PARALLEL BASE SAT(BASE) 2 (4) Peak current that will result in 30% saturation of the core. This current value assumes that equal current flows in all six windings. For multiple windings, the energy capability varies as the square of For applications in which all windings are not simultaneously driven the number of windings. For example, six windings (either parallel (i.e. flyback, SEPIC, Cuk, etc.), the saturation current per winding or series) can store 36 times more energy than one winding. may be calculated as follows: 6 x I SAT(BASE) I = SAT Number of Windings Driven (9) Thermal Resistance is the approximate surface temperature rise (5) RMS Current that results in a surface temperature of approximately per Watt of heat loss under still-air conditions. Heat loss is a 40C above ambient. The 40C rise occurs when the specified combination of core loss and wire loss. The number assumes the current flows through each of the six windings. underlying PCB copper area equals 150% of the component area. (6) Maximum DC Resistance of each winding. TOTAL (7) For multiple windings in series, the volt-second (Vs) (10) These devices are designed for feed-forward applications, where capability varies as the number of windings in series (S): load current dominates magnitizing current. Volt-sec = S x Volt-sec TOTAL (BASE) For multiple windings in parallel, the volt-secondTOTAL (Vs) capability is as shown in the table above. VERSA-PAC temperature rise depends on total power losses and size. Any other PCM configurations other than those suggested could run hotter than acceptable. Certain topologies or applications must be analyzed for needed requirements and matched with the best VERSA-PAC size and configuration. Proper consideration must be used with all parameters, especially those associated with current rating, energy storage, or maximum volt-seconds. VERSA-PAC should not be used in off-line or safety related applications. The breakdown voltage from one winding to any other winding is 500 VAC maximum. PCM