(2/24) AV OA 288 / ferrite_mn-zn_material_characteristics_ja.fm
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1 January 28 Mn-Zn
2 (2/24) AV OA 288 / ferrite_mn-zn_material_characteristics_ja.fm
3 (3/24) Contents... 4 PC47... PC PC HS HS... 9 HS HA... 2 HB HC HC3... HP... 6 DNW PE PC PE / ferrite_mn-zn_material_characteristics_ja.fm
4 (4/24) Mn-Zn i ( )* Pcv (kw/m 3 ) B=2mT khz sine wave * * * 6 C C 2 C 6 C C 2 C 6 C C 2 C 6 C C 2 C * * v ( C) (kg/m 3 ) 3 ( m) PC47 2±2% > PC9 22±2% > PC9 33±2% > Typ. HS72 i 7±2% (2min. at khz) tan/i 6 * * * * * v ( C) (kg/m 3 ) 3 ( m) 3(kHz) > HS ±2% 3(kHz) 38 2 > HS2 2±2% (at khz) 2(kHz) > Typ. 288 / ferrite_mn-zn_material_characteristics_ja.fm
5 (/24) Mn-Zn PC47 i ( )* Pcv (kw/m 3 ) B=2mT khz sine wave * * * 6 C C 2 C 6 C C 2 C 6 C C 2 C 6 C C 2 C * * v ( C) (kg/m 3 ) 3 ( m) 2±2% > Typ. ityp ityp Temperature( C) B-HTyp. Flux density B C 8 C C 2 C Magnetic field H Typ. Typ. (Sine wave data) khz/2mt Core loss Pcv(kW/m 3) kHz 2kHz khz 6 C C 2 3 Flux density Bm Core loss Pcv(kW/m 3) / ferrite_mn-zn_material_characteristics_ja.fm
6 (6/24) Mn-Zn PC9 i ( )* Pcv (kw/m 3 ) B=2mT khz sine wave * * * 6 C C 2 C 6 C C 2 C 6 C C 2 C 6 C C 2 C * * v ( C) (kg/m 3 ) 3 ( m) 22±2% > Typ. ityp. ityp Temperature( C) B-HTyp. Flux density B C 6 C 2 C Magnetic field H Core loss Pcv(kW/m 3) Typ kHz (Sine wave data) 2kHz khz khz 6 C C 2 3 Flux density Bm Typ. khz/2mt Core loss Pcv(kW/m 3) / ferrite_mn-zn_material_characteristics_ja.fm
7 (7/24) Mn-Zn PC9 i ( )* Pcv (kw/m 3 ) B=2mT khz sine wave * * * 6 C C 2 C 6 C C 2 C 6 C C 2 C 6 C C 2 C * * v ( C) (kg/m 3 ) 3 ( m) 33±2% > Typ. ityp ityp Temperature( C) B-HTyp. Flux density B C C 2 C 8 6 Magnetic field H Typ. Typ. (Sine wave data) khz/2mt Core loss Pcv(kW/m 3) kHz 2kHz khz khz 6 C C 2 3 Flux density Bm Core loss Pcv(kW/m 3) / ferrite_mn-zn_material_characteristics_ja.fm
8 (8/24) Mn-Zn HS72 i 7±2% (2min. at khz) tan/i 6 * * * * * v ( C) (kg/m 3 ) 3 ( m) 3(kHz) > Typ. ityp ityp Temperature( C) Flux density B B-HTyp C 2 C Test core OD: 3mm TH: 8mm ID: 9mm Magnetic field H tan δ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
9 (9/24) Mn-Zn HS i tan/i 6 * * * * * v ( C) (kg/m 3 ) 3 ( m) ±2% 3(kHz) 38 2 > Typ. ityp. ityp Temperature( C) Flux density B B-HTyp C C 2 Test core OD: 3mm TH: 8mm ID: 9mm Magnetic field H tan δ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
10 (/24) Mn-Zn HS2 i tan/i 6 * * * * * v ( C) (kg/m 3 ) 3 ( m) 2±2% (at khz) 2(kHz) > Typ. ityp. ityp Temperature( C) Flux density B B-HTyp. 4 6 C 3 C 2 Test core OD: 3mm TH: 8mm ID: 9mm Magnetic field H tan δ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
11 (/24) Mn-Zn Typ. i +4% HA 33 % tan/i 6 <2.(kHz) <(khz) HB2 7±2% <6.(kHz) HC2 ±3% <7.(kHz) HC3 ±3% <7.(kHz) HP ±2% <3. DNW4 42±2% <3. ir 6 3 to +2 C to 2 C 2 to 7 C. to 2.. to 2. to.8 to.8. to.. to.. to.. to. ±2.% ±2.% ( C) B DF 6 (kg/m 3 ) >3 <.8 < >3 <. < >2 <.4 < > <. < >4 <.4 < > <.8 < mt v ( m) 288 / ferrite_mn-zn_material_characteristics_ja.fm
12 (2/24) Mn-Zn HA i +4% 33 % tan/i 6 <2.(kHz) <(khz) ir 6 3 to +2 C to 2 C 2 to 7 C. to 2.. to 2. ( C) B DF 6 (kg/m 3 ) >3 <.8 < mt v ( m) Typ. ityp. ityp. Initial permeability Flux density B B-HTyp C C 8 C Test core: Toroidal OD=3mm ID=9mm TH=8mm 8 6 Magnetic field H Relative loss factor tanδ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
13 (3/24) Mn-Zn HB2 i tan/i 6 7±2% <6.(kHz) ir 6 3 to +2 C to 2 C 2 to 7 C to.8 to.8 ( C) B DF 6 (kg/m 3 ) >3 <. < mt v ( m) Typ. ityp. ityp. Initial permeability Flux density B B-HTyp C 7 C Test core: Toroidal OD=6mm ID=3mm TH=.mm 8 6 Magnetic field H Relative loss factor tanδ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
14 (4/24) Mn-Zn HC2 i tan/i 6 ±3% <7.(kHz) ir 6 3 to +2 C to 2 C 2 to 7 C. to.. to. ( C) B DF 6 (kg/m 3 ) >2 <.4 < mt v ( m) Typ. ityp. 3 ityp. 3 Initial permeability Flux density B B-HTyp C 6 C Test core: Toroidal OD=3mm ID=9mm TH=8mm 8 6 Magnetic field H Relative loss factor tanδ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
15 (/24) Mn-Zn HC3 i tan/i 6 ±3% <7.(kHz) ir 6 3 to +2 C to 2 C 2 to 7 C. to.. to. ( C) B DF 6 (kg/m 3 ) > <. < mt v ( m) Typ. ityp. 3 ityp. 3 Initial permeability Flux density B B-HTyp C Test core: Toroidal OD=3mm ID=9mm TH=8mm 8 6 Magnetic field H Relative loss factor tanδ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
16 (6/24) Mn-Zn HP i tan/i 6 ±2% <3. ir 6 3 to +2 C to 2 C 2 to 7 C ±2.% ±2.% ( C) B DF 6 (kg/m 3 ) >4 <.4 < mt v ( m) Typ. ityp. ityp. Initial permeability Flux density B B-HTyp C 4 C 7 C Test core: Toroidal OD=6mm OD=3mm ID=3mm ID=9mm TH=.mm TH=8mm 8 6 Magnetic field H Relative loss factor tanδ/ tan/ ityp / ferrite_mn-zn_material_characteristics_ja.fm
17 (7/24) Mn-Zn DNW4 i tan/i 6 42±2% <3. ir 6 3 to +2 C to 2 C 2 to 7 C ( C) B DF 6 (kg/m 3 ) > <.8 < mt v ( m) Typ. ityp. 8 6 Typ. 4 at khz HDC=3A/m μ i 4 2 μδ / ferrite_mn-zn_material_characteristics_ja.fm
18 (8/24) Mn-Zn i ( C) Pcv (kw/m 3 ) B=2mT 2kHz khz ( m) dapp (kg/m 3 ) 3 (/K) 6 (W/mK) Cp (J/kg K) b3 (N/m 2 ) 7 E (N/m 2 ) s 6 23 C 23 C C 23 C 23 C 9 C C C PE22 8 > PC4 23 > PE9 22 > / ferrite_mn-zn_material_characteristics_ja.fm
19 (9/24) Mn-Zn PE22 i ( C) Pcv (kw/m 3 ) B=2mT 2kHz khz ( m) dapp (kg/m 3 ) 3 (/K) 6 (W/mK) Cp (J/kg K) b3 (N/m 2 ) 7 E (N/m 2 ) s 6 23 C 23 C C 23 C 23 C 9 C C C 8 > Typ. Typ. 9 7 Pcv(kW/m 3) khz-2mt 2kHz-2mT Typ. Typ Temp.: 23 C Hm=.4A/m 3 2 μ, μ 2 μ f=khz Hm=.4A/m 2 3 μ 288 / ferrite_mn-zn_material_characteristics_ja.fm
20 (2/24) Mn-Zn PE22 Temp.23 C Temp.4 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.6 C Temp.8 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.9 C Temp. C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.2 C 3mT 2mT 2mT mt mt mt 288 / ferrite_mn-zn_material_characteristics_ja.fm
21 (2/24) Mn-Zn PC4 i ( C) Pcv (kw/m 3 ) B=2mT 2kHz khz ( m) dapp (kg/m 3 ) 3 (/K) 6 (W/mK) Cp (J/kg K) b3 (N/m 2 ) 7 E (N/m 2 ) s 6 23 C 23 C C 23 C 23 C 9 C C C 23 > Typ. Typ Pcv(kW/m 3) khz-2mt 2kHz-2mT Typ. Typ Temp.: 23 C Hm=.4A/m 2 μ, μ 2 μ f=khz Hm=.4A/m 2 3 μ 288 / ferrite_mn-zn_material_characteristics_ja.fm
22 (22/24) Mn-Zn PC4 Temp.23 C Temp.4 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.6 C Temp.8 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.9 C Temp. C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.2 C 3mT 2mT 2mT mt mt mt 288 / ferrite_mn-zn_material_characteristics_ja.fm
23 (23/24) Mn-Zn PE9 i ( C) Pcv (kw/m 3 ) B=2mT 2kHz khz ( m) dapp (kg/m 3 ) 3 (/K) 6 (W/mK) Cp (J/kg K) b3 (N/m 2 ) 7 E (N/m 2 ) s 6 23 C 23 C C 23 C 23 C 9 C C C 22 > Typ. Typ. 9 7 Pcv(kW/m 3) khz-2mt 2kHz-2mT Typ μ, μ Typ Temp.: 23 C Hm=.4A/m μ f=khz Hm=.4A/m 2 3 μ 288 / ferrite_mn-zn_material_characteristics_ja.fm
24 (24/24) Mn-Zn PE9 Temp.23 C Temp.4 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.6 C Temp.8 C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.9 C Temp. C 3mT 2mT 2mT mt mt mt 3mT 2mT 2mT mt mt mt Temp.2 C 3mT 2mT 2mT mt mt mt 288 / ferrite_mn-zn_material_characteristics_ja.fm
(/6) MFeO M C C Mn-Zn Ni-Zn Mn-Zn MHz Ni-Zn MHz Mn-Zn to Ni-Zn to 8 J/kg K to W/m K. 6 /K to 7 N/m mm N/m. N/m - / 6 / j_.fm
Issue date: June RoHS EU Directive /9/EC PBB PBDE (/6) MFeO M C C Mn-Zn Ni-Zn Mn-Zn MHz Ni-Zn MHz Mn-Zn to Ni-Zn to 8 J/kg K to W/m K. 6 /K to 7 N/m mm 9.8 7 N/m. N/m - / 6 / j_.fm (/6). i =lim μa H. a.
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