F E R R I T E S March 2014 Mn-Zn Ferrite Cores for Switching Power Supplies PQ series (2/32) F E R R I T E S REMINDERS FOR USING THESE PRODUCTS Please be sure to read this manual thoroughly before using the products. The products listed on this catalog are intended for use in general electronic equipment (AV equipment, telecommunications equipment, home appliances, amusement equipment, computer equipment, personal equipment, office equipment, measurement equipment, industrial robots) under a normal operation and use condition. The products are not designed or warranted to meet the requirements of the applications listed below, whose performance and/or quality require a more stringent level of safety or reliability, or whose failure, malfunction or trouble could cause serious damage to society, person or property. When using the products for specific purposes, please first make confirmations in areas such as safety, reliability, and quality. Please understand that we are not in a position to be held responsible for any damage or the like caused by any use exceeding the range or conditions of this specification sheet or by any use in the specific applications. (1) Aerospace/Aviation equipment (2) Transportation equipment (electric trains, ships, etc.) (3) Medical equipment (4) Power-generation control equipment (5) Atomic energy-related equipment (6) Seabed equipment (7) Transportation control equipment (8) Public information-processing equipment (9) Military equipment (10) Electric heating apparatus, burning equipment (11) Disaster prevention/crime prevention equipment (12) Safety equipment (13) Other applications that are not considered general-purpose applications When using this product in general-purpose standard applications, you are kindly requested to take into consideration securing protection circuit/equipment or providing backup circuits, etc to ensure higher safety. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (3/32) F E R R I T E S Ferrite Core for Switching Power Supplies Product compatible with RoHS directive Halogen-free Overview of the PQ Series FEATURES TDK’s original shapes The PQ Core occupies a smaller mounted area, as a transformer, compared to the E-core and EER-Core APPLICATION Tranformers and coils for Switched-mode power supplies (High Mounting Density, Low Profile) PART NUMBER CONSTRUCTION PC47 PQ20/16 Z Material Size of PQ core AL-value (Z: without air gap) PC47 PC90 PC95 PQ20/16 PQ20/20 PQ26/20 PQ26/25 PQ32/20 PQ32/30 PQ35/35 PQ40/40 PQ50/50 1 2 2 2 Type Number of lead slot Without air gap With air gap RANGE OF USE AND STORAGE TEMPERATURE Temperature range Operating temperature (°C) –30 to +105 Storage temperature (°C) –30 to +85 RoHS Directive Compliant Product: See the following for more details related to RoHS Directive compliant products. http://www.tdk.co.jp/rohs/ Halogen-free: Indicates that Cl content is less than 900ppm, Br content is less than 900ppm, and that the total Cl and Br content is less than 1500ppm. • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (4/32) F E R R I T E S Mn-Zn PQ Cores A2 B A1 E øC SHAPES AND DIMENSIONS 2H 2D PC47 PQ20/16 Z - Material Size of PQ core AL-value (Z: without air gap) 1 2 Part No. PC47PQ20/16Z-12 PC90PQ20/16Z-12 PC95PQ20/16Z-12 PC47PQ20/20Z-12 PC90PQ20/20Z-12 PC95PQ20/20Z-12 PC47PQ26/20Z-12 PC90PQ26/20Z-12 PC95PQ26/20Z-12 PC47PQ26/25Z-12 PC90PQ26/25Z-12 PC95PQ26/25Z-12 PC47PQ32/20Z-12 PC90PQ32/20Z-12 PC95PQ32/20Z-12 1 2 Type Number of lead slot Without air gap With air gap Dimensions (mm) A1 A2 B øC 2D E min. 2H 20.5±0.4 14.0±0.4 18.0±0.4 8.8±0.2 16.2±0.2 12.0 10.3±0.3 20.5±0.4 14.0±0.4 18.0±0.4 8.8±0.2 20.2±0.2 12.0 14.3±0.3 26.5±0.45 19.0±0.45 22.5±0.45 12.0±0.2 20.15±0.25 15.5 11.5±0.3 26.5±0.45 19.0±0.45 22.5±0.45 12.0±0.2 24.75±0.25 15.5 16.1±0.3 32.0±0.5 22.0±0.5 27.5±0.5 13.45±0.25 20.55±0.25 19.0 11.5±0.3 Effective parameter Core factor Part No. PC47PQ20/16Z-12 PC90PQ20/16Z-12 PC95PQ20/16Z-12 PC47PQ20/20Z-12 PC90PQ20/20Z-12 PC95PQ20/20Z-12 PC47PQ26/20Z-12 PC90PQ26/20Z-12 PC95PQ26/20Z-12 PC47PQ26/25Z-12 PC90PQ26/25Z-12 PC95PQ26/25Z-12 PC47PQ32/20Z-12 PC90PQ32/20Z-12 PC95PQ32/20Z-12 C1(mm–1) Effective cross-sectional area Ae(mm2) Electrical characteristics Effective magnetic path length ℓe(mm) Effective core volume Weigh AL-value Core loss Ve(mm3) (g) (nH/N2) 1kHz 0.5mA 100Ts Without air gap With air gap (W)max. 100kHz 200mT 100°C 25°C 80°C 120°C 3880±25% 3100±25% 4480±25% 3150±25% 2700±25% 4000±25% 6170±25% 5550±25% 7470±25% 5250±25% 4500±25% 6520±25% 7310±25% 6400±25% 9120±25% 0.98 1.10 — 1.19 1.35 — 1.83 2.45 — 2.2 2.9 — 2.76 3.7 — — — 1.14 — — 1.38 — — 2.62 — — 3.14 — — 3.94 — — 0.96 — — 1.16 — — 2.20 — — 2.63 — — 3.31 — — 1.14 — — 1.38 — — 2.62 — — 3.14 — — 3.94 0.605 62 37.4 2310 13 0.738 62 45.4 2790 15 0.391 119 46.3 5490 31 0.472 118 55.5 6530 36 0.326 170 55.5 9420 42 100±5% 250±7% 400±10% 100±5% 160±5% 250±7% 160±5% 315±5% 630±10% 160±5% 315±5% 630±10% 160±5% 315±5% 630±7% • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (5/32) F E R R I T E S Mn-Zn PQ Cores A2 B A1 E øC SHAPES AND DIMENSIONS 2H 2D PC47 PQ32/30 Z - Material Size of PQ core AL-value (Z: without air gap) 1 2 Part No. PC47PQ32/30Z-12 PC90PQ32/30Z-12 PC95PQ32/30Z-12 PC47PQ35/35Z-12 PC90PQ35/35Z-12 PC95PQ35/35Z-12 PC47PQ40/40Z-12 PC90PQ40/40Z-12 PC95PQ40/40Z-12 PC47PQ50/50Z-12 PC90PQ50/50Z-12 PC95PQ50/50Z-12 1 2 Type Number of lead slot Without air gap With air gap Dimensions (mm) A1 A2 B øC 2D E min. 2H 32.0±0.5 22.0±0.5 27.5±0.5 13.45±0.25 30.35±0.25 19.0 21.3±0.3 35.1±0.6 26.0±0.5 32.0±0.5 14.35±0.25 34.75±0.25 23.5 25.0±0.3 40.5±0.9 28.0±0.6 37.0±0.6 14.9±0.3 39.75±0.25 28.0 29.5±0.3 50.0±0.7 32.0±0.5 44.0±0.7 20.0±0.35 49.95±0.25 31.5 36.1±0.3 Effective parameter Core factor Part No. PC47PQ32/30Z-12 PC90PQ32/30Z-12 PC95PQ32/30Z-12 PC47PQ35/35Z-12 PC90PQ35/35Z-12 PC95PQ35/35Z-12 PC47PQ40/40Z-12 PC90PQ40/40Z-12 PC95PQ40/40Z-12 PC47PQ50/50Z-12 PC90PQ50/50Z-12 PC95PQ50/50Z-12 100kHz, 150mT C1(mm–1) Effective cross-sectional area Ae(mm2) Electrical characteristics Effective magnetic path length ℓe(mm) Effective core volume Weigh AL-value Core loss Ve(mm3) (g) (nH/N2) 1kHz 0.5mA 100Ts Without air gap With air gap (W)max. 100kHz 200mT 100°C 25°C 80°C 120°C 5140±25% 4900±25% 7000±25% 4860±25% 4700±25% 7320±25% 4300±25% 4300±25% 6400±25% 6720±25% 6250±25% 9700±25% 3.71 4.90 — 4.98 6.6 — 6.21 8.2 — 15.26 8.4 — — — 5.30 — — 7.12 — — 8.87 — — 9.00 — — 4.45 — — 5.98 — — 7.45 — — 7.50 — — 5.30 — — 7.12 — — 8.87 — — 9.00 0.464 161 74.6 12000 55 0.448 196 87.9 17300 73 0.508 201 102 20500 95 0.346 328 113 37200 195 160±5% 315±5% 630±7% 160±5% 315±5% 630±7% 160±5% 315±5% 630±7% 250±5% 400±5% 630±5% • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (6/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ20/16Z-12 12.0 –0 ø8.8±0.2 18.0±0.4 20.5±0.4 SHAPES AND DIMENSIONS 14.0±0.4 10.3±0.3 16.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 2310 60.8 47.4 3880±25% 0.98 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.605 37.4 62 Coil:ø0.35 58.1 13 2UEW 100Ts ○ Calculated output power (forward converter mode): 77W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) Temperature rise vs. Total loss (Typ.) 100 Temperature rise of hot spot ΔT (°C) 10 4 10 3 10 3 NI limit (AT) 10 2 AL-value(nH/N2) 40% 20% Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=23432×AL–1.0109 NI40%=23779×AL–1.0024 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=101.18×lg –0.7969 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (7/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ20/16Z-12 12.0 –0 ø8.8±0.2 18.0±0.4 20.5±0.4 SHAPES AND DIMENSIONS 14.0±0.4 10.3±0.3 16.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 2310 60.8 47.4 3100±25% 1.10 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.605 37.4 62 Coil:ø0.35 58.1 13 2UEW 100Ts ○ Calculated output power (forward converter mode): 70W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 40% AL-value(nH/N2) 10 2 20% NI limit (AT) Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=26651×AL–1.0229 NI40%=28778×AL–1.0244 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=100.47×lg –0.7968 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (8/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ20/16Z-12 12.0 –0 ø8.8±0.2 18.0±0.4 20.5±0.4 SHAPES AND DIMENSIONS 14.0±0.4 10.3±0.3 16.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.605 37.4 62 Coil:ø0.35 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 2310 60.8 47.4 58.1 13 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 4480±25% 1.14 1.14 0.96 2UEW 100Ts ○ Calculated output power (forward converter mode): 74W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 40% AL-value(nH/N2) 10 2 20% NI limit (AT) Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=24380×AL–1.0256 NI40%=24977×AL–1.0176 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=102.13×lg –0.8199 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (9/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ20/20Z-12 14.0±0.4 20.5±0.4 18.0±0.4 12.0–0 ø8.8±0.2 SHAPES AND DIMENSIONS 14.3±0.3 20.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 2790 60.8 65.8 3150±25% 1.19 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.738 45.4 62 Coil:ø0.35 58.1 15 2UEW 100Ts ○ Calculated output power (forward converter mode): 99W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 Temperature rise of hot spot ΔT (°C) 10 4 10 3 20% 40% NI limit (AT) AL-value(nH/N2) 10 2 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=23277×AL–1.0163 NI40%=24231×AL–1.010 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=106.29×lg –0.7773 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (10/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ20/20Z-12 14.0±0.4 20.5±0.4 18.0±0.4 12.0–0 ø8.8±0.2 SHAPES AND DIMENSIONS 14.3±0.3 20.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 2790 60.8 65.8 2700±25% 1.35 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.738 45.4 62 Coil:ø0.35 58.1 15 2UEW 100Ts ○ Calculated output power (forward converter mode): 92W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=24886×AL–1.0161 NI40%=27406×AL–1.0197 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=104.1×lg –0.7366 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (11/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ20/20Z-12 14.0±0.4 20.5±0.4 18.0±0.4 12.0–0 ø8.8±0.2 SHAPES AND DIMENSIONS 14.3±0.3 20.2±0.2 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.738 45.4 62 Coil:ø0.35 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 2790 60.8 65.8 58.1 15 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 4000±25% 1.38 1.38 1.16 2UEW 100Ts ○ Calculated output power (forward converter mode): 96W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 40% AL-value(nH/N2) 10 2 20% NI limit (AT) Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=23708×AL–1.0232 NI40%=25123×AL–1.0193 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=103.22×lg –0.7272 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (12/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ26/20Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 11.5±0.3 20.15±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 5490 113 60.4 6170±25% 1.83 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.391 46.3 119 Coil:ø0.35 109 31 2UEW 100Ts ○ Calculated output power (forward converter mode): 170W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=45361×AL–1.0184 NI40%=45690×AL–1.0097 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=175.17×lg –0.8195 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (13/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ26/20Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 11.5±0.3 20.15±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 5490 113 60.4 5500±25% 2.45 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.391 46.3 119 Coil:ø0.35 109 31 2UEW 100Ts ○ Calculated output power (forward converter mode): 145W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% Temperature rise of hot spot ΔT (°C) 10 4 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=50825×AL–1.0238 NI40%=52261×AL–1.0163 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=173.76×lg –0.8106 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (14/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ26/20Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 11.5±0.3 20.15±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.391 46.3 119 Coil:ø0.35 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 5490 113 60.4 109 31 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 7470±25% 2.62 2.62 2.20 2UEW 100Ts ○ Calculated output power (forward converter mode): 160W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=44454×AL–1.0244 NI40%=44758×AL–1.0137 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=177.04×lg –0.8229 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (15/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ26/25Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 16.1±0.3 24.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 6530 113 84.5 5250±25% 2.2 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.472 55.5 118 Coil:ø0.35 109 36 2UEW 100Ts ○ Calculated output power (forward converter mode): 221W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=46142×AL–1.0232 NI40%=43314×AL–1.0015 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=174.91×lg –0.7901 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (16/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ26/25Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 16.1±0.3 24.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 6530 113 84.5 4500±25% 2.9 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.472 55.5 118 Coil:ø0.35 109 36 2UEW 100Ts ○ Calculated output power (forward converter mode): 195W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 40% 20% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=51415×AL–1.0321 NI40%=49986×AL–1.0145 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=174.71×lg –0.8036 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (17/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ26/25Z-12 15.5–0 ø12.0±0.2 22.5±0.45 26.5±0.45 SHAPES AND DIMENSIONS 19.0±0.45 16.1±0.3 24.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.472 55.5 118 Coil:ø0.35 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 6530 113 84.5 109 36 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 6520±25% 3.14 3.14 2.63 2UEW 100Ts ○ Calculated output power (forward converter mode): 206W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=45270×AL–1.0258 NI40%=42327×AL–1.0043 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=176.18×lg –0.8154 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (18/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ32/20Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 11.5±0.3 20.55±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 9420 142 80.8 7310±25% 2.76 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.326 55.5 170 Coil:ø0.35 137 42 2UEW 100Ts ○ Calculated output power (forward converter mode): 245W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 20% 10 3 40% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=72026×AL–1.0519 NI40%=67038×AL–1.0292 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=212.28×lg –0.8075 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (19/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ32/20Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 11.5±0.3 20.55±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 9420 142 80.8 6400±25% 3.7 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.326 55.5 170 Coil:ø0.35 137 42 2UEW 100Ts ○ Calculated output power (forward converter mode): 224W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 Center pole gap AL-value(nH/N2) 40% 10 2 NI limit (AT) 20% Temperature rise of hot spot ΔT (°C) 10 4 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=84392×AL–1.060 NI40%=77874×AL–1.037 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=215.03×lg –0.8181 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (20/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ32/20Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 11.5±0.3 20.55±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.326 55.5 170 Coil:ø0.35 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 9420 142 80.8 137 42 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 9120±25% 3.94 3.94 3.31 2UEW 100Ts ○ Calculated output power (forward converter mode): 237W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 NI limit (AT) 10 2 20% 40% AL-value(nH/N2) 10 3 Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=67533×AL–1.044 NI40%=64097×AL–1.0256 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=216.79×lg –0.824 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.35 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (21/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ32/30Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 21.3±0.3 30.35±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 12000 142 149.6 5140±25% 3.71 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.464 74.6 161 Coil:ø0.4 137 55 2UEW 100Ts ○ Calculated output power (forward converter mode): 374W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 100 10 4 Temperature rise of hot spot ΔT (°C) 10 3 Temperature rise vs. Total loss (Typ.) 10 3 20% Center pole gap NI limit (AT) AL-value(nH/N2) 10 2 40% 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=65251×AL–1.0383 NI40%=56500×AL–1.0032 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=216.04×lg –0.7895 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (22/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ32/30Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 21.3±0.3 30.35±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 12000 142 149.6 4900±25% 4.90 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.464 74.6 161 Coil:ø0.4 137 55 2UEW 100Ts ○ Calculated output power (forward converter mode): 348W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 100 10 4 Temperature rise of hot spot ΔT (°C) 10 3 Temperature rise vs. Total loss (Typ.) 10 3 10 2 NI limit (AT) 40% AL-value(nH/N2) 20% 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=70347×AL–1.0411 NI40%=59971×AL–1.0042 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=216.35×lg –0.7901 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity:45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (23/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ32/30Z-12 19.0–0 ø13.45±0.25 27.5±0.5 32.0±0.5 SHAPES AND DIMENSIONS 22.0±0.5 21.3±0.3 30.35±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.464 74.6 161 Coil:ø0.4 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 12000 142 149.6 137 55 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 7000±25% 5.30 5.30 4.45 2UEW 100Ts ○ Calculated output power (forward converter mode): 365W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 100 10 4 20% NI limit (AT) AL-value(nH/N2) 10 2 10 3 40% Temperature rise of hot spot ΔT (°C) 10 3 Temperature rise vs. Total loss (Typ.) Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=56339×AL–1.0191 NI40%=49671×AL–0.9869 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=222.58×lg –0.8109 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (24/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ35/35Z-12 23.5–0 ø14.35±0.25 32.0±0.5 35.1±0.6 SHAPES AND DIMENSIONS 26.0±0.5 25.0±0.3 34.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 17300 162 220.6 4860±25% 4.98 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.448 87.9 196 Coil:ø0.4 156 73 2UEW 100Ts ○ Calculated output power (forward converter mode): 495W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 40% Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 20% NI limit (AT) AL-value(nH/N2) 10 2 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=88404×AL–1.0689 NI40%=75238×AL–1.0293 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=250.88×lg –0.8749 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (25/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ35/35Z-12 23.5–0 ø14.35±0.25 32.0±0.5 35.1±0.6 SHAPES AND DIMENSIONS 26.0±0.5 25.0±0.3 34.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 17300 162 220.6 4700±25% 6.6 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.448 87.9 196 Coil:ø0.4 156 73 2UEW 100Ts ○ Calculated output power (forward converter mode): 476W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 3 Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 AL-value(nH/N2) 40% NI limit (AT) 20% 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=93242×AL–1.0658 NI40%=77446×AL–1.0227 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=244.97×lg –0.7613 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (26/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ35/35Z-12 23.5–0 ø14.35±0.25 32.0±0.5 35.1±0.6 SHAPES AND DIMENSIONS 26.0±0.5 25.0±0.3 34.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.448 87.9 196 Coil:ø0.4 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 17300 162 220.6 156 73 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 7320±25% 7.12 7.12 5.98 2UEW 100Ts ○ Calculated output power (forward converter mode): 512W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 100 10 4 10 2 NI limit (AT) 40% 20% AL-value(nH/N2) 10 3 Temperature rise of hot spot ΔT (°C) 10 3 Temperature rise vs. Total loss (Typ.) Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=83940×AL–1.0631 NI40%=69406×AL–1.0211 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=253.75×lg –0.8077 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 1 2 3 Total loss Pm (W) 4 5 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (27/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ40/40Z-12 28.0–0 ø14.9±0.3 37.0±0.6 40.5±0.9 SHAPES AND DIMENSIONS 28.0±0.6 29.5±0.3 39.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 20500 174 326 4300±25% 6.21 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.508 102 201 Coil:ø0.4 167 95 2UEW 100Ts ○ Calculated output power (forward converter mode): 708W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 10 2 NI limit (AT) 40% 20% AL-value(nH/N2) 10 3 Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=89705×AL–1.0591 NI40%=74507×AL–1.0183 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=265.35×lg –0.763 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (28/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ40/40Z-12 28.0–0 ø14.9±0.3 37.0±0.6 40.5±0.9 SHAPES AND DIMENSIONS 28.0±0.6 29.5±0.3 39.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 20500 174 326 4300±25% 8.2 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.508 102 201 Coil:ø0.4 167 95 2UEW 100Ts ○ Calculated output power (forward converter mode): 692W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 100 10 4 10 2 NI limit (AT) 40% 20% AL-value(nH/N2) 10 3 Temperature rise of hot spot ΔT (°C) 10 3 Temperature rise vs. Total loss (Typ.) Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=104565 ×AL–1.0745 NI40%=83200×AL–1.0255 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=257.32×lg –0.7457 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature:25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (29/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ40/40Z-12 28.0–0 ø14.9±0.3 37.0±0.6 40.5±0.9 SHAPES AND DIMENSIONS 28.0±0.6 29.5±0.3 39.75±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.508 102 201 Coil:ø0.4 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 20500 174 326 167 95 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 6400±25% 8.87 8.87 7.45 2UEW 100Ts ○ Calculated output power (forward converter mode): 747W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 NI limit (AT) 10 2 20% 40% AL-value(nH/N2) 10 3 Temperature rise of hot spot ΔT (°C) 10 4 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=90602×AL–1.0644 NI40%=77187×AL–1.0287 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=267.92×lg –0.7779 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (30/32) F E R R I T E S Mn-Zn PQ series Part No.: PC47PQ50/50Z-12 31.5–0 ø20.0±0.35 44.0±0.7 50.0±0.7 SHAPES AND DIMENSIONS 32.0±0.6 36.1±0.3 49.95±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 37200 314 433 6720±25% 15.26 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.346 113 328 Coil:ø0.4 303 195 2UEW 100Ts ○ Calculated output power (forward converter mode): 1046W (100kHz) NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 Temperature rise of hot spot ΔT (°C) 10 4 10 2 NI limit (AT) 40% 20% AL-value(nH/N2) 10 3 Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=180683×AL–1.0753 NI40%=139909×AL–1.0251 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=460.93×lg –0.7423 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (31/32) F E R R I T E S Mn-Zn PQ series Part No.: PC90PQ50/50Z-12 31.5–0 ø20.0±0.35 44.0±0.7 50.0±0.7 SHAPES AND DIMENSIONS 32.0±0.6 36.1±0.3 49.95±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Cross-sectional Weigh winding area of core Acw (mm2) (g/set) AL-value Core loss Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 100°C 37200 314 433 6250±25% 8.4 Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.346 113 328 Coil:ø0.4 303 195 2UEW 100Ts ○ Calculated output power (forward converter mode): 1045W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) 10 3 Temperature rise vs. Total loss (Typ.) 100 Temperature rise of hot spot ΔT (°C) 10 4 10 3 NI limit (AT) 10 2 20% AL-value(nH/N2) 40% Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=219996×AL–1.0926 NI40%=163164×AL–1.0336 10 2 10 3 10 4 A L-value (nH/N 2) 10 0 0.01 The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. AL=451.89×lg –0.7367 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level:0.5mA • Ambient temperature: 25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm (32/32) F E R R I T E S Mn-Zn PQ series Part No.: PC95PQ50/50Z-12 31.5–0 ø20.0±0.35 44.0±0.7 50.0±0.7 SHAPES AND DIMENSIONS 32.0±0.6 36.1±0.3 49.95±0.25 Dimensions in mm Effective parameter Core factor Electrical characteristics Effective cross-sectional area Ae (mm2) Effective core volume C1 (mm–1) Effective magnetic path length ℓe (mm) 0.346 113 328 Coil:ø0.4 Ve (mm3) Cross-sectional Minimum center pole area cross-sectional center pole are Acp Acp min. (mm2) (mm2) Cross-sectional Weigh winding area of core Acw (mm2) (g/set) 37200 314 433 303 195 AL-value Core loss (nH/N2) 1kHz 0.5mA (W)max. 100kHz 200mT 25°C 80°C 120°C 9700±25% 9.00 9.00 7.50 2UEW 100Ts ○ Calculated output power (forward converter mode): 1078W NI limit vs. AL-value(Typ.) AL-value vs. Air gap length(Typ.) Temperature rise vs. Total loss (Typ.) 100 Temperature rise of hot spot ΔT (°C) 10 4 10 3 10 3 NI limit (AT) 10 2 20% AL-value(nH/N2) 40% Center pole gap 10 2 101 10 1 50 Temp: 100°C 100 1 10 NI20%=196448×AL–1.0913 NI40%=151299×AL–1.0404 10 2 10 3 10 4 A L-value (nH/N 2) The 20% and 40% graph shows when a 20% and 40% drop from the initial ALvalue has been made due to the DC superimposition. 10 0 0.01 AL=471.79×lg –0.789 0.10 1 Air gap length (mm) Measuring conditions • Coil:ø0.4 2UEW 100Ts • Frequency:1kHz • Current level: 0.5mA • Ambient temperature: 25°C 10 0 0 5 Total loss Pm (W) 10 Measuring conditions • Room space: approx. 400x300x 300cm • Ambient temperature:25°C • Humidity: 45(%)RH. Measuring point Core Coil • All specifications are subject to change without notice. 001-01 / 20140317 / ferrite_mz_sw_pq_en.fm