Ferrite for Switching Power Supplies

Transcription

1 (1/69) Ferrite for Switching Power Supplies INTROUTION Our foremost mission is to develop unique and advanced electronics technologies. s such, ever since TK was founded in 1935 when its researchers invented ferrite, we have been involved in a wide range of technological and product development efforts. Particularly, our high-performance ferrite elements, which result from our accumulated expertise and excellent microstructure control technologies, have become essential in reducing the weight and improving the performance of advanced electronic devices that are transforming the world around us. s a result of pursuing the numerous potentials of these ferrite elements, we have been able to develop high-frequency power ferrite material that deliver among the world s highest levels of reliability and magnetic properties. These products include P33, P4, P44, P45, P46, P47, and P5. They contribute to achieving even greater size reductions and performance improvements of high-performance switching power supplies and to converters -- products considered to constitute the heart of microelectronic devices. We have also developed the P95, which delivers a saturated magnetic flux density equivalent to that of P44 and low loss in a wide temperature range. This materials is expected to improve the efficiency of power supplies in to converters used in electric vehicles. dditionally, we have been conducting research in ferrite that delivers permeability close to the theoretical limit in high frequency ranges. These ferrite materials are designed for M solutions. The materials S52, S72, and S1 deliver frequency responses with excellent permeability - a prerequisite for M magnetic material such as MI filters and coon mode choke coils - and higher impedance compared to existing material in the high frequency ranges. In parallel with material development, we have been working to reduce sizes and improve the performance of our switching power supplies and to converters. To this end, we have been developing optimum core shape designs and creating an extensive line up of these products to accoodate a wide range of specific needs. We also manufacture peripheral items including bobbins and various accessories.

2 (2/69) IRUIT XMPL SINGL FORWR ONVRTR oon mode choke coil ctive filer choke coil Main power transformer Smoothing choke coil input MI/RFI filter PF ctive filter Output rectifier smoothing circuit output uxiliary power circuit Power switch circuit ontrol circuit uxiliary power transformer rive Transformer urrent transformer Notes: LP and P cores are ideal for use in thin transformers. LP cores are available in.5 and.7 in height (when mounted). P cores are available in.5 and.65 in height (when mounted).

3 (3/69) SLT ITMS OF LGN 1= Σ ore constant 1 e ffective cross-sectional area, 2 e ffective magnetic path length, Ve ffective core volume 3 cp ross-sectional center leg/pole area, 2 cp min. Minimum cross-sectional center pole area, 2 cw ross-sectional winding area of core, 2 w ross-sectional winding area of bobbin, 2 w verage length of turns around bobbin, t Minimum thickness of bobbin inside which core is placed, including flanges, W obbin-core assembly dimensions obbin-core assembly dimensions obbin-core assembly dimensions W W

4 (4/69) MTRIL RTRISTIS MTRIL RTRISTIS For Transformer and hoke Material P4 P44 P47 P5 Initial permeability µi 23±25% 24±25% 25±25% 14±25% mplitude permeability µa 3 min. 3 min. ore loss volume density (ore loss) [=2mT] Saturation magnetic flux density [=1194/m] Pcv kw/m 3 s mt Remanent flux density r mt oercive force c /m 25kz sine wave 1kz sine wave urie temperature Tc >215 >215 >23 >24 ensity db kg/m lectrical resistivity ρv Ω m Material P33 P9 P95 Initial permeability µi 14±25% 22±25% 33±25% mplitude permeability µa ore loss volume density (ore loss) [=2mT] Saturation magnetic flux density [=1194/m] Pcv kw/m 3 1kz sine wave s mt Remanent flux density r mt oercive force c /m urie temperature Tc >29 >25 >215 ensity db kg/m lectrical resistivity ρv Ω m verage value 5kz, 5mT

5 (5/69) For oon Mode hoke Material S52 S72 S1 Initial permeability µi 55±25% 75±25% (2min. at 5kz) 1±25% Relative loss factor tanδ/µi 1 6 1(1kz) 3(1kz) 3(1kz) Saturation magnetic flux density [=1194/m] s mt Remanent flux density r mt oercive force c /m urie temperature Tc >13 >13 >12 ensity db kg/m lectrical resistivity ρv Ω m For Telecounication Material Initial permeability µi +4% 33 75±25% 1±3% 15±3% 12±3% % 9( 2 ) Relative loss factor tanδ/µi 1 6 <2.5(1kz) <1(1kz) <6.5(1kz) <7.(1kz) <7.(1kz) <8(1kz) 3 to +2.5 to 2. to to to 1.5 Temperature factor of initial αµir 1 permeability to 2 2 to 7.5 to 2. to to to 1.5 Saturation magnetic flux density [=1194/m] s mt Remanent flux density r mt oercive force c /m urie temperature Tc >13 >13 >12 >15 >11 ysteresis material constant η 1 6 mt <.8 <1. <1.4 <.5 <2.8 isaccoodation factor F 1 6 <3 <3 <2 <2 <3 ensity db kg/m lectrical resistivity ρv Ω m Material 55 P5 NW45 N4 N7 Initial permeability µi 3±3% 5±2% 42±25% 4±25% 75±25% Relative loss factor tanδ/µi , 1kz <15 <3.5 <3.5 <2.5 <2. Temperature factor of initial permeability to 2..5 to 1.5 verage value αµir 1 6 to 2 3 to +2 2 to 7 ±12.5% ±12.5% to 2..5 to 1.5 Saturation magnetic flux density [=1194/m] s mt Remanent flux density r mt oercive force c /m urie temperature Tc >11 >14 >15 >13 >15 ysteresis material constant η 1 6 mt <1.5 <.4 <.8 <.8 <.2 isaccoodation factor F 1 6 <2 <3 <3 <3 <2.5 ensity db kg/m lectrical resistivity ρv Ω m

6 (6/69) µi vs. Frequency haracteristics tanδ/µi vs. Frequency haracteristics S52 P4 P S1 S S1 S72 P5 µi 1 3 S52 P44 P4 P5 P95 P46 P45 P47 tan δ/µi Frequency(kz) Frequency(kz) Magnetization urves (Typical) Material: P4 Material: P44 Material: P5 Flux density (mt) Flux density (mt) Flux density (mt) Magnetic field (/m) Magnetic field (/m) Magnetic field (/m) Material: P45 Material: P46 Material: P47 Flux density (mt) Flux density (mt) Flux density (mt) Magnetic field (/m) Material: P Magnetic field (/m) Magnetic field (/m) Flux density (mt) Magnetic field (/m)

7 (7/69) ore Loss (Typical) Material: P4 Material: P (Sine wave data) 1 5 (Sine wave data) 5kz 1 4 3kz 2kz 1 4 5kz 3kz 2kz 1kz ore loss Pcv(kW/m 3 ) kz 25kz ore loss Pcv(kW/m 3 ) kz 5kz 25kz Test core: I Flux density (mt) 6 1 Test core: T Flux density (mt) Material: P5 Material: P (Sine wave data) 1 5 (Sine wave data) 1 4 1Mz 5kz 3kz 2kz 1 4 3kz 2kz ore loss Pcv(kW/m 3) ore loss Pcv(kW/m 3) kz 5kz kz Test core: T2X5X Flux density m(mt) Flux density m(mt)

8 (8/69) ore Loss (Typical) Material: P46 Material: P (Sine wave data) 1 5 (Sine wave data) 1 4 3kz 1 4 3kz 2kz 2kz ore loss Pcv(kW/m 3) kz 5kz ore loss Pcv(kW/m 3) kz Flux density m(mt) Flux density m(mt) Material: P33 Material: P (Sine wave data) 1 5 (Sine wave data) 1 4 3kz 1 4 2kz 3kz ore loss Pcv(kW/m 3) kz 5kz ore loss Pcv(kW/m 3) kz 1kz 5kz Flux density m(mt) Flux density m(mt)

9 (9/69) Temperature ependence of ore Loss (Typical) Material: P4 (Frequency: 1kz) 1 Material: P44 (Frequency: 1kz) ore loss Pcv(kW/m 3) 6 4 2mT ore loss Pcv(kW/m 3) 6 4 2mT 2 15mT 2 15mT Temperature( ) Material: P5 1 1Mz 1mT Temperature( ) Material: P47 1 Test core: Toroidal O=31 T=8 I=19 1kz/2mT 8 ore loss Pcv(kW/m 3 ) 1 1 5kz 1mT 1Mz 5mT 5kz 5mT ore loss Pcv(kW/m 3) Temperature( ) Temperature( ) Material: P33 Material: P95, P45, P kz/2mT 1 1kz/2mT 1 8 P46 ore loss Pcv(kW/m 3) ore loss Pcv(kW/m 3) 6 4 P45 P Temperature( ) Temperature( )

10 (1/69) Magnetization urves (Typical) S52 S72 S Flux density (mt) Flux density (mt) Flux density (mt) Test core O: 31 T: 8 I: Magnetic field (/m) 1 Test core O: 31 T: 8 I: Magnetic field (/m) 1 Test core O: 31 T: 8 I: Magnetic field (/m) µi vs. Temperature haracteristics (Typical) P4 µi S µi Temperature( ) Temperature( ) P µi Temperature( ) S µi Temperature( )

11 (11/69) µi vs. Temperature haracteristics (Typical) P5 µi Temperature( ) S1 µi Temperature( ) Test core: O=31 T=8 I=19 P µi Temperature( ) P µi Temperature( ) P µi Temperature( ) P µi Temperature( )

12 (12/69) WI TMPRTUR RNG, LOW LOSS POWR MTRIL P95 ased on TK s ferrite technologies, P95 is a high-performance ferrite material that achieves low loss over a wide range of temperatures. This material delivers the same level of saturated magnetic flux density as our existing P44 and also delivers minimal loss (under 35kW/m 3 ) at temperatures ranging from 25 to 12. P95 can be used at a near-optimum state regardless of temperature. Owing to this characteristic, transformers based on the material P95 are optimally suited for use in to converters in electric vehicle applications, such as Vs and FVs, in which components are exposed to a wide range of temperatures. It can also be used in switching power supply transformers. FTURS Low loss: <35kW/m 3 (1kz, 2mT) from 25 to 12. If used in to converters for electric vehicles, fuel efficiency can be improved due to the improved power efficiency over a wide temperature ranges. The materials offer about the same saturation magnetic flux density as P44 from room temperature up to high temperatures. The materials can be shaped into standard as well as original shapes. PPLITIONS to converters for automobiles Main transformers for various switching power supplies Inverter transformers for L backlight adapters and chargers MTRIL RTRISTIS Material P95(NW) P ore loss Pcv kw/m 3 [1kz, 2mT] OR LOSS vs. TMPRTUR RTRISTIS 8 7 P46 6 P45 ore loss(kw/m 3) P44 P Temperature( ) at 1kz, 2mT

13 (13/69) LOW LOSS FRRIT MTRIL P47 P47 has the best properties for transformers of power supplies, adapters and chargers. The core loss and saturation magnetic flux density of P47 are far better than P44 and P4 which are currently in use. FTURS ore loss: 25kW/m 3 at 1kz, 2mT, 1. Low core loss at wide frequency range 1kz to 3kz. igher saturation flux density than P44. PPLITIONS Switching power supplies dapters and chargers for notebook type pc FL L backlight MTRIL RTRISTIS Material P47 P44 P4 Initial permeability µi 25 25±25% 24±25% 23±25% ore loss volume density [1kz, 2mT] Saturation magnetic flux density [1/m] Remanent flux density r mt Pcv TMPRTUR PNN RTRISTIS (Typical) Pcv kw/m s mt urie temperature Tc min ensity db kg/m ore loss Pcv(kW/m 3 ) kz/2mT P4 P44 P Temperature( ) ore loss Pcv(kW/m 3 ) kz/3mT P4 P44 P Temperature( ) s and r TMPRTUR PNN RTRISTIS (Typical) 6 5 s s, r(mt) P47 P44 P4 P47 P44 P4 r Temperature( )

14 (14/69) µi vs. FRQUNY RTRISTIS (Typical) µi vs. TMPRTUR RTRISTIS (Typical) µi 1 P4 P44 P47 µ i P4 P44 P Frequency(kz) Temperature( ) MGNTIZTION URVS (Typical) MTRIL:P47 µa TMPRTUR PNN RTRISTIS (Typical) Flux density (mt) Magnetic field (/m) µ a kz/3mT P47 P44 P Temperature( )

15 (15/69) LOW LOSS FRRIT MTRILS P45 N P46 In recent years, with the advent of notebook type pc, VR s, digital camera s and mobile counication devices, technological demands have risen for higher performance FL L backlight units that have smaller sizes, lower profiles and higher efficiency. The P45 and P46 are materials developed to achieve higher efficiency in designing minimize core loss at practical temperature ranges (P45: 6 to 8 and P46: 4 to 5 ) and high saturation flux density. They are also suitable for the transformers of to converters and adapters of notebook type pc. PPLITIONS Switching power supplies dapters and chargers for notebook type pc FL L backlight MTRIL RTRISTIS Material P45 P46 P44 Initial permeability µi 25 25±25% 32±25% 24±25% ore loss volume density [1kz, 2mT] Saturation magnetic flux density [1/m] Remanent flux density r mt Pcv kw/m (75 ) 25(45 ) s mt urie temperature Tc min ensity db kg/m Pcv TMPRTUR PNN RTRISTIS (Typical) s and r TMPRTUR PNN RTRISTIS (Typical) ore loss Pcv(kW/m 3 ) kz/2mT P46 P45 P Temperature( ) s, r(mt) s r P45 P46 P44 P46 P45 P Temperature( ) µi vs. FRQUNY RTRISTIS (Typical) µi vs. TMPRTUR RTRISTIS (Typical) µi 1 P44 P46 P45 µ i P44 P45 P Frequency(kz) Temperature( )

16 (16/69) MGNTIZTION URVS MTRIL:P45 MTRIL:P46 Flux density (mt) Flux density (mt) Magnetic field (/m) Magnetic field (/m)

17 (17/69) IG STURTION FLUX NSITY MTRIL FOR OK OIL P33 P33 has the best properties for smoothing choke coil of power supplies. The saturation magnetic flux density of P33 is far better than P44 and P4 which are currently in use. FTURS igher saturation flux density than P44 and P4. Most suitable ferrite material for choke coils. Maintain high saturation magnetic flux density at high temperature. PPLITIONS Power choke coils for switching power supplies Power choke coils for notebook type pc MTRIL RTRISTIS Material P33 P44 P4 Saturation magnetic flux density s mt [1/m] Initial permeability µi 25 14±25% 24±25% 23±25% ore loss volume density Pcv kw/m [1kz, 2mT] urie temperature Tc min ensity db kg/m Pcv TMPRTUR PNN RTRISTIS (Typical) s TMPRTUR PNN RTRISTIS (Typical) ore loss Pcv(kW/m 3 ) Temperature( ) 1kz/2mT P33 P4 P s(mt) P33 P44 P Temperature( )

18 (18/69) FRRIT MTRILS FOR LN PULS TRNSFORMRS NW45 With the growing popularity of high-speed thernet, the demand for ferrite material that is optimally suited for pulse transformers in LN systems is rising. In particular, LN systems that are subjected to the harsh operating environments found in industrial applications are required to operate at wider temperature ranges compared to existing materials. To meet such demands, TK has developed the NW45, a product dedicated to small toroidal forms used in high-speed LNs, which delivers high inductance and excellent superposition characteristics at a wide temperature range ( 4 to +85 ). FTURS elivers high inductance over a wide temperature range ( 4 to +85 ). This ferrite material delivers excellent superposition characteristics and was designed for small toroidal cores. superposition characteristics in the 4 to +85 temperature range has been improved by 23% compared to N45, one of previous materials. PPLITIONS Ferrite core for pulse transformers in thernet (1ase-T) LN systems. Please consult us for on-vehicle applications. MTRIL RTRISTIS OMPRISON TO PRVIOUS MTRIL Material NW45 P5 Initial permeability µi 25 42±25% 5±25% Relative loss factor tanδ/µi , 1kz <3.5 <3.5 Saturation magnetic flux density s mt 25, 1/m 45 4 urie temperature Tc min ensity db kg/m lectrical resistivity ρv Ω m Measured with toroidal core(o1 I5 T2.5). Various toroidal cores of small sizes are available. Please contact us for details. µi vs. TMPRTUR RTRISTIS µ vs. TMPRTUR RTRISTIS 1 8 NW45 N45 P5 5 4 NW45 N45 P5 at 1kz =3/m 6 3 µ i µ Temperature( ) Temperature( )

19 (19/69) LOW T MTRILS FOR xsl MOM TRNSFORMRS N4 N N7 The use of xsl technique becomes wide spread as a high broad-band access to the internet. In order to utilize such network access as sufficient as possible, low T (Total armonic istortion) of transformer for xsl modem is quite important to transfer the significant signals. Materials N4 and N7, TK achieved such requirements recently, are developed to meet low T over a wide temperature range( to 85 ) and wide frequency range( 5kz). Therefore, They are suitable for the high performance transformer design for xsl modem applications. Standardization of L-value will help you to select the optimum core at the transformer design. FTURS Meet low T over a wide temperature range( to 85 ) and wide frequency range ( 5kz). PPLITIONS Transformer for xsl modem PPLI OR TYP N L-value ore Type L-value P P7 4, 63, 1, 16, 25 P1 4, 63, 1, 16, 25 P13 63, 1, 16, 25, 4, 5 MTRIL RTRISTIS Material N7 N4 Initial permeability µi 25 75±25% 4±25% Relative loss factor [1kz] tanδ/µi <2. <2.5 Temperature factor of intial permeability αµir Unless otherwise specify the tolerance, the values are shown as a typical. 3 to +2 2 to 7.5 to to to 2..5 to 2. Saturation magnetic flux density [1/m] s mt ysteresis material constant 1 η [25, 1.5 to 3.mT, 1kz] mt <.2 <.8 urie temperature Tc min ensity db kg/m lectrical resistivity ρv Ω m.3 1. T TMPRTUR PNN RTRISTIS (Typical) µi vs. TMPRTUR RTRISTIS (Typical) 9 25 N7 T(d) 85 8 N7 N4 µ i N P7 P-Sys2 at 45mT, 5kz Temperature( ) Temperature( )

20 (2/69) SRIS ores I12.5 to I6 8 to 62.3/62/6 F12.6 to F32 R25.5 to R49 T19 to T49 obbins 8 to 62.3 R25.5 to R49 T19 to T24 ccessories Ordering ode System ores Material Size of core P4 I 3 2 L-value(Z: without air gap) obbins Symbol of obbin Size of core ode of obbin Material PFR Type of Terminal Pin Number of Terminal Pin Number of Section ccessories Symbol of ccessory F 3 F Type of ccessory Size of core

21 (21/69) I ORS F I P4I12.5-Z FI 12.5 imensions in F I min. 12.4±.3.488± ±.1.291± ± ±.6 2.4±.1.94± ±.1.21± ±.1.59±.4 P4I16-Z FI ±.3.63± ±.2.48±.8 4.8±.2.189±.8 4.±.2.157± ±.2.42± ±.2.79±.8 P4I19-Z 2.±.3.787± ± ±.1 5.±.2.197± ± ± ± ± ±.1.91±.4 P4I22-Z 22.±.3.866± ± ± ± ± ± ± ± ± ±.2.177±.8 P4I22/19/6-Z FI ±.4.866± ±.2.579± ± ± ± ± ±.2.421± ±.2.157±.8 P4I25-Z 25.3±.5.996± ± ± ± ±.1 6.5±.3.256± ± ± ±.2.16±.8 P4I28-Z FI ± ±.1 1.6±.2 ( core).417±.8 7.2±.3 1.7±.3 (I core).421± ± ± ± ±.3.138±.12 ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P4I12.5-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 63±7% 1±1% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item PFR P4I16-Z ±25% 8±7% 16±1% PFR PFR PNFR P4I19-Z ±25% 8±7% 16±1% PFR PFR P4I22-Z ±25% 125±7% 25±1% PFR PFR P4I22/19/6-Z ±25% 125±7% 25±1% /19/6-118PFR P4I25-Z ±25% 125±7% 25±1% PFR P4I28-Z ±25% L-value: 1kz,.5m, 1Ts 2±5% 4±7% PLFR

22 (22/69) I ORS F I P4I3-Z P4I33/29/13-Z P4I35-Z FI 3 FI 35 imensions in F I min ± ± ± ± ± ± ± ±.6 1.7±.3.421± ±.3.5±.12 1.±.3.394± ±.3.421± ±.3.382±.12 1.±.3.394± ±.25.64± ± ± ± ± ±.2.217±.8 5.±.3.197± ±.3.181±.12 P4I4-Z FI 4 4.± ± ± ± ± ± ± ± ± ± ±.3.295±.12 P4I5-Z P4I6-Z FI 5 FI ± ± ± ± ±.4.575± ±.4.614± ±.4.575± ±.4.614± ± ± ± ± ±.3.354± ±.3.335±.12 ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P4I3-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 2±5% 4±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item 3-111PFR PFR P4I33/29/13-Z ±25% P4I35-Z ±25% 2±5% 4±7% 2±5% 4±7% PLFR PLFR P4I4-Z ±25% 2±5% 4±7% PFR PNFR P4I5-Z ±25% 25±5% 5±7% PFR P4I6-Z ±25% L-value: 1kz,.5m, 1Ts 25±5% 5±7% PFR

23 (23/69) N F ORS R F Type 1 F Type 2 U.S. Iam. cores, IN standard P48-Z F P41/11-Z F P4F12.6-Z IN P413-Z 1 P416-Z F 16 1 P4S16-Z 1 P4F16-Z P419-Z P419/16-Z IN F 19 U.S Type imensions in F min. 8.3±.2 4.±.1 3.6± ± ± ±.8.157±.4.142±.8.73± ± ±.2 5.5± ± ± ± ±.8.217±.4.187±.6.96± ± ±.4 6.4±.1 3.6± ± ± ± ±.4.142±.8.144± ± ±.2 6.± ± ± ± ±.8.236±.6.242±.6.18± ± ± ± ±.2 4.± ± ± ±.6.189±.8.157± ± ± ± ± ± ± ± ±.6.268±.8.125± ± ±.6 8.5± ± ± ± ± ±.6.177±.8.179± ± ± ±.15 5.± ± ± ± ±.6.197±.8.179± ± ± ± ± ± ± ± ±.7.187±.5.187± ±.5.97 L-value: 1kz,.5m, 1Ts ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P48-Z ±25% P41/11-Z ±25% P4F12.6-Z ±25% P413-Z ±25% P416-Z ±25% P4S16-Z ±25% P4F16-Z ±25% P419-Z ±25% P419/16-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 4±7% 63±1% 4±7% 63±1% 63±7% 1±1% 63±7% 1±1% 8±7% 16±1% 8±7% 16±1% 63±7% 1±1% 8±7% 16±1% 8±7% 16±1% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item PFR PSFR PSFR PFR PFR PNFR S16-111PSFR PFR PFR

24 (24/69) N F ORS R F Type 1 F Type 2 U.S. Iam. cores, IN standard P42/2/5-Z IN P4F2-Z IN P422-Z 1 P425/19-Z P4F25-Z P425.4-Z P43-Z P43/3/7-Z U.S. -24/25 IN F 25.4 F 3 IN Type imensions in F min. 2.15±.55 1.±.2 5.1±.2 5.± ± ± ±.8.21±.8.197± ± ±.4 9.9± ± ± ± ±.16.39±.8.222±.1.224± ± ± ± ± ± ± ± ±.6.226±.1.226± ± ± ± ± ± ± ±.2.372±.7.248±.7.25± ± ± ± ± ± ± ±.3.494±.1.283± ± ± ± ± ± ± ± ±.3.38±.6.25±.1.25± ± ± ± ±.3 1.7± ± ±.2.518±.6.421± ± ± ±.7 15.±.2 7.5± ± ± ± ±.8.278±.1.274± ±.1.21 L-value: 1kz,.5m, 1Ts ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P42/2/5-Z ±25% P4F2-Z ±25% P422-Z ±25% P425/19-Z ±25% P4F25-Z ±25% P425.4-Z ±25% P43-Z ±25% P43/3/7-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 1±7% 16±1% 1±7% 16±1% 125±7% 25±1% 1±7% 2±1% 1±7% 16±1% 125±7% 25±1% 2±5% 4±7% 16±5% 25±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item PFR PFR PFR PFR

25 (25/69) N F ORS R F Type 1 F Type 2 U.S. Iam. cores, IN standard Type imensions in F min. P4F32-Z IN ± ± ±.3.634± ±.35.36± ±.3.362± ±.3.457± P435/28-Z U.S ± ± ± ± ±.3.367± ±.3.37± ± ± P435-Z F ± ± ± ± ± ± ±.27.37± ± ± P44-Z F4 1 4.± ±.2 17.±.3.669± ±.3.421± ±.3.421± ±.25.44± P441/33-Z U.S ± ± ±.4.661± ± ± ± ± ±.3.49± P442/42/15-Z IN F ± ± ±.2.827± ± ± ±.25.47± ± ± P442/42/2-Z IN F ± ± ±.2.827± ±.3.776± ±.25.47± ± ± ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P4F32-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 16±5% 25±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item P435/28-Z ±25% P435-Z ±25% 2±5% 4±7% 2±5% 4±7% P44-Z ±25% 2±5% 4±7% PFR PNFR P441/33-Z ±25% P442/42/15-Z ±25% P442/42/2-Z ±25% L-value: 1kz,.5m, 1Ts 2±5% 4±7% 25±5% 4±7% 25±5% 4±7%

26 (26/69) N F ORS R F Type 1 F Type 2 U.S. Iam. cores, IN standard Type imensions in F min. P447/39-Z U.S ± ± ±.2.773± ± ± ± ± ±.13.48± P45-Z F ±.3.839± ±.4.575± ±.4.575± ±.25.52± P455/55/21-Z IN F ± ± ± ± ±.3.815± ± ± ±.3.74± P457/47-Z U.S ± ± ± ± ±.25.74± ±.25.74± ± ± P46-Z F6 P45.3/51/6-Z 1 P462.3/62/6-Z ± ± ± ± ±.3.878± ± ±.1 31.± ± ±.4.614± ±.4.614± ± ± ±.5.996± ± ± ± ± ± ± ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P447/39-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 25±5% 4±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item P45-Z ±25% 25±5% 4±7% PFR P455/55/21-Z ±25% P457/47-Z ±25% 25±5% 4±7% 25±5% 4±7% P46-Z ±25% 25±5% 5±7% PFR P45.3/51/6-Z ±25% P462.3/62/6-Z ±25% L-value: 1kz,.5m, 1Ts ore loss: 1kz, 15mT, 1 2±5% 4±7% 2±5% 4±7% PFR PFR

27 (27/69) N I OINS Z Z Z X øp Y X øp Y X øp Y Type 1 Type 2 Type 3 Z P3 P1 P1 P1 P1 P1 X øp Type 4 P3 Y P1 P2 P1 W Type imensions in X Y Z t 8-116PFR PSFR PFR PSFR PFR PFR PNFR 1 S PSFR PFR PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins PFR PSFR PFR PSFR PFR PFR PNFR S PSFR PFR PFR Parameter w ( 2 ) w () UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Wt (g) ccessory item

28 (28/69) N I OINS Z Z Z X øp Y X øp Y X øp Y Type 1 Type 2 Type 3 Z P3 P1 P1 P1 P1 P1 X øp Type 4 P3 Y P1 P2 P1 W Type imensions in X Y Z t PFR 1 22/19/6-118PFR PFR PLFR PFR PFR PLFR PLFR PFR PNFR imensions in øp P1 P2 P3 Terminal W () () () () () pins PFR /19/6-118PFR PFR PLFR PFR PFR PLFR PLFR PFR PNFR Parameter w ( 2 ) w () UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Wt (g) ccessory item F-3-F F-3-G F-4-F F-4-G

29 (29/69) N I OINS Z Z Z X øp Y X øp Y X øp Y Type 1 Type 2 Type 3 Z P3 P1 P1 P1 P1 P1 X øp Type 4 P3 Y P1 P2 P1 W Type imensions in X Y Z t PFR PFR PFR PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins PFR PFR PFR PFR Parameter w ( 2 ) w () UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Wt (g) ccessory item F-5-F F-5-G F-6-F F-6-G

30 (3/69) N I OINS Z Terminal number W imensions in Z t W () Parameter w w Wt ( 2 Material ) () (g) Nylon ccessory item Nylon Nylon Nylon Nylon Nylon Nylon UL Grade: 94V- Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges. F-3-F F-3-G F-4-F F-4-G F-5-F F-5-G F-6-F F-6-G

31 (31/69) R ORS ø ø F Type 1 F Type 2 U.S. Iam. cores, IN standard P4R25.5-Z FR P4R28-Z FR P4R28L-Z FR P4R35-Z FR35 1 P4R4-Z 1 P4R42-Z FR42 1 P4R42/42/2-Z 2 P4R49-Z 1 Type imensions in F min. 25.5±.5 9.3±.2 7.5±.2 7.5± ± ±.2.366±.8.295±.8.295± ± ± ± ± ± ± ± ±.8.499±.1.39± ± ± ± ± ± ± ± ±.1.499±.1.39± ± ±.5 2.7± ± ± ± ±.2.815±.8.445±.8.445± ± ± ± ± ± ± ±.2.882±.8.524±.1.524± ± ± ± ± ± ± ± ±.8.61±.1.61± ± ± ± ± ± ± ± ±.8.772± ± ± ±.8 19.± ± ± ± ± ± ± ± ± ffective parameter 1 ( 1 ) L-value: 1kz,.5m, 1Ts ore loss: 1kz, 15mT, 1 e ( 2 ) e () Ve ( 3 ) P4R25.5-Z ±25% P4R28-Z ±25% P4R28L-Z ±25% P4R35-Z ±25% P4R4-Z ±25% P4R42-Z ±25% P4R42/42/2-Z ±25% P4R49-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 1±5% 2±7% 2±5% 4±7% 16±5% 315±7% 2±5% 4±7% 2±5% 4±7% 25±5% 5±7% 25±5% 5±7% 25±5% 5±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item R PFR R28-111PFR R PFR R28L-111PFR R28L-1112PFR R PFR R PFR R4-1112PFR R4-1116PFR R PFR R PFR R42/2-1112PFR R PFR

32 (32/69) R OINS W W ø ø P3 Z Z X øp Y X øp Y P1 P1 Type 1 Type 2 P2 Type imensions in ø X Y Z t R PFR 1 R28-111PFR 1 R28L-111PFR 1 R PFR 1 R4-1112PFR 1 R PFR 1 R42/2-1112PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins 26 R PFR R28-111PFR R28L-111PFR R PFR R4-1112PFR R PFR R42/2-1112PFR UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Parameter w ( 2 ) w () Wt (g)

33 (33/69) R OINS W W ø ø P3 Z Z X øp Y X øp Y P1 P1 Type 1 Type 2 P2 Type imensions in ø X Y Z t R PFR 1 R PFR 2 R28L-1112PFR 2 R PFR 2 R4-1116PFR 2 R PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins 5 R PFR R PFR R28L-1112PFR R PFR R4-1116PFR R PFR UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Parameter w ( 2 ) w () Wt (g)

34 (34/69) T ORS ø F imensions in ø F P4T19-Z P4T24-Z P4T29-Z P4T34-Z P4T39-Z P4T44-Z P4T49-Z FR 34.2 FR 39.1 FR 44 FR ±.5.771± ±.6.96± ± ± ± ± ± ± ± ± ± ± ± ± ± ± ± ± ±.2.681± ±.2.78± ±.2.878± ±.2.972±.8 7.4±.2.291±.8 8.5±.4.335± ±.3.374± ± ± ± ± ±.5.587± ±.5.646±.2 7.4±.2.291±.8 8.5±.2.335±.8 9.5±.3.374± ±.3.425± ±.3.492± ±.4.583± ±.4.642± ±.5.586± ±.6.732± ±.7.893± ± ± ± ± ± ± ± ± ±.2.37±.8 1.1±.2.398±.8 11.±.3.433± ±.3.476± ±.4.575± ±.4.65± ±.4.713±.16 L-value: 1kz,.5m, 1Ts ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P4T19-Z ±25% P4T24-Z ±25% P4T29-Z ±25% P4T34-Z ±25% P4T39-Z ±25% P4T44-Z ±25% P4T49-Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 8±5% 16±7% 1±5% 2±7% 2±5% 4±1% 2±5% 4±7% 2±5% 4±7% 25±5% 4±7% 25±5% 4±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item T PFR T PFR

35 (35/69) T OINS ø obbin-core assembly dimensions T cores Z X øp Y W imensions in ø ø X Y Z t T PFR T PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins T PFR T PFR Parameter w ( 2 ) UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges. w () Wt (g)

36 (36/69) PLNR ORS ores L11X4 to L25X8.6 LT11X3 to LT25X8.6 PQI16/7.8 to PQI26/11.5 IR14/4.5/9 to IR22/5.5/15 R14/4.5/9 to R25/5.5/18 I14/5/5 to I22/8/16 Ordering ode System ores Material Size of L core P95 L 11X4 125 L-value(Z: without air gap)

37 (37/69) L ORS F1 F2 R2: 8 places R1=F1/2 L core (L+L) imensions in F1 F2 R2 P95L11X4-Z P9L11X4-Z 11.±.2.433±.8 P95L13X4.4-Z 13.±.25 P9L13X4.4-Z.512±.1 P95L15.5X5.8-Z 15.5±.3 P9L15.5X5.8-Z.61±.12 P95L18X7.3-Z 18.±.3 P9L18X7.3-Z.79±.12 P95L2X7.7-Z 2.±.35 P9L2X7.7-Z.787±.14 P95L22X8-Z 22.±.4 P9L22X8-Z.866±.16 P95L25X8.6-Z 25.±.45 P9L25X8.6-Z.984± ±.1.79± ±.1.86± ±.1.115± ±.1.144± ±.1.151±.4 4.2±.1.158± ±.1.169±.4 8.8±.2.346±.8 1.4±.2.49± ± ± ± ±.1 16.±.3.63± ±.3.693±.12 2.± ±.14 1.±.1.39±.4 1.±.1.39±.4 1.5±.1.59±.4 2.±.1.79±.4 2.±.1.79±.4 2.±.1.79±.4 2.±.1.79± ±.2.361± ±.2.426± ±.25.59±.1 15.±.3.591± ±.3.656± ± ± ±.35.82± ±.1.19± ±.1.13± ±.1.154± ±.1.179±.4 5.6± ± ± ± ± ±.6 6.4± ± ± ±.6 9.1±.2.355± ±.2.412± ±.2.458± ±.25.54± ± ± ffective parameter lectrical characteristics (L+L) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 5±3% P95L11X4-Z 24±25% 8±5% ±7% P9L11X4-Z 24±25% 53±15% 63±3% P95L13X4.4-Z 316±25% 1±5% ±7% P9L13X4.4-Z 267±25% 72±15% 63±3% P95L15.5X5.8-Z 368±25% 1±3% ±5% P9L15.5X5.8-Z 38±25% 99±15% 8±3% P95L18X7.3-Z 476±25% 125±3% ±5% P9L18X7.3-Z 38±25% 128±15% 8±3% P95L2X7.7-Z 563±25% 125±3% ±5% P9L2X7.7-Z 43±25% 156±15% 1±3% P95L22X8-Z 654±25% 16±3% ±5% P9L22X8-Z 528±25% 185±15% 1±3% P95L25X8.6-Z 754±25% 16±3% ±5% P9L25X8.6-Z 611±25% 235±15% L-value: 1kz,.5m, 1Ts Only P95 material

38 (38/69) LT ORS R1=F1/2 R2: 8 places F1 F2 1 2 L core PLT core (L+PLT) imensions in 1 2 F1 F2 R2 P95LT11X3-Z P9LT11X3-Z 11.±.2.433±.8 P95LT11X4-Z 11.±.2 P9LT11X4-Z.433±.8 P95LT13X3.4-Z 13.±.25 P9LT13X3.4-Z.512±.1 P95LT13X4.4-Z 13.±.25 P9LT13X4.4-Z.512±.1 P95LT15.5X4.3-Z 15.5±.3 P9LT15.5X4.3-Z.61±.12 P95LT15.5X5.8-Z 15.5±.3 P9LT15.5X5.8-Z.61±.12 P95LT18X5.3-Z 18.±.3 P9LT18X5.3-Z.79± ±.1.79±.4 3.1±.1.119± ±.1.86± ±.1.126± ±.1.115± ±.1.174± ±.1.144±.4 1.1±.5.4±.2 1.1±.5.4± ±.5.47± ±.5.47± ±.1.56± ±.1.56± ±.1.65±.4 8.8±.2.346±.8 8.8±.2.346±.8 1.4±.2.49±.8 1.4±.2.49± ± ± ± ± ± ±.1 1.±.1.39±.4 2.±.1.79±.4 1.±.1.39±.4 2.±.1.79±.4 1.5±.1.59±.4 3.±.1.118±.4 2.±.1.79± ±.2.361± ±.2.361± ±.2.426± ±.2.426± ±.25.59± ±.25.59±.1 15.±.3.591± ±.1.19± ±.1.19± ±.1.13± ±.1.13± ±.1.154± ±.1.154± ±.1.179±.4 6.4± ±.6 6.4± ± ± ± ± ±.6 9.1±.2.355±.8 9.1±.2.355± ±.2.412± ffective parameter lectrical characteristics (L+PLT) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 5±3% P95LT11X3-Z 259±25% 8±5% ±7% P9LT11X3-Z 21±25% 54±15% 5±3% P95LT11X4-Z 24±25% 8±5% ±7% P9LT11X4-Z 24±25% 53±15% 63±3% P95LT13X3.4-Z 339±25% 1±5% ±7% P9LT13X3.4-Z 28±25% 74±15% 63±3% P95LT13X4.4-Z 316±25% 1±5% ±7% P9LT13X4.4-Z 267±25% 72±15% 63±3% P95LT15.5X4.3-Z 434±25% 1±3% ±5% P9LT15.5X4.3-Z 345±25% 12±15% 63±3% P95LT15.5X5.8-Z 368±25% 1±3% ±5% P9LT15.5X5.8-Z 38±25% 99±15% 8±3% P95LT18X5.3-Z 533±25% 125±3% ±5% P9LT18X5.3-Z 42±25% 133±15% L-value: 1kz,.5m, 1Ts Only P95 material

39 (39/69) LT ORS R1=F1/2 R2: 8 places F1 F2 1 2 L core PLT core (L+PLT) imensions in 1 2 F1 F2 R2 P95LT18X7.3-Z P9LT18X7.3-Z 18.±.3.79±.12 P95LT2X5.7-Z 2.±.35 P9LT2X5.7-Z.787±.14 P95LT2X7.7-Z 2.±.35 P9LT2X7.7-Z.787±.14 P95LT22X6-Z 22.±.4 P9LT22X6-Z.866±.16 P95LT22X8-Z 22.±.4 P9LT22X8-Z.866±.16 P95LT25X6.6-Z 25.±.45 P9LT25X6.6-Z.984±.18 P95LT25X8.6-Z 25.±.45 P9LT25X8.6-Z.984± ±.1.222± ±.1.151± ±.15.23±.6 4.2±.1.158±.4 6.2± ± ±.1.169± ± ± ±.1.65± ±.1.72± ±.1.72±.4 2.2±.1.8±.4 2.2±.1.8± ±.1.9± ±.1.9± ± ±.1 16.±.3.63± ±.3.63± ±.3.693± ±.3.693±.12 2.± ±.14 2.± ±.14 4.± ±.6 2.±.1.79±.4 4.± ±.6 2.±.1.79±.4 4.± ±.6 2.±.1.79±.4 4.± ±.6 15.±.3.591± ±.3.656± ±.3.656± ± ± ± ± ±.35.82± ±.35.82± ±.1.179±.4 5.6± ±.6 5.6± ± ± ± ± ± ± ± ± ± ±.2.412± ±.2.458± ±.2.458± ±.25.54± ±.25.54± ± ± ± ± ffective parameter lectrical characteristics (L+PLT) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 8±3% P95LT18X7.3-Z 476±25% 125±3% ±5% P9LT18X7.3-Z 38±25% 128±15% 8±3% P95LT2X5.7-Z 627±25% 125±3% ±5% P9LT2X5.7-Z 5±25% 162±15% 8±3% P95LT2X7.7-Z 563±25% 125±3% ±5% P9LT2X7.7-Z 434±25% 156±15% 1±3% P95LT22X6-Z 725±25% 16±3% ±5% P9LT22X6-Z 575±25% 191±15% 1±3% P95LT22X8-Z 654±25% 16±3% ±5% P9LT22X8-Z 528±25% 185±15% 1±3% P95LT25X6.6-Z 86±25% 16±3% ±5% P5LT25X6.6-Z 7±25% 243±15% 1±3% P95LT25X8.6-Z 754±25% 16±3% ±5% P5LT25X8.6-Z 611±25% 234±15% L-value: 1kz,.5m, 1Ts Only P95 material

40 (4/69) PQI ORS min. ø 1 min I PQ core PQ core (PQ+PQ) imensions in 1 2 ø min. I P95PQI16/7.8Z-12 P9PQI16/7.8Z ±.3.646±.12 P95PQI2/9Z ±.4 P9PQI2/9Z-12.87±.16 P95PQI26/12Z ±.45 P9PQI26/12Z ± ±.3.441± ±.4.551± ± ± ±.3.567± ±.4.79± ± ±.18 7.±.2.276±.8 8.8±.2.346±.8 12.±.2.472±.8 5.4±.1.213±.4 6.±.1.236±.4 7.3±.1.287± ±.15.12±.6 3.5±.15.12±.6 3.1± ± ±.1.93± ±.1.116±.4 4.2±.1.165±.4 ffective parameter lectrical characteristics (PQ+PQ) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 63±3% P95PQI16/7.8Z ±25% 1±5% ±7% P9PQI16/7.8Z-12 41±25% 12±15% 1±3% P95PQI2/9Z-12 77±25% 16±5% ±7% P9PQI2/9Z-12 56±25% 183±15% 1±3% P95PQI26/12Z ±25% 16±3% ±5% P9PQI26/12Z-12 97±25% 328±15% L-value: 1kz,.5m, 1Ts Only P95 material

41 (41/69) IR ORS ø F I I R core PLT core (R+PLT) imensions in 1 1 ø F 2 2 I P95IR14/4.5/9-Z P9IR14/4.5/9-Z 13.85± ±.1 P95IR18/5/12-Z 18.15±.3 P9IR18/5/12-Z.715±.12 P95IR22/5.5/15-Z 22.1±.35 P9IR22/5.5/15-Z.87± ±.1.126±.4 9.±.2.354±.8 3.5±.1 12.±.2.138±.4.472± ± ± ±.4.6±.1 5.2±.1.25± ± ±.6 6.± ± ±.4.62±.1 6.8± ±.3.268±.4.776± ±.1.75±.4 2.±.1.79±.4 2.±.1.79± ±.2.551± ± ± ±.3.874± ±.2.362± ±.2.48± ±.2.61±.8 1.3±.1.51±.4 1.5±.1.59± ±.1.69±.4 ffective parameter lectrical characteristics (R+PLT) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 63±3% P95IR14/4.5/9-Z 32±25% 1±5% ±7% P9IR14/4.5/9-Z 24±25% 68±15% 8±3% P95IR18/5/12-Z 369±25% 125±5% ±7% P9IR18/5/12-Z 29±25% 89±15% 8±3% P95IR22/5.5/15-Z 455±25% 125±5% ±7% P9IR22/5.5/15-Z 34±25% 113±15% L-value: 1kz,.5m, 1Ts Only P95 material

42 (42/69) R ORS ø 1 F 1 R core (R+R) imensions in 1 1 ø F P95R14/4.5/9-Z P9R14/4.5/9-Z 13.85± ±.1 P95R18/5/12-Z 18.15±.3 P9R18/5/12-Z.715±.12 P95R22/5.5/15-Z 22.1±.35 P9R22/5.5/15-Z.87±.14 P95R25/5.5/18-Z 25.3±.4 P9R25/5.5/18-Z.996± ±.1.89±.4 2.5±.1.98± ±.1.18± ±.1.18±.4 9.±.2.354±.8 12.±.2.472± ±.25.6±.1 18.±.4.79± ±.1.25±.4 6.±.1.236±.4 6.8±.1.268±.4 7.± ± ± ± ±.25.62± ±.3.776± ±.4.92±.16.95±.1.37±.4 1.±.1.39±.4 1.±.1.39±.4 1.±.1.39± ffective parameter lectrical characteristics (R+R) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 63±3% P95R14/4.5/9-Z 32±25% 1±5% ±7% P9R14/4.5/9-Z 24±25% 68±15% 8±3% P95R18/5/12-Z 369±25% 125±5% ±7% P9R18/5/12-Z 29±25% 89±15% 8±3% P95R22/5.5/15-Z 455±25% 125±5% ±7% P9R22/5.5/15-Z 34±25% 113±15% 8±3% P95R25/5.5/18-Z 464±25% 125±3% ±5% P9R25/5.5/18-Z 36±25% 114±15% L-value: 1kz,.5m, 1Ts Only P95 material

43 (43/69) I ORS J F I I core PLT core (+PLT) imensions in F I J P95I14/5/5-Z P9I14/5/5-Z 14.±.3.551±.12 P95I18/6/1-Z 18.±.35 P9I18/6/1-Z.79±.14 P95I22/8/16-Z 21.8±.4 P9I22/8/16-Z.858± ±.1.138±.4 4.±.1.157±.4 5.7±.1.224±.4 5.±.1.197±.4 1.±.2.394± ±.3.622±.12 3.±.1.118±.4 4.±.1.157±.4 5.±.1.197±.4 11.± ±.1 14.±.3.551± ±.4.661±.16 2.±.1.79±.4 2.±.1.79±.4 3.2±.1.126± ±.5.59±.2 2.±.5.79±.2 2.5±.5.98± ffective parameter lectrical characteristics (+PLT) 1 e e Ve min. cw Wt L-value (n/n 2 ) ( 1 ) () ( 2 ) ( 3 ) ( 2 ) ( 2 ) (g) Without air gap With air gap 63±3% P95I14/5/5-Z 197±25% 1±5% ±7% P9I14/5/5-Z 15±25% 47±15% 1±3% P95I18/6/1-Z 472±25% 16±3% ±5% P9I18/6/1-Z 38±25% 122±15% 16±3% P95I22/8/16-Z 81±25% 25±3% ±3% P9I22/8/16-Z 64±25% 23±15% L-value: 1kz,.5m, 1Ts Only P95 material

44 (44/69) ORIGINL ORS ores PQ2/16 to PQ5/5 LP23/8 to LP32/13 P1 to P3 P7 to P2 obbins PQ2/16 to PQ5/5 LP23/8 to LP32/13 P1 to P3 P7 to P2 ccessories Ordering ode System ores P44 PQ 26/ Material Size of PQ core L-value(Z: without air gap) Number of Lead Slot Type 1: Without air gap 2: With air gap obbins Symbol of obbin Size of PQ core ode of obbin Material PQ 26/ PFR Type of Terminal Pin Number of Terminal Pin Number of Section ccessories Symbol of ccessory F PQ 26/25 Type of ccessory Size of PQ core

45 (45/69) PQ ORS. PT. 2,944,583. S. 15,655 P. PT. 26,14(, FR, G, NL) G. PT. 2,35,76 G. S. 99,685 JP. U. M 1,589,58 JP. U. M 1,621,895 JP. U. M PU. 85(6) ,647,781 JP. U. M PU. 86(61) JP. S. 58,81 JP. S. 649,618 KR. U. M 23,487 NL. PT. 178,826 NL. S. 5,777 US. PT. 4,352,8 US. S. 264, ø 1 P44PQ2/16Z-12 P44PQ2/2Z-12 P5PQ2/2Z-12 P44PQ26/2Z-12 P44PQ26/25Z-12 P5PQ26/25Z-12 P44PQ32/2Z-12 P44PQ32/3Z-12 imensions in 1 2 ø 2 2 min. 2.5±.4 14.±.4 18.±.4 8.8± ± ±.3.87± ±.16.79± ±.8.638± ± ±.4 14.±.4 18.±.4 8.8±.2 2.2± ±.3.87± ±.16.79± ±.8.795± ± ±.4 14.±.4 18.±.4 8.8±.2 2.2± ±.3.87± ±.16.79± ±.8.795± ± ± ± ± ± ± ± ± ± ± ±.8.793± ± ± ± ± ± ± ± ± ± ± ±.8.974± ± ± ± ± ± ± ± ± ± ± ±.8.974± ± ±.5 22.± ± ± ± ± ±.2.866± ±.2.53±.1.89± ± ±.5 22.± ± ± ± ± ±.2.866± ±.2.53± ± ±.12 ffective parameter 1 ( 1 ) L-value: 1kz,.5m, 1Ts ore loss: 1kz, 15mT, 1 ore loss: 5kz, 5mT, 1 e ( 2 ) e () Ve ( 3 ) P44PQ2/16Z ±25% P44PQ2/2Z ±25% P5PQ2/2Z ±25% P44PQ26/2Z ±25% P44PQ26/25Z ±25% P5PQ26/25Z ±25% P44PQ32/2Z ±25% P44PQ32/3Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 1±5% 25±7% 4±1% 1±5% 25±7% 4±1% 1±5% 16±5% 25±7% 16±5% 315±5% 63±1% 16±5% 315±5% 63±1% 1±5% 25±5% 4±7% 16±5% 315±5% 63±7% 16±5% 315±5% 63±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item PQ2/ PFR PQ2/2-1114PFR PQ2/2-1114PFR PQ26/2-1112PFR PQ26/ PFR PQ26/ PFR PQ32/2-1112PFR PQ32/3-1112PFR

46 (46/69) PQ ORS. PT. 2,944,583. S. 15,655 P. PT. 26,14(, FR, G, NL) G. PT. 2,35,76 G. S. 99,685 JP. U. M 1,589,58 JP. U. M 1,621,895 JP. U. M PU. 85(6) ,647,781 JP. U. M PU. 86(61) JP. S. 58,81 JP. S. 649,618 KR. U. M 23,487 NL. PT. 178,826 NL. S. 5,777 US. PT. 4,352,8 US. S. 264, ø 1 P44PQ35/35Z-12 P44PQ4/4Z-12 P44PQ5/5Z-12 imensions in 1 2 ø 2 2 min. 35.1±.6 26.±.5 32.± ± ± ± ± ± ±.2.565± ± ± ±.9 28.±.6 37.± ± ± ± ± ± ± ± ± ±.12 5.± ±.5 44.±.7 2.± ± ± ± ± ± ± ± ±.12 ffective parameter 1 ( 1 ) L-value: 1kz,.5m, 1Ts ore loss: 1kz, 15mT, 1 ore loss: 5kz, 5mT, 1 e ( 2 ) e () Ve ( 3 ) P44PQ35/35Z ±25% P44PQ4/4Z ±25% P44PQ5/5Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 16±5% 315±5% 63±7% 16±5% 315±5% 63±7% 25±5% 4±5% 63±5% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item PQ35/ PFR PQ4/4-1112PFR PQ5/5-1112PFR

47 (47/69) PQ OINS W X ø Y øp Z imensions in ø X Y Z t PQ2/ PFR PQ2/2-1114PFR PQ26/2-1112PFR PQ26/ PFR PQ32/2-1112PFR PQ32/3-1112PFR PQ35/ PFR PQ4/4-1112PFR PQ5/5-1112PFR imensions in øp Terminal W () () pins 23. PQ2/ PFR PQ2/2-1114PFR.6 14 PQ26/2-1112PFR.8 12 PQ26/ PFR.8 12 PQ32/2-1112PFR PQ32/3-1112PFR PQ35/ PFR PQ4/4-1112PFR PQ5/5-1112PFR Parameter w ( 2 ) w () UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Wt (g) ccessory item FPQ2/ FPQ2/ FPQ26/ FPQ26/ FPQ32/ FPQ32/ FPQ35/ FPQ4/ FPQ5/5-

48 (48/69) onnecting Pin Patterns (2.54/.1 inch grids) View in mounting direction Item PQ2/ PFR Item PQ26/2-1112PFR Item PQ32/2-1112PFR 1.6 FPQ2/ PQ2/16 FPQ26/ FPQ32/ PQ32/2 Item PQ32/3-1112PFR PQ26/2 Item PQ2/2-1114PFR Item PQ26/ PFR FPQ2/2-2.8 PQ2/2 FPQ26/ PQ26/25 FPQ32/ PQ32/3 Item PQ35/ PFR Item PQ4/4-1112PFR Item PQ5/5-1112PFR FPQ35/ PQ35/35 FPQ4/4-4.9 PQ4/4 FPQ5/5- PQ5/5 for bobbin for clamp imensions in

49 (49/69) LP ORS I. S. 19,581 P. PT. 68,745(, FR, G, NL) FR. S. 21,586 G. S. 1,7,2 JP. U. M PRO. PU. 82(57)-21,824 JP. S. 63,754 NL. S. 9,767 US. PT. 4,424,54 US. S. 28,81 ø 2 2 imensions in ø 2 2 I P44LP23/8Z-12 P44LP22/13Z-12 P44LP32/13Z ±.3.65± ±.4.984± ±.4.984± ±.3.492± ±.3.748± ±.3.748± ±.1.224±.4 8.6±.2.339±.8 8.6±.2.339± ±.2.921± ±.2.882± ± ±.8 8.7±.2.343± ±.3.58± ±.3.58± ±.2.685± ±.3.646± ±.3.949±.12 9.±.5.354± ±.5.531± ±.5.531±.2 L-value: 1kz,.5m, 1Ts ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P44LP23/8Z ±25% P44LP22/13Z ±25% P44LP32/13Z ±25% lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 63±5% 1±7% 25±13% 1±5% 2±7% 4±1% 1±5% 2±7% 4±1% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item LP23/8-18PFR LP22/13-111PLFR LP32/13-111PLFR

50 (5/69) LP OINS W Z ø Z ø X Type 1 Y øp X Type 2 øp Y Type imensions in X Y Z t LP23/8-18PLFR 1 LP22/13-18PLFR 1 LP22/13-111PLFR 2 LP32/13-18PLFR 1 LP32/13-111PLFR imensions in øp Terminal W () () pins 17.2 LP23/8-18PLFR LP22/13-18PLFR.8 8 LP22/13-111PLFR.8 1 LP32/13-18PLFR.8 8 LP32/13-111PLFR.8 1 UL Grade: 94V-, Pin material: Phosphor bronze wire/steel wire for -111-PLFR (Solder plated), Insulating divider s material: NOMX Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Include 2 pieces of insulating dividers. Insulating divider for LP22/13-111PLFR : ILP22/ Parameter w ( 2 ) Insulating divider for LP32/13-111PLFR : ILP32/13 w () Wt (g) Material lamp item PPS FLP23/ PPS FLP22/ FR Phenol FLP22/ PPS FLP32/ FR Phenol FLP32/ t=.5 t=.5 imensions in Minimum thickness of bobbin inside which core is placed, including flanges. PIN LYOUT LP23/8-18PLFR LP22/13-18PLFR LP22/13-111PLFR LP32/13-18PLFR LP32/13-111PLFR imensions in

51 (51/69) P ORS US. PT. 4,76,366 P. PT. 245,83(, FR, G, NL) KS. UM 5,836 TW. UM 39,46 JP. PNING 2 F 1 Type 1 F 1 2 Type Type 3 F F 1 2 Type 4 P44P1-Z P5P1-Z 3 P44P13-Z P5P13-Z 1 P44P17-Z P5P17-Z 1 P44P19-Z P5P19-Z 1 P44P25-Z P5P25-Z 1 P44P25-Z P5P25-Z 2 P44P27-Z P5P27-Z 1 P44P27N-Z 4 P44P3-Z P5P3-Z Type 1 imensions in 1 2 F min. min. 1.2± ±.1 1.9±.1 4.5± ± ±.1.42± ±.4.75±.4.159± ±.4.14± ± ± ±.1 6.6± ± ±.2.522± ±.6.81±.4.26± ±.6.177± ± ± ± ± ± ±.2.693± ±.6.11±.4.337± ±.6.238± ± ± ± ± ± ±.2.752± ±.6.98±.4.384± ±.6.285± ± ±.2 4.± ± ±.2 9.±.3.988± ±.8.157±.4.492± ±.8.354± ± ±.2 2.5± ± ± ± ± ±.8.98±.6.45± ±.8.346± ± ±.3 4.±.1 16.± ±.2 12.± ± ± ±.4.63± ±.8.472± ± ± ±.1 13.± ±.1 8.5± ± ±.6.87±.4.512± ±.4.335±.4 3.1± ±.3 4.± ± ±.2 13.± ± ± ±.4.689± ±.8.512±.12 ffective parameter 1 ( 1 ) e ( 2 ) e () Ve ( 3 ) P44P1-Z 1±25% P5P1-Z 66±25% P44P13-Z 87±25% P5P13-Z 56±25% P44P17-Z 115±25% P5P17-Z 74±25% P44P19-Z 94±25% P5P19-Z 68±25% P44P25-Z 156±25% P5P25-Z 18±25% P44P25-Z 156±25% P5P25-Z 18±25% P44P27-Z 154±25% P5P27-Z 13±25% P44P27N-Z ±25% P44P3-Z P5P3-Z L-value: 1kz,.5m, 1Ts ore loss: 5kz, 5mT, 1 lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 157±25% 16±25% 4±7% 63±1% 4±4% 63±5% 8±4% 125±5% 8±4% 125±5% 125±5% 2±7% 8±5% 125±7% 125±5% 2±7% 8±5% 125±7% 125±5% 2±7% ore loss (W) max. Wt 1kz, 2mT, (g) obbin item P1-118GFR.14 P13-111PFR P13-111GFR.35 P17-111PFR P17-119GFR.4 P PFR P19-111GFR P PFR P GFR P PFR.73 1 P27N-1114PFR P3-1112PFR

52 (52/69) P OINS Lead through type rop in type Z øp P X Z Y X Y SM type Z Pt Pw X Y P2 P2 P1 P1 P3 P1 Type 1 P1 P1 Type 2 Type 3 W P1 P3 P3 P3 P1 P2 P2 P2 P3 P3 P3 P3 P3 W P1 Type 4 W P1 Type 6 P1 Type 7 P1 Type 8 P1 Type 9 P1 Type 1

53 (53/69) P OINS Lead through type imensions in X Y Z t P13-111PFR P17-111PFR P PFR P PFR P PFR P27N-1114PFR P3-1112PFR imensions in øp P1 P2 P3 Terminal W () () () () () pins 13.9 P13-111PFR P17-111PFR P PFR P PFR P PFR P27N-1114PFR P3-1112PFR Parameter w ( 2 ) UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated), Phosphor bronze (Solder plated) for P GFR only. Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges w () Wt (g) onnecting pin pattern Type Type Type Type Type Type Type 3

54 (54/69) P OINS SM type imensions in X Y Z t P1-118GFR P13-111GFR P17-119GFR P19-111GFR P GFR imensions in Pt Pw P1 P2 P3 Terminal W () () () () () pins 11. P1-118GFR P13-111GFR P17-119GFR P19-111GFR P GFR Parameter w ( 2 ) UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated), Phosphor bronze (Solder plated) for P GFR only. Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges w () Wt (g) onnecting pin pattern Type Type Type Type Type 1 rop in type imensions in X Y Z t P19-111SFR P SFR imensions in Pt Pw P1 P2 P3 Terminal W () () () () () pins 2.2 P19-111SFR P SFR Parameter w ( 2 ) UL Grade: 94V-, Material: FR phenol, Pin material: Steel wire (Solder plated), Phosphor bronze (Solder plated) for P GFR only. Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges w () Wt (g) onnecting pin pattern Type Type 1

55 (55/69) P SSORIS imensions in t Material FP-1- FP-13- FP-17- FP-19- FP-25- FP-25- FP-27- FP Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel Stainless steel t

56 (56/69) P ORS ø 2 2 imensions in ø 2 2 P4P7-Z P4P1-Z P5P1-Z P4P13-Z P5P13-Z P4P17-Z P4P2-Z 9.2±.2.362± ±.3.453± ±.3.492± ±.4.79± ±.5.945±.2 7.4±.2.291±.8 9.4±.2.37±.8 1.±.3.394± ±.4.472± ±.4.65± ±.1.13±.4 3.3±.15.13± ± ± ± ± ± ±.1 7.4±.1.291±.4 1.2±.2.42± ±.15.56± ±.2.661± ±.2.843± ±.15.25± ±.2.31±.8 8.8±.2.346±.8 11.± ± ± ± ±.2.25±.8 7.4±.2.291±.8 9.2±.2.362± ±.3.445± ±.3.563±.12 ffective parameter 1 ( 1 ) L-value: 1kz,.5m, 1Ts ore loss: 5kz, 5mT, 1 e ( 2 ) e () Ve ( 3 ) P4P7-Z min. P4P1-Z 8 min P5P1-Z 8±25% P4P13-Z 117 min P5P13-Z 11±25% P4P17-Z min. P4P2-Z min. lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 63±3% 1±4% 63±3% 1±4% 1±3% 16±3% 1±5% 25±7% 1±5% 25±7% ore loss (W) max. 1kz, 2mT, 1 Wt (g) obbin item P7-316FR P1-318FR P13-311FR P17-318FR P2-811FR

57 (57/69) P OINS ø Z P3 W X øp Y P1 ø1.2 P2 imensions in ø X Y Z t P7-316FR P1-318FR P13-311FR P17-318FR P2-811FR imensions in øp P1 P2 P3 Terminal W () () () () () pins 9.4 P7-316FR P1-318FR P13-311FR P17-318FR P2-811FR Parameter w ( 2 ) UL Grade: 94V-, Material: FR phenol, Pin material: Phosphor bronze (Solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges w () Wt (g) ccessory item FP FP FP FP FP-2-

58 (58/69) RM SRIS ores RM4 to RM14 obbins RM4 to RM14 ccessories FRM4 to FRM14 Ordering ode System ores P4 RM Material Size of RM core L-value(Z: without air gap) Number of Lead Slot Type obbins Symbol of obbin Size of RM core ode of obbin Material RM6 714 PFR Type of Terminal Pin Number of Terminal Pin Number of Section ccessories Symbol of ccessory F RM6 FR Type of ccessory Size of RM core

59 (59/69) RM ORS I I I F ø 2 2 Type 1 Type 2 Type 3 P4RM4Z-12 P5RM4Z-12 1 P4RM5Z-12 P5RM5Z-12 1 P4RM6Z-12 P5RM6Z-12 3 P4RM8Z-12 2 P4RM1Z-12 2 P4RM12Z-12 2 P4RM14Z-12 1 Type imensions in ø 2 F 2 I min. 9.63± ±.2 3.8±.1 1.4± ±.2 7.2± ± ±.7.321±.8.15±.4.49± ±.8.283±.8.175± ± ±.2 4.8±.1 1.4± ±.3 6.5±.2 6.6±.2.474±.1.49±.8.189±.4.49± ± ±.8.26± ± ± ± ± ±.3 8.2±.2 8.±.2.567± ±.1.248±.4.488± ± ±.8.315± ± ±.3 8.4± ± ± ±.2 1.8±.2.762± ± ±.6.646± ± ±.8.425± ± ± ± ± ± ± ± ± ± ±.8.732± ±.26.5± ± ± ± ± ± ± ±.3 16.± ± ±.2.496±.8.925± ± ±.12.63± ± ± ± ± ± ± ± ± ±.2.581± ± ± ± ±.12 ffective parameter 1 ( 1 ) L-value: 1kz,.5m, 1Ts ore loss: 5kz, 5mT, 1 e ( 2 ) e () Ve ( 3 ) P4RM4Z min P5RM4Z-12 96±25% P4RM5Z min P5RM5Z ±25% P4RM6Z ±25% P5RM6Z-12 17±25% P4RM8Z min. P4RM1Z ±25% P4RM12Z min. P4RM14Z min. lectrical characteristics L-value (n/n 2 ) Without air gap With air gap 63±3% 1±3% 16±3% 63±3% 1±3% 16±3% 1±3% 16±3% 25±3% 1±3% 16±3% 25±3% 16±3% 25±3% 4±3% 16±3% 25±3% 4±3% 16±3% 25±3% 4±3% ore loss (W) max. 1kz, 2mT, Wt (g) obbin item RM4-714SFR RM4-716SFR RM5-714PFR RM5-716PFR RM6-714PFR RM6-716PFR RM8-718PFR RM8-7112PFR RM1-711SNFR RM1-7112SFR RM PFR RM PFR RM14-711PFR RM PFR

60 (6/69) RM OINS R øp Y ø ø X Z W imensions in ø ø X Y Z t RM4-716SFR RM5-716PFR RM6-716PFR RM8-718PFR RM1-7112SFR RM PFR RM PFR imensions in øp Terminal W () () pins RM4-716SFR.45 6 RM5-716PFR.5 6 RM6-716PFR.6 6 RM8-718PFR.6 8 RM1-7112SFR RM PFR.8 12 RM PFR.8 12 Parameter w ( 2 ) w () UL Grade: 94V-, Material: FR phenol Pin material: PFR type is steel wire (solder plated) SFR and SNFR types are phospnor bronz wire(solder plated) Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin inside which core is placed, including flanges Wt (g) Other bobbins item ccessory item RM4-714SFR FRM4-FR RM5-714PFR FRM5-FR RM6-714PFR FRM6-FR RM8-7112PFR FRM8-FR RM1-711SNFR FRM1-FR RM PFR FRM12-FR RM14-711PFR FRM14-FR

61 (61/69) onnecting Pin Patterns (2.54/.1 inch grids) View in mounting direction RM4-714SFR RM5-714PFR RM6-714PFR RM8-718PFR RM4-716SFR RM5-716PFR RM6-716PFR RM8-7112PFR RM1-711SNFR RM PFR RM PFR RM1-7112SFR RM PFR RM14-711PFR for bobbin for clip

62 (62/69) SM ORS ores 5, 8.9/8 R9.5/5, R11/3.9, R11/5 R14.5/6 M12.7/13.7 obbins 5, 8.9/8 R9.5/5, R11/3.9, R11/5 R14.5/6 M12.7 Ordering ode System ores Material Size of core P44 R9.5/5 1 L-value(Z: without air gap) obbins Symbol of obbin Size of core ode of obbin Material R9.5/5 118 GFR Type of Terminal Pin Number of Terminal Pin Number of Section

63 (63/69), R N M ORS 1 I1 I2 ø1 I1 1 I1 2 2 F 2 2 F 2 2 F 2 Type 1 Type 2 Type 3 Type imensions in F 2 I1 I2 P445-Z 1 P448.9/8-Z 1 P44R9.5/5-Z P5R9.5/5-Z P44R11/3.9-Z P5R11/3.9-Z P44R11/5-Z P5R11/5-Z P44R14.5/6-Z P5R14.5/6-Z P44M12.7/13.7-Z P5M12.7/13.7-Z ±.5.27±.2 5.3±.1.29± ±.2 8.±.3.349±.8.315± ± ±.1.368±.6.193± ± ±.1.426±.7.152± ± ±.1.426±.7.193± ±.2 5.9±.1.571±.8.232± ± ±.3.52±.1.539± ±.5.53±.2 1.9±.12.75±.5 3.4±.1.134± ± ± ± ±.5 4.7±.1.185±.4 6.±.1.236± ±.1.73±.4.7± ±.5.28±.2.77± ±.2 1.9±.12.75±.8.75±.8 4.9±.1.193±.4 5.9±.1.232±.4 5.9±.1.232±.4 6.7±.1.264±.4 1.7±.1 3.3±.15.67±.4.13± ± min..177±.12.2 min. 3.35± ± ±.4.3±.5 2.1± ±.15.83±.6.348± ± ± ±.6.348±.6 3.3± ±.2.13±.8.465±.8 9.1±.3 9. min..358± min. 7. min..276 min. 7.9 min..311 min. 7.9 min..311 min. 11.8±.2.465±.8 ffective parameter lectrical characteristics Wt 1 e e Ve L-value (n/n 2 ) obbin item (g) ( 1 ) ( 2 ) () ( 3 ) Without air gap With air gap P445-Z min FFR P448.9/8-Z ±25%.6 8.9/8-118GFR P44R9.5/5-Z P5R9.5/5-Z P44R11/3.9-Z P5R11/3.9-Z P44R11/5-Z P5R11/5-Z P44R14.5/6-Z P5R14.5/6-Z P44M12.7/13.7-Z P5M12.7/13.7-Z L-value: 1kz,.5m, 1Ts 61 min. 75±25% 14 min. 11±25% 87 min. 96±25% 128 min. 115±25% 82±25% 58±25% 63±5% 1±7% 63±5% 1±7% 63±5% 1±7% 1±5% 16±7% 4±5% 63±7%.6 R9.5/5-118GFR.8 R11/ GFR 1. R11/5-111GFR 1.8 R14.5/6-111GFR 1.9 M GFR

64 (64/69), R N M OINS Pin layout Item 5-916FFR Z 1.85 Pt.5 X Type 1.5 Y Pin layout Item 8.9/8-118GFR.6.6 Y ø ø Pt Type 3 X Z Pin layout Item M GFR Pin layout Item R9.5/5-118GFR Pt 8. Pin layout Item R11/5-111GFR & (R11/ GFR) X Z Type 2.7 Y Pin layout Item R14.5/6-111GFR.53 W imensions in Z 2. Pt Y X Type 4 imensions in Type imensions in X Y Z t 5-916FFR 5-926F1FR 1 8.9/8-118GFR 2 M GFR 3 R9.5/5-118GFR 4 R11/ GFR 4 R11/5-111GFR 4 R14.5/6-111GFR FFR 5-926F1FR /8-118GFR M GFR R9.5/5-118GFR R11/ GFR R11/5-111GFR R14.5/6-111GFR imensions in Pt Pw Terminal W () () pins Parameter w ( 2 ) w () Material iallyl Phtalate UL Grade: 94V-, Material of pins: F, G types are Phosphor bronze wire (Solder plated), G type is Steel wire (Solder plated). Maximum number of turns N that can be wound on bobbins, see section of Maximum number of Turns on obbins. Minimum thickness of bobbin. 8-pin is available ( R11/5-118GFR). Wt (g) FR Phenol.17 ccessory item F FR Phenol.31 FM12.7/ FR Phenol.16 FR9.5/ FR Phenol.21 FR11/ FR Phenol.21 FR11/ FR Phenol.55 FR14.5/6-

65 (65/69) T, UU N FT SRIS ores T2 to 35 UU1.1 to UU19.7 FT2.6 Ordering ode System ores Material Size of U core S72 UU 1.1 Size

66 (66/69) T N UU ORS T ores a a c a-a F F L-value (n/n 2 ) imensions in F e ( 2 ) e () S72T2 31 S72T24 26 S72T S1T ±3% S72T % 25% +4% 25% +4% 25% +4% 25% L-value: 1kz,.25/m, 1Ts 2.1±.4 2.1±.4 4.±.2 4.4±.2 2.±.15 2.± ± ± ±.8.173±.8.79±.6.79± ± ±.5 4.±.2 4.±.3 2.4± ± ±.2.953±.2.157±.8.157±.12.94±.6.94± ± ±.55 5.±.2 5.±.3 2.9± ± ± ± ±.8.197± ±.6.114± ± ±.55 5.±.2 5.±.3 2.9± ± ± ± ±.8.197± ±.6.114± ± ±.6 7.5±.3 7.5±.3 4.±.2 4.± ± ± ± ± ±.8.157± UU ores hamfer L-value (n/n 2 ) imensions in e ( 2 ) e () S72UU1.1 15±25% S72UU1.5 15±25% S72UU ±25% S72UU ±25% L-value: 1kz,.25/m, 1Ts 1.1±.3 7.5± ± ± ± ± ±.1.177±.1.114±.6.116±.6 1.5±.3 7.8± ±.3 5.±.2 2.5±.2.413±.12.37±.8.27± ±.8.98± ±.4 9.7±.25 6.±.3 6.± ± ±.1.236± ± ± ± ±.3 6.±.3 6.±.3.776± ± ± ± ±

67 (67/69) FT ORS 2.6±.3[.811±.12] 14.1±.25[.555±.1] 2.4±.2 [.94±.8] 7.35[.289]min. 2.3±.15 [.91±.6] 15.7[.618]min. 2.3± ±.2 [.91±.6] [.181±.8] 4.2±.2 [.165±.8] imensions in [] L-value: 1kz,.25/m, 1Ts L-value (n/n 2 ) +4% 3% e ( 2 ) e () S72FT S1FT ±3%

68 (68/69) TOROIL ORS TK s toroidal cores are available in a number of sizes. Therefore, by selecting the ferrite material which corresponds to the application, it is possible to design stable transformers, inductors, etc. to cover a wide band range. FTURS Selection of core material to correspond to the application is possible as a result of standard ferrite materials with µi=55 to 1. poxy and paraxylylene insulation coating is available. PPLITIONS hoke coils, filters, current sensors, MI/RFI filters, balun transformers. T14 to T44.5 Material: S52, S72, S1 Ordering ode System ores Material Symbol of Toroidal core S52 T Inside iameter Thickness Outside iameter

69 (69/69) T ORS R or R or ø ø 2569 T T FOR T T FOR T T T FOR T T T FOR imensions in ffective parameter ø ø 1 ( 1 ) e ( 2 ) 14.±.3 8.±.3 7.±.3.551± ± ± ±.3 1.±.3 1.±.3.79± ± ± ±.3 12.±.3 8.±.3.63± ± ± ±.4 12.±.4 1.±.3.787± ± ± ±.4 14.±.4 6.5±.3.866± ± ± ±.4 15.±.4 13.±.3.984± ± ± ±.4 16.±.4 13.± ±.16.63± ± ±.5 19.±.5 8.± ±.2.748±.2.315± ±.5 22.±.5 14.± ±.2.866±.2.551± ±.5 3.±.5 13.± ± ±.2.512± L-value: 1kz, 1mV, 1Ts L-value: 1kz, 1mV, 5Ts L-value: 1kz, 1mV, 1Ts ffective parameter L-value (n/n 2 ) e Ve R or Material () ( 3 ) S52 S72 S1 T ±25% 51±25% 68±3% 3.4 T ±25% 88±25% 115±3% 8.3 T ±25% 34±25% 45±3% 3.4 T ±25% 76±25% 1±3% 9.5 T ±25% 44±25% 575±3% 6.9 T ±25% 99±25% 13±3% 19 T ±25% 17±25% 142±3% 26 T ±25% 58±25% 77±3% 17 T ±25% 17±25% 5 T ±25% 71±25% 53 an be coated with epoxy. If epoxy-coated products are desired, please suffix to part No. when ordering. x. S52 T Outer diameter(ø) 1 min.(t1): poxy coating 8 max.(t8): Paraxylylene coating ielectric breakdown voltage 1Vd.c. min. Wt (g)