Material Characteristics
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F E R R I T E S December 2014 Mn-Zn Ferrite Material Characteristics Ferrite for Switching Power Supplies Ferrite for Telecommunication Large Size Ferrite for High Power (2/24) 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 (8) Public information-processing equipment (2) Transportation equipment (electric trains, ships, etc.) (9) Military equipment (3) Medical equipment (10) Electric heating apparatus, burning equipment (4) Power-generation control equipment (11) Disaster prevention/crime prevention equipment (5) Atomic energy-related equipment (12) Safety equipment (6) Seabed equipment (13) Other applications that are not considered general-purpose (7) Transportation control equipment 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. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (3/24) F E R R I T E S Contents Ferrite for Switching Power Supplies Material List ........................................................................................................................................ 4 PC47..................................................................................................................................................... 5 PC90..................................................................................................................................................... 6 PC95..................................................................................................................................................... 7 HS72..................................................................................................................................................... 8 HS10..................................................................................................................................................... 9 HS12................................................................................................................................................... 10 Ferrite for Telecommunication Material List ...................................................................................................................................... 11 H5A ..................................................................................................................................................... 12 H5B2................................................................................................................................................... 13 H5C2 .................................................................................................................................................. 14 H5C3 .................................................................................................................................................. 15 HP5 ..................................................................................................................................................... 16 DNW45 .............................................................................................................................................. 17 Large Size Ferrite for High Power Material List ...................................................................................................................................... 18 PE22 ................................................................................................................................................... 19 PC40................................................................................................................................................... 21 PE90 ................................................................................................................................................... 23 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (4/24) F E R R I T E S Mn-Zn Material List of Ferrite for Switching Power Supplies MATERIAL CHARACTERISTICS Material Initial permeability Pi Core loss volume density (Core loss)* Pcv Saturation magnetic flux density* Remanent flux density* Coercive force* Curie temperature Density* Electrical resistivity* (kW/m3) B=200mT 100kHz sine wave Bs Br Hc Tc db Uv (mT) H=1194A/m (mT) H=1194A/m (A/m) H=1194A/m (°C) (kg/m3) u103 (: • m) 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C PC47 2500±25% 600 400 250 360 530 480 420 390 180 100 60 60 13 9 6 7 >230 4.9 4 PC90 2200±25% 680 470 320 460 540 500 450 420 170 95 60 65 13 9 6.5 7 >250 4.9 4 PC95 3300±25% 350 350 530 480 410 380 85 60 55 9.5 7.5 6.5 6 >215 4.9 6 Initial permeability Pi Relative loss factor Curie temperature Tc Density* Electrical resistivity* Uv 70 Typ. Material 290 Saturation magnetic flux density* Bs Remanent flux density* Br Coercive force* (mT) H=1194A/m 25°C (A/m) H=1194A/m 25°C (°C) (kg/m3) u103 (: • m) u10–6 (mT) H=1194A/m 25°C tanG/Pi Hc db HS72 7500±25% (2000min. at 500kHz) 30(100kHz) 410 80 6 >130 4.9 0.2 HS10 10000±25% 30(100kHz) 380 120 5 >120 4.9 0.2 HS12 12000±25% (at 150kHz) 20(100kHz) 430 80 6 >130 4.9 0.5 Typ. Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (5/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of PC47 MATERIAL CHARACTERISTICS Initial permeability Pi 2500±25% Core loss volume density (Core loss)* Pcv Saturation magnetic flux density* Bs Remanent flux density* Br Coercive force* (kW/m3) B=200mT 100kHz sine wave (mT) H=1194A/m (mT) H=1194A/m (A/m) H=1194A/m Hc 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 600 400 250 360 530 480 420 390 180 100 60 60 13 9 6 7 Curie Density* temperature Tc db Electrical resistivity* Uv (°C) (kg/m3) u103 (: • m) >230 4.9 4 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 8000 10 5 7000 6000 10 4 μi μi 5000 4000 3000 10 3 2000 1000 10 2 1 10 2 Frequency (kHz) 10 10 3 0 –80 –40 10 4 0 40 80 120 160 200 240 280 320 360 Temperature (°C) Core Loss(Typ.) (Sine wave data) Core loss Pcv (kW/m 3) 10 5 10 4 300kHz 200kHz 100kHz 10 3 10 2 10 1 60°C 100°C 10 0 50 100 200 300 Flux density Bm (mT) 500 B-H temperature characteristics(Typ.) 1000 400 Core loss Pcv (kW/m3) 25°C 60°C 80°C 100°C 120°C 500 Flux density B(mT) Temperature Dependence of Core Loss(Typ.) 300 200 100 0 0 200 400 600 800 Magnetic field H(A/m) 1000 1200 100kHz/200mT 800 600 400 200 0 0 20 40 60 80 Temperature (°C) 100 120 140 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (6/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of PC90 MATERIAL CHARACTERISTICS Initial permeability Pi 2200±25% Core loss volume density (Core loss)* Pcv Saturation magnetic flux density* Bs Remanent flux density* Br Coercive force* (kW/m3) B=200mT 100kHz sine wave (mT) H=1194A/m (mT) H=1194A/m (A/m) H=1194A/m Hc 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 680 470 320 460 540 500 450 420 170 95 60 65 13 9 6.5 7 Curie Density* temperature Tc db Electrical resistivity* Uv (°C) (kg/m3) u103 (: • m) >250 4.9 4 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 6000 10 5 5000 4000 μi μi 10 4 3000 2000 10 3 1000 10 2 10 10 2 10 3 0 –80 –40 10 4 0 40 Frequency (kHz) 80 120 160 200 240 280 320 360 Temperature (°C) B-H temperature characteristics(Typ.) 25°C 60°C Flux density B(mT) 500 400 120°C 100°C 300 200 100 0 0 200 400 600 800 1000 1200 Magnetic field H(A/m) Core Loss(Typ.) Temperature Dependence of Core Loss(Typ.) (Sine wave data) 300kHz 10 4 200kHz 100kHz 50kHz 10 3 10 2 10 1 10 0 50 60°C 100°C 100 200 300 Flux density Bm (mT) 1000 Core loss Pcv (kW/m3) Core loss Pcv (kW/m 3) 10 5 500 100kHz/200mT 800 600 400 200 0 0 20 40 60 80 Temperature (°C) 100 120 140 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (7/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of PC95 MATERIAL CHARACTERISTICS Initial permeability Pi Core loss volume density (Core loss)* Pcv Saturation magnetic flux density* Bs Remanent flux density* Br Coercive force* (kW/m3) B=200mT 100kHz sine wave (mT) H=1194A/m (mT) H=1194A/m (A/m) H=1194A/m 25°C 3300±25% 60°C 350 Hc 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 25°C 60°C 100°C 120°C 290 350 530 480 410 380 85 70 60 55 9.5 7.5 6.5 6 Curie Density* temperature Tc db Electrical resistivity* Uv (°C) (kg/m3) u103 (: • m) >215 4.9 6 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 8000 10 5 7000 6000 10 4 μi μi 5000 4000 3000 10 3 2000 1000 10 2 1 10 2 Frequency (kHz) 10 10 3 0 –80 –40 10 4 0 40 80 120 160 200 240 280 320 360 Temperature (°C) Flux density B(mT) B-H temperature characteristics(Typ.) 500 25°C 60°C 400 100°C 120°C 300 200 100 0 0 800 1600 Magnetic field H(A/m) Core Loss(Typ.) Temperature Dependence of Core Loss(Typ.) Core loss Pcv (kW/m 3) 10 4 300kHz 200kHz 100kHz 50kHz 10 3 10 2 10 1 10 0 50 60°C 100°C 100 200 300 Flux density Bm (mT) 1000 Core loss Pcv (kW/m3) (Sine wave data) 10 5 500 100kHz/200mT 800 600 400 200 0 0 20 40 60 80 Temperature (°C) 100 120 140 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (8/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of HS72 MATERIAL CHARACTERISTICS Initial permeability Pi 7500±25% (2000min. at 500kHz) Relative loss factor Saturation magnetic flux density* tanG/Pi Bs Remanent flux density* Br Coercive force* Curie temperature Tc Hc Density* Electrical resistivity* Uv db (mT) H=1194A/m 25°C (mT) H=1194A/m 25°C (A/m) H=1194A/m 25°C (°C) (kg/m3) u103 (: • m) u10–6 30(100kHz) 410 80 6 >130 4.9 0.2 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 16000 10 5 14000 12000 10 4 μi μi 10000 8000 6000 10 3 4000 2000 10 2 1 10 10 2 Frequency (kHz) 10 3 500 20 40 60 80 100 120 140 160 180 Temperature (°C) 10 –3 25°C 400 60°C 300 100°C 200 100 0 500 Magnetic field H(A/m) Test core OD: 31mm TH: 8mm ID: 19mm 1000 10 –4 tan δ /μ i Flux density B(mT) 0 tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 0 0 –40 –20 10 4 10 –5 10 –6 1 10 10 2 Frequency (kHz) 10 3 10 4 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (9/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of HS10 MATERIAL CHARACTERISTICS Initial permeability Pi 10000±25% Relative loss factor Saturation magnetic flux density* tanG/Pi Bs Remanent flux density* Br Coercive force* Curie temperature Tc Hc Density* Electrical resistivity* Uv db (mT) H=1194A/m 25°C (mT) H=1194A/m 25°C (A/m) H=1194A/m 25°C (°C) (kg/m3) u103 (: • m) u10–6 30(100kHz) 380 120 5 >120 4.9 0.2 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 30000 10 5 25000 20000 μi 10 4 μi 15000 10000 10 3 5000 10 2 1 10 10 2 Frequency (kHz) 10 3 0 –40 –20 10 4 0 20 40 60 80 100 120 140 160 180 Temperature (°C) tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 500 10 –3 400 60°C 10 –4 300 100°C 200 100 0 0 500 Magnetic field H(A/m) Test core OD: 31mm TH: 8mm ID: 19mm 1000 tan δ /μ i Flux density B(mT) 25°C 10 –5 10 –6 1 10 10 2 Frequency (kHz) 10 3 10 4 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (10/24) F E R R I T E S Mn-Zn Ferrite for Switching Power Supplies Material List of HS12 MATERIAL CHARACTERISTICS Initial permeability Pi 12000±25% (at 150kHz) Relative loss factor Saturation magnetic flux density* tanG/Pi Bs Remanent flux density* Br Coercive force* Curie temperature Tc Hc Density* Electrical resistivity* Uv db (mT) H=1194A/m 25°C (mT) H=1194A/m 25°C (A/m) H=1194A/m 25°C (°C) (kg/m3) u103 (: • m) u10–6 20(100kHz) 430 80 6 >130 4.9 0.5 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 25000 10 5 20000 10 4 μi μi 15000 10000 10 3 5000 10 2 1 10 10 2 Frequency (kHz) 10 3 0 –40 –20 10 4 0 20 40 60 80 100 120 140 160 180 Temperature (°C) tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 500 10 –3 400 60°C 10 –4 300 100°C 200 100 0 0 500 Magnetic field H(A/m) Test core OD: 31mm TH: 8mm ID: 19mm 1000 tan δ /μ i Flux density B(mT) 25°C 10 –5 10 –6 1 10 10 2 Frequency (kHz) 10 3 10 4 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (11/24) F E R R I T E S Mn-Zn Material List of Ferrite Core for Telecommunication MATERIAL CHARACTERISTICS Material Initial Relative loss Temperature Saturation permeability factor factor of magnetic initial flux density permeability DPir Pi tanG/Pi Bs (mT) –6 –6 H=1194A/m u10 u10 –30 to +20°C 25°C 0 to 20°C 20 to 70°C Remanent Coercive flux density force Curie Hysteresis temperature material constan Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB 10–6 Disaccomm Density odation factor Electrical resistivity DF db (kg/m3) u103 Uv (: • m) u10–6 mT H5A 3300 –0% <2.5(10kHz) <10(100kHz) –0.5 to 2.0 — –0.5 to 2.0 410 100 8.0 >130 <0.8 <3 4.8 1 H5B2 7500±25% <6.5(10kHz) 0 to 1.8 — 0 to 1.8 420 40 5.6 >130 <1.0 <3 4.9 0.1 H5C2 10000±30% <7.0(10kHz) –0.5 to 1.5 — –0.5 to 1.5 400 90 7.2 >120 <1.4 <2 4.9 0.15 H5C3 15000±30% <7.0(10kHz) –0.5 to 1.5 — –0.5 to 1.5 360 105 4.4 >105 <0.5 <2 4.95 0.15 HP5 5000±20% <3.5 400 65 7.2 >140 <0.4 <3 4.8 0.15 DNW45 4200±25% <3.5 450 50 6.5 >150 <0.8 <3 4.85 0.65 +40% — ±12.5% ±12.5% — — — Typ. Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (12/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of H5A MATERIAL CHARACTERISTICS Initial permeability Relative loss factor Pi tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C +40% 3300 –0% <2.5(10kHz) <10(100kHz) –0.5 to 2.0 — –0.5 to 2.0 Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Disaccommo Density dation factor Electrical resistivity Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB DF 410 100 8.0 >130 10–6 db (kg/m3) u103 Uv (: • m) u10–6 <3 4.8 1 mT <0.8 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 10 4 5 ×10 3 10 9 8 7 6 5 4 3 2 1 0 μi Initial permeability μi 3 10 3 5 10 5 10 2 5 10 3 Frequency (kHz) 5 10 4 40 80 Temperature (°C) 120 10 – 4 20°C 400 50°C 300 80°C 200 Test core: Toroidal OD=31mm ID=19mm TH=8mm 100 0 800 Magnetic field H(A/m) 1600 Relative loss factor tanδ/μi 500 Flux density B(mT) 0 tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 0 – 40 5 10 – 5 5 10 – 6 5 1 5 10 5 10 2 Frequency (kHz) 5 10 3 5 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (13/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of H5B2 MATERIAL CHARACTERISTICS Initial permeability Relative loss factor Pi tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C 7500±25% 0 to 1.8 — 0 to 1.8 <6.5(10kHz) Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Disaccommo Density dation factor Electrical resistivity Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB DF 420 40 5.6 >130 10–6 db (kg/m3) u103 Uv (: • m) u10–6 <3 4.9 0.1 mT <1.0 Typ. Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 500 Flux density B(mT) Initial permeability μi 3 10 4 5 10 3 5 10 5 10 2 5 10 3 Frequency (kHz) 5 Pi temperature characteristics(Typ.) 20°C 300 70°C 200 Test core: Toroidal OD=6mm ID=3mm TH=1.5mm 100 0 10 4 0 800 Magnetic field H(A/m) 1600 tanG/ Pi frequency characteristics(Typ.) Relative loss factor tanδ/μi 10 – 4 μi ×10 3 22 20 18 16 14 12 10 8 6 4 2 0 400 5 10 – 5 5 10 – 6 5 –40 0 40 80 Temperature (°C) 120 1 5 10 5 10 2 Frequency (kHz) 5 10 3 5 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (14/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of H5C2 MATERIAL CHARACTERISTICS Initial permeability Relative loss factor Pi tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C 10000±30% <7.0(10kHz) –0.5 to 1.5 — –0.5 to 1.5 Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Disaccommo Density dation factor Electrical resistivity Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB DF 400 90 7.2 >120 10–6 db (kg/m3) u103 Uv (: • m) u10–6 <2 4.9 0.15 mT <1.4 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) ×10 3 20 10 4 15 5 μi Initial permeability μi 3 10 5 10 3 5 10 5 10 2 5 10 3 Frequency (kHz) 5 0 10 4 40 80 Temperature (°C) 120 10 – 4 20°C 400 60°C 300 200 Test core: Toroidal OD=31mm ID=19mm TH=8mm 100 0 800 Magnetic field H(A/m) 1600 Relative loss factor tanδ/μi 500 Flux density B(mT) 0 tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 0 – 40 5 10 – 5 5 10 – 6 5 1 5 10 5 10 2 Frequency (kHz) 5 10 3 5 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (15/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of H5C3 MATERIAL CHARACTERISTICS Initial permeability Pi Relative loss factor tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C 15000±30% <7.0(10kHz) –0.5 to 1.5 — –0.5 to 1.5 Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB 360 105 4.4 >105 Disaccommo Density dation factor DF Electrical resistivity u10–6 db (kg/m3) u103 Uv (: • m) <2 4.95 0.15 10–6 mT <0.5 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) ×10 3 20 10 4 15 5 μi Initial permeability μi 3 10 5 10 3 5 10 5 10 2 5 10 3 Frequency (kHz) 5 0 10 4 40 80 Temperature (°C) 120 10 – 4 400 25°C 300 60°C 200 Test core: Toroidal OD=31mm ID=19mm TH=8mm 100 0 800 Magnetic field H(A/m) 1600 Relative loss factor tanδ/μi 500 Flux density B(mT) 0 tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 0 – 40 5 10 – 5 5 10 – 6 5 1 5 10 5 10 2 Frequency (kHz) 5 10 3 5 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (16/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of HP5 MATERIAL CHARACTERISTICS Initial permeability Relative loss factor Pi tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C 5000±20% — ±12.5% ±12.5% <3.5 Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Disaccommo Density dation factor Electrical resistivity Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB DF 400 65 7.2 >140 10–6 db (kg/m3) u103 Uv (: • m) u10–6 <3 4.8 0.15 mT <0.4 Typ. Pi frequency characteristics(Typ.) Pi temperature characteristics(Typ.) 10 4 5 ×10 3 11 10 9 8 7 6 5 4 3 2 1 0 μi Initial permeability μi 3 10 3 5 10 5 10 2 5 10 3 Frequency (kHz) 5 10 4 40 80 Temperature (°C) 120 10 – 4 20°C 40°C 400 70°C 300 200 Test Test core: core: Toroidal Toroidal OD=6mm OD=31mm ID=3mm ID=19mm TH=1.5mm TH=8mm 100 0 800 Magnetic field H(A/m) 1600 Relative loss factor tanδ/μi 500 Flux density B(mT) 0 tanG/ Pi frequency characteristics(Typ.) B-H temperature characteristics(Typ.) 0 – 40 5 10 – 5 5 10 – 6 5 1 5 10 5 10 2 Frequency (kHz) 5 10 3 5 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (17/24) F E R R I T E S Mn-Zn Ferrite for Telecommunication Material List of DNW45 MATERIAL CHARACTERISTICS Initial permeability Relative loss factor Pi tanG/Pi Temperature factor of initial permeability DPir u10–6 u10–6 –30 to +20°C 0 to 20°C 20 to 70°C 4200±25% — — — <3.5 Saturation Remanent magnetic flux flux density density Coercive force Curie temperature Hysteresis material constan Disaccommo Density dation factor Electrical resistivity Bs (mT) H=1194A/m 25°C Br (mT) H=1194A/m 25°C Hc (A/m) H=1194A/m 25°C Tc (°C) KB DF 450 50 6.5 >150 10–6 db (kg/m3) u103 Uv (: • m) u10–6 <3 4.85 0.65 mT <0.8 Typ. Pi temperature characteristics(Typ.) P' temperature characteristics(Typ.) 8000 5000 at 100kHz H DC =30A/m 4000 6000 μΔ μi 3000 4000 2000 2000 0 –60 1000 –20 20 60 100 Temperature(°C) 140 180 0 –40 –20 0 20 40 Temperature(°C) 60 80 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (18/24) F E R R I T E S Mn-Zn Material List of Large Size Ferrite for High Power MATERIAL CHARACTERISTICS Material Initial Curie Saturation permeability temperature magnetic flux density Bs Pi Tc (mT) (°C) H=1194A/m Remanent flux density Coercive force Core loss Br (mT) H=1194A/m Hc (A/m) H=1194A/m Pcv (kW/m3) B=200mT 25kHz 23°C Electrical Approxi resistivity mate density dapp U (: • m) (kg/m3) u103 Thermal expansion coefficient D (1/K) u10–6 Thermal Specific Bending Young’s Magneto conductivity heat strength modulus striction N (W/mK) Cp (J/kg • K) Gb3 (N/m2) u107 E (N/m2) u1011 Os u10–6 100kHz 23°C 100°C 23°C 23°C 90°C 100°C 100°C PE22 1800 >200 510 410 140 16 79 80 520 3.0 4.8 12 5 600 9 1.2 –0.6 PC40 2300 >200 500 380 125 15 64 70 420 6.5 4.8 12 5 600 9 1.2 –0.6 PE90 2200 >250 530 430 170 13 60 68 400 6.0 4.9 12 5 600 9 1.2 –0.6 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (19/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PE22 MATERIAL CHARACTERISTICS Initial Curie Saturation permeability temperature magnetic flux density Bs Pi Tc (mT) (°C) H=1194A/m Remanent flux density Coercive force Core loss Br (mT) H=1194A/m Hc (A/m) H=1194A/m Pcv (kW/m3) B=200mT 25kHz 23°C 1800 >200 Thermal Specific conductivity heat Bending Young’s Magnetos strength modulus triction N (W/mK) Gb3 (N/m2) u107 E (N/m2) u1011 Os 3.0 5 9 1.2 –0.6 Cp (J/kg • K) u10–6 100kHz 23°C 100°C 23°C 23°C 90°C 100°C 100°C 510 410 140 16 79 80 520 Core loss vs. temperature characteristics(Typ.) Electrical Approximate Thermal resistivity density expansion dapp coefficient U D (kg/m3) (: • m) (1/K) u103 u10–6 4.8 12 600 Saturation magnetic flux density vs. temperature characteristics(Typ.) 900 700 800 600 100kHz-200mT 600 500 Bs(mT ) Pcv(kW/m 3) 700 500 400 400 300 300 200 200 25kHz-200mT 100 0 0 20 40 60 80 Temperature(°C) 100 100 0 120 50 100 150 Temperature (°C) Initial magnetic permeability vs. temperature characteristics(Typ.) Magnetic permeability vs. frequency characteristics(Typ.) 5000 4000 4000 Temp.: 23°C Hm=0.4A/m 3000 μi μ’, μ” 3000 2000 μ’ 2000 μ” 1000 1000 0 0 0 f =1kHz Hm=0.4A/m 100 200 Temperature (°C) 300 0 10 100 1000 10000 Frequency (kHz) Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (20/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PE22 Core loss vs. temperature characteristics 10000 Temp.23°C 1 10 10000 100 1000 Frequency (kHz) Pcv (kW/m3) 300mT 250mT 200mT 150mT 100mT 50mT 1 10 10000 Temp.60°C 100 1000 Frequency (kHz) 10000 Temp.80°C 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 100 1 10 10000 Temp.90°C 300mT 250mT 200mT 150mT 100mT 50mT 10 10000 1000 Pcv (kW/m3) 100 10 10000 1000 100 1000 Frequency (kHz) 10000 Temp.100°C 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 10000 Pcv (kW/m3) 300mT 250mT 200mT 150mT 100mT 50mT 10 Pcv (kW/m3) Pcv (kW/m3) 100 10000 Temp.40°C 1000 1000 100 1000 Frequency (kHz) 10000 Pcv (kW/m3) 10000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Temp.120°C Pcv (kW/m3) 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (21/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PC40 MATERIAL CHARACTERISTICS Initial Curie Saturation permeability temperature magnetic flux density Bs Pi Tc (mT) (°C) H=1194A/m Remanent flux density Coercive force Core loss Br (mT) H=1194A/m Hc (A/m) H=1194A/m Pcv (kW/m3) B=200mT 25kHz 23°C 2300 >200 Thermal Specific conductivity heat Bending Young’s Magnetos strength modulus triction N (W/mK) Gb3 (N/m2) u107 E (N/m2) u1011 Os 6.5 5 9 1.2 –0.6 Cp (J/kg • K) u10–6 100kHz 23°C 100°C 23°C 23°C 90°C 100°C 100°C 500 380 125 15 64 70 420 Core loss vs. temperature characteristics(Typ.) Electrical Approximate Thermal resistivity density expansion dapp coefficient U D (kg/m3) (: • m) (1/K) u103 u10–6 4.8 12 600 Saturation magnetic flux density vs. temperature characteristics(Typ.) 900 700 800 600 500 600 100kHz-200mT 500 Bs(mT ) Pcv(kW/m 3) 700 400 400 300 300 200 200 25kHz-200mT 100 0 0 20 40 60 80 Temperature(°C) 100 100 0 120 0 50 100 150 Temperature (°C) Initial magnetic permeability vs. temperature characteristics(Typ.) Magnetic permeability vs. frequency characteristics(Typ.) 5000 4000 Temp.: 23°C Hm=0.4A/m 4000 3000 μi μ’, μ” 3000 2000 μ” 1000 1000 0 0 μ’ 2000 f =1kHz Hm=0.4A/m 100 200 Temperature (°C) 300 0 10 100 1000 10000 Frequency (kHz) Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (22/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PC40 Core loss vs. temperature characteristics 10000 Temp.23°C 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) Pcv (kW/m3) 1 10 100 1000 Frequency (kHz) 10000 Temp.40°C 1000 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 100 1 10 10000 Temp.90°C 300mT 250mT 200mT 150mT 100mT 50mT 10 10000 1000 Pcv (kW/m3) 300mT 250mT 200mT 150mT 100mT 50mT 10 10000 Temp.60°C 100 100 1000 Frequency (kHz) 10000 Temp.100°C 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 10000 100 10000 1000 10000 Pcv (kW/m3) 100 10000 Temp.40°C 1000 Pcv (kW/m3) Pcv (kW/m3) 1000 100 1000 Frequency (kHz) 10000 Pcv (kW/m3) 10000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Temp.120°C Pcv (kW/m3) 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (23/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PE90 MATERIAL CHARACTERISTICS Initial Curie Saturation permeability temperature magnetic flux density Bs Pi Tc (mT) (°C) H=1194A/m Remanent flux density Coercive force Core loss Br (mT) H=1194A/m Hc (A/m) H=1194A/m Pcv (kW/m3) B=200mT 25kHz 23°C 2200 >250 Thermal Specific conductivity heat Bending Young’s Magnetos strength modulus triction N (W/mK) Gb3 (N/m2) u107 E (N/m2) u1011 Os 6.0 5 9 1.2 –0.6 Cp (J/kg • K) u10–6 100kHz 23°C 100°C 23°C 23°C 90°C 100°C 100°C 530 430 170 13 60 68 400 Core loss vs. temperature characteristics(Typ.) Electrical Approximate Thermal resistivity density expansion dapp coefficient U D (kg/m3) (: • m) (1/K) u103 u10–6 4.9 12 600 Saturation magnetic flux density vs. temperature characteristics(Typ.) 900 4000 Temp.: 23°C Hm=0.4A/m 800 3000 100kHz-200mT 600 500 μ’, μ” Pcv(kW/m 3) 700 400 μ’ 2000 300 200 100 0 0 20 40 60 80 Temperature(°C) 100 μ” 1000 25kHz-200mT 0 10 120 100 1000 10000 Frequency (kHz) Initial magnetic permeability vs. temperature characteristics(Typ.) Magnetic permeability vs. frequency characteristics(Typ.) 5000 4000 Temp.: 23°C Hm=0.4A/m 4000 3000 μ’ μi μ’, μ” 3000 2000 μ” 1000 1000 0 0 2000 f =1kHz Hm=0.4A/m 100 200 Temperature (°C) 300 0 10 100 1000 10000 Frequency (kHz) Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm (24/24) F E R R I T E S Mn-Zn Large Size Ferrite for High Power Material List of PE90 Core loss vs. temperature characteristics 10000 Temp.23°C 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) Pcv (kW/m3) 1 10 100 1000 Frequency (kHz) 10000 Temp.80°C 1000 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 100 1 10 10000 Temp.90°C 300mT 250mT 200mT 150mT 100mT 50mT 10 10000 1000 Pcv (kW/m3) 300mT 250mT 200mT 150mT 100mT 50mT 10 10000 Temp.60°C 100 100 1000 Frequency (kHz) 10000 Temp.100°C 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 10000 100 10000 1000 10000 Pcv (kW/m3) 100 10000 Temp.40°C 1000 Pcv (kW/m3) Pcv (kW/m3) 1000 100 1000 Frequency (kHz) 10000 Pcv (kW/m3) 10000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Temp.120°C Pcv (kW/m3) 1000 100 300mT 250mT 200mT 150mT 100mT 50mT 10 1 10 100 1000 Frequency (kHz) 10000 Please be sure to request delivery specifications that provide further details on the features and specifications of the products for proper and safe use. Please note that the contents may change without any prior notice due to reasons such as upgrading. 20141203 / ferrite_mn-zn_material_characteristics_en.fm
