Ferrite Cores Catalogue
FEELUX_FERRITE CORES
C O N T E N T S 필룩스소개 필룩스소개 필룩스네트워크 06 08 PRODUCTS EMI CORE MATERIAL CHARACTERISTICS OP / RING BNF CABLE / BEAD / BLI 6 HOLE / BEAD INDUCTOR CONNECTOR SR / TILE / TR SMPS, INVERTER용부품 TRANS FORMER LINE FILTER TROIDAL FILTER CHOKE COIL BEAD INDUCTOR PEAKING COIL SMD 12 16 20 24 26 28 30 34 35 36 37
Products
We, Feelux Co.,Ltd., is well known to the world-wide customer, who are working for the coil & its concerned industries, as good supporter in technical side and supplier with good delivery and bestquality in their products. With the experience accumulated for over 20 years, Feelux has concentrated their full powerstodevelop the soft ferrite core and various coil components, Among them, it is very unique achivements for them to develop the total system to protect from them to develop the total EMC/ EMI noise in all of electronic and electric equipments or products. We are confident that such Feelux s comprehensive suggestion could make any engineer supressed effectively any electronic noise, which has been developed through their 20 years engagement for ferrite core, coil components and any electronic products such as electronic ballast for fluorescent light and transformer for Neon lamp.
EMI Core EMI Material Characteristics Characteristic Symbol Unit Condition K-100G K-100G K-150 AC initial permeability μiac - 700 1000 1500 Saturation flux density Bs mt 1194A/m 240 290 280 Residual flux density Br mt 160 120 140 Coercivity Hc A/m 30 15 15 30 30 25 Relative loss factor tanδ/μi X10-6 f(mhz) 0.1 0.1 0.1 Relative temperature factor αμr X10-6 %/ 20 60 24 24 8 Curie temperature Tc >140 >130 >100 Resistivity ρ Ω m 25 10 6 10 6 10 6 Density d X10 3 kg/m 3 4.6X10 3 4.8X10 3 4.7X10 3 Notes 1. This values were obtained with troidal core (TR25.2X16.8X8.4) 2. 1mT=10Gauss, 1A/m=4πX10-3 Oe 3. Impedance indicate a typical value of measured ones. 12 MATERIAL CHARACTERISTICS (Power material) Characteristic Symbol Unit Condition J2A J2B J2C AC initial permeability μiac - 2400 2600 2300 Saturation magnetic Flux Density (1194A/m) Notes Bs mt 23 500 490 510 100 390 380 400 Residual flux density Br mt 23 150 130 95 Coercivity Hc A/m 23 14 11 14 Core loss Pcv kw/m 3 25kHz 200mT 100kHz 200mT 23 145 120 60 95 75 80 75 60 100 75 60 23 820 680 650 60 620 500 500 80 550 440 430 100 550 440 400 Curie temperature Tc >210 >210 >230 Resistivity ρ Ω m 6 7 3 Density d X10 3 kg/m 3 4.85 4.85 4.85 1. This values were obtained with troidal core (TR25.2x16.8x8.4) 2. 1mT=10Gauss, 1A/m=4πX10-3 Oe
B-H curve(j2a) B-H curve(j2b) B-H curve(j2c) Flux density vs. Temperarure Core loss vs. Temperature μiac vs. Temperature Pcv vs. Freq.(J2B) Pcv vs. Freq.(J2C) EMI Material Characteristics 13
EMI Material Characteristics MATERIAL CHARACTERISTICS (High μ material) Characteristic Symbol Unit Condition M2B G5A G5B G8A G10A AC initial permeability μiac - 3000 5000 5500 7500 10000 Saturation magnetic Flux Density Bs mt 1194A/m 480 440 370 430 360 Residual magnetic Flux Density Br mt 180 150 70 120 100 Coercivity Hc A/m 10 11 5 8 3 <20 <20 <10 <10 <10 Relative loss factor tanδ/μi X10-6 f(khz) 100 100 10 10 1 Relative temp. factor αμr X10-6 %/ 20 60-0.5 ~1.5-0.5 ~1.5-0.5 ~1.5-0.5 ~1.5 Curie temperature Tc >200 >150 >110 >110 >100 Resistivity ρ Ω m 2 1 1.5 0.3 0.1 Density d X10 3 kg/m 3 4.8 4.8 4.8 4.9 4.9 Notes 1. This values were obtained with troidal core (TR 25.2x16.8x8.4) 2. 1mT=10Gauss, 1A/m=4π X10-3 Oe μi vs. Frequency 14000 12000 10000 G10A Initial Pe rmea bility, μiac 8000 6000 4000 G8A G5B G5A 2000 M2B 0 1 10 100 Freque ncy (khz) 1000 10000 14
tanδ/μi vs. Frequency 1000 G8A M2B G5B 100 G10A G5A tanδ/μi (X10-6 ) 10 1 1 10 100 Frequency (khz) 1000 10000 μiac vs. Temperature 14000 G10A 12000 Initial Pe rmea bili ty, μiac 10000 G5B G8A 8000 G5A 6000 4000 M2B 2000 0-50 0 50 100 150 200 250 Te mperat ure ( ) 15 EMI Material Characteristics
EMI Core_Shield Beads OP CORES Type Dimensions(mm) Impedance (Ω,1turn) A B C 10MHz 25MHz 100MHz OP5-5 5.0+0/-0.2 2.5±0.1 5.0+0/-0.3 15 18 45 OP9.5-9.4 9.5±0.3 4.7±0.3 9.4±0.4 30 40 75 OP9.5-14 9.5±0.3 4.7±0.3 14.0±0.4 62 76 97 OP9.5-20 9.5±0.3 4.8±0.3 20±0.2 40 85 120 OP9.8 9.8±0.3 6.3±0.3 7.4±0.5 10 15 45 OP12-15 12.0±0.4 7.5±0.3 15.0±0.5 35 45 85 OP12-20 12.0±0.4 5.2±0.3 20.0±0.5 75 80 100 OP14-14 13.7±0.4 10.0±0.3 13.7±0.7 25 35 82 OP14(A) 14.3±0.4 8.2±0.3 23.5±0.7 48 75 116 OP14(B) 14.2±0.5 6.4±0.4 28.5±0.8 105 130 185 OP14(C) 14.3±0.4 7.2±0.4 15.0±0.6 40 50 70 OP14(E) 14.2±0.5 7.0±0.4 28.5±0.8 60 80 100 OP14(F) 14.2±0.5 9.0±0.5 24.5±0.5 50 64 100 OP16(A) 16.0±0.4 7.9±0.4 27.5±0.8 37 80 100 OP16(C) 16.0±0.5 7.9±0.4 17.0±0.5 50 70 80 OP18.1-12.1 18.1±0.4 9.5±0.4 12.1±0.5 42 60 97 OP18.4-28.3 18.4±0.5 9.9±0.4 28.3±0.8 94 132 185 OP18(A) 18.2±0.4 11.0±0.4 25.5±0.4 55 80 100 OP18(B) 18.2±0.5 9.5±0.4 28.2±0.8 70 90 150 OP18(C) 18.2±0.4 9.6±0.4 12.0±0.5 30 40 60 OP18(D) 18.2±0.4 9.6±0.3 10.0±0.4 16 30 45 OP18(E) 18.2±0.4 12.5±0.3 25.5±0.5 35 50 90 OP18.5-28.5 18.5±0.4 11.5±0.5 28.5±1.0 40 60 110 OP28 27.5±0.8 14.0±0.5 28.2±1.0 70 90 120 16
Shield Beads_EMI Core RING CORES Type Dimensions(mm) Impedance (Ω,2turn) A B C 10MHz 25MHz 100MHz RING9.8 9.8±0.4 4.9±0.4 5.1±0.5 81 105 135 RING12.5 12.2±0.3 7.6±0.4 5.4±0.4 54 68 110 RING15 14.5±0.5 7.5±0.4 7.0±0.4 77 123 206 RING18 18.0±0.5 11.2±0.4 6.0±0.4 70 85 120 RING18.4 18.4±0.5 11.1±0.4 6.1±0.4 66 93 141 RING23.5 23.5±0.6 12.6±0.5 9.4±0.6 129 160 216 RING28-10 28.0±0.6 15.4±0.5 10.0±0.5 120 160 240 RING28-13 28.0±0.6 15.4±0.5 13.0±0.5 178 230 324 RING29 29.0±0.6 19.2±0.6 7.6±0.5 67 88 147 RING34 34.5±0.6 21.0±1.0 12.0±0.7 105 160 300 RING34.5 34.5±0.6 20.8±0.5 12.3±0.7 124 179 282 Impedance vs. Frequency Characteristics. OP 5-5 & OP 12.2-15.2 OP 9.5-9.4 & OP 9.5-14 Shield Beads - OP CORES 17
Shield Beads _ RING CORES OP 12-12 & OP 12-15 OP 14.2-15.2, OP 14-14 & OP 14(C) OP 14(A), OP 14(E) & OP 14(F) OP 18.1-12.1 & OP 18.4-28.3 OP 18(B) & OP 18(C) OP 18(D) & OP 18(E) OP 18(A) & OP 28 RING 9.8 18
RING 12.5 RING 15 RING 18 RING 18.4 RING 23.5 RING 28-10 RING 28-13 RING 29 RING 34 RING 34.5 Shield Beads - RING CORES 19
EMI Core_Split Ferrite Core Filters For Round Cables (Clamp Type) BNF CORES Internal Construction Ferrite core Cose Fig. 1 Fig. 4 Fig. 7 Fig. 2 Fig. 5 Fig. 8 Fig. 3 Fig. 6 20
Features A seperated troidal core with a plastic case. A applicable cable diameter is from 4.5mm to 12.5mm. Materials of Case Nylon UL94V-0 Applications PC, Printers, Facsmiles, Copiers, HDD, Color Gray or Balck Type Fig No. Dimensions(mm) Impedance (Ω min, 1turn) A(Max.) B(Max.) C(Max.) D(Max.) E(Max.) 10MHz 25MHz 100MHz BNF-1525 1 14.0 4.5 26.0 12.5 40 55 100 BNF-12 2 17.0 6.0 24.0 19.0 20 25 50 BNF-14 3 21.0 6.5 32.5 70 120 220 BNF-18 3 25.0 9.0 32.5 50 80 150 BNF-27 3 34.5 12.5 32.5 60 130 200 BNF-12H 4 16.5 6.0 23.0 19.0 25 45 65 BNF-2629 4 31 12 40 35 80 110 110 BNF-1130 4 21.5 10 37 33 20 60 110 BNF-0930 1 20.5 8 36 19 50 80 140 BNF-1730 1 17.5 6 31 16 30 50 110 BNF-1528F 1 22 7.3 37 15 60 90 180 BNF-1010 5 25.5 9.5 21 14 30 15 35 75 BNF-1512 5 30 14 23 17 34 18 30 70 BNF-2915 8 33.5 17.5 22 11.5 2.0 10 25 80 BNF-0822 6 20 8 22 30 48 110 BNF-0917 7 21 17 9 20 18 20 35 80 Impedance vs. Frequency Characteristics. (Impedance indicate a typical value of measured ones, Test wire:0.6mmφ wire 100mm 1turn) BNF-1525 BNF-12 Split Ferrite Core Filters For Round Cables (Clamp Type) - BNF CORES 21
Split Ferrite Core Filters For Round Cables (Clamp Type) _BNF CORES BNF -14 BNF -18 BNF -12H BNF -27 BNF -2629 BNF -1130 BNF -1528F BNF -1730 22
BNF -0930 BNF -1010, BNF -1025 BNF -2915 BNF -0822 BNF -0917 Split Ferrite Core Filters For Round Cables (Clamp Type) - BNF CORES 23
EMI Core_SR, Tile Cores CABLE SUPPRESSION CORES Fig. 1 Fig. 2 Fig. 3 Type Fig No. Dimensions(mm) Impedance (Ω,1turn) A B C D E 10MHz 25MHz 100MHz OF14-14 2 14.0±0.7 5.0±0.5 14.0±0.5 10.3±0.6 1.3±0.5 15 20 70 OF19-14 1 19.0±0.8 6.5±0.5 14.0±0.5 13.7±0.6 1.3+0.5-0.3 15 35 80 OF22.35-19.05 3 22.35±0.51 7.75±0.4 19.0±0.6 14.0±0.4 1.5±0.25 40 70 120 OF25-12 1 25.0±0.7 5.0±0.5 12.0±0.4 21.0±0.5 1.1±0.2 20 40 110 OF29-10 1 29.0±0.5 8.0±0.4 10.0±0.5 22.0±0.5 2.0 +0.4-0.2 OF29-15 1 29.0±0.5 8.0±0.4 15.0±0.5 22.0±0.5 2.0 +0.4-0.2 19 27 50 34 44 85 OF33-8 2 33.0±0.5 6.5±0.3 8.0±0.5 27.0±0.6 1.5±0.2 13 20 50 OF33-12 2 33.0±0.5 6.5±0.3 12.0±0.5 27.0±0.6 1.5±0.2 22 36 98 OF33-30 2 33.0±0.5 6.5±0.3 30.0±0.6 27.0±0.6 1.5±0.3 30 40 110 OF40-8 2 40.0±0.6 6.5±0.3 8.0±0.5 34.0±1.0 1.5±0.2 15 24 57 OF40-12 2 40.0±0.6 6.5±0.3 12.0±0.3 34.0±1.0 1.5±0.2 20 34 94 OF40-28 2 40.0±0.6 28.0±0.5 6.5±0.3 34.0±0.6 1.5±0.2 41 67 145 OF45-12 2 46.0±1.0 6.5±0.3 12.0±0.3 40.0±1.0 1.5±0.2 10 20 60 OF46-12 1 46.0±1.0 5.0±0.5 12.0±0.5 41.5±1.0 0.8±0.5 10 20 70 24
Impedance vs. Frequency Characteristics. OF25-12 OF29-10 & OF29-15 OF33-8 & OF33-12 OF40-8, OF40-12 & OF40-26 OF46-12 OF14-14 SR, Tile Cores - CABLE SUPPRESSION CORES 25
EMI Core_Beads On Lead BEAD CORES Type Dimensions(mm) Impedance (Ω,1turn) A B C 10MHz 25MHz 100MHz BC2550 2.5±0.15 0.8±0.15 5.0±0.25 50 min BC3857 3.6±0.3 1.0±0.1 5.7±0.4 44 53 68 BC3881 3.8±0.3 0.8±0.1 8.1±0.4 70 100 150 BC3550 3.5±0.3 1.0±0.1 5.0±0.3 60 min BC3890 3.8±0.3 0.8±0.1 9.0±0.4 40 min BC 3565 3.5±0.3 0.8±0.15 6.5±0.5 160 min Impedance vs. Frequency Characteristics. BC3857 BC3881 BC2550 BC3565 26
Beads On Lead_EMI Core BLI CORES Type Dimensions(mm) Impedance (Ω,1turn) A B C D E 10MHz 25MHz 100MHz BLI-7.5A 7.5±0.3 2.2±0.3 5.0±0.3 5.0±0.3 0.8±0.1 62 77 95 Impedance vs. Frequency Characteristics. BLI-7.5A Beads On Lead - BEAD CORES 27
EMI Core_EMI Suppression For Connectors 6 HOLE BEAD Impedance vs. Frequency Characteristics. BH-6 Type Dimensions(mm) Impedance (Ω,1turn) A B C D 10MHz 25MHz 100MHz BH-6 6.0±0.3 0.8±0.1 10.0±0.5 3.8 Ref. 70 99 137 EMI Core_EMI Suppression For Connectors BEAD INDUCTOR Impedance vs. Frequency Characteristics. BC4865 Type Dimensions(mm) Impedance (Ω,1turn) A B C 10MHz 25MHz 100MHz BC4865 4.8±0.3 2.0±0.1 6.5±0.4 32 40 54 28
EMI Suppression For Connectors_EMI Core CONNECTOR SUPPRESSION PLAT CORES Fig. 1 Fig. 2 Fig. 3 Fig. 4 Type Fig No. Dimensions(mm) Impedance (Ω,1turn) A B C D E F 10MHz 25MHz 100MHz MH15A 1 24.0±0.4 6.7±0.25 6.7±0.5 2.77±0.2 2.84±0.2 1.7±0.2 26 38 67 MH15B 2 15.5±0.3 6.7±0.3 5.0±0.5 2.34±0.2 1.98±0.2 1.3±0.2 20min. MH25 3 36.3±0.6 7.75±0.25 3.5±0.2 2.75±0.1 2.85±0.1 1.8±0.2 10min. SD18-5.3 4 18.0 +0-0.2 Impedance vs. Frequency Characteristics. MH15A 9.8 +0-0.2 5.3±0.1 1.0 ref. 62 75 85 SD18-5.3 EMI Suppression For Connectors - 6 HOLE / BEAD 29
EMI Core_SR, Tile Cores SR CORES Impedance vs. Frequency Characteristics. SR39-26 Type Dimensions(mm) Impedance (Ω,1turn) A B C D E 10MHz 25MHz 100MHz SR39-26 38.5±0.75 26.0±0.6 28.6±0.7 26.5±0.75 12.95±0.25 82 99 144 EMI Core_SR, Tile Cores TILE CORES Type Fig No. Dimensions(mm) A B C D TILE 100-6 1 100.0±0.5 100.0±0.5 6.0±0.5 TILE 100-10 1 100.0±0.5 100.0±0.5 10.0±0.5 TILE 100-6H 2 100.0±0.5 100.0±0.5 6.0±0.5 4.72±0.3 TILE 100-10H 2 100.0±0.5 100.0±0.5 10.0±0.5 4.72±0.3 30
SR, Tile Cores_EMI Core TR CORES Applications Line Filters, Pulse Transformers, Choke Coils, Various Coils, etc. Materials J2A, J2B, M2B, G5A, G5B, G8A, G10A Type Dimensions(mm) Magnetic parameter AL(nH) A B C Le (Cm) Ae (Cm 3 ) W (g) J2A M2B G5A G8A G10A TR8-4-2 8.0±0.3 4.0±0.3 2.0±0.2 1.742 0.038 0.36 650 830 1200 1700 2300 TR8-4-3 8.0±0.3 4.0±0.3 3.0±0.2 1.742 0.06 0.55 950 1240 1900 2200 3700 TR8-4-6 8.0±0.3 4.0±0.3 6.0±0.2 1.742 0.115 1.00 1300 1650 3600 5000 7000 TR10-6-5 10.0±0.3 6.0±0.3 5.0±0.2 2.407 0.098 1.22 1200 1500 2200 3300 4500 TR12-6-6 12.0±0.3 6.0±0.3 6.0±0.3 2.61 0.115 2.22 1950 2490 4150 6230 8300 TR12.7-7.9-3 12.7±0.3 7.9±0.3 3.0±0.3 3.117 0.07 1.04 980 1310 1400 2000 2800 TR12.7-7.9-5 12.7±0.3 7.9±0.3 5.0±0.2 3.117 0.118 2.13 1100 1420 2100 3000 4000 TR12.7-7.9-6.3 12.7±0.3 7.9±0.3 6.3±0.3 3.117 0.148 2.42 1400 1790 2600 3800 5500 TR12.7-7.9-6.5 12.7±0.3 7.9±0.3 6.5±0.3 3.117 0.153 2.5 1450 1860 2900 4300 6000 TR14-7.5-7 14.0±0.3 7.5±0.3 7.0±0.3 3.174 0.213 3.6 2000 2620 3600 5400 7200 TR14-8-4 14.0±0.4 8.0±0.3 4.0±0.3 3.282 0.117 2.10 1250 1800 2200 3000 4000 TR14-8-7 14.0±0.4 8.0±0.3 7.0±0.3 3.282 0.205 3.40 1700 2340 3900 6600 7000 TR18.4-10-5 18.4±0.3 10.0±0.4 5.0±0.3 4.46 0.186 4.30 1400 1820 2600 3900 5200 TR18.4-10-10 18.4±0.3 10.0±0.4 10.0±0.4 4.46 0.186 8.90 2650 4270 5900 8800 11600 TR19-12.5-6 19.0±0.3 12.5±0.3 6.0±0.2 4.806 0.192 4.53 1200 1500 2500 3500 5000 TR19-12.5-9.6 19.0±0.3 12.5±0.3 9.6±0.25 4.88 0.3 7.40 1800 2100 3900 5800 7500 TR19-12.5-11 19.0±0.3 12.5±0.3 11.0±0.3 4.806 0.352 7.55 2200 2760 4500 6800 9000 TR19-13-11 19.0±0.3 13.0±0.3 11.0±0.3 4.9 0.326 7.98 2400 2980 4800 7100 9300 TR22-14-6.5 22.0±0.4 14.0±0.3 6.5±0.2 5.47 0.26 4.7 1400 1760 2800 4500 5800 TR25-15-12.5 25.0±0.4 15.0±0.4 12.5±0.2 6.02 6.07 17.9 2400 3060 5400 7500 11500 SR, Tile Cores - SR CORES TR25-15-13 25.0±0.4 15.0±0.4 13.0±0.3 6.02 6.09 18.1 2900 3670 5800 9000 12000 31
SR, Tile Cores _ TR CORES Type Dimensions(mm) Magnetic parameter AL(nH) A B C Le (Cm) Ae (Cm 3 ) W (g) J2A M2B G5A G8A G10A TR25-15-10 25.0±0.4 15.0±0.4 10.0±0.2 6.03 0.49 15.0 2400 3060 5400 7500 10000 TR25-15-12 25.0±0.4 15.0±0.4 12.0±0.3 6.02 0.59 17.8 2900 3670 5800 9000 11000 TR25-15-15 25.0±0.4 15.0±0.4 15.0±0.4 6.01 0.67 22.2 4900 6120 10200 15300 20400 TR29-18-10 29.0±0.7 18.0±0.6 10.0±0.3 7.11 0.44 18.5 2700 3430 3900 5600 7500 TR29-18-13 29.0±0.7 18.0±0.6 13.0±0.3 7.11 0.57 25.9 2700 3430 5100 7300 9500 TR29-18-15 29.0±0.7 18.0±0.6 15.0±0.4 7.11 0.81 29.5 3400 4290 6400 9200 12000 TR29-19-15 29.0±0.7 19.0±0.6 15.0±0.5 7.32 0.74 27.2 3500 4330 5900 9000 12000 TR31-20-15 31.0±0.7 20.0±0.6 15.0±0.5 7.34 0.74 29.1 3500 4330 5900 9000 12000 TR36-23-10 36.5±0.7 23.3±0.6 10.0±0.4 9.39 0.94 28.6 3600 4550 6100 7800 12000 TR36-23-15 36.5±0.7 23.0±0.6 15.0±0.5 9.02 0.99 46.0 3800 4900 6500 7800 13400 TR38-19-12.7 38.1±0.7 19.0±0.5 12.7±0.4 8.28 1.17 53.0 4400 6400 8700 13000 17000 TR38-19-13 38.1±0.7 19.0±0.5 13.0±0.4 8.28 1.17 53.0 4400 6400 8700 13000 17000 TR38.5-19.8-13 38.5±0.5 19.8±0.4 13.15MAX 8.52 1.17 54.8 4500 6500 6900 12000 16800 TR38.5-19.8-24.9 38.5±0.5 19.8±0.5 24.9±0.5 8.52 2.24 105 7100 8900 16000 24000 32000 TR44.5-30-13 44.5±0.6 30.0±0.5 13.0±0.5 11.4 0.93 56.0 2400 3070 5000 7500 9600 TR45-30-10 45.0±0.6 30.4±0.5 10.0±0.5 11.8 0.66 58.5 2200 2800 3400 5100 6800 TR45-30-15 45.0±0.6 30.4±0.5 15.0±0.5 11.84 1.02 44.0 2300 3000 4700 7500 9200 TR48-30-15 48.0±0.5 30.0±0.8 15.0±0.5 11.92 1.29 81.5 3000 3270 7490 9540 13622 TR49-31-16 49.5±0.6 31.8±0.6 16.0±0.6 12.77 1.3 80.6 3200 4300 6000 8500 12000 TR49-31-19 49.2max. 30.2min. 18.8±0.3 12.8 1.58 96 3700 4650 7800 TR51-31-7 51.0±1.0 31.0±0.7 7.0±0.3 12.36 0.69 43 2000 2400 3100 5000 6500 TR51-31-13 51.0±1.1 31.0±0.9 13.0±0.8 12.36 1.27 83 3100 3880 6000 9000 12000 TR51-31-15 51.0±1.1 31.0±0.9 15.0±0.8 12.36 1.56 104 3500 4200 6800 10000 13500 TR56-36-20 56.0±1.0 36.0±1.0 20±0.8 15.05 1.62 126 2800 3520 5500 8000 11000 TR68-44-13.5 68.0±1.2 44.0±1.0 13.5±0.5 17.05 1.59 136 2800 3520 5500 8000 11000 TR68-44-15 68.0±1.2 43.7±0.5 15±0.4 17.05 1.77 151 3100 3800 5800 8300 11000 TR68-44-25 68.0±1.2 43.7±0.5 25±0.4 17.05 1.89 161 3600 4300 6300 9300 13000 TR73-38-13 73.7±0.9 38.9±0.9 13.0±0.5 16.50 2.20 190 3600 5600 8000 12000 16000 TR87-55-25 73.7±0.9 38.9±0.9 13.0±0.5 21.50 3.10 230 4300 6400 9000 13000 17500 32
33 SR, Tile Cores - TR CORES
SMPS SMPS, INVERTER 용부품 TRANS FORMER 교류의전압및전류의크기를전자기유도작용을이용하여변성하는전기제품. LINE FILTER 입력라인에흐르는리플성분을줄이고, SET 의외부에서영입되는노이즈를저지하기위해사용. 34
TROIDAL FILTER 입력라인에흐르는리플성분을줄이고, SET 의외부에서영입되는노이즈를저지하기위해사용. CHOKE COIL 코일이교류에대해큰저항분를갖는것을이용하여교류분이나고주파분의저지를위해사용. SMPS, INVERTER 용부품 35
SMPS SMPS, INVERTER 용부품 FERRITE BEAD SET 상기생성분 (parasitic) 에의한발진을막거나특정주파수영역의노이즈를차폐할목적으로사용. PEAKING COIL 1) 전원용 : π형회로를구성하여저주파 NOISE 제거 2) 신호용 : 미세전류를이용하여원하는주파수대의시료를잡을수있는회로구성가능 3) ON/OFF시나타나는과전류의흐름제어용도 36
SMD ON/OFF 시의노이즈제거를위한 CHOKE 의성질을가진제품중 LEAD 선까지짧게한표면실장타입임. 최근전원용목적으로사용하기도함. SMPS, INVERTER 용부품 37
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PRODUCTS Mn-Zn Ferrite Core EE,EI,EER,TR,SQ,PQ,UU,FU,RM, -Low Loss Ferrite Core -High Impedance Ferrite Core -High Permeability Ferrite Core EMI Ferrite Core OP,RING,BNF,Bead,Cable,Balun -EMI/EMC Suppressor Ferrite Core -Chip Bead Coil -Switching Transformer -Line Filter -Inductor -EMI/EMC Filter Ballast & Lamp -Electronic Ballast -Charming Lamp -Deco Lamp For improvement of its products, Feelux reserves the right to change specifications without prior notice to customers. 2012. 01. Printed in Korea