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?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 vol.05 http://www.nec-tokin.com ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 2 contents introduction ???????????????????????? 3 precautions before use ????????????????????? 4 notes on design ??????????????????????? 4 notes of caution on handling and usage ???????????? 5 terms and definitions ?????????????????????? 6 high-b compound standard material characteristics ???????? 9 high- compound standard material characteristics ???????? 12 e type ferrite cores ?????????????????????? 13 fei-type cores ??????????????????????? 14 fee-type cores ??????????????????????? 15 e-type bobbins ??????????????????????? 17 feer type ferrite cores ???????????????????? 18 feer-type cores ?????????????????????? 19 feer-type bobbins ????????????????????? 20 fpq type ferrite cores ???????????????????? 21 fpq-type cores ??????????????????????? 22 fpq-type bobbins ?????????????????????? 23 fqk type ferrite cores ???????????????????? 24 fqk-type cores ??????????????????????? 25 fqk-type bobbins ?????????????????????? 26 fep type ferrite cores ????????????????????? 27 fep-type cores ??????????????????????? 27 p type ferrite cores ?????????????????????? 28 p-type cores ???????????????????????? 28 rm type ferrite cores ????????????????????? 29 rm-type cores ??????????????????????? 29 fuu type ferrite cores ???????????????????? 30 fuu-type cores ??????????????????????? 30 toroidal cores ????????????????????????? 31 bh2 compound technical data ????????????????? 33 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 3 'fssjuf$psft70- */530%6$5*0/ because soft ferrite, such as mofe 2 o 3 (m:bivalent metal), in the high-frequency range has high magnetic permeability, a large degree of saturation magnetic flux and large characteristic resistance compared to metallic magnetic materials, it is extremely populer as a high- frequency compound. as switching power supplies rapidly become more compact and thinner, requirements for ferrite as a high-frequency transformer material are becoming increasingly stringent. to meet these demands, nec tokin has enhanced its lineup of ferrite cores by adding the bh1 and bh2 types (-300 khz) which feature improved core loss over the b25 type (-300 khz), and b40 (500 khz -1 mhz) with improved core loss in high frequencies. further, the requirements of larger power supply capacities, increasing thinness and high density mounting are met by the e,fpq, fep, feer and fqk series, as well as the surface-mounting fey series. e type cores this series features 46 shapes and sizes from fei 12.5 to fee60w, standard-equipped with accessories for accommo- dating different transformer specifications. fpq type cores this series features eight shapes and sizes suitable for high density mounting. feer type cores this series features 19 shapes and sizes with greater winding cross-sectional area than the e and fpq types. fey type cores this series features htree shapes and sizes suitable for ultra high-density mounting. ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 12) take note of the following information when selecting mem- bers (bobbin, metal fittings, tape, adhesives, saturants, and coat- ings) to use in combination with the ferrite core. 1 members that do not corrode or react. 2 members with coefficients of thermal expansion as close as possible to ferrite. 3 members that do not add thermal shock (such as casting chemicals). 4 members that can withstand transformer heat genera tion, and particularly those that do not were down wires. 13) the coefficients of thermal expansion for the ferrite core and bobbin differ greatly. securing the core and bobbin with satu- rants and adhesives will cause the bobbin to expand from heating when the adhesive hardens or heat release during operation. this will place stress on the core, possibly causing it to break. allow sufficient clearance between the core and bobbin. 14) when there is unbalance from a circuit being split two or more times, the flux will concentrate on the side where the flow is the easiest and may result in abnormal heating and even fire. 15) when a bifilar wiring is made by, for example, a wire con- tainer, and the wire gage and length is different or the number of coils are different, the electrical current will tend to flow in only the easiest way, resulting in heating and fire. 16) designs should keep abnormal current resulting from a prob- lem in another circuit from flowing into the transformer. 17) when used as a transformer, heat will be released. designs should ensure that surrounding parts will not deteriorate or be destroyed by that heat. 18) regarding equipment where the user is able to touch the core, make sure to provide extensive warnings and instructions to the user so they will not get shocked or burned by touching the core. precautions before use notes on design 1) when selecting the material and shape for the ferrite core, strictly observe the limits given in the catalog (product manual) regarding such things as the l value, maximum saturation, mag- netic flux density, and core loss. 2) select a ferrite core having temperature and frequency proper- ties for the core loss that meet the demands of the equipment to be used. 3) abnormal heat release may result if used under high frequen- cies or in strong magnetic fields. select a ferrite core that has the appropriate properties such as a low core loss. 4) in an environment where the curie point is exceeded, the fer- rite core may lose its intrinsic properties, causing the equipment to malfunction. use only in a temperature range that stays below the curie point. 5) give careful consideration to the balance of the ferrite core's thickness when designing a shape. 6) when designing a bobbin, set measurements and select bob- bin materials that meet the requirements (frame class, thickness, hwi, hai, hvtr, cti, and d495) of safety standards such as ul. 7) working on the coil could destroy the ferrite core owing to the coil's thickness or damage the coil itself, so designs should pro- vide adequate clearance between the core and coil. 8) for inserting the ferrite core into a case, designs should pro- vide adequate clearance between the core and case. the core may break unnecessary force is applied. 9) the insulation resistance of the ferrite core is not high. do not use it as an insulator. also, do not use it for other purposes (such as electrical circuit element). 10) for ferrite cores that have low resistivity such as mn-zn cores, make sure to provide sufficient insulation with insulation protection covers and tape, etc. 11) when resins such as adhesives, saturants, and coatings are used, excessive stress may arise in the ferrite core owing to the difference in coefficients of thermal expansion, resulting in the core breaking. it is best not to use such resins, but if their use cannot be avoided, use one with a coefficient of thermal expan- sion that is close to that of the core. in addition, select non-corro- sive resin for the core and members to be used. 19) since leakage flux may cause equipment to malfunction, check in advance for its effects on the equipment you are using and ueardy equipment, and then take the appropriate actions. 'fssjuf$psft70- 4 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 notes of caution on handling and us- age 1) the ferrite core is a sinter. make sure to handle it carefully as it has low tolerance for impact such as being knocked or dorpped, which may cause it to break or chip. using it without realizing that it is broken will result in degradation of its properties and heat release. in addition, chipped fragments may result in injury or even get into the eye. 2) the ferrite core is a magnetic substance. when there is a strong magnet nearby, the core will be quickly attracted to it, and there is the possibility that the core will be destroyed by the im- pact. there is also the danger that a finger or the like may be crushed between the two. 3) the ground surface of the ferrite core has sharp edges be- cause it is not beveled so as to prevent decreased performance. in addition, there may be a minute amount of burr. carelessly touching it may lead to injury. 4) do not apply force to the ferrite core beyond the prescribed amount. otherwise, the core may break or chip the core. 5) do not allow the ferrite core and jigs or two cores to collide. failing to observe this may destroy the core(s). 6) when securing the ferrite core, do not apply stress beyond the necessary amount. failing to observe this may break or chip the core, reducing its properties. 7) do not expose the ferrite core to rapid temperature extremes (thermal shock). failing to observe this may break or chip the core. 8) when performing molding or such, the core may break or chip on account of rapid changes in humidity and expansion differ- ences between resins. carefully evaluate the materials you iutend using. 9) there are some ferrite cores that are heavy. packing boxes may fall over if stacked too high. limit the height when stacking them. 10) there are some ferrite cores that are heavy. when movingtheir packing boxes, take due care to prevent injury or backache. 11) since there is the possibility of damage by vibration, falling, or other sources of physical shock when transporting ferrite cores and transformers that use these cores, take care to provide ad- equate packing to prevent such damage. 12) the ferrite core should be kept away from rapid temperature changes, corrosive gases, dust, and humidity. care should also be taken to isolate it from vibration when transporting and storing it. 13) impact may cause the inductance of ferrite cores to change. 14) if the ferrite core is magnetized once by a strong magnet, it may lose its prescribed properties. 15) if the ferrite core is used for a coil, wrap the wire with the tension appropriate for the core's thickness and the tapering shape. applying tension beyond the prescribed amount when wrapping the coil may break or chip the core. 16) when the ferrite core is directly used for a coil, the wire may be damaged by the burr on the core's surface, resulting in a short circuit. select a core that has had its burr removed or has been coated. 17) when the ferrite core is directly used for a coil, the wire may be damaged by tension or friction, resulting in a short circuit. the wire may also be damaged by kinks or the jigs and tools used when adjusting the transformer. take adequate care when per- forming work. 18) when wrapping a coil or during assembly, adjust the equip- ment so that the core is not struck hard and no excessive stress is applied, and make sure to handle it as delicately as possible. 19) the ferrite core should not be placed in the mouth. make sure to keep it away from young children. 20) use the ferrite core under normal temperatures and in nor- mal surroundings. 21) if core fragments or other debris get in the ferrite core's ground surface, inductance will lower and howling will result. 22) when cutting the ferrite core, take measures to prevent injury such as providing a cover or protector so that debris and chips will not fly in all directions. in addition, note the following informa- tion to prevent the core from breaking or chipping. 1 select a grindstone with the properties for the core's quali ties. 2 adjust cooling agents and their conditions (amount, tem perature, and quality). 3 for shapes that require a large amount of grinding, do not grind all at once. instead, grind a little bit at a time. 4 use an exhaust system to prevent the aspiration of dust produced when cutting the ferrite core. 'fssjuf$psft70- 5 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 6 terms and definitions alternating current initial magnetic permeability i at the initial magnetization curve's origin point, the magnetic per meability of the magnetic core is used as shown in the formu- la below. i = here 0 : vacuum magnetic permeability h : alternating current magnetic field strength (a/m) b : alternating current magnetic flux density (t) effective magnetic permeability e in the magnetic core of a closed magnetic circuit (one in which flux leakage can be ignored), this refers to the magnetic perme- ability indicated in the following formula through the effective self-inductance. here l : effective self-inductance (h) n : number of all windings m : magnetic path lengths (cm) of each of the same mate- rials and same cross-section areas a : each of the cross-section areas (cm 2 ) : each of the materials' magnetic permeabilities note : the first formula is used in measurement and the second in calculating when the dimensions and magnetic permeabilities of each part of the magnetic core are given. effective saturation magnetic flux density bms(g ; t) this refers to the saturation magnetic flux density in actual use. b 10 : bms with magnetic field 10 oe (796a/m) b 15 : bms with magnetic field 15 oe (1194a/m) effective saturation residual coercive force brms(g ; t) this refers to the magnetic flux density when the magnetic field is removed from the condition of effective saturation magnetic flux density. effective saturation coercive force hcms(oe ; a/m) when the magnetic field is removed from the condition of effec- tive saturation magnetic flux density and further magnetized in the opposite direction, this refers to the strength of the magnetic field in which the magnetic flux becomes 0. loss factor tan this refers to the hysteresis loss factor, vortex current loss fac- tor and residual loss factor. the hysteresis loss coefficient (h 1 ),vortex current loss coefficient (e 1 ) and residual loss coeffi- cient (r 1 ) are represented by the following formula. b h lim h 0 1 0 m = tan m b m i = tan i h i ba : saturation magnetic flux density bms : effective saturation magnetic flux density bm : maximum magnetic flux density brs : saturation residual magnetic flux density brms : effective saturation residual magnetic flux density br : residual magnetic flux density b hcs : saturation coercive force hcms : effective saturation coercive force hc : coercive force hms : effective saturation magnetic field strength hm : maximum magnetic field strength bs bms brs bm br hcs hcms hc hm hcms hms h h brms hc e = l 10 9 4 n 2 r a e = r a / r a ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 7 tan == = tan h + tan e + tan r = h 1 i + e 1 f + r 1 here rm: loss resistance ( ) of the magnetic core alone reff: loss resistance ( ) of the coil including the mangetic core rw: loss resistance ( ) of the windings alone l: inductance (h) of the coil including the magnetic core v: magnetic core volume (mm) i: current (a) : angular frequency 2 f(rad/s) f: frequency (hz) tan h : hysteresis loss factor tan e : vortex current loss factor tan r : residual loss factor h 1 : hysteresis loss coefficient e 1 : vortex current loss coefficient r 1 : residual loss coefficient however with ferrite, separate calculation of tan e and tan r is difficult, so it is convenient to express them together as follows. tan = tan h + tan f this refers to the value of the loss factor divided by the alternat- ing current initial magnetic permeability. = note: the following formula applies when the magnetic circuit gap is small. with gap without gap as shown in the next formula, this refers to the value when h 1 =1000. h 10 = h 1 ? "relative temperature factor for initial magnetic permeability" re- fers to the "temperature factor for initial magnetic permeability" divided by "initial magnetic permeability" 1 . == . (t 2 > t 1 ) ? = . (t 2 > t 1 ) 1 : initial magnetic permeability at temperature t 1 2 : initial magnetic permeability at temperature t 2 1 t 2 --- t 1 2 --- 1 2 1 1 t 2 --- t 1 2 --- 1 1 i i 3 2 ? ? ? 1000 ? ? ? ? ? ? tan i ? ? ? ? ? ? tan e ? ? ? "s ( 's) 2 tan i l v reff --- rw l rm l ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 8 curie temperature tc ( ? c) this refers to the ambient temperature at which the magnetic core shifts from strong magnetism to paramagnetism. in actual practice, to obtain the curie temperature, the specimen's initial magnetic permeability is measured and the relationship of this to temperature is drawn in a diagram. at the bottom, the exten- sion of the line linking the 80% of maximum point and the 20% of maximum point is taken as the curie temperature. disaccommodation factor d f this factor applies when the fluctuation of magnetic permeabili- ty over time seems to be mostly linear with the time logarithm. it is expressed by the following formula. d f = . (t 2 > t 1 ) here 1 : following complete demagnetization, the magnetic permeability after the passage of t 1 seconds. 2 : following complete demagnetization, the magnetic permeability after the passage of t 2 seconds. induction factor al as shown in the following formula, this refers to self-inductance that occurs per unit winding in a coil of constant shape and dimensions wound around the magnetic core. al = here l: self-inductance (h) in the coil when there is a mag- netic core n: number of all the coil's windings resistance (
~ m) this refers to the electrical resistance per unit cross-section area and unit length. density d (kg/m 2 ) this is calculated as follows from the magnetic core volume and weight. d = (kg/m 3 ) here w: magnetic core weight (kg) v : magnetic core volume (m 3 ) for the most part the preceding definitions are based on jis c2560 "ferrite magnetic core regulations." w v l n 2 1 1 2 1 --- 2 log 10 t 2 t 1 maximum value for 80% of the maximum value for 20% of the maximum value for curie temperature (tc) temp [ c] i i i ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 9 )jhi#$pnqpvoe4uboebse.bufsjbm$ibsbdufsjtujdt .bufsjbm.pefm #) #) #) #) #) # *ojujbmqfsnfbcjmjuz i 2300?0% 2300?0% 1800?0% 2300?0% 1600?0% 1500?0% 3fmbujwfiztufsftjtmpttgbdups tan / i 10 ? <5 <6 <5 <5 <8 <3 23?c 550 600 600 600 1250 100khz 60?c 400 450 430 430 1100 200mt 80?c 320 430 380 400 100?c 300 410 370 450 1350 23?c 680 730 500 $psfmptt pcv kw/m 3 300khz 60?c 500 520 330 100mt 80?c 430 470 300 100?c 400 450 340 500khz 60?c 790 100mt 80?c 780 1mhz 60?c 360 50mt 80?c 380 $vsjfufnqfsbuvsf tc ?c 220 220 260 220 350 240 &ggfdujwftbuvsbujpo bms mt 23?c 520 510 540 520 600 530 nbhofujdgmvyefotjuz 100?c 410 400 440 410 490 430 &ggfdujwftbuvsbujpo brms mt 23?c 100 100 200 120 185 250 sftjevbmdpfsdjwfgpsdf 100?c 55 55 80 70 220 120 &ggfdujwftbuvsbujpodpfsdjwfgpsdf hc a/m 23?c 13 14.3 15 19 17.0 43.6 %fotjuz d kg/m 3 4.8 10 3 4.8 10 3 4.8 10 3 4.8 10 3 4.9 10 3 4.9 10 3 800 700 600 500 400 300 200 100 0 800 700 600 500 400 300 200 100 0 0 0 50 100 150 200 250 300 350 400 200 400 600 800 1000 1200 1400 1600 1800 2000 020 40 60 80 100 120 20 40 60 80 120 140 140 020 40 60 80 100 120 140 0 0 100 20 40 60 80 100 120 140 temperature( c) temperature( c) temperature( c) temperature( c) pcv(kw/m 3 ) pcv(kw/m 3 ) pcv(kw/m 3 ) pcv(kw/m 3 ) bh5 bh2 bh1 bh5 bh2 bh1 bh5 bh2 bh1 bh5 bh2 bh1 $psfmpttwt5fnqfsbuvsf 100khz,bm=200mt $psfmpttwt5fnqfsbuvsf #uzqfdpsfmpttwt5fnqfsbuvsf 4buvsbujponbhofujdgmvyefotjuzwt5fnqfsbuvsf 300khz,bm=100mt $psfmpttwt5fnqfsbuvsf 200khz,bm=100mt $psfmpttwt5fnqfsbuvsf 500khz,bm=100mt temperature ( c) 0 0 750 1500 20 40 60 80 100 120 140 500khz 100mt 1mhz 50mt pcv (kw/m ) 3 200 300 400 500 600 b40 bh1,bh2,bh5 bh1,bh2,bh5 temperature ( c) bm (mt) 0 20 40 60 80 100 120 140 160 bh3 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 10 temperature( c) characteristics of i vs. frequency characteristics of i vs. temperature 10 1000 100 10000 100 10 1 1000 10000 frequency(khz) b40 bh3 bh1,bh2,bh5 i i bh1,bh2 bh5 bh3 b40 12000 10000 8000 6000 4000 2000 0 0 50 100 150 200 250 300 bh1 type b-h curves at dc magnetic field bh2 type b-h curves at dc magnetic field b40 type b-h curves at dc magnetic field bh3 type b-h curves at dc magnetic field h (a/m) b (mt) 0 0 100 200 300 400 500 600 200 400 600 800 1200 1000 h (a/m) b (mt) 0 0 100 200 300 400 500 600 200 400 600 1000 1200 800 h (a/m) b (mt) 0 0 100 200 300 400 500 600 200 400 600 800 1000 1200 0 200 400 600 800 1000 1200 0 100 200 300 400 500 600 h (a/m) b (mt) 23 c 60 c 60 c 100 c 120 c 23 c 60 c 60 c 100 c 120 c 120 c 100 c 60 c 23 c 23 c 60 c 60 c 100 c 120 c bh5 type b-h curves at dc magnetic field h (a/m) b (mt) 0 0 100 200 300 400 500 600 200 400 600 800 1200 1000 23 c 60 c 60 c 100 c 120 c ? ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 11 bh1 type core loss vs. flux density bh2 type core loss vs. flux density bh1 type core loss vs. frequency 1 10 100 1000 10000 bm (mt) pcv (kw/m ) 3 pcv (kw/m ) 3 pcv (kw/m ) 3 f=100khz 10 1 10 100 1000 10000 100 frequency (khz) 1000 bm=200mt 10 1 10 100 1000 10000 100 bm (mt) 1000 f=100khz 25 c 25 c 25 c 25 c 25 c 25 c 100 c 100 c 100 c 100 c 100 c 100 c 60 c 60 c 60 c 10 100 1000 bh2 type core loss vs. frequency pcv (kw/m ) 3 10 1 10 100 1000 10000 100 frequency (khz) 1000 bm=200mt 25 c 25 c 100 c 100 c 60 c 60 c pcv (kw/m ) 3 10 1 100 1000 10000 100000 pcv (kw/m ) 3 10 1 100 1000 10000 100000 10 100 300 bm (mt) b40 type core loss vs. flux density f=500khz 25 c 25 c 100 c 100 c 60 c b40 type core loss vs. frequency 100 frequency (khz) 1000 bm=100mt 25 c 25 c 60 c 60 c 100 c 100 c ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 12 .bufsjbm.pefm ) ) ) ) ) *ojujbmqfsnfbcjmjuz i 5000?5% 7000?5% 10000?0% 12000?0% 15000?0% &ggfdujwftbuvsbujponbhofujdgmvyefotjuz bms 23?c mt 460 460 430 420 430 (h=800a/m) (h=800a/m) (h=800a/m) (h=800a/m) (h=800a/m) &ggfdujwftbuvsbujposftjevbmdpfsdjwfgpsdf brms 23?c mt 75 75 100 100 80 &ggfdujwftbuvsbujpodpfsdjwfgpsdf hcms 23?c a/m 7.0 5.0 3.5 3.2 2.0 3fmbujwfmpttgbdups tan / i 10 -6 <10 <10 <7 <7 <7 (100khz) (100khz) (10khz) (10khz) (10khz) $vsjfufnqfsbuvsf tc ?c >130 >130 >120 >125 >120 %jtbddpnnpebujpogbdups d f 10 -6 <3.0 <2.0 <2.0 <2.0 <2.0 %fotjuz d kg/m 3 4.9 10 3 4.9 10 3 4.9 10 3 4.9 10 3 5.0 10 3 15h 15h 6oefsefwfmpqnfou 6oefsefwfmpqnfou 5h 5h 5h 7h 12h 12h frequency (khz) 1 10 100 1000 10000 100 1000 10000 100000 i $ibsbdufsjtujdtpg j wt'sfrvfodz -40 0 40 80 120 160 0 5000 10000 15000 20000 25000 30000 temperature ( c) i 1h 10h 12h 7h 5h *ojujbmqfsnfbcjmjuzwt5fnqfsbuvsf b (mt) 5h type b-h curves at dc magnetic field 0 200 400 600 800 1000 h (a/m) 600 500 400 300 200 100 0 -30 c 0 c 20 c 40 c 70 c 100 c b (mt) 12h type b-h curves at dc magnetic field 02 0 0 400 600 800 1000 h (a/m) 600 500 400 300 200 100 0 -30 c 0 c 23 c 60 c 100 c 12h 10h 15h ? c 15h ? c 15h 15h 6oefsefwfmpqnfou 6oefsefwfmpqnfou 15h 6oefsefwfmpqnfou 15h 6oefsefwfmpqnfou )jhi$pnqpvoe4uboebse.bufsjbm$ibsbdufsjtujdt ????? [@& ??
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' * fei12.5 fei12.5 12.5?.2 7.3 +0.2 ? 5?.2 2.5 +0 ?.2 9.0 5 +0.2 ? 1.5?.1 fei16 fei16 16?.3 12 +0.4 ? 5 +0 ?.4 4?.2 11.8 10 +0.4 ? 1.5?.1 fei19 fei19 19.1?.3 13.3 +0.4 ? 5.2 +0 ?.4 4.7 +0 ?.4 14.4 11 +0.5 ? 2.3?.1 fei22 fei22 22?.3 14.3 +0.5 ? 6 +0 ?.5 6 +0 ?.5 13.0 10.3 +0.5 ? 4.5?.2 fei22s 22?.4 14.4 +0.5 ? 6 +0 ?.5 6 +0 ?.5 16.0 10.6 +0.4 ? 4?.2 fei25 fei25.4 25.3?.5 15.3 +0.5 ? 7 +0 ?.5 6.8 +0 ?.6 19.2 12.2 +0.4 ?.1 2.7?.2 fei28 fei28 28?.5 16.5 +0.5 ? 11 +0 ?.6 7.5 +0 ?.6 18.8 12 +0.5 ? 3.5?.3 fei30 fei30 30?.5 21 +0.5 ? 11 +0 ?.6 11 +0 ?.6 19.8 16 +0.5 ? 5.5?.2 fei33 fei33 33?.5 23.3?.3 13 +0 ?.6 10 +0 ?.6 23.2 18.8 +0.5 ? 5?.2 fei35 fei35a 35 +0.8 ?.5 23.8 +0.7 ? 10 +0 ?.5 10.3 +0 ?.6 25.0 18 +0.6 ? 5.5?.2 fei35s fei35c 35 +0.8 ?.5 23.8 +0.7 ? 12 +0 ?.6 10.3 +0 ?.6 25.0 18 +0.6 ? 5.5?.2 fei40 fei40 40?.5 27 +0.5 ? 12 +0 ?.7 12 +0 ?.7 27.2 20 +0.5 ? 7.5?.3 fei44 fei44 44?.6 30 +0.5 ? 15.3 +0 ?.6 12 +0 ?.6 31.2 23 +0.5 ? 7.0?.3 fei50 fei50 50?.7 33 +0.7 ? 15 +0 ?.8 15 +0 ?.8 34.0 24.5 +0.5 ? 9?.3 fei60 fei60 60?.8 35.5 +0.7 ? 16 +0 ?.8 16 +0 ?.8 44.1 27.5 +0.7 ? 8.5?.3 a e d f b ic shape and dimensions [mm] ????? [@& ??
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eb16-p1206-f 3 0.7 3.25 6.5 10.65 6 22.4 37.6 0.91 eb19-p1207-f 3 0.7 4.0 12.0 11.0 7 33.6 41 1.0 eb19w-p1208-f 1 0.8 3.75 12.5 12.5 8 62.4 49.6 3.0 eb22-p1210-f 1 0.8 4.0 16.0 12.05 10 19 42 2 eb22-p1110-fa 2 0.8 5.08 20.32 12.7 10 22.3 41 4.3 eb25-p1208-f 1 0.8 5.0 15.0 12.5 8 42.3 53 2.8 eb28-p1210-f 1 0.8 5.0 20.0 17.5 10 42.4 63 3.2 eb28-p1212-f 1 0.8 5.0 25.0 18.0 12 45.3 64 3.5 eb30-p1208-f 3 0.8 5.0 15.0 17.5 8 43.1 62 2.0 eb30-p1212-f 1 0.8 5.0 25.0 20.0 12 40 65 4.9 eb35s-p1212-f 1 0.8 5.0 27.5 20.0 12 85.7 78 6.4 eb40-p1210-f 3 0.8 5.0 20.0 25.0 10 105 76 5.2 eb40-p1212-f 1 0.8 5.0 25.0 22.5 12 120 76 6.7 eb40-p1114-fa 2 1.0 5.08 30.48 22.86 14 104.8 79.1 11.5 numbering system fb 22 - p12 10 - f ? $psftj[f ? 17fsujdbmuzqf|1)psj[poubmuzqf ? /vncfspgqjot ? .bufsjbm1ifopmsftjo #pccjot 5zqf " # $ & 9 : ; u njo
eb16-p1206-f 3 11.5 5.6 7.6 5.5 11.5 14 12.2 0.5 eb19-p1207-f 3 14.8 5.75 8.2 6 14.8 14.8 12 0.4 eb19w-p1208-f 1 13.8 7.3 19.2 6.5 17.5 17.7 29.3 0.8 eb22-p1210-f 1 12.6 7.95 8.35 6 20 15 16 0.85 eb22-p1110-fa 2 12.5 7.7 8.7 5 24 18.4 16.95 0.55 eb25-p1208-f 1 17.5 8.95 9.9 3.5 25 17.5 19.3 0.85 eb28-p1210-f 1 18.3 9.65 9.8 3.5 26 21.5 20.525 0.85 eb28-p1212-f 1 18.45 9.4 10 6.5 28.2 23.5 17 0.7 eb30-p1208-f 3 19.05 12.75 13.75 14.5 19.05 22 16.75 0.5 eb30-p1212-f 1 19.2 13.3 13.6 4.5 30 25 24.4 0.9 eb35s-p1212-f 1 23.9 12.64 15.425 5 34.5 27.5 27.425 0.9 eb40-p1210-f 3 26.35 14.15 17.2 16.5 26.35 30 22.4 0.7 eb40-p1212-f 1 26.5 14.3 17.7 4.5 32 28 15.6 0.9 eb40-p1114-fa 2 26.5 14.7 17.8 8 40 35 31.5 1.05 shape and dimensions a b t min. p 1 p 2 x ? y p 3 e c z a b p 1 p 2 x t min. ? c p 3 y f z e a b t min. y c z e p 3 p 1 p 2 x ? type 1 type 2 type 3 [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 18 '&&35zqf'fssjuf$psft '&&35zqf'fssjuf$psft $psft #pccjot 5zqf %jnfotjpot<nn> "#$ feer28 erb28-p1210-f 7fsujdbmuzqf 28.0 24.0 29.0 feer28l erb28l-p1212-f 7fsujdbmuzqf 28.0 24.0 35.0 feer29 feer30 feer34 feer35 erb35-p1212-f 7fsujdbmuzqf 35.0 28.0 35.0 feer35l feer39 feer39l erb39l-p1212-f 7fsujdbmuzqf 39.0 29.5 47.5 feer40 feer42 feer42l feer42a erb42a-p1214-f 7fsujdbmuzqf 42.0 34.5 42.5 feer43 feer44 feer49 b a c b c a shape and dimensions 7fsujdbmuzqf )psj[poubmuzqf ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 19 $psft +*4 " # $ % & njo
' feer22s 22.0?.4 11.1 6.65?.25 6.65?.25 15.5 7.1 +0.3 ? feer22 22.0?.3 14.7?.15 6.65?.15 6.65?.1 15.5 10.7?.15 feer25.5 feer25.5a 25.5?.5 9.3?.2 7.5?.2 7.5?.15 19.8 6.2?.2 feer28 feer28.5a 28.5 +0.6 ?.5 14.0?.2 11.4?.25 9.9?.25 21.2 9.6 +0.3 ?.2 feer28l feer28.5b 28.5 +0.6 ?.5 16.9?.25 11.4?.25 9.9?.25 21.2 12.5 +0.3 ?.25 feer29 30.6 +0 ?.6 15.8?.2 9.8 +0 ?.6 9.8 +0 ?.6 22.0 11.0?.13 feer34 feer34.2 35.0 +0 ?.6 17.3?.2 11.1 +0 ?.6 11.1 +0 ?.6 25.5 11.8 +0.6 ? feer35 35.0?.7 16.8?.3 11.3?.25 11.3?.25 25.6 10.8?.3 feer35l feer35a 35.0?.5 20.7?.3 11.3?.25 11.3?.25 25.6 14.7?.3 feer39 feer39.1 38.9 +1.1 ?.7 20.0 +0 ?.4 12.8 +0 ?.6 12.8 +0 ?.6 29.3 14.2 +0.8 ? feer39l feer39 39.0?.6 22.2?.3 12.8?.25 12.8?.2 28.7 17.0?.25 feer40 40.0?.5 22.4?.2 13.3?.25 13.3?.25 29.0 15.4?.25 feer4042 40.0?.5 21.0?.2 15.0?.2 14.0?.25 30.7 15.0?.2 feer42 42.0?.6 21.2?.2 15.2?.2 15.2?.2 30.5 15.0 +0.5 ? feer42l 42.0 +0.8 ?.5 25.4?.2 17.3?.25 17.3?.25 29.8 17.9?.2 feer42a 42.0?.5 21.2?.2 20.0 +0 ?.8 17.3?.25 31.8 15.0 +0.5 ? feer44 feer44 43.8 +1.2 ?.8 22.5 +0 ?.4 15.2 +0 ?.8 15.2 +0 ?.8 32.5 16.1 +0.6 ? feer49 49.0?.8 18.8 +0.5 ?.1 17.2?.2 17.2?.2 36.5 12.2 +0.4 ? d e a c f b shape and dimensions [mm] '&&35zqf$psft '&&35zqf$psft $psft +*4 $ "f r f 7f "dq "dx "- o)
8fjhiu nn
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#) #) h
feer22s 0.301 35.0 55.4 1940 35.0 68.0 1700?5% 10.0 feer22 1.665 37.5 62.4 2340 34.7 97.9 1400?5% 12.0 feer25.5 feer25.5a 1.16 43.2 50.0 2157 44.2 80.3 2050?5% 10.8 feer28 feer28.5a 0.78 85.3 66.8 5702 77.0 114.8 3000?5% 28.5 feer28l feer28.5b 0.95 84.7 78.3 6635 77.0 149.1 2540?5% 33.2 feer29 0.99 75.0 74.3 5590 71.0 145.0 2500?5% 27.0 feer34 feer34.2 0.86 96.6 83.0 8014 91.6 186.3 2930?5% 41.5 feer35 0.72 110.1 79.0 8695 100.3 160.9 3500?5% 45.0 feer35l feer35a 0.87 108.4 94.5 10248 100.3 220.5 2900?5% 50.7 feer39 feer39.1 0.79 123.2 97.1 11970 122.7 259.9 3200?5% 60.0 feer39l feer39 0.80 131.9 106.1 13993 128.7 280.5 3150?5% 70.0 feer40 0.67 152.8 102.4 15637 138.9 247.9 3750?5% 78.1 feer4042 0.63 15.0 100.0 15756 153.9 256.5 4000?5% 72.1 feer42 0.56 182.5 101.8 18574 181.5 241.0 4550?5% 87.6 feer42l 0.48 239.0 113.6 27180 235.0 232.7 5300?5% 135.9 feer42a 0.44 232.5 101.4 23572 235.1 228.8 5700?5% 118.0 feer44 feer44 0.63 172.0 108.7 18707 172.0 306.7 4000?5% 88.6 feer49 0.42 229.1 97.2 22263 232.4 245.5 6000?5% 110.0 numbering system feer 28l bh2 ? $psftj[f ? $psfnbufsjbm ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 20 a ? p 1 p 2 x ? t min. y p 3 e z c shape and dimensions #pccjot 5zqf " # $ & 9 : ; u njo
erb28-p1210-f 1 20.8 12.35 16.3 4.5 24.7 23 26.3 0.9 erb28l-p1212-f 1 20.8 12.275 22.2 4.5 29.7 23 34.7 0.875 erb35-p1212-f 1 23.5 13.8 18.3 4 30 28 31.8 0.9 erb42a-p1214-f 1 31.4 20 27.4 4.5 34 35 41.4 1 type 1 [mm] '&&35zqf#pccjot '&&35zqf#pccjot #pccjot 5zqf 1 1 1 1 /vncfspgqjot "x r x 8fjhiu nn
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erb28-p1210-f 1 0.8 5 20 17.5 10 68 52 4.4 erb28l-p1212-f 1 0.8 5 25 17.5 12 94.6 52 4.3 erb35-p1212-f 1 1.0 5 25 22.5 12 103 58.6 7.2 erb42a-p1214-f 1 0.7 5 30 30.0 14 156 80.7 9.5 numbering systems erb 28l - p12 12 - f ? $psftj[f ? 17fsujdbmuzqf ? /vncfspgqjot ? .bufsjbm1ifopmsftjo ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 21 '125zqf'fssjuf$psft '125zqf'fssjuf$psft $psft #pccjot %jnfotjpot<nn> " fpq2016 pqb2016-p1214 23.2 fpq2020 fpq2620 fpq2625 pqb2625-p1212 29.5 pqb2625-p1212-f fpq3220 fpq3230 pqb3230-p1212-f 34.3 fpq3535 pqb3535-p1212-f 39.3 fpq4040 a shape and dimensions ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 22 '125zqf$psft '125zqf$psft $psft $ "f r f 7f "dq "dx "- o)
8fjhiu nn
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#) #) h
fpq2016 0.58 65 37.3 2420 61 47.4 3800?5% 13.0 fpq2020 0.70 65 45.3 2920 61 65.8 3150?5% 15.0 fpq2620 0.36 124 44.5 5510 113 60.4 6000?5% 31.0 fpq2625 0.44 123 53.7 6620 113 84.5 5000?5% 36.0 fpq3220 0.31 157 48.9 76980 142 80.8 7310?5% 42.0 fpq3230 0.44 156 68.4 10700 142 149.6 5150?5% 55.0 fpq3535 0.46 172 79.6 13700 162 220.6 4900?5% 73.0 fpq4040 0.49 189 92.9 17600 174 326 4700?5% 95.0 $psft " # $ % & ' * njo
fpq2016 20.9 +0 ?.8 8.2 +0 ?.2 14.4 +0 ?.8 9.0 +0 ?.4 17.6 +0.8 ? 5.0 +0.3 ? 12.0 fpq2020 20.9 +0 ?.8 10.2 +0 ?.2 14.4 +0 ?.8 9.0 +0 ?.4 17.6 +0.8 ? 7.0 +0.3 ? 12.0 fpq2620 26.95 +0 ?.9 10.2 +0 ?.2 19.45 +0 ?.9 12.2 +0 ?.4 22.05 +0.9 ? 5.6 +0.3 ? 15.5 fpq2625 26.95 +0 ?.9 12.5 +0 ?.25 19.45 +0 ?.9 12.2 +0 ?.4 22.05 +0.9 ? 7.9 +0.3 ? 15.5 fpq3220 32.5 +0 ?.0 10.4 +0 ?.25 22.5 +0 ?.0 13.7 +0 ?.5 27.0 +1.0 ? 5.6 +0.3 ? 19.0 fpq3230 32.5 +0 ?.0 15.3 +0 ?.25 22.5 +0 ?.0 13.7 +0 ?.5 27.0 +1.0 ? 10.5 +0.3 ? 19.0 fpq3535 35.7 +0 ?.2 17.5 +0 ?.25 26.5 +0 ?.0 14.6 +0 ?.5 31.5 +1.0 ? 12.35 +0.3 ? 23.5 fpq4040 41.4 +0 ?.8 20.0 +0 ?.25 28.6 +0 ?.2 15.2 +0 ?.5 36.4 +1.2 ? 14.6 +0.3 ? 28.0 a c e d i f f b b shape and dimensions numbering systems fpq 2016 - bh2 ? $psftj[f ? $psfnbufsjbm [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 23 '125zqf#pccjot '125zqf#pccjot ? a x y z e c ? t min. shape and dimensions #pccjot 5zqf 1 1 1 1 1 1 /vncfspgqjot "x r x 8fjhiu nn
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pqb2016-p1214 1 0.6 3.81 20.32 20.32 5.08 2.54 14 25.6 44 2.1 pqb2625-p1212-f 2 0.6 3.81 22.86 25.4 7.62 12 50.3 56.3 3.5 pqb3230-p1212-f 2 0.8 5.08 27.94 30.48 7.62 12 98.1 66.8 6.4 pqb3535-p1212-f 2 0.8 5.08 30.48 35.56 10.16 12 159 75.2 8.0 #pccjot 5zqf " # $ & 9 : ; u njo
pqb2016-p1214 1 17.2 10.8 8 9.8 23 23 16.7 0.575 pqb2625-p1212-f 2 21.6 14.2 13.6 5 26.5 29.3 27.3 0.7 pqb3230-p1212-f 2 26.6 16 18.5 5 32 34 33.5 0.95 pqb3535-p1212-f 2 31.1 16.8 22.3 6.5 35 39 37.9 0.875 type 1 type 2 1joqjudiejnfotjpot p 3 p 5 p 4 p 1 p 2 p 4 p 1 p 2 p 3 numbering system pqb 2016 -p12 14 - f ? $psftj[f ? 17fsujdbmuzqf ? /vncfspgqjot ? .bufsjbm1ifopmsftjo [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 24 '2,5zqf'fssjuf$psft '2,5zqf'fssjuf$psft $psft #pccjot %jnfotjpot<nn> "# fqk1623 qkb1623-p1108-f 34.15 13.25 fqk2522 qkb2522-p1108-f 31.7 19.75 fqk2532 qkb2532-p1108-f 40.4 19.75 a b shape and dimensions [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 25 numbering system fqk 1623 - bh2 ? $psftj[f ? $psfnbufsjbm '2,5zqf$psft '2,5zqf$psft $psft $ "f r f 7f "dq "dx "- o)
8fjhiu nn
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#) #) h
fqk1623 1.41 31.3 44.1 1377 24.6 31.9 1700?5% 9.6 fqk2522 0.72 67.9 49.0 3327 58.1 48.0 3200?5% 21.0 fqk2532 0.91 70.3 64.0 4498 58.1 73.8 2500?5% 30.0 $psft " # $ % & ' ) * njo
fqk1623 16.5?.3 11.8 +0 ?.2 8.7?.2 5.8 +0 ?.2 12.5?.3 8.6 +0.25 ? 3.0 9.0?.5 fqk2522 25.0?.4 11.3 +0 ?.2 12.9?.3 8.8 +0 ?.4 19.0?.3 8.05 +0.3 ? 3.0 13.5?.5 fqk2532 25.0?.4 16.0 +0 ?.2 12.9?.3 8.8 +0 ?.4 19.0?.3 11.9 +0.3 ? 3.0 13.5?.5 i h d e a c f f b b shape and dimensions [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 26 '2,5zqf#pccjot '2,5zqf#pccjot a b x z e ? c y f p 3 p 2 p 1 t min. shape and dimensions #pccjot 1 1 1 1 /vncfspgqjot "x r x 8fjhiu nn
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qkb1623-p1108-f 0.6 3.81 11.43 25.4 8 31.9 30.9 1.7 qkb2522-p1108-f 0.8 6.35 19.05 20.32 8 47.8 44.6 2.8 qkb2532-p1108-f 0.8 6.35 19.05 27.94 8 73.9 44.6 3.3 #pccjot " # $ & ' 9 : ; u njo
qkb1623-p1108-f 11.9 7.8 15.2 4 1.95 16.5 30.1 13.1 0.75 qkb2522-p1108-f 17.6 10.825 14.1 5 3.5 25 34.5 19.55 0.725 qkb2532-p1108-f 17.6 10.825 21.8 5 3.35 25 33.4 19.55 0.725 numbering system qkb 1623 - p11 08 - f ? $psftj[f ? 1)psj[poubmuzqf ? /vncfspgqjot ? .bufsjbm 1ifopmsftjo [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 27 '&15zqf$psft '&15zqf$psft $psft +*4 $ "f r f 7f "dq "dx "- 8fjhiu nn
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fep7 ep7 1.52 10 15.7 160 9 11 >550 (bh2) 1.4 >1100 (5h) >3000 (7h) >4000 (10h) >5200 (12h) fep10 ep10 1.7 11 19.2 220 9 23 >850 (bh2) 2.8 >1080 (5h) >2800 (7h) >3600 (10h) >4000 (12h) fep13 ep13 1.24 20 24.2 470 15 26 >1250 (bh2) 5.1 >1700 (5h) >3800 (7h) >5000 (10h) >6000 (12h) fep17 ep17 0.84 34 28.5 970 25 36 >2500 (5h) 11.8 >5800 (7h) >8000 (10h) >9600 (12h) fep20 ep20 0.51 78 39.8 3120 60 55 >4200 (5h) 27.6 >9600 (7h) >13500 (10h) >16200 (12h) $psft +*4 " # $ % & ' fep7 ep7 9.2?.2 3.75 +0 ?.1 6.5 +0 ?.3 3.4 +0 ?.2 7.4?.2 2.5 +0.2 ? fep10 ep10 11.5?.3 5.2 +0 ?.2 7.85 +0 ?.4 3.45 +0 ?.3 9.4?.2 3.6 +0.2 ? fep13 ep13 12.5?.3 6.5 +0 ?.15 9.0 +0 ?.4 4.5 +0 ?.3 10.0?.3 4.5 +0.2 ? fep17 ep17 18.0?.4 8.5 +0 ?.2 11.25 +0 ?.5 5.85 +0 ?.35 12.0?.4 5.5 +0.3 ? fep20 ep20 24.0?.5 10.8 +0 ?.2 15.3 +0 ?.7 9.0 +0 ?.5 16.5?.4 7.0 +0.3 ? a c e d f b shape and dimensions numbering system fep 10 - 12h ? $psftj[f ? $psfnbufsjbm [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 28 15zqf$psft 15zqf$psft $psft $ "f r f 7f "- 8fjhiu #pccjo*ufn nn
nn
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o)
h
fp0905-i-22 1.25 10.0 12.5 125 1100nom. (bh2) 0.8 pb0905-1 1570?5% (5h) fp1107-i-22 1.00 15.9 15.9 252 1700nom. (bh2) 1.6 pb1107-1 2320?5% (5h) pb1107-2 fp1408-i-22 0.80 25.0 20.0 500 2520nom. (bh2) 2.9 pb1408-1 3000?5% (5h) pb1408-2 11300?0% (12h) pb1408-p124 fp1811-i-22 0.60 43.2 25.9 1120 3450nom. (bh2) 6.4 pb1811-1 4500?5% (5h) pb1811-2 12000?0% (12h) pb1811-p126 fp2213-i-22 0.50 63.3 31.6 2000 5900?5% (5h) 12.4 pb2213-1 pb2213-2 pb2213-p126 fp2616-i-22 0.40 93.0 37.2 3460 7800?5% (5h) 21.6 pb2616-1 pb2616-2 pb2616-p126 fp3019-i-22 0.33 136 44.8 6100 9800?5% (5h) 36.2 pb3019-1 pb3019-2 pb3019-p126 fp3622-i-22 0.26 202 52.4 10600 13300?5% (5h) 60 pb3622-1 pb3622-2 b a c d 2h 2i shape and dimesions $psft " # $ % ) * fp0905-i-22 9.30 +0 ?.35 7.50 +0.35 ? 3.90 +0 ?.20 2.00 +0.15 ? 5.40 +0 ?.30 3.60 +0.50 ? fp1107-i-22 11.30 +0 ?.40 9.00 +0.40 ? 4.70 +0 ?.20 2.00 +0.15 ? 6.60 +0 ?.30 4.40 +0.30 ? fp1408-i-22 14.10 +0 ?.40 11.60 +0.40 ? 6.00 +0 ?020 3.00 +0.15 ? 8.40 +0 ?040 5.60 +0.50 ? fp1811-i-22 18.00 +0 ?.50 14.90 +0.50 ? 7.60 +0 ?.30 3.00 +0.15 ? 10.60 +0 ?.40 7.20 +0.60 ? fp2213-i-22 22.00 +0 ?.60 17.90 +0.60 ? 9.40 +0 ?.40 4.40 +0.20 ? 13.60 +0 ?.40 9.20 +0.60 ? fp2616-i-22 26.00 +0 ?.00 21.20 +0.80 ? 11.50 +0 ?.40 5.50 +0.20 ? 16.30 +0 ?.40 11.00 +0.40 ? fp3019-i-22 30.50 +0 ?.00 25.00 +0.80 ? 13.50 +0 ?.40 5.50 +0.20 ? 19.00 +0 ?.40 13.00 +0.40 ? fp3622-i-22 36.00 +0 ?.00 29.90 +0.80 ? 16.20 +0 ?.40 5.50 +0.20 ? 22.00 +0 ?.40 14.60 +0.40 ? numbering system fp1811 i- 2 2 5h ? $psftj[f ? /vncfspgtmputpgdpsft ? $psftnbufsjbm [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 29 3.5zqf$psft 3.5zqf$psft $psft 5zqf $ "f r f 7f "- 8fjhiu nn
nn
nn
nn
o)
h
fq0910-rm4 3 1.62 1.40 22.7 318 1240?5% (5h) 1.7 3100?5% (7h) 4100?0% (10h) 4950?0% (12h)* fq1210-rm5 1 1.02 21.0 21.4 450 1350min (bh2) 2.8 2220?5% (5h) 5800?5% (7h) 8800?0% (10h) 9100?0% (12h)* fq1412-rm6 2 0.86 31.0 27.0 837 1720min (bh2) 4.6 3300?5% (5h) 6000?5% (7h) 8500?0% (10h) 11500?0%(12h)* fq1916-rm8 2 0.67 52.0 35.1 1825 2200min (bh2) 10.4 4300?5% (5h) 9800?5% (7h) 13800?0%(10h) 15200?0%(12h)* fq2418-rm10 3 0.45 98.0 44.0 4312 6620?5% (5h) 23 13800?5%(7h) 18800?0%(10h) a a a a a a e e e d g g g 2h 2h 2i 2h 2i 2i c b f d c c b b f f shape and dimensions $psft " # $ % & ' ( ) * fq0910-rm4 9.60?.20 8.15?.20 3.80?.10 5.80 10.80?.20 4.45?.15 10.40?.10 7.20?.25 fq1210-rm5 12.05?.25 10.40?.20 4.80?.10 2.05?.05 6.00 14.65?.25 6.60?.20 10.40?.10 6.50?.20 fq1412-rm6 14.40?.30 12.65?.25 6.30?.10 3.05?.05 8.40 17.60?.30 8.10?.10 12.40?.10 8.20?.20 fq1916-rm8 19.35?.35 17.30?.30 8.40?.15 4.50?.10 9.80 22.75?.45 (11.0) 16.40?.10 11.00?.20 fq2418-rm10 24.15?.55 21.65?.45 10.70?.20 11.30 27.85?.65 13.25?.25 18.60?.10 12.70?.30 numbering system fq1412-rm6 - 12h ? $psftj[f ? $psfnbufsjbm l)[n" [mm] 5zqf 5zqf 5zqf ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 30 '665zqf$psft '665zqf$psft $psft $ "f r f 7f "- o)
8fjhiu nn
nn
nn
nn
) h
fuu9 4.30 7.9 34.2 271 800?0% 1.4 fuu10.5 3.07 13.0 40.0 520 1800?0% 2.7 fuu16 2.22 23.3 51.7 1202 2000?0% 6.5 fuu17 2.88 26.2 75.5 1977 1600?0% 10.3 fuu20 2.31 35.9 83.1 2980 2200?0% 15.4 $psft " # $ % & fuu9 9.8?.2 7.1?.1 2.7?.2 2.8?.1 4.2?.2 fuu10.5 10.5?.2 7.9?.1 5.0?.2 2.6?.15 5.3?.2 fuu16 17.0?.3 10.1?.1 5.0?.2 5.0?.15 5.85?.2 fuu17 17.0?.3 15.6?.3 6.0?.2 4.7 +0.1 ?.2 11.8?.3 fuu20 20.0?.4 18.0 +0.3 ?.2 6.0?.2 6.0 +0.1 ?.2 12.0?.2 e b c d d a shape and dimensions numbering system fuu 10.5 - 5h ? $psftj[f ? $psfnbufsjbm [mm] ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 31 5pspjebm$psft 5pspjebm$psft numbering system fr 8.6 /4.5 /3.2 - 5h ? 0vutjefejbnfufs ? *otjefejbnfufs ? 5ijdloftt ? $psfnbufsjbm $psft $ "f r f7f "- o)
nn
nn
nn
nn
) ) ) ) fr8.6/4.5/3.2 3.07 6.3 19.2 120 1580?0% 2500?0% 4600?5% fr10/5/5 1.85 11.4 20.9 238 2470?0% 4800?0% 7300?5% fr11/6/3 3.49 7.2 25.1 181 2260?0% 4200?5% fr12.7/7.6/6 2.07 14.8 30.5 450 2400?0% 3900?0% 6600?5% fr14/7/5 1.84 16.6 30.5 506 2650?0% 4660?0% 6360?0% 7700?5% fr16/7/4 1.92 16.8 32.3 543 2470?0% 4820?0% 6300?0% 7200?5% fr19/10/10 0.96 43.1 41.6 1794 5970?0% 9520?0% 11000?0% 14000?5% fr20/10/5 1.83 23.8 43.6 1037 2640?0% 4740?0% 6400?0% 7400?5% fr25/15/12 1.03 58.5 60.2 3521 5730?0% 8500?0% 11500?0% 13000?5% fr38/19/13 0.72 116 82.8 9584 8570?0% 12100?0% 13700?0% fr47/27/15 0.76 145 110 16064 8170?0% 11500?0% $psft % % ) $ps3 fr8.6/4.5/3.2 8.6?.3 4.5?.3 3.2?.3 0.3 fr10/5/5 9.9?.4 4.7?.3 4.6?.3 0.3 fr11/6/3 11.0?.4 6.0?.3 3.0?.3 0.3 fr12.7/7.6/6 12.7?.3 7.6?.3 6.0?.3 0.5 fr14/7/5 14.0?.4 7.0?.4 5.0?.3 0.5 fr16/7/4 16.0?.4 7.0?.4 4.0?.3 0.5 fr19/10/10 18.5?.5 9.8?.5 10.3?.4 0.5 fr20/10/5 20.0?.5 10.0?.5 5.0?.3 0.5 fr25/15/12 25.0?.5 15.0?.5 12.0?.3 0.5 fr38/19/13 38.1?.8 19.0?.5 12.7?.5 1.0 fr47/27/15 47.0?.8 27.0?.5 15.0?.5 1.0 d2 d1 h c or r shape and dimensions /puf5iftfdbocfdpbufexjuinfmbnjofsftjo [mm] ?4uboebsenbufsjbmdibsbdufsjtujdt 4ffpgqbhf
????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 32 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 bh2 compound technical data 'fssjuf$psft70- 33 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 34 "- $psfdpotubotu &ggfdujwfdsptttfdujpobmbsfb &fggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
1400?5% 1.42 15.2 21.6 328 12.8 17 1.9 *1kh 1ma ?.2 100t(air gap 0) fei 12.5 5.0 +0.2 ? 7.3 +0.2 ? 5.0 0.2 5.0 ?.2 1.5 ?.1 2.5 +0 ?.2 9.0 ? 12.5 0.2 12.5 0.2 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 gap 0 1 10 100 1000 gap 0.5 gap 0.1 gap 0.2 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 35 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
1200?5% 1.79 19.4 34.6 670 19.2 40 3.2 *1kh 1ma ?.35 100t(air gap 0) fei 16 10.0 +0.4 ? 12.0 +0.4 ? 2.0 0.2 11.8 ? 16.0 0.3 4.0 0.2 5.0 +0 ?.4 5.0 +0 ?.4 16.0 0.3 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0 gap 0.3 gap 0.1 gap 0.2 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 36 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
1300?5% 1.74 22.7 39.8 910 22.5 57 4.4 *1kh 1ma ?.35 100t(air gap 0) fei 19 11.0 +0.5 ? 13.3 +0.4 ? 2.3 0.1 14.4 ? 19.1 0.3 5.2 +0 ?.4 5.2 +0 ?.4 19.1 0.3 4.7 +0 ?.4 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 $psfmpttwt'mvyefotjuz 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 23 c 100 c gap 0 gap 0.5 gap 0.1 gap 0.2 gap 1.0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 37 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
2400?5% 0.95 41.7 39.3 1639 33.1 40 8.8 *1kh 1ma ?.35 100t(air gap 0) fei 22 10.3 +0.5 ? 14.3 +0.5 ? 4.5 ?.2 13.0 ? 22.0 0.3 6.0 +0 ?.5 6.0 +0 ?.5 22.0 0.3 6.0 +0 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 38 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
2000?5% 116 36.2 42.1 1525 33.1 57 7.7 *1kh 1ma ?.35 100t(air gap 0) fei 22s 14.4 +0.5 ? 4.0 ?.2 6.0 +0 ?.5 16.0 ? 22.0 ?.4 22.0 ?.3 10.6 +0.4 ? 6.0 +0 ?.5 6.0 +0 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 39 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
2000?5% 1.14 41.2 47.0 1934 43.9 99 11.0 *1kh 1ma ?.35 100t(air gap 0) fei 25 15.3 +0.5 ? 2.7 ?.2 6.8 +0 ?.6 19.2 ? 25.3 ?.5 25.3 ?.5 12.2 +0.4 ?.1 7.0 +0 ?.5 7.0 +0 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0 gap 0.5 gap 0.1 gap 2.0 gap 1.0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 40 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
4000?5% 0.57 85.1 48.6 4138 77.0 71 24.0 *1kh 1ma ?.3 100t(air gap 0) fei 28 16.5 +0.5 ? 3.5 ?.3 7.5 +0 ?.6 18.8 ? 28.0 ?.5 28.0 ?.5 12.0 +0.5 ? 11.0 +0 ?.6 11.0 +0.1 ?.6 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 41 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4700?5% 0.52 111 58.1 6457 114.5 77 35.0 *1kh 1ma ?.3 100t(air gap 0) fei 30 16.0 +0.5 ? 21.0 +0.5 ? 5.5 ?.2 19.8 ? 30.0 0.5 11.0 +0 ?.6 11.0 +0 ?.6 30.0 0.5 11.0 +0 ?.6 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 42 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4300?5% 0.57 118.1 66.9 7909 124 136 41.5 *1kh 1ma ?.4 100t(air gap 0) fei 33 5.0 ?.2 10.0 +0 ?.6 23.2 ? 33.0 0.5 33.0 0.5 23.3 0.3 18.8 +0.5 ? 13.0 +0 ?.6 13.0 +0 ?.6 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 1.5 gap 2.0 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 43 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3650?5% 0.68 99.9 67.3 6700 97.0 127 36.2 *1kh 1ma ?.5 100t(air gap 0) fei 35 23.8 +0.7 ? 5.5 ?.2 10.3 +0 ?.6 25.0 ? 18.0 +0.6 ? 10.0 +0 ?.6 10.0 +0 ?.6 35.0 +0.8 ?.5 35.0 +0.8 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 44 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4400?5% 0.56 120 67.3 8090 117.0 137 41.5 *1kh 1ma ?.5 100t(air gap 0) fei 35s 23.8 +0.7 ? 5.5 ?.2 10.3 +0 ?.6 25.0 ? 18.0 +0.6 ? 12.0 +0 ?.6 12.0 +0 ?.6 35.0 +0.8 ?.5 35.0 +0.8 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 1.0 gap 0.2 gap 2.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 45 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4750?5% 0.52 140 76.8 11378 135.7 163 61.0 *1kh 1ma ?.5 100t(air gap 0) fei 40 20.0 +0.5 ? 27.0 +0.5 ? 7.5 0.3 27.2 ? 40.0 0.5 12.0 +0 ?.7 12.0 +0 ?.7 40.0 0.5 12.0 +0 ?.7 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 46 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
5950?5% 0.41 230 94.7 2178 213.2 249 110.0 *1kh 1ma ?.7 100t(air gap 0) fei 50 24.5 +0.5 ? 33.0 +0.7 ? 9.0 ?.3 34.0 ? 50.0 ?.7 15.0 +0 ?.8 15.0 +0 ?.8 50.0 ?.7 15.0 +0 ?.8 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 47 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
5500?5% 0.44 247 109 27148 243.4 409 140.0 *1kh 1ma ?.7 100t(air gap 0) fei 60 27.5 +0.7 ? 35.5 +0.7 ? 8.5 ?.3 44.1 ? 60.0 ?.8 16.0 +0 ?.8 16.0 +0 ?.8 60.0 ?.8 16.0 +0 ?.8 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 48 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
2050?5% 1.16 43.2 50.0 2157 44.2 80.3 10.8 *1kh 1ma ?.5 100t(air gap 0) feer 25.5 7.5 ?.15 7.5 ?.2 9.3 ?.2 6.2 ?.2 25.5 ?.5 19.8min. shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 $psfmpttwt'mvyefotjuz 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 49 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3000?5% 0.78 85.3 66.8 5702 77.0 114.8 28.5 *1kh 1ma ?.5 100t(air gap 0) feer 28 9.9 ?.25 14.0 ?.2 21.2min. 28.5 +0.6 ?.5 9.6 +0.3 ?.2 11.4 ?.25 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 50 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
2540?5% 0.92 87.4 78.3 6635 77.0 149.1 33.2 *1kh 1ma ?.5 100t(air gap 0) feer 28l 9.9 ?.25 16.9 ?.25 21.2min. 28.5 +0.6 ?.5 12.5 +0.3 ?.25 11.4 ?.25 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 51 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
2930?5% 0.86 96.6 83.0 8014 91.6 186.3 41.5 *1kh 1ma ?.6 100t(air gap 0) feer 34 17.3 ?.2 25.5min. 35.0 +0 ?.6 11.8 +0.6 ? 11.1 +0 ?.6 11.1 +0 ?.6 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 52 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
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htfu
3500?5% 0.72 110.1 79.0 8695 100.3 160.3 45.0 *1kh 1ma ?.6 100t(air gap 0) feer 35 16.8 ?.3 25.6min. 11.3 ?.25 10.8 ?.3 11.3 ?.25 35.0 ?.7 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 53 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
2900?5% 0.87 108.4 94.5 10248 100.3 220.5 50.7 *1kh 1ma ?.7 100t(air gap 0) feer 35l 20.7 0.3 25.6min. 11.3 0.25 14.7 0.3 11.3 0.25 35.0 0.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 54 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3200?5% 0.79 123.2 97.1 11970 122.7 259.9 60.0 *1kh 1ma ?.7 100t(air gap 0) feer 39 29.3min. 12.8 +0 ?.6 38.9 +1.1 ?.7 12.8 +0 ?.6 14.2 +0.8 ? 20.0 +0 ?.4 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 1.0 gap 0.2 gap 2.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 55 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3150?5% 0.80 131.9 106.1 13993 128.7 280.5 70.0 *1kh 1ma ?.7 100t(air gap 0) feer 39l 22.2 ?.3 28.7min. 12.8 0.25 17.0 0.25 12.8 ?.2 39.0 ?.6 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 56 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3750?5% 0.67 152.8 102.4 15637 138.9 247.9 78.1 *1kh 1ma ?.7 100t(air gap 0) feer 40 22.4 ?.2 29.0min. 13.3 0.25 15.4 0.25 13.3 0.25 40.0 ?.5 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 57 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4550?5% 0.56 182.5 101.8 18574 181.5 241.0 86.6 *1kh 1ma ?.7 100t(air gap 0) feer 42 21.2 0.2 30.5min. 15.2 ?.2 15.2 ?.2 42.0 ?.6 15.0 +0.5 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 58 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
5700?5% 0.44 232.5 101.4 23572 235.1 228.8 118.0 *1kh 1ma ?.7 100t(air gap 0) feer 42a 31.8min. 20.0 +0 ?.8 15.0 +0.5 ? 17.3 ?.25 42.0 ?.5 21.2 ?.2 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 59 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
4000?5% 0.63 172.0 108.7 18707 172.0 306.7 88.6 *1kh 1ma ?.7 100t(air gap 0) feer 44 32.5min. 43.8 +1.2 ?.8 15.2 +0 ?.8 16.1 +0.6 ? 22.5 +0 ?.4 15.2 +0 ?.8 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 2.0 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 60 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
3800?5% 0.61 62 37.4 2310 61 47.4 13 *1kh 1ma ?.4 100t(air gap 0) fpq 2016 14.4 +0 ?.8 20.9 +0 ?.8 17.6 +0.8 ? 9.0 +0 ?.4 12.0 ? 8.2 +0 ?.2 8.2 +0 ?.2 5.0 +0.3 ? 5.0 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 61 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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3150?5% 0.74 62 45.4 2790 61 65.8 15 *1kh 1ma ?.4 100t(air gap 0) fpq 2020 14.4 +0 ?.8 20.9 +0 ?.8 17.6 +0.8 ? 9.0 +0 ?.4 12.0 ? 10.2 +0 ?.2 10.2 +0 ?.2 7.0 +0.3 ? 7.0 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 62 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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6000?5% 0.39 119 46.3 5490 113 64.4 31 *1kh 1ma ?.5 100t(air gap 0) fpq 2620 19.45 +0 ?.9 26.95 +0 ?.9 22.05 +0.9 ? 12.2 +0 ?.4 15.5 ? 10.2 +0 ?.25 10.2 +0 ?.25 5.6 +0.3 ? 5.6 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 63 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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5000?5% 0.47 118 55.5 6530 113 84.5 36 *1kh 1ma ?.5 100t(air gap 0) fpq 2625 19.45 +0 ?.9 26.95 +0 ?.9 22.05 +0.9 ? 12.2 +0 ?.4 15.5 ? 12.5 +0 ?.25 12.5 +0 ?.25 7.9 +0.3 ? 7.9 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 64 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
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htfu
7310?5% 0.33 170 55.5 9420 142 80.8 42 *1kh 1ma ?.6 100t(air gap 0) fpq 3220 22.5 +0 ?.0 32.5 +0 ?.0 27.0 +1.0 ? 13.7 +0 ?.5 19.0 ? 10.4 +0 ?.25 10.4 +0 ?.25 5.6 +0.3 ? 5.6 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 65 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
5150?5% 0.46 161 74.6 11970 142 149.6 55 *1kh 1ma ?.6 100t(air gap 0) fpq 3230 22.5 +0 ?.0 32.5 +0 ?.0 27.0 +1.0 ? 13.7 +0 ?.5 19.0 ? 15.3 +0 ?.25 15.3 +0 ?.25 10.5 +0.3 ? 10.5 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 66 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
4900?5% 0.45 196 87.9 17260 162 220.6 73 *1kh 1ma ?.7 100t(air gap 0) fpq 3535 26.5 +0 ?.0 35.7 +0 ?.2 31.5 +1.0 ? 14.6 +0 ?.5 23.5 ? 17.5 +0 ?.25 17.5 +0 ?.25 12.35 +0.3 ? +0.3 ? 12.35 shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 67 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
4700?5% 0.51 201 101.9 20450 174 326 95 *1kh 1ma ?.7 100t(air gap 0) fpq 4040 28.6 +0 ?.2 41.4 +0 ?.8 36.4 +1.2 ? 15.2 +0 ?.5 28.0 ? 20.0 +0 ?.25 20.0 +0 ?.25 14.6 +0.3 ? 14.6 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 68 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
1700?5% 1.41 31.3 44.1 1377 24.6 31.9 9.6 *1kh 1ma ?.4 100t(air gap 0) fqk 1623 9.0 0.5 8.7 0.2 3.0 5.8 +0 ?.2 12.5 0.3 16.5 0.3 8.6 +0.25 ? 11.8 +0 ?.2 11.8 +0 ?.2 8.6 +0.25 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 69 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
3200?5% 0.72 67.9 49.0 3327 58.1 48 21.0 *1kh 1ma ?.6 100t(air gap 0) fqk 2522 12.9 ?.3 3.0 13.5 ?.5 8.8 +0 ?.4 19.0 ?.3 25.0 ?.4 8.05 +0.3 ? 11.3 +0 ?.2 11.3 +0 ?.2 8.05 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 'fssjuf$psft70- 70 "- $psfdpotubou &ggfdujwfdsptttfdujpobmbsfb &ggfdujwfnbhofujdqbuimfohui &ggfdujwfwpmvnf $sptttfdujpobmdfoufsmfhbsfb $sptttfdujpobmxjoejohbsfbpgdpsf 8fjhiu $ "f r f 7f "dq "dx o)
nn
nn
nn
nn
nn
nn
htfu
2500?5% 0.91 70.3 64.0 4498 58.1 73.8 30.0 *1kh 1ma ?.6 100t(air gap 0) fqk 2532 12.9 ?.3 3.0 13.5 ?.5 8.8 +0 ?.4 19.0 ?.3 25.0 ?.4 11.9 +0.3 ? 16.0 +0 ?.2 16.0 +0 ?.2 11.9 +0.3 ? shape and dimensions [mm] al v bmvfwt5pubmhbqmfohui $psfmpttwt'mvyefotjuz $psfmpttwt'sfrvfodz %$1sfnbhofuj[bujpodibsbdufsjtujdt 10000 1000 100 10 0.01 0.1 1.0 air gap length (mm) al (nh) 10 flux density bm (mt) pc (watt) pc (watt) 50 100 200 300 500 10 f=100khz 1 0.1 0.01 0.001 frequency (khz) 20 50 100 150 200 bm:200 (mt) 10 1 0.1 0.01 0.001 ni (at) al (nh) 10000 1000 100 10 0.1 1 10 100 1000 23 c 23 c 60 c 60 c 100 c 100 c 23 c 23 c 60 c 60 c 100 100 c 100 c 23 c 100 c gap 0.5 gap 0.1 gap 0.2 gap 1.0 gap 0 ????? [@& ??
?"mmtqfdjgjdbujpotjouijtdbubmphboeqspevdujpotubuvtpgqspevdutbsftvckfduupdibohfxjuipvuopujdf1sjpsupuifqvsdibtf qmfbtfdpoubdu/&$50,*/gpsvqebufeqspevduebub ?1mfbtfsfrvftugpsbtqfdjgjdbujpotiffugpsefubjmfeqspevduebubqsjpsupuifqvsdibtf ?#fgpsfvtjohuifqspevdujouijtdbubmph qmfbtfsfbe1sfdbvujpotboepuifstbgfuzqsfdbvujpotmjtufejouifqsjoufewfstjpodbubmph '&370-&5 precautions the names of the products and the specifications in this catalog are subject to change without notice for the sake of improvement. the manufacturer also reserves the right to discontinue any of these products. at the time of delivery, please ask for specifications sheets to check the contents in order to use the products properly and safely. descriptions in this catalog regarding product characteristics and quality are based solely on discrete components. when using these components, be sure to check the specifications with the component in question mounted on the products. the manufacturer's warranty will not cover any disadvantage or damage caused by improper use of the products that deviates from the characteristics, specifications, or conditions for use described in this catalog. the products in this catalog are intended for use in ordinary electronic products. if any of these products are to be used in special applications requiring extremely high reliability, such as in aviation equipment and nuclear power controllers where product defects might pose a safety risk, please consult your nec tokin sales representatives. though the manufacturer has taken all possible precautions to ensure the quality and reliability of its products, improper use of products may result in bodily injury, fire, or similar accident. if you have any questions regarding the use of the products in question, please consult your nec tokin sales representatives. please be advised that the manufacturer accepts no responsibility for any infraction by users of the manufacturer? products on third party patents or industrial copyrights. the manufacturer is responsible only when such infractions are attributable to the structural design of the product and its manufacturing process. export control for customers outside japan nec-tokin products should not be used or sold for use in the development, production, stockpiling or utilization of any conventional weapons or mass-destructive weapons(nuclear weapons, chemical or biological weapons, or missiles), or any other weapons. for customers in japan for products which are controlled items subject to the?oreign exchange and foreign trade law?f japan,the export license specified by the law is required for export. this catalog is current as of december 2009. ????? [@& ??

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