ŋ Excellent Magnetic Materials for market-leading inductive components and module solutions High-B High-Ohmic Signal/EMI High-µ FERROCARIT® Low-Loss Injection moulded Ferrite Injection moulded Composite Tmax DC-re sist . Ωm Highest permeability MnZn ferrite ≤ 0,2 15000 130 ≥ 0,05 Fi 410 High permeability MnZn ferrite ≤ 0,2 10000 135 ≥ 0,05 Fi 360 High permeability MnZn ferrite ≤ 0,4 6000 150 ≥ 0,05 Fi 320 High permeability ferrite with broad frequency range ≤ 100 2000 140 ≥ 100 Fi 294 High permeability NiZn ferrite ≤ 100 900 140 ≥ 107 Fi 245 NiZn ferrite for best temperature stability and best mechanical stress resistance ≤ 400 430 100 ≥ 107 ≤ 400 480 230 ≥ 107 Fi 242 Low power loss NiZn ferrite with high specific resistance Fi 215 Low permeability NiZn ferrite for high voltage application ≤ 400 150 385 ≥ 107 Fi 110 Low permeability NiZn ferrite ≤ 1000 12 580 ≥ 104 Fi 339 MnZn ferrite with highest saturation flux density ≤ 0,5 1000 250 ≥ 1,5 ≤ 0,5 1500 250 ≥ 1,5 ≤ 0,5 1800 250 ≥2 ≤1 2000 230 Fi 329 Fi 328 Fi 335 Power µi (25°C) Fi 415 MnZn ferrite with very high saturation flux density and low losses MnZn ferrite with high saturation flux density and very low losses MnZn ferrite with low losses and high saturation flux density Fi 325 MnZn ferrite for medium frequency ≤1 1800 230 Fi 395 MnZn ferrite with constant low losses up to 120°C ≤ 0,4 2700 220 ≤ 0,4 1500 250 High frequency MnZn ferrite up to 2 MHz ≤3 1200 240 ≥ 30 MnZn ferrite for best µi Fi 326 Fi 327 Free Shaping f - M Hz Fi 311s Fi 294s Fi 541 Fi 520 Fi 515 MnZn ferrite with lowest power losses around 140°C ≥6 1200 220 ≥ 2,5 ≤ 100 600 140 ≥ 107 Wide band material with high µi and best mechanical tolerances ≤ 400 22 230 ≥ 107 ≤ 400 17 100 ≥ 3,0 ≤ 400 16 100 ≥ 107 700 470 100kHz/100mT/25°C 100kHz/100mT/100°C 3000A/m/170°C 100kHz/100mT/25°C 100kHz/100mT/100°C > 310 > 440 1800 1050 1500 650 250A/m/100°C 100kHz/200mT/25°C 100kHz/200mT/100°C 250A/m/100°C 100kHz/200mT/25°C 100kHz/200mT/100°C 250A/m/100°C 100kHz/200mT/25°C 100kHz/200mT/100°C 250A/m/100°C 200kHz/100mT/100°C 100kHz/200mT/100°C 250A/m/100°C 200kHz/100mT/25°C 200kHz/100mT/100°C 250A/m/100°C 100kHz/200mT/25°C 100kHz/200mT/100°C 250A/m/140°C 100kHz/200mT/25°C 100kHz/200mT/140°C 250A/m/100°C 1000kHz/50mT/25°C 1000kHz/50mT/100°C > 400 > 370 > 350 > 340 > 310 ≤ 0,5 Wide band material with high resistance and best mechanical tolerances > 300 Pv - mW/cm³ 3000A/m/100°C > 330 High ohmic ferrite with medium permeability for best isolation Best Bmax, low losses and best mechanical tolerances for high temperatur applications Bmax - mT > 300 1000 670 140 320 520 900 560 500 450 310 170 450 400 540 Low-µ Metal Powder High-µ FERROCART® µi (25°C) Tmax Fe 896 Highest permeability ≤ 0,2 140 200 Fe 897 High amplitude permeability ≤ 0,2 125 200 Fe 893 High permeability material for high premagnetization ≤ 0,2 110 200 Fe 892 Noise suppression material ≤ 0,2 100 200 Fe 876 Wide band material for high premagnetization with low losses ≤ 0,2 75 180 Fe 886 Medium permeability material for best premagnetization ≤ 0,2 60 200 Fe 850 Wide band material for highest premagnetization with low losses ≤ 0,3 55 180 Fe 818 Wide band material ≤ 10 18 150 Fe896 100 Fe893 Fe876 1800mT Fe818 pow 10 1 ener gy s tora metal powder 1000 Induction of application/mT f - M Hz Bmax Fi329 er tr a tanδ//µi * 10-6 1200 0,16 MHz nsfe r 10 100 1600 36 650 100 46 310 40 400 43 440 0,16 MHz 700 0,16 MHz 10000A/m 800 0,02 MHz 0,3 MHz 0,05 MHz 0,5 MHz 200 10-7 Ohm*m ge specific resistance Fi335 Fi327 high Fi292 NiZn-Ferrite Fi242 200mT 1 650 0,16 MHz MnZn-Ferrite Fi328 50 0,01 MHz 110 570 1400 0,16 MHz 140 45 37 0,01 MHz 120 Pv-mW/c m³ 100kHz/40mT 1600 0,16 MHz 190 µ∆ at 5000 A/m 1000 Range of frequency/kHz 10000 Fi215 Fi212 volta ge 107 Ohm*m Fi110 100000 1000000 SUMIDA Components & Modules GmbH | Dr. Hans-Vogt-Platz 1 | D-94130 Obernzell | Phone: +49 8591/937-100 | E-Mail: [email protected] | www.sumida-eu.com your advantages OVERVIEW MnZn ferrite NiZn ferrite Plastoferrite Injection molding ferrite Metal powder cores ADVANTAGES Many different material types and cores are available Flexible mass production and own R&D department Fast supply of samples Individual solutions (special core shapes, special material grades) Own development and research in the field of magnetic materials Small amounts are possible due to flexible powder production Large cores Securing supply in the case of a shortfall of magnetic cores R&D-package of inductive component and material ŋ highest efficiency Fi 335, Fi 395, Fi 326: MnZn ferrite for power application TASK: Continuous improvement in the field of low losses and high saturation induction RESULT: In comparison with the currently used materials: Fi 335 provides 25% lower losses Fi 395 provides a flat Pv-line Fi 326 is optimized for high temperature Fi 329: MnZn ferrite with higher induction as standard material TASK: Development of a Bmax optimized ferrite RESULT: In comparison with the currently used materials, Fi 329 provides 10% higher Bmax as market standard. This results in 10% reduced winding, copper and ohmic losses. lowest losses Fi 215: NiZn ferrite with high induction TASK: Development of a high ohmic NiZn ferrite with optimized saturation induction RESULT: In comparison with the currently used ferrites, Xenit Fi 215 provides a 30% higher saturation induction at high ambient temperatures and so clearly increases the ignition reliability of the Xenon HID burnersat high ambient temperatures. Fe 896: Iron powder with high permeability for high premagnetization TASK: Improvement of our unique Fe 893 for higher permeability RESULT: Fe 896 with a permeability of 140. At the operation point of 1000 A/m Fe 896 provides a 30% higher permeability as market standard. This results in 15% reduced winding, copper and ohmic losses.