Notice for TAIYO YUDEN Products [ For General Electronic Equipment ] Please read this notice before using the TAIYO YUDEN products. REMINDERS ■ Product information in this catalog is as of October 2018. All of the contents specified herein are subject to change without notice due to technical improvements, etc. Therefore, please check for the latest information carefully before practical application or use of our products. Please note that TAIYO YUDEN shall not be in any way responsible for any damages and defects in products or equipment incorporating our products, which are caused under the conditions other than those specified in this catalog or individual product specification sheets. ■ Please contact TAIYO YUDEN for further details of product specifications as the individual product specification sheets are available. ■ Please conduct validation and verification of our products in actual condition of mounting and operating environment before using our products. ■ The products listed in this catalog are intended for use in general electronic equipment (e.g., AV equipment, OA equipment, home electric appliances, office equipment, information and communication equipment including, without limitation, mobile phone, and PC) and medical equipment classified as Class I or II by IMDRF. Please be sure to contact TAIYO YUDEN for further information before using the products for any equipment which may directly cause loss of human life or bodily injury (e.g., transportation equipment including, without limitation, automotive powertrain control system, train control system, and ship control system, traffic signal equipment, disaster prevention equipment, medical equipment classified as Class III by IMDRF, highly public information network equipment including, without limitation, telephone exchange, and base station). Please do not incorporate our products into any equipment requiring high levels of safety and/or reliability (e.g., aerospace equipment, aviation equipment*, medical equipment classified as Class IV by IMDRF, nuclear control equipment, undersea equipment, military equipment). *Note: There is a possibility that our products can be used only for aviation equipment that does not directly affect the safe operation of aircraft (e.g., in-flight entertainment, cabin light, electric seat, cooking equipment) if such use meets requirements specified separately by TAIYO YUDEN. Please be sure to contact TAIYO YUDEN for further information before using our products for such aviation equipment. When our products are used even for high safety and/or reliability-required devices or circuits of general electronic equipment, it is strongly recommended to perform a thorough safety evaluation prior to use of our products and to install a protection circuit as necessary. Please note that unless you obtain prior written consent of TAIYO YUDEN, TAIYO YUDEN shall not be in any way responsible for any damages incurred by you or third parties arising from use of the products listed in this catalog for any equipment requiring inquiry to TAIYO YUDEN or prohibited for use by TAIYO YUDEN as described above. ■ Information contained in this catalog is intended to convey examples of typical performances and/or applications of our products and is not intended to make any warranty with respect to the intellectual property rights or any other related rights of TAIYO YUDEN or any third parties nor grant any license under such rights. ■ Please note that the scope of warranty for our products is limited to the delivered our products themselves and TAIYO YUDEN shall not be in any way responsible for any damages resulting from a fault or defect in our products. Notwithstanding the foregoing, if there is a written agreement (e.g., supply and purchase agreement, quality assurance agreement) signed by TAIYO YUDEN and your company, TAIYO YUDEN will warrant our products in accordance with such agreement. ■ The contents of this catalog are applicable to our products which are purchased from our sales offices or authorized distributors (hereinafter“ TAIYO YUDEN’s official sales channel”). Please note that the contents of this catalog are not applicable to our products purchased from any seller other than TAIYO YUDEN’s official sales channel. ■ Caution for Export Some of our products listed in this catalog may require specific procedures for export according to“ U.S. Export Administration Regulations”,“ Foreign Exchange and Foreign Trade Control Law” of Japan, and other applicable regulations. Should you have any questions on this matter, please contact our sales staff. 19

HIGH-Q MULTILAYER CHIP INDUCTORS FOR HIGH FREQUENCY APPLICATIONS(HK SERIES Q TYPE/AQ SERIES) HIGH-Q MULTILAYER CHIP INDUCTORS FOR HIGH FREQUENCY APPLICATIONS（HK SERIES Q TYPE/AQ SERIES） REFLOW REFLOW ■PARTS NUMBER * Operating Temp.：-55～+125℃ H K Q 0 6 0 3 S 1 0 N J － T △＝Blank space ① ② ③ ④ ⑤ ⑥ ①Series name ④Nominal inductance Code Series name Code Nominal inductance［nH］ HKQ High-Q multilayer chip inductor for high （example） AQ△ frequency applications 3N9 3.9 10N 10.0 ②Dimensions（L×W） ※N＝0.0（nH type） IN Code Type（inch） Dimensions D （L×W）［mm］ ⑤Inductance tolerance U 0603 0603（0201） 0.6×0.3 Code Inductance tolerance C 105△ 105（0402） 1.0×0.6 H ±3％ T O J ±5％ R ③Series code B ±0.1nH S Code Series code C ±0.2nH ／ △ Standard S ±0.3nH IN W W D S S ⑥Packaging U U U Code Packaging C T －T Taping O －E Taping（1mm pitch）0402type only R S F O ■STANDARD EXTERNAL DIMENSIONS / STANDARD QUANTITY R H HKQ0603S、HKQ0603U、AQ 105 HKQ0603W 0N6～24N HKQ0603W 27N～R10 IG H W W W F L L L R E Q T T T U E e e e N C Y A Standard quantity［pcs］ P Type L W T e P Paper tape Embossed tape L HKQ0603W 0.6±0.03 0.3±0.03 0.3±0.03 0.15±0.05 IC 15000 － （0201） （0.024±0.001） （0.012±0.001） （0.012±0.001） （0.006±0.002） A T HKQ0603S 0.6±0.03 0.3±0.03 0.3±0.03 0.1±0.05 IO HKQ0603U （0.024±0.001） （0.012±0.001） （0.012±0.001） （0.004±0.002） 15000 － N （0201） S AQ 105 1.0±0.05 0.6±0.1 0.5±0.05 0.175±0.075 10000 － （0402） （0.039±0.002） （0.024±0.004） （0.020±0.002） （0.007±0.003） Unit：mm（inch） i_mlci_HKQ_AQ_e-E07R01 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 102 19

■PARTS NUMBER ●HKQ0603W Nominal Q LQ Measuring Q（Typical）frequency［Hｚ］ Self-resonant Resistance Rated current Thickness Parts number EHS inductance Inductance tolerance frequency frequency DC ［Ω］ （min.） ［mA］（max.） ［mm］ ［nH］ ［MHz］ 500M 800M 1.8G 2.0G 2.4G ［MHｚ］（min.） （max.） HKQ0603W0N6[]-T RoHS 0.6 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.07 850 0.30±0.03 HKQ0603W0N7[]-T RoHS 0.7 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.07 850 0.30±0.03 HKQ0603W0N8[]-T RoHS 0.8 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.07 850 0.30±0.03 HKQ0603W0N9[]-T RoHS 0.9 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.09 760 0.30±0.03 HKQ0603W1N0[]-T RoHS 1 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.12 680 0.30±0.03 HKQ0603W1N1[]-T RoHS 1.1 ±0.1nH、±0.2nH、±0.3nH 15 500 30< 40< 75< 80< 88< 10000 0.10 750 0.30±0.03 HKQ0603W1N2[]-T RoHS 1.2 ±0.1nH、±0.2nH、±0.3nH 15 500 30 40 75 80 88 10000 0.10 750 0.30±0.03 HKQ0603W1N3[]-T RoHS 1.3 ±0.1nH、±0.2nH、±0.3nH 15 500 30 40 70 74 85 10000 0.12 650 0.30±0.03 HKQ0603W1N4[]-T RoHS 1.4 ±0.1nH、±0.2nH、±0.3nH 15 500 30 39 65 68 80 10000 0.12 650 0.30±0.03 HKQ0603W1N5[]-T RoHS 1.5 ±0.1nH、±0.2nH、±0.3nH 15 500 30 38 60 63 75 10000 0.12 650 0.30±0.03 HKQ0603W1N6[]-T RoHS 1.6 ±0.1nH、±0.2nH、±0.3nH 15 500 26 34 55 57 70 10000 0.14 610 0.30±0.03 HKQ0603W1N7[]-T RoHS 1.7 ±0.1nH、±0.2nH、±0.3nH 15 500 25 33 53 55 62 10000 0.14 610 0.30±0.03 HKQ0603W1N8[]-T RoHS 1.8 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 53 55 62 10000 0.14 610 0.30±0.03 HKQ0603W1N9[]-T RoHS 1.9 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 53 55 62 10000 0.14 610 0.30±0.03 HKQ0603W2N0[]-T RoHS 2 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 53 55 62 10000 0.14 610 0.30±0.03 HKQ0603W2N1[]-T RoHS 2.1 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 52 54 61 10000 0.14 610 0.30±0.03 HKQ0603W2N2[]-T RoHS 2.2 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 52 54 61 10000 0.14 610 0.30±0.03 IN HKQ0603W2N3[]-T RoHS 2.3 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 52 54 61 10000 0.16 560 0.30±0.03 D HKQ0603W2N4[]-T RoHS 2.4 ±0.1nH、±0.2nH、±0.3nH 15 500 25 32 51 53 61 10000 0.16 560 0.30±0.03 U HKQ0603W2N5[]-T RoHS 2.5 ±0.1nH、±0.2nH、±0.3nH 15 500 24 32 51 53 60 8500 0.16 560 0.30±0.03 C HKQ0603W2N6[]-T RoHS 2.6 ±0.1nH、±0.2nH、±0.3nH 15 500 24 32 50 52 56 8500 0.16 560 0.30±0.03 T HKQ0603W2N7[]-T RoHS 2.7 ±0.1nH、±0.2nH、±0.3nH 15 500 23 31 48 49 54 8500 0.19 510 0.30±0.03 O HKQ0603W2N8[]-T RoHS 2.8 ±0.1nH、±0.2nH、±0.3nH 15 500 23 31 48 50 53 8500 0.20 500 0.30±0.03 R HKQ0603W2N9[]-T RoHS 2.9 ±0.1nH、±0.2nH、±0.3nH 15 500 23 31 48 49 52 8500 0.20 500 0.30±0.03 S／ HKQ0603W3N0[]-T RoHS 3 ±0.1nH、±0.2nH、±0.3nH 15 500 22 31 46 47 52 8500 0.20 500 0.30±0.03 HKQ0603W3N1[]-T RoHS 3.1 ±0.1nH、±0.2nH、±0.3nH 15 500 22 30 46 48 52 8500 0.20 500 0.30±0.03 IN HKQ0603W3N2[]-T RoHS 3.2 ±0.1nH、±0.2nH、±0.3nH 15 500 22 30 46 48 52 8500 0.20 500 0.30±0.03 D HKQ0603W3N3[]-T RoHS 3.3 ±0.1nH、±0.2nH、±0.3nH 15 500 22 30 45 46 50 8000 0.20 500 0.30±0.03 U HKQ0603W3N4[]-T RoHS 3.4 ±0.1nH、±0.2nH、±0.3nH 15 500 22 30 46 47 50 8000 0.20 500 0.30±0.03 C HKQ0603W3N5[]-T RoHS 3.5 ±0.1nH、±0.2nH、±0.3nH 15 500 22 29 45 46 50 8000 0.20 500 0.30±0.03 T HKQ0603W3N6[]-T RoHS 3.6 ±0.1nH、±0.2nH、±0.3nH 15 500 22 29 45 46 50 7000 0.20 500 0.30±0.03 O HKQ0603W3N7[]-T RoHS 3.7 ±0.1nH、±0.2nH、±0.3nH 15 500 22 28 43 44 48 7000 0.20 500 0.30±0.03 R HKQ0603W3N8[]-T RoHS 3.8 ±0.1nH、±0.2nH、±0.3nH 15 500 22 28 43 44 47 7000 0.20 500 0.30±0.03 S HKQ0603W3N9[]-T RoHS 3.9 ±0.1nH、±0.2nH、±0.3nH 15 500 22 28 43 43 47 7000 0.25 440 0.30±0.03 F HKQ0603W4N3[]-T RoHS 4.3 ±0.2nH､±0.3nH､±3%､±5% 15 500 21 29 43 44 47 6000 0.30 400 0.30±0.03 O HKQ0603W4N7[]-T RoHS 4.7 ±0.2nH､±0.3nH､±3%､±5% 15 500 21 29 42 42 45 6000 0.35 370 0.30±0.03 R HKQ0603W5N1[]-T RoHS 5.1 ±0.2nH､±0.3nH､±3%､±5% 15 500 21 27 41 41 44 6000 0.35 370 0.30±0.03 H HKQ0603W5N6[]-T RoHS 5.6 ±0.2nH､±0.3nH､±3%､±5% 15 500 21 28 40 40 43 6000 0.35 370 0.30±0.03 IG HKQ0603W6N2[]-T RoHS 6.2 ±0.2nH､±0.3nH､±3%､±5% 15 500 21 27 40 41 41 6000 0.40 340 0.30±0.03 H HKQ0603W6N8[]-T RoHS 6.8 ±3%、±5% 15 500 21 27 39 39 40 6000 0.50 310 0.30±0.03 HKQ0603W7N5[]-T RoHS 7.5 ±3%、±5% 14 500 20 27 37 37 39 5000 0.60 300 0.30±0.03 FR HKQ0603W8N2[]-T RoHS 8.2 ±3%、±5% 14 500 20 27 37 37 40 5000 0.70 250 0.30±0.03 E HKQ0603W9N1[]-T RoHS 9.1 ±3%、±5% 14 500 20 26 36 36 39 4000 0.70 250 0.30±0.03 Q HKQ0603W10N[]-T RoHS 10 ±3%、±5% 14 500 20 26 35 35 37 4000 0.85 220 0.30±0.03 U HKQ0603W11N[]-T RoHS 11 ±3%、±5% 14 500 20 26 34 35 35 3000 0.85 220 0.30±0.03 E HKQ0603W12N[]-T RoHS 12 ±3%、±5% 14 500 20 26 32 33 34 3000 0.85 220 0.30±0.03 N HKQ0603W13N[]-T RoHS 13 ±3%、±5% 14 500 20 24 30 31 30 3000 0.90 200 0.30±0.03 C HKQ0603W15N[]-T RoHS 15 ±3%、±5% 14 500 20 24 30 29 27 3000 0.90 200 0.30±0.03 Y HKQ0603W16N[]-T RoHS 16 ±3%、±5% 14 500 19 24 28 27 25 3000 1.00 180 0.30±0.03 A HKQ0603W18N[]-T RoHS 18 ±3%、±5% 14 500 19 24 28 26 25 2500 1.20 180 0.30±0.03 P HKQ0603W20N[]-T RoHS 20 ±3%、±5% 14 500 18 23 26 26 22 2500 1.20 180 0.30±0.03 P HHKKQQ00660033WW2224NN[[]]--TT RRooHHSS 2224 ±±33%%、、±±55%% 1142 550000 1187 2230 2262 2260 2125 22250000 11..6600 116600 00..3300±±00..0033 LIC A HKQ0603W27N[]-T RoHS 27 ±3%、±5% 9 500 13 15 12 - - 1700 1.60 160 0.30±0.03 T HHKKQQ00660033WW3330NN[[]]--TT RRooHHSS 3330 ±3±%、5±%5% 87 530000 1133 1144 1-1 -- -- 11560000 11..6600 116600 00..3300±±00..0033 IO HKQ0603W39N[]-T RoHS 39 ±5% 7 300 12 13 - - - 1300 2.00 140 0.30±0.03 N HKQ0603W47N[]-T RoHS 47 ±5% 7 300 12 13 - - - 1200 2.10 140 0.30±0.03 S HKQ0603W56N[]-T RoHS 56 ±5% 7 300 11 12 - - - 1000 3.00 120 0.30±0.03 HKQ0603W68N[]-T RoHS 68 ±5% 7 300 11 12 - - - 1000 3.10 120 0.30±0.03 HKQ0603W82N[]-T RoHS 82 ±5% 7 300 11 11 - - - 900 3.50 110 0.30±0.03 HKQ0603WR10[]-T RoHS 100 ±5% 6 300 10 8 - - - 800 4.10 100 0.30±0.03 ※ [] mark indicates the Inductance tolerance code. i_mlci_HKQ_AQ_e-E07R01 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 19 103

■PARTS NUMBER ●HKQ0603S Nominal Q LQ Measuring Q（Typical）frequency［Hｚ］ Self-resonant Resistance Rated current Thickness Parts number EHS inductance Inductance tolerance frequency frequency DC ［Ω］ （min.） ［mA］（max.） ［mm］ ［nH］ ［MHz］ 500M 800M 1.8G 2.0G 2.4G ［MHｚ］（min.） （max.） HKQ0603S0N6[]-T RoHS 0.6 ±0.2nH，±0.3nH 13 500 >24 >31 >53 >56 >64 10000 0.06 600 0.30±0.03 HKQ0603S0N7[]-T RoHS 0.7 ±0.2nH，±0.3nH 13 500 >24 >31 >53 >56 >64 10000 0.07 550 0.30±0.03 HKQ0603S0N8[]-T RoHS 0.8 ±0.2nH，±0.3nH 13 500 >24 >31 >53 >56 >64 10000 0.07 550 0.30±0.03 HKQ0603S0N9[]-T RoHS 0.9 ±0.2nH，±0.3nH 13 500 >24 >31 >53 >56 >64 10000 0.08 520 0.30±0.03 HKQ0603S1N0[]-T RoHS 1.0 ±0.2nH，±0.3nH 13 500 24 31 53 56 64 10000 0.09 490 0.30±0.03 HKQ0603S1N1[]-T RoHS 1.1 ±0.2nH，±0.3nH 13 500 19 26 44 47 54 10000 0.12 420 0.30±0.03 HKQ0603S1N2[]-T RoHS 1.2 ±0.2nH，±0.3nH 13 500 19 25 42 44 51 10000 0.15 380 0.30±0.03 HKQ0603S1N3[]-T RoHS 1.3 ±0.2nH，±0.3nH 13 500 19 25 40 42 47 10000 0.19 330 0.30±0.03 HKQ0603S1N4[]-T RoHS 1.4 ±0.2nH，±0.3nH 13 500 19 24 39 41 47 10000 0.11 440 0.30±0.03 HKQ0603S1N5[]-T RoHS 1.5 ±0.2nH，±0.3nH 13 500 19 24 39 41 46 10000 0.12 420 0.30±0.03 HKQ0603S1N6[]-T RoHS 1.6 ±0.2nH，±0.3nH 13 500 19 24 39 41 46 10000 0.13 410 0.30±0.03 HKQ0603S1N7[]-T RoHS 1.7 ±0.2nH，±0.3nH 13 500 19 24 39 41 46 10000 0.15 380 0.30±0.03 HKQ0603S1N8[]-T RoHS 1.8 ±0.2nH，±0.3nH 13 500 18 24 39 41 46 10000 0.16 370 0.30±0.03 HKQ0603S1N9[]-T RoHS 1.9 ±0.2nH，±0.3nH 13 500 18 23 38 40 45 10000 0.20 330 0.30±0.03 HKQ0603S2N0[]-T RoHS 2.0 ±0.2nH，±0.3nH 13 500 17 23 37 39 44 10000 0.24 300 0.30±0.03 HKQ0603S2N1[]-T RoHS 2.1 ±0.2nH，±0.3nH 13 500 17 23 37 39 44 10000 0.26 290 0.30±0.03 IN HKQ0603S2N2[]-T RoHS 2.2 ±0.2nH，±0.3nH 13 500 17 23 37 39 43 10000 0.28 270 0.30±0.03 D HKQ0603S2N3[]-T RoHS 2.3 ±0.2nH，±0.3nH 13 500 17 23 36 38 43 10000 0.30 270 0.30±0.03 U HKQ0603S2N4[]-T RoHS 2.4 ±0.2nH，±0.3nH 13 500 17 22 36 38 42 10000 0.32 260 0.30±0.03 C HKQ0603S2N5[]-T RoHS 2.5 ±0.2nH，±0.3nH 13 500 17 22 34 35 39 9500 0.20 330 0.30±0.03 T HKQ0603S2N6[]-T RoHS 2.6 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 9300 0.22 310 0.30±0.03 O HKQ0603S2N7[]-T RoHS 2.7 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 9100 0.24 300 0.30±0.03 R HKQ0603S2N8[]-T RoHS 2.8 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8900 0.25 290 0.30±0.03 S／ HKQ0603S2N9[]-T RoHS 2.9 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8700 0.28 270 0.30±0.03 HKQ0603S3N0[]-T RoHS 3.0 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8600 0.28 270 0.30±0.03 IN HKQ0603S3N1[]-T RoHS 3.1 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8400 0.29 270 0.30±0.03 D HKQ0603S3N2[]-T RoHS 3.2 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8200 0.30 270 0.30±0.03 U HKQ0603S3N3[]-T RoHS 3.3 ±0.2nH，±0.3nH 13 500 17 22 33 35 39 8100 0.32 260 0.30±0.03 C HKQ0603S3N4[]-T RoHS 3.4 ±0.2nH，±0.3nH 13 500 16 22 33 35 39 8000 0.36 240 0.30±0.03 T HKQ0603S3N5[]-T RoHS 3.5 ±0.2nH，±0.3nH 13 500 16 22 33 35 39 7800 0.40 230 0.30±0.03 O HKQ0603S3N6[]-T RoHS 3.6 ±0.2nH，±0.3nH 13 500 16 22 33 35 39 7700 0.41 230 0.30±0.03 R HKQ0603S3N7[]-T RoHS 3.7 ±0.2nH，±0.3nH 13 500 16 22 33 35 38 7600 0.44 220 0.30±0.03 S HKQ0603S3N8[]-T RoHS 3.8 ±0.2nH，±0.3nH 13 500 16 22 33 35 38 7500 0.48 210 0.30±0.03 F HKQ0603S3N9[]-T RoHS 3.9 ±0.2nH，±0.3nH 13 500 16 22 33 35 38 7300 0.48 210 0.30±0.03 O HKQ0603S4N3[]-T RoHS 4.3 ±0.2nH，±0.3nH 13 500 16 21 32 34 37 6500 0.39 230 0.30±0.03 R HKQ0603S4N7[]-T RoHS 4.7 ±0.2nH，±0.3nH 13 500 16 21 32 34 37 6200 0.44 220 0.30±0.03 H HKQ0603S5N1[]-T RoHS 5.1 ±0.2nH，±0.3nH 13 500 16 21 32 34 37 5900 0.49 210 0.30±0.03 IG HKQ0603S5N6[]-T RoHS 5.6 ±0.2nH，±0.3nH 13 500 16 21 32 34 37 5500 0.47 210 0.30±0.03 H HKQ0603S6N2[]-T RoHS 6.2 ±0.2nH，±0.3nH 13 500 16 21 32 33 36 5100 0.52 200 0.30±0.03 HKQ0603S6N8[]-T RoHS 6.8 ±3％，±5％ 13 500 16 21 31 32 35 4800 0.55 190 0.30±0.03 F HKQ0603S7N5[]-T RoHS 7.5 ±3％，±5％ 13 500 16 20 30 32 34 4600 0.51 200 0.30±0.03 R E HKQ0603S8N2[]-T RoHS 8.2 ±3％，±5％ 13 500 16 20 30 31 33 4300 0.57 190 0.30±0.03 Q HKQ0603S9N1[]-T RoHS 9.1 ±3％，±5％ 13 500 16 20 30 30 32 4000 0.73 170 0.30±0.03 U HKQ0603S10N[]-T RoHS 10 ±3％，±5％ 13 500 16 20 28 29 31 3800 0.85 160 0.30±0.03 E HKQ0603S12N[]-T RoHS 12 ±3％，±5％ 12 500 16 20 27 27 27 3300 0.85 160 0.30±0.03 N HKQ0603S15N[]-T RoHS 15 ±3％，±5％ 12 500 15 19 24 24 23 2600 0.89 150 0.30±0.03 C HKQ0603S18N[]-T RoHS 18 ±3％，±5％ 11 500 15 19 23 23 21 2300 1.05 140 0.30±0.03 Y HKQ0603S22N[]-T RoHS 22 ±3％，±5％ 10 500 15 19 22 22 19 1900 1.29 130 0.30±0.03 A ※ [] mark indicates the Inductance tolerance code. P P L IC A T IO N S i_mlci_HKQ_AQ_e-E07R01 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 104 19

■PARTS NUMBER ●HKQ0603U Nominal Q LQ Measuring Q（Typical）frequency［Hｚ］ Self-resonant Resistance Rated current Thickness Parts number EHS inductance Inductance tolerance frequency frequency DC ［Ω］ （min.） ［mA］（max.） ［mm］ ［nH］ ［MHz］ 500M 800M 1.8G 2.0G 2.4G ［MHｚ］（min.） （max.） HKQ0603U0N6[]-T RoHS 0.6 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.06 900 0.30±0.03 HKQ0603U0N7[]-T RoHS 0.7 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.06 900 0.30±0.03 HKQ0603U0N8[]-T RoHS 0.8 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.06 900 0.30±0.03 HKQ0603U0N9[]-T RoHS 0.9 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.06 900 0.30±0.03 HKQ0603U1N0[]-T RoHS 1.0 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.07 850 0.30±0.03 HKQ0603U1N1[]-T RoHS 1.1 ±0.1nH，±0.2nH，±0.3nH 14 500 >35 >47 >75 >80 >88 10000 0.07 850 0.30±0.03 HKQ0603U1N2[]-T RoHS 1.2 ±0.1nH，±0.2nH，±0.3nH 14 500 35 47 75 80 88 10000 0.08 800 0.30±0.03 HKQ0603U1N3[]-T RoHS 1.3 ±0.1nH，±0.2nH，±0.3nH 14 500 32 43 70 74 82 10000 0.09 760 0.30±0.03 HKQ0603U1N4[]-T RoHS 1.4 ±0.1nH，±0.2nH，±0.3nH 14 500 29 39 63 67 75 10000 0.12 640 0.30±0.03 HKQ0603U1N5[]-T RoHS 1.5 ±0.1nH，±0.2nH，±0.3nH 14 500 27 36 59 62 69 10000 0.15 600 0.30±0.03 HKQ0603U1N6[]-T RoHS 1.6 ±0.1nH，±0.2nH，±0.3nH 14 500 25 33 54 57 63 10000 0.19 510 0.30±0.03 HKQ0603U1N7[]-T RoHS 1.7 ±0.1nH，±0.2nH，±0.3nH 14 500 25 32 52 54 61 10000 0.11 680 0.30±0.03 HKQ0603U1N8[]-T RoHS 1.8 ±0.1nH，±0.2nH，±0.3nH 14 500 25 32 51 53 59 10000 0.12 640 0.30±0.03 HKQ0603U1N9[]-T RoHS 1.9 ±0.1nH，±0.2nH，±0.3nH 14 500 24 31 50 53 58 10000 0.13 620 0.30±0.03 HKQ0603U2N0[]-T RoHS 2.0 ±0.1nH，±0.2nH，±0.3nH 14 500 24 31 50 53 58 10000 0.15 600 0.30±0.03 HKQ0603U2N1[]-T RoHS 2.1 ±0.1nH，±0.2nH，±0.3nH 14 500 24 31 50 53 58 10000 0.16 550 0.30±0.03 HKQ0603U2N2[]-T RoHS 2.2 ±0.1nH，±0.2nH，±0.3nH 14 500 24 31 50 53 58 10000 0.20 500 0.30±0.03 IN HKQ0603U2N3[]-T RoHS 2.3 ±0.1nH，±0.2nH，±0.3nH 14 500 24 31 49 52 58 10000 0.24 460 0.30±0.03 D HKQ0603U2N4[]-T RoHS 2.4 ±0.1nH，±0.2nH，±0.3nH 14 500 22 28 45 48 53 10000 0.26 430 0.30±0.03 U HKQ0603U2N5[]-T RoHS 2.5 ±0.1nH，±0.2nH，±0.3nH 14 500 22 29 46 49 54 10000 0.28 415 0.30±0.03 C HKQ0603U2N6[]-T RoHS 2.6 ±0.1nH，±0.2nH，±0.3nH 14 500 21 27 44 46 51 10000 0.30 405 0.30±0.03 T HKQ0603U2N7[]-T RoHS 2.7 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 41 43 48 10000 0.32 400 0.30±0.03 O HKQ0603U2N8[]-T RoHS 2.8 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 41 43 47 9500 0.20 500 0.30±0.03 R HKQ0603U2N9[]-T RoHS 2.9 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 41 43 47 9300 0.22 480 0.30±0.03 S／ HKQ0603U3N0[]-T RoHS 3.0 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 41 43 47 9100 0.24 460 0.30±0.03 HKQ0603U3N1[]-T RoHS 3.1 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 41 43 47 8900 0.25 450 0.30±0.03 IN HKQ0603U3N2[]-T RoHS 3.2 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 40 43 47 8700 0.28 415 0.30±0.03 D HKQ0603U3N3[]-T RoHS 3.3 ±0.1nH，±0.2nH，±0.3nH 14 500 20 26 40 43 47 8600 0.28 415 0.30±0.03 U HKQ0603U3N4[]-T RoHS 3.4 ±0.1nH，±0.2nH，±0.3nH 14 500 20 25 40 43 47 8400 0.29 410 0.30±0.03 C HKQ0603U3N5[]-T RoHS 3.5 ±0.1nH，±0.2nH，±0.3nH 14 500 20 25 40 42 46 8200 0.30 405 0.30±0.03 T HKQ0603U3N6[]-T RoHS 3.6 ±0.1nH，±0.2nH，±0.3nH 14 500 19 25 40 42 46 8100 0.32 400 0.30±0.03 O HKQ0603U3N7[]-T RoHS 3.7 ±0.1nH，±0.2nH，±0.3nH 14 500 19 25 40 42 46 8000 0.36 370 0.30±0.03 R HKQ0603U3N8[]-T RoHS 3.8 ±0.1nH，±0.2nH，±0.3nH 14 500 19 25 39 41 45 7800 0.40 355 0.30±0.03 S HKQ0603U3N9[]-T RoHS 3.9 ±0.1nH，±0.2nH，±0.3nH 14 500 19 25 39 41 45 7700 0.41 350 0.30±0.03 F HKQ0603U4N0[]-T RoHS 4.0 ±0.1nH，±0.2nH，±0.3nH 14 500 18 25 39 41 45 7600 0.44 335 0.30±0.03 O HKQ0603U4N1[]-T RoHS 4.1 ±0.1nH，±0.2nH，±0.3nH 14 500 19 25 39 41 45 7500 0.48 320 0.30±0.03 R HKQ0603U4N2[]-T RoHS 4.2 ±0.1nH，±0.2nH，±0.3nH 14 500 18 24 37 39 43 7300 0.48 320 0.30±0.03 H HKQ0603U4N3[]-T RoHS 4.3 ±0.2nH，±0.3nH 14 500 18 24 37 39 43 6500 0.48 320 0.30±0.03 IG HKQ0603U4N6[]-T RoHS 4.6 ±0.2nH，±0.3nH 14 500 18 24 37 39 42 6500 0.39 360 0.30±0.03 H HKQ0603U4N7[]-T RoHS 4.7 ±0.2nH，±0.3nH 14 500 19 24 37 39 42 6400 0.42 350 0.30±0.03 HKQ0603U5N0[]-T RoHS 5.0 ±0.2nH，±0.3nH 14 500 19 24 37 39 42 6200 0.44 335 0.30±0.03 F HKQ0603U5N1[]-T RoHS 5.1 ±0.2nH，±0.3nH 14 500 19 24 37 39 42 6100 0.45 330 0.30±0.03 R E HKQ0603U5N4[]-T RoHS 5.4 ±0.2nH，±0.3nH 14 500 18 24 36 38 42 5900 0.49 315 0.30±0.03 Q HKQ0603U5N6[]-T RoHS 5.6 ±0.2nH，±0.3nH 14 500 18 24 36 37 41 5500 0.47 325 0.30±0.03 U HKQ0603U5N9[]-T RoHS 5.9 ±0.2nH，±0.3nH 14 500 18 23 35 36 39 5500 0.47 325 0.30±0.03 E HKQ0603U6N2[]-T RoHS 6.2 ±0.2nH，±0.3nH 14 500 18 23 35 36 39 5100 0.52 305 0.30±0.03 N HKQ0603U6N5[]-T RoHS 6.5 ±0.2nH，±0.3nH 14 500 18 23 35 36 39 5100 0.52 305 0.30±0.03 C HKQ0603U6N8[]-T RoHS 6.8 ±3％，±5％ 14 500 18 23 35 36 39 4800 0.55 305 0.30±0.03 Y HKQ0603U7N1[]-T RoHS 7.1 ±3％，±5％ 14 500 18 23 35 36 39 4800 0.55 305 0.30±0.03 A HKQ0603U7N5[]-T RoHS 7.5 ±3％，±5％ 14 500 18 23 34 35 38 4600 0.55 305 0.30±0.03 P HKQ0603U7N8[]-T RoHS 7.8 ±3％，±5％ 14 500 17 22 33 34 36 4600 0.51 310 0.30±0.03 P HKQ0603U8N2[]-T RoHS 8.2 ±3％，±5％ 14 500 17 22 33 34 36 4300 0.57 290 0.30±0.03 L HKQ0603U8N5[]-T RoHS 8.5 ±3％，±5％ 14 500 17 22 33 34 36 4300 0.57 290 0.30±0.03 IC HKQ0603U9N1[]-T RoHS 9.1 ±3％，±5％ 14 500 17 22 33 34 36 4000 0.65 270 0.30±0.03 A HKQ0603U9N4[]-T RoHS 9.4 ±3％，±5％ 14 500 17 22 33 34 36 4000 0.73 250 0.30±0.03 T HKQ0603U10N[]-T RoHS 10 ±3％，±5％ 14 500 17 22 33 34 36 3800 0.85 230 0.30±0.03 IO HKQ0603U12N[]-T RoHS 12 ±3％，±5％ 14 500 17 22 31 32 33 3300 0.85 230 0.30±0.03 N HKQ0603U15N[]-T RoHS 15 ±3％，±5％ 14 500 17 21 28 29 29 2600 0.89 220 0.30±0.03 S HKQ0603U18N[]-T RoHS 18 ±3％，±5％ 14 500 16 21 26 26 25 2300 1.05 205 0.30±0.03 HKQ0603U22N[]-T RoHS 22 ±3％，±5％ 14 500 16 21 26 26 24 1900 1.29 190 0.30±0.03 ※ [] mark indicates the Inductance tolerance code. i_mlci_HKQ_AQ_e-E07R01 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 19 105

■PARTS NUMBER ●AQ 105 Self-resonant Resistance Rated current Nominal Q LQ Measuring Q（Typical）frequency［MHｚ］ frequency［MHｚ］ DC［Ω］ ［mA］（max.） Thickness Parts number EHS inductance Inductance tolerance ※） frequency ［nH］ （min.） ［MHz］ 300 800 900 1500 1800 （min.） （typ.） （max.） （typ.） -55～ -55～ ［mm］ +125℃ +85℃ AQ 105 1N0[]-T RoHS 1.0 ±0.3nH 8 100 53 129 147 217 244 10000 > 13000 0.07 0.014 710 930 0.50±0.05 AQ 105 1N2[]-T RoHS 1.2 ±0.3nH 8 100 45 97 110 156 177 10000 > 13000 0.07 0.016 710 930 0.50±0.05 AQ 105 1N5[]-T RoHS 1.5 ±0.3nH 8 100 35 69 76 104 116 8000 > 13000 0.07 0.030 710 930 0.50±0.05 AQ 105 1N8[]-T RoHS 1.8 ±0.3nH 8 100 32 61 66 92 100 6000 11000 0.07 0.035 710 930 0.50±0.05 AQ 105 2N0[]-T RoHS 2.0 ±0.3nH 8 100 38 68 73 94 103 6000 10500 0.08 0.035 660 870 0.50±0.05 AQ 105 2N2[]-T RoHS 2.2 ±0.3nH 8 100 37 67 71 92 101 6000 10000 0.08 0.040 660 870 0.50±0.05 AQ 105 2N4[]-T RoHS 2.4 ±0.3nH 8 100 34 54 59 74 86 6000 9600 0.09 0.050 630 820 0.50±0.05 AQ 105 2N7[]-T RoHS 2.7 ±0.3nH 8 100 30 49 52 67 73 6000 9200 0.09 0.060 630 820 0.50±0.05 AQ 105 3N0[]-T RoHS 3.0 ±0.3nH 8 100 31 51 54 70 76 6000 8700 0.11 0.070 570 740 0.50±0.05 AQ 105 3N3[]-T RoHS 3.3 ±0.3nH 8 100 32 54 57 72 79 6000 8300 0.12 0.075 540 710 0.50±0.05 AQ 105 3N6[]-T RoHS 3.6 ±0.3nH 8 100 33 53 56 71 77 5000 7800 0.14 0.080 500 650 0.50±0.05 AQ 105 3N9[]-T RoHS 3.9 ±0.3nH 8 100 34 53 56 70 76 4000 7300 0.15 0.085 490 630 0.50±0.05 AQ 105 4N3[]-T RoHS 4.3 ±0.3nH 8 100 29 47 50 64 71 4000 6900 0.16 0.090 470 610 0.50±0.05 AQ 105 4N7[]-T RoHS 4.7 ±0.3nH 8 100 30 48 51 65 72 4000 6400 0.17 0.095 450 590 0.50±0.05 AQ 105 5N1[]-T RoHS 5.1 ±0.3nH 8 100 30 48 51 64 71 4000 6300 0.19 0.110 430 560 0.50±0.05 IN AQ 105 5N6[]-T RoHS 5.6 ±0.3nH 8 100 30 48 51 65 71 4000 6200 0.20 0.120 420 550 0.50±0.05 D AQ 105 6N2[]-T RoHS 6.2 ±0.3nH 8 100 31 49 52 66 72 3900 6100 0.22 0.130 400 520 0.50±0.05 U AQ 105 6N8[]-T RoHS 6.8 ±5％ 8 100 28 44 49 59 64 3900 6000 0.23 0.130 390 510 0.50±0.05 C AQ 105 7N5[]-T RoHS 7.5 ±5％ 8 100 28 45 50 60 65 3700 5500 0.25 0.135 370 490 0.50±0.05 T AQ 105 8N2[]-T RoHS 8.2 ±5％ 8 100 29 46 50 62 66 3600 5000 0.27 0.140 360 470 0.50±0.05 O AQ 105 9N1[]-T RoHS 9.1 ±5％ 8 100 29 45 49 59 62 3400 4800 0.29 0.150 350 450 0.50±0.05 R AQ 105 10N[]-T RoHS 10 ±5％ 8 100 28 45 48 57 60 3200 4500 0.31 0.165 330 440 0.50±0.05 S ／ AQ 105 12N[]-T RoHS 12 ±5％ 8 100 26 40 45 51 52 2700 4300 0.39 0.165 300 390 0.50±0.05 AQ 105 15N[]-T RoHS 15 ±5％ 8 100 25 38 42 49 51 2300 4100 0.45 0.190 280 360 0.50±0.05 IN ※ [] mark indicates the Inductance tolerance code. Please refer for the inductance tolerance except the above. D U C T O R S F O R H IG H F R E Q U E N C Y A P P L IC A T IO N S i_mlci_HKQ_AQ_e-E07R01 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our product specification sheets. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our website (http://www.ty-top.com/) . 106 19

Multilayer chip inductors Multilayer chip inductors for high frequency, Multilayer chip bead inductors Multilayer common mode choke coils（MC series F type） Metal Multilayer Chip Power Inductors (MCOILTM MC series) ■PACKAGING ①Minimum Quantity ●Tape & Reel Packaging Thickness Standard Quantity ［pcs］ Type mm（inch） Paper Tape Embossed Tape CK1608（0603） 0.8 （0.031） 4000 － 0.85（0.033） 4000 － CK2125（0805） 1.25（0.049） － 2000 0.85（0.033） 4000 － CKS2125（0805） 1.25（0.049） － 2000 CKP1608（0603） 0.8 （0.031） 4000 － CKP2012（0805） 0.9 （0.035） － 3000 CKP2016（0806） 0.9 （0.035） － 3000 0.7 （0.028） － 3000 CKP2520（1008） 0.9 （0.035） － 3000 1.1 （0.043） － 2000 LK1005（0402） 0.5 （0.020） 10000 － LK1608（0603） 0.8 （0.031） 4000 － 0.85（0.033） 4000 － LK2125（0805） 1.25（0.049） － 2000 HK0603（0201） 0.3 （0.012） 15000 － HK1005（0402） 0.5 （0.020） 10000 － HK1608（0603） 0.8 （0.031） 4000 － 0.85（0.033） － 4000 HK2125（0805） 1.0 （0.039） － 3000 HKQ0603W（0201） 0.3 （0.012） 15000 － HKQ0603S（0201） 0.3 （0.012） 15000 － HKQ0603U（0201） 0.3 （0.012） 15000 － AQ105（0402） 0.5 （0.020） 10000 － BK0603（0201） 0.3 （0.012） 15000 － BK1005（0402） 0.5 （0.020） 10000 － BKH0603（0201） 0.3 （0.012） 15000 － BKH1005（0402） 0.5 （0.020） 10000 － BK1608（0603） 0.8 （0.031） 4000 － 0.85（0.033） 4000 － BK2125（0805） 1.25（0.049） － 2000 BK2010（0804） 0.45（0.018） 4000 － BK3216（1206） 0.8 （0.031） － 4000 BKP0603（0201） 0.3 （0.012） 15000 － BKP1005（0402） 0.5 （0.020） 10000 － BKP1608（0603） 0.8 （0.031） 4000 － BKP2125（0805） 0.85（0.033） 4000 － MCF0605（0202） 0.3 （0.012） 15000 － MCF0806（0302） 0.4 （0.016） － 10000 MCF1210（0504） 0.55（0.022） － 5000 MCF2010（0804） 0.45（0.018） － 4000 MCEE1005（0402） 0.55（0.022） 10000 － MCFK1608（0603） 0.6 （0.024） 4000 － MCFE1608（0603） 0.65（0.026） 4000 － MCKK1608（0603） 1.0 （0.039） 3000 MCHK2012（0806） 0.8 （0.031） 4000 － MCKK2012（0805） 1.0 （0.039） - 3000 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_pack_e-E07R01

②Taping material ●Card board carrier tape Top tape CK 1608 BK 0603 CKP 1608 BK 1005 CK 2125 BK 1608 CKS 2125 BK 2125 LK 1005 BK 2010 LK 1608 BKP 0603 Base tape LK 2125 BKP 1005 HK 0603 BKP 1608 HK 1005 BKP 2125 Sprocket hole HK 1608 BKH 0603 HKQ 0603 BKH 1005 AQ 105 MCF 0605 Bottom tape Chip cavity MC 1005 MC 1608 MC 2012 Chip Filled Chip ●Embossed Tape Top tape CK 2125 BK 2125 CKS 2125 BK 3216 CKP 2012 MCF 0806 CKP 2016 MCF 1210 CKP 2520 MCF 2010 LK 2125 MC 1608 HK 2125 MC 2012 Sprocket hole Base tape Chip cavity Chip Filled Chip ③Taping Dimensions ●Paper tape (8mm wide) Unit：mm（inch） φ1.5＋0.1/－0 1.75±0.1 Sprockethole (φ0.059＋0.004/-0) (0.069±0.004） T A B 3.5±0.05(0.138±0.002) 8.0±0.30.315±0.012) ( F 4.0±0.1 (0.157±0.004) 2.0±0.05 (0.079±0.002) ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_pack_e-E07R01

Thickness Chip cavity Insertion Pitch Tape Thickness Type mm（inch） Ａ Ｂ Ｆ Ｔ 1.0±0.2 1.8±0.2 4.0±0.1 1.1max CK1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 1.5±0.2 2.3±0.2 4.0±0.1 1.1max CK2125（0805） 0.85（0.033） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.043max） 1.5±0.2 2.3±0.2 4.0±0.1 1.1max CKS2125（0805） 0.85（0.033） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.043max） 1.0±0.2 1.8±0.2 4.0±0.1 1.1max CKP1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 0.65±0.1 1.15±0.1 2.0±0.05 0.8max LK1005（0402） 0.5 （0.020） （0.026±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 1.0±0.2 1.8±0.2 4.0±0.1 1.1max LK1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 1.5±0.2 2.3±0.2 4.0±0.1 1.1max LK2125（0805） 0.85（0.033） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.043max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max HK0603（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.65±0.1 1.15±0.1 2.0±0.05 0.8max HK1005（0402） 0.5 （0.020） （0.026±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 1.0±0.2 1.8±0.2 4.0±0.1 1.1max HK1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max HKQ0603W（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max HKQ0603S（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max HKQ0603U（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.75±0.1 1.15±0.1 2.0±0.05 0.8max AQ105（0402） 0.5 （0.020） （0.030±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max BK0603（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.65±0.1 1.15±0.1 2.0±0.05 0.8max BK1005（0402） 0.5 （0.020） （0.026±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 1.0±0.2 1.8±0.2 4.0±0.1 1.1max BK1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 1.5±0.2 2.3±0.2 4.0±0.1 1.1max BK2125（0805） 0.85（0.033） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.043max） 1.2±0.1 2.17±0.1 4.0±0.1 0.8max BK2010（0804） 0.45（0.018） （0.047±0.004） （0.085±0.004） （0.157±0.004） （0.031max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max BKP0603（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.65±0.1 1.15±0.1 2.0±0.05 0.8max BKP1005（0402） 0.5 （0.020） （0.026±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 1.0±0.2 1.8±0.2 4.0±0.1 1.1max BKP1608（0603） 0.8 （0.031） （0.039±0.008） （0.071±0.008） （0.157±0.004） （0.043max） 1.5±0.2 2.3±0.2 4.0±0.1 1.1max BKP2125（0805） 0.85（0.033） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.043max） 0.40±0.06 0.70±0.06 2.0±0.05 0.45max BKH0603（0201） 0.3 （0.012） （0.016±0.002） （0.028±0.002） （0.079±0.002） （0.018max） 0.65±0.1 1.15±0.1 2.0±0.05 0.8max BKH1005（0402） 0.5 （0.020） （0.026±0.004） （0.045±0.004） （0.079±0.002） （0.031max） 0.62±0.03 0.77±0.03 2.0±0.05 0.45max MCF0605（0202） 0.3 （0.012） （0.024±0.001） （0.030±0.001） （0.079±0.002） （0.018max） 1.1±0.05 1.9±0.05 4.0±0.1 0.72max MCFK1608（0603） 0.6 （0.024） （0.043±0.002） （0.075±0.002） （0.157±0.004） (0.028max) 0.8±0.05 1.3±0.05 2.0±0.05 0.6max MCEE1005（0402） 0.55（0.021） (0.031±0.002) (0.051±0.002) （0.079±0.002） (0.016max) 1.1±0.05 1.9±0.05 4.0±0.1 0.9max MCFE1608（0603） 0.65（0.026） （0.043±0.002） （0.075±0.002） （0.157±0.004） （0.035max） 1.55±0.2 2.3±0.2 4.0±0.1 0.9max MCHK2012（0805） 0.8 （0.031） （0.061±0.008） （0.091±0.008） （0.157±0.004） （0.035max） Unit : mm（inch） ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_pack_e-E07R01

●Embossed Tape (8mm wide) Unit：mm（inch） φ1.5＋0.1/－0 1.75±0.1 Sprockethole (φ0.059＋0.004/-0) (0.069±0.004） A B 3.5±0.05(0.138±0.002) 8.0±0.30.315±0.012) ( F 4.0±0.1 (0.157±0.004) 2.0±0.05 (0.079±0.002) Thickness Chip cavity Insertion Pitch Tape Thickness Type mm（inch） Ａ Ｂ Ｆ K T 1.5±0.2 2.3±0.2 4.0±0.1 2.0 0.3 CK2125（0805） 1.25（0.049） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.079） （0.012） 1.5±0.2 2.3±0.2 4.0±0.1 2.0 0.3 CKS2125（0805） 1.25（0.049） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.079） （0.012） 1.55±0.2 2.3±0.2 4.0±0.1 1.3 0.3 CKP2012（0805） 0.9 （0.035） （0.061±0.008） （0.091±0.008） （0.157±0.004） （0.051） （0.012） 1.8±0.1 2.2±0.1 4.0±0.1 1.3 0.25 CKP2016（0806） 0.9 （0.035） （0.071±0.004） （0.087±0.004） （0.157±0.004） （0.051） （0.01） 1.4 0.7 （0.028） （0.055） 1.4 0.9 （0.035） 2.3±0.1 2.8±0.1 4.0±0.1 （0.055） 0.3 CKP2520（1008） （0.091±0.004） （0.110±0.004） （0.157±0.004） 1.7 （0.012） 1.1 （0.043） （0.067） 1.7 1.1 （0.043） （0.067） 1.5±0.2 2.3±0.2 4.0±0.1 2.0 0.3 LK2125（0805） 1.25（0.049） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.079） （0.012） 1.5 0.85（0.033） 1.5±0.2 2.3±0.2 4.0±0.1 （0.059） 0.3 HK2125（0805） （0.059±0.008） （0.091±0.008） （0.157±0.004） 2.0 （0.012） 1.0 （0.039） （0.079） 1.5±0.2 2.3±0.2 4.0±0.1 2.0 0.3 BK2125（0805） 1.25（0.049） （0.059±0.008） （0.091±0.008） （0.157±0.004） （0.079） （0.012） 1.9±0.1 3.5±0.1 4.0±0.1 1.4 0.3 BK3216（1206） 0.8 （0.031） （0.075±0.004） （0.138±0.004） （0.157±0.004） （0.055） （0.012） 0.75±0.05 0.95±0.05 2.0±0.05 0.55 0.3 MCF0806（0302） 0.4 （0.016） （0.030±0.002） （0.037±0.002） （0.079±0.002） （0.022） （0.012） 1.15±0.05 1.40±0.05 4.0±0.1 0.65 0.3 MCF1210（0504） 0.55（0.022） （0.045±0.002） （0.055±0.002） （0.157±0.004） （0.026） （0.012） 1.1±0.1 2.3±0.1 4.0±0.1 0.85 0.3 MCF2010（0804） 0.45（0.018） （0.043±0.004） （0.091±0.004） （0.157±0.004） （0.033） （0.012） 1.1±0.1 1.95±0.1 4.0±0.1 1.4 0.25 MCKK1608（0603） 1.0 （0.039） （0.043±0.004） （±0.004） （0.157±0.004） （0.055） （0.01） 1.55±0.2 2.3±0.2 4.0±0.1 1.35 0.25 MCKK2012（0805） 1.0 （0.039） （0.061±0.008） （0.091±0.008） （0.157±0.004） （0.053） （0.010） Unit : mm（inch） ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_pack_e-E07R01

④LEADER AND BLANK PORTION Blank portion Chip cavity Blank portion Leader 160mm or more 100mm or more (6.3inches or more) (3.94inches or more) 400mm or more Direction of tape feed (15.7inches or more) ⑤Reel Size t E C B A R D W A B C D E R φ178±2.0 φ50 or more φ13.0±0.2 φ21.0±0.8 2.0±0.5 1.0 t W 4mm width tape 1.5max. 5±1.0 8mm width tape 2.5max. 10±1.5 (Unit : mm) ⑥Top tape strength The top tape requires a peel-off force of 0.1～0.7N in the direction of the arrow as illustrated below. Pull direction 0～15° Top tape Base tape ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_pack_e-E07R01

Multilayer chip inductors Multilayer chip inductors for high frequency, Multilayer chip bead inductors Multilayer common mode choke coils（MC series F type） Metal Multilayer Chip Power Inductors (MCOILTM MC series) ■RELIABILITY DATA 1. Operating Temperature Range BK series －55～＋125℃ BKH series BKP series －55～＋85℃ MCF series －40～＋85℃ CK series CKS series －40～＋85℃ Specified Value CKP series LK series HK0603, HK1005 －55～＋125℃ HK1608, HK2125 －40～＋85℃ HKQ0603 －55～＋125℃ AQ105 MCOILTM MC series －40～＋125℃（Including self-generated heat） 2. Storage Temperature Range BK series －55～＋125℃ BKH series BKP series －55～＋85℃ MCF series －40～＋85℃ CK series CKS series －40～＋85℃ Specified Value CKP series LK series HK0603, HK1005 －55～＋125℃ HK1608, HK2125 －40～＋85℃ HKQ0603 －55～＋125℃ AQ105 MCOILTM MC series －40～＋85℃ 3. Rated Current BK series The temperature of the element is increased within 20℃. BKH series BKP series The temperature of the element is increased within 40℃ MCF series Refer to each specification. CK series The temperature of the element is increased within 20℃. CKS series CKP series The temperature of the element is increased within 40℃ Specified Value LK series The decreasing-rate of inductance value is within 5 % HK0603, HK1005 HK1608, HK2125 The decreasing-rate of inductance value is within 5 %, or the temperature of the element is increased HKQ0603 within 20℃ AQ105 Idc1: The decreasing-rate of inductance value is within 30 % MCOILTM MC series Idc2: The temperature of the element is increased within 40℃ ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

4. Impedance BK series BKH series Specified Value Refer to each specification. BKP series MCF series BK0603Series, BKP0603Series, BKH Series Measuring frequency : 100±1MHz Measuring equipment : 4991A（or its equivalent） Measuring jig : 16193A（or its equivalent） BK1005Series, BKP1005Series ,BKH1005Series Measuring frequency : 100±1MHz Measuring equipment : 4291A（or its equivalent） Measuring jig : 16192A（or its equivalent）, HW:16193A（or its equivalent） BK1608・2125Series, BKP1608・2125Series Test Methods and Measuring frequency : 100±1MHz Remarks Measuring equipment : 4291A（or its equivalent）, 4195A（or its equivalent） Measuring jig : 16092A（or its equivalent）, HW:16192A（or its equivalent） BK2010・3216Series Measuring frequency : 100±1MHz Measuring equipment : 4291A（or its equivalent）, 4195A（or its equivalent） Measuring jig : 16192A（or its equivalent） MCF Series Measuring frequency : 100±1MHz Measuring equipment : 4291A（or its equivalent） 5. Inductance CK series CKS series CKP series LK series Specified Value HK0603, HK1005 Refer to each specification. HK1608, HK2125 HKQ0603 AQ105 MCOILTM MC series CK、CKS、LK Series Measuring frequency : Refer to each specification. Measuring equipment /jig : 1608,2125⇒4194A＋16085B＋16092A（or its equivalent）、4195A＋41951＋16092A（or its equivalent） 1005⇒4291A＋16193A（or its equivalent） Measuring current : 047～4.7μH ⇒1mArms 、 5.6～33μH ⇒0.1mArms CKP、MCOILTM MC Series Measuring frequency : 1MHz Measuring equipment : 4285A（or its equivalent） Test Methods and HK0603、HK1005、AQ Series Remarks Measuring frequency : 100MHz Measuring equipment /jig : HK0603・AQ105⇒4291A＋16197A（or its equivalent） HK1005⇒4291A＋16193A（or its equivalent） HK1608、HK2125 Series Measuring frequency : ～100nH⇒100MHz 、120nH～⇒50MHz Measuring equipment /jig : 4195A＋16092A（or its equivalent） HKQ Series Measuring frequency : HKQ0603S・HKQ0603U⇒ 500MHz Measuring frequency : HKQ0603W⇒ 300/500MHz Measuring equipment /jig : E4991A＋16197A（or its equivalent） ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

6. Q CK series CKS series － CKP series LK series Specified Value HK0603, HK1005 HK1608, HK2125 Refer to each specification. HKQ0603 AQ105 MCOILTM MC series － LK Series Measuring frequency : Refer to each specification. Measuring equipment /jig : 1608,2125⇒4194A＋16085B＋16092A（or its equivalent）、4195A＋41951＋16092A（or its equivalent） 1005⇒4291A＋16193A（or its equivalent） Measuring current : 047～4.7μH ⇒1mArms 、 5.6～33μH ⇒0.1mArms HK0603、HK1005、AQ Series Measuring frequency : 100MHz Test Methods and Measuring equipment /jig : HK0603・AQ105⇒4291A＋16197A（or its equivalent） Remarks HK1005⇒4291A＋16193A（or its equivalent） HK1608、HK2125 Series Measuring frequency : ～100nH⇒100MHz 、120nH～⇒50MHz Measuring equipment /jig : 4195A＋16092A（or its equivalent） HKQ Series Measuring frequency : HKQ0603S・HKQ0603U⇒ 500MHz Measuring frequency : HKQ0603W⇒ 300/500MHz Measuring equipment /jig : E4991A＋16197A（or its equivalent） 7. DC Resistance BK series BKH series BKP series MCF series CK series CKS series Specified Value CKP series Refer to each specification. LK series HK0603, HK1005 HK1608, HK2125 HKQ0603 AQ105 MCOILTM MC series Test Methods and Measuring equipment：VOAC-7412, VOAC-7512, VOAC-7521（made by Iwasaki Tsushinki）, HIOKI3227 (or its equivalent) Remarks 8. Self Resonance Frequency（SRF） BK series BKH series － BKP series MCF series CK series Refer to each specification. CKS series Specified Value CKP series － LK series HK0603, HK1005 HK1608, HK2125 Refer to each specification. HKQ0603 AQ105 MCOILTM MC series － LK、CK Series : Measuring equipment : 4195A（or its equivalent） Test Methods and Measuring jig : 41951＋16092A（or its equivalent） Remarks HK、HKQ、AQ Series : Measuring equipment : 8719C（or its equivalent）・8753D（or its equivalent）/HK2125 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

9. Temperature Characteristic BK series BKH series BKP series MCF series CK series CKS series CKP series － LK series HK0603, HK1005 Specified Value HK1608, HK2125 HKQ0603 AQ105 MCOILTM MC series HK0603, HK1005 HK1608, HK2125 Inductance change：Within ±10％ HKQ0603 AQ105 MCOILTM MC series Inductance change：Within ±15％ HK、HKQ、AQ Series： Temperature range : －30～＋85℃ Test Methods and Reference temperature : ＋20℃ Remarks MCOILTM MC series： Temperature range : －40～＋85℃ Reference temperature : ＋20℃ 10. Resistance to Flexure of Substrate BK series BKH series BKP series MCF series CK series CKS series Specified Value CKP series No mechanical damage. LK series HK0603, HK1005 HK1608, HK2125 HKQ0603 AQ105 MCOILTM MC series Warp : 2mm（BK Series、BKP、BKH1005、CK、CKS、CKP、LK、HK、HKQ0603S、HKQ0603U、AQ Series、MCF1210、MC Series） : 1mm（BKH0603、HKQ0603W、MCF Series without 1210 size,） Testing board : glass epoxy-resin substrate Thickness : 0.8mm 20 Test Methods and R-230 Remarks Board Warp Deviation±1 45 45 （Unit：mm） 11. Solderability BK series BKH series BKP series MCF series CK series CKS series Specified Value CKP series At least 90％ of terminal electrode is covered by new solder. LK series HK0603, HK1005 HK1608, HK2125 HKQ0603 AQ105 MCOILTM MC series Solder temperature ：230±5℃ (JIS Z 3282 H60A or H63A) Test Methods and Solder temperature ：245±3℃ (Sn/3.0Ag/0.5Cu) Remarks Duration ：4±1 sec. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

12. Resistance to Soldering BK series Appearance：No significant abnormality BKH series Impedance change：Within ±30％ BKP series Appearance：No significant abnormality MCF series Impedance change：Within ±20％ Appearance：No significant abnormality CK series Inductance change： R10～4R7⇒Within ±10％、 6R8～100⇒Within ±15％ Appearance：No significant abnormality CKS series Inductance change：Within ±20％ Appearance：No significant abnormality Specified Value CKP series Inductance change：Within ±30％ Appearance：No significant abnormality LK series Inductance change：1005⇒Within ±15％ 1608,2125⇒ 47N～4R7: Within ±10％ 5R6～330: Within ±15％ HK0603, HK1005 HK1608, HK2125 Appearance：No significant abnormality HKQ0603 Inductance change： Within ±5％ AQ105 Appearance：No significant abnormality MCOILTM MC series Inductance change： Within ±10％ Solder temperature ：260±5℃ Duration ：10±0.5 sec. Test Methods and Preheating temperature ：150 to 180℃ Remarks Preheating time ：3 min. Flux ：Immersion into methanol solution with colophony for 3 to 5 sec. Recovery ：2 to 3 hrs of recovery under the standard condition after the test.（See Note 1） (Note 1) When there are questions concerning measurement result；measurement shall be made after 48±2 hrs of recovery under the standard condition. 13. Thermal Shock BK series Appearance：No significant abnormality BKH series Impedance change： Within ±30％ BKP series Appearance：No significant abnormality MCF series Impedance change： Within ±20％ CK series Appearance：No significant abnormality CKS series Inductance change：Within ±20％ Appearance：No significant abnormality CKP series Specified Value Inductance change： Within ±30％ Appearance：No significant abnormality LK series Inductance change： Within ±10％ Q change： Within ±30％ HK0603, HK1005 HK1608, HK2125 Appearance：No significant abnormality HKQ0603 Inductance change： Within ±10％ Q change： Within ±20％ AQ105 Appearance：No significant abnormality MCOILTM MC series Inductance change： Within ±10％ Conditions for 1 cycle Step temperature（℃） time（min.） 1 Minimum operating temperature ＋0/－3 30±3 Test Methods and 2 Room temperature 2～3 Remarks 3 Maximum operating temperature ＋3/－0 30±3 4 Room temperature 2～3 Number of cycles：5 Recovery：2 to 3 hrs of recovery under the standard condition after the test.（See Note 1） (Note 1) When there are questions concerning measurement result；measurement shall be made after 48±2 hrs of recovery under the standard condition. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

14. Damp Heat（ Steady state） BK series Appearance：No significant abnormality BKH series Impedance change： Within ±30％ BKP series Appearance：No significant abnormality MCF series Impedance change： Within ±20％ CK series Appearance：No significant abnormality CKS series Inductance change： Within ±20％ Appearance：No significant abnormality CKP series Inductance change： Within ±30％ Specified Value Appearance：No significant abnormality LK series Inductance change： 1005,1608⇒Within ±10％ 2125⇒Within ±20％ Q change： Within ±30％ HK0603, HK1005 HK1608, HK2125 Appearance：No significant abnormality HKQ0603 Inductance change： Within ±10％ Q change： Within ±20％ AQ105 Appearance：No significant abnormality MCOILTM MC series Inductance change： Within ±10％ BK、BKP、BKH、LK、CK、CKS、CKP、MCF Series： Temperature ：40±2℃ Humidity ：90 to 95％RH Duration ：500 +24/-0 hrs Recovery ：2 to 3 hrs of recovery under the standard condition after the removal from test chamber.（See Note 1） Test Methods and Remarks HK、HKQ、AQ、MCOILTM MC series： Temperature ：60±2℃ Humidity ：90 to 95％RH Duration ：500 +24/-0 hrs Recovery ：2 to 3 hrs of recovery under the standard condition after the removal from test chamber.（See Note 1） (Note 1) When there are qu estions concerning measurement result；measurement shall be made after 48±2 hrs of recovery under the standard condition. 15. Loading under Damp Heat BK series Appearance：No significant abnormality BKH series Impedance change： Within ±30％ BKP series MCF series － CK series Appearance：No significant abnormality CKS series Inductance change： Within ±20％ Appearance：No significant abnormality CKP series Inductance change： Within ±30％ Appearance：No significant abnormality Specified Value Inductance change： 1005⇒Within ±10％ LK series 1608⇒0.047～12.0μH： Within ±10％ 15.0～33.0μH： Within ±15％ 2125⇒Within ±20％ Q change： Within ±30％ HK0603, HK1005 HK1608, HK2125 Appearance：No significant abnormality HKQ0603 Inductance change： Within ±10％ Q change： Within ±20％ AQ105 Appearance：No significant abnormality MCOILTM MC series※ Inductance change： Within ±10％ BK、BKP、BKH、LK、CK、CKS、CKP Series： Temperature ：40±2℃ Humidity ：90 to 95％RH Applied current ：Rated current Duration ：500 +24/-0 hrs Recovery ：2 to 3 hrs of recovery under the standard condition after the removal from test chamber.（See Note 1） Test Methods and Remarks HK、HKQ、AQ、MCOILTM MC Series： Temperature ：60±2℃ Humidity ：90 to 95％RH Applied current ：Rated current ※MC series ; Idc2max Duration ：500 +24/-0 hrs Recovery ：2 to 3 hrs of recovery under the standard condition after the removal from test chamber.（See Note 1） Note on standard conditi on: "standard condition" referred to herein is defined as follows: 5 to 35℃ of temperature, 45 to 85% relative humidity, and 86 to 106kPa of air pressure. When there are questions concerning measurement results: In order to provide correlation data, the test shall be conducted under condition of 20±2℃ of temperature, 60 to 70% relative humidity, and 86 to 106kPa of air pressure. Unless otherwise specified, all the tests are conducted under the "standard condition." (Note 1) Measurement shall be made after 48±2 hrs of recovery under the standard condition. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

16. Loading at High Temperature BK series Appearance：No significant abnormality BKH series Impedance change： Within ±30％ BKP series Appearance：No significant abnormality MCF series Impedance change： Within ±20％ CK series Appearance：No significant abnormality CKS series Inductance change： Within ±20％ Appearance：No significant abnormality CKP series Inductance change： Within ±30％ Appearance：No significant abnormality Specified Value Inductance change： 1005⇒Within ±10％ LK series 1608⇒0.047～12.0μH： Within ±10％ 15.0～33.0μH： Within ±15％ 2125⇒Within ±20％ Q change： Within ±30％ HK0603, HK1005 HK1608, HK2125 Appearance：No significant abnormality HKQ0603 Inductance change： Within ±10％ Q change： Within ±20％ AQ105 Appearance：No significant abnormality MCOILTM MC series※ Inductance change： Within ±10％ Temperature : Maximum operating temperature Test Methods and Applied current ：Rated current ※MC series ; Idc2max Remarks Duration ：500 +24/-0 hrs Recovery ：2 to 3 hrs of recovery under the standard condition after the removal from test chamber. （See Note 1） Note on standard condition: "standard condition" referred to herein is defined as follows: 5 to 35℃ of temperature, 45 to 85% relative humidity, and 86 to 106kPa of air pressure. When there are questions concerning measurement results: In order to provide correlation data, the test shall be conducted under condition of 20±2℃ of temperature, 60 to 70% relative humidity, and 86 to 106kPa of air pressure. Unless otherwise specified, all the tests are conducted under the "standard condition." (Note 1) Measurement shall be made after 48±2 hrs of recovery under the standard condition. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_reli_e-E07R01

Precautions on the use of Multilayer chip inductors Multilayer chip inductors for high frequency, Multilayer chip bead inductors Multilayer common mode choke coils（MC series F type） ■PRECAUTIONS 1. Circuit Design ◆Verification of operating environment, electrical rating and performance 1. A malfunction in medical equipment, spacecraft, nuclear reactors, etc. may cause serious harm to human life or have severe social ramifications. As such, any inductors to be used in such equipment may require higher safety and/or reliability considerations and should be clearly Precautions differentiated from components used in general purpose applications. ◆Operating Current（Verification of Rated current） 1. The operating current including inrush current for inductors must always be lower than their rated values. 2. Do not apply current in excess of the rated value because the inductance may be reduced due to the magnetic saturation effect. 2. PCB Design ◆Pattern configurations（Design of Land-patterns） 1. When inductors are mounted on a PCB, the size of land patterns and the amount of solder used（size of fillet）can directly affect inductor performance. Therefore, the following items must be carefully considered in the design of solder land patterns: （1） The amount of solder applied can affect the ability of chips to withstand mechanical stresses which may lead to breaking or cracking. Therefore, when designing land-patterns it is necessary to consider the appropriate size and configuration of the solder pads which in turn determines the amount of solder necessary to form the fillets. （2） When more than one part is jointly soldered onto the same land or pad, the pad must be designed so that each component's Precautions soldering point is separated by solder-resist. （3） The larger size of land patterns and amount of solder, the smaller Q value after mounting on PCB. It makes higher the Q value to design land patterns smaller than terminal electrode of chips. ◆Pattern configurations（Inductor layout on panelized［ breakaway］ PC boards） 1. After inductors have been mounted on the boards, chips can be subjected to mechanical stresses in subsequent manufacturing processes （PCB cutting, board inspection, mounting of additional parts, assembly into the chassis, wave soldering the reflow soldered boards etc.）For this reason, planning pattern configurations and the position of SMD inductors should be carefully performed to minimize stress. ◆Pattern configurations（Design of Land-patterns） 1. The following diagrams and tables show some examples of recommended patterns to prevent excessive solder amounts（larger fillets which extend above the component end terminations）. Examples of improper pattern designs are also shown. （1） Recommended land dimensions for a typical chip inductor land patterns for PCBs Land pattern Chip inductor Solder-resist Chip inductor C W B A B L Recommended land dimensions for wave-soldering （Unit：mm） Type 1608 2012 2125 2016 2520 3216 L 1.6 2.0 2.0 2.0 2.5 3.2 Size W 0.8 1.25 1.25 1.6 2.0 1.6 A 0.8～1.0 1.0～1.4 1.0～1.4 1.0～1.4 1.0～1.4 1.8～2.5 Technical B 0.5～0.8 0.8～1.5 0.8～1.5 0.8～1.5 0.6～1.0 0.8～1.7 considerations C 0.6～0.8 0.9～1.2 0.9～1.2 1.3～1.6 1.6～2.0 1.2～1.6 Recommended land dimensions for reflow-soldering （Unit：mm） Type 0603 1005 105 1608 2012 2125 2016 2520 3216 L 0.6 1.0 1.0 1.6 2.0 2.0 2.0 2.5 3.2 Size W 0.3 0.5 0.6 0.8 1.25 1.25 1.6 2.0 1.6 A 0.20～0.30 0.45～0.55 0.50～0.55 0.8～1.0 0.8～1.2 0.8～1.2 0.8～1.2 1.0～1.4 1.8～2.5 B 0.20～0.30 0.40～0.50 0.30～0.40 0.6～0.8 0.8～1.2 0.8～1.2 0.8～1.2 0.6～1.0 0.6～1.5 C 0.25～0.40 0.45～0.55 0.60～0.70 0.6～0.8 0.9～1.6 0.9～1.6 1.2～2.0 1.8～2.2 1.2～2.0 ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_prec_e-E07R01

Excess solder can affect the ability of chips to withstand mechanical stresses. Therefore, please take proper precautions when designing land-patterns. Recommended land dimension for Reflow-soldering c d c Type 3216 2010 1210 0806 0605 L 3.2 2.0 1.25 0.85 0.65 Size W 1.6 1.0 1.0 0.65 0.50 a a a 0.7～0.9 0.5～0.6 0.45～0.55 0.25～0.35 0.27～0.33 b b d b 0.8～1.0 0.5～0.6 0.7～0.8 0.25～0.35 0.17～0.23 c 0.4～0.5 0.2～0.3 0.25～0.35 0.25～0.35 0.20～0.26 a a d 0.8 0.5 0.55 0.5 0.4 （Unit：mm） （（2） Examples of good and bad solder application Item Not recommended Recommended Lead wire of component Solder-resist Mixed mounting of SMD and leaded components Chassis Solder (for grounding) Solder-resist Component placement close to the chassis Electrode pattern Lead wire of component Soldering iron Hand-soldering of leaded Solder-resist components near mounted components Solder-resist Horizontal component placement ◆Pattern configurations（Inductor layout on panelized［ breakaway］ PC boards） 1-1. The following are examples of good and bad inductor layout; SMD inductors should be located to minimize any possible mechanical stresses from board warp or deflection. Item Not recommended Recommended Position the component at a right angle to the direction of Deflection of the board the mechanical stresses that are anticipated. 1-2. To layout the inductors for the breakaway PC board, it should be noted that the amount of mechanical stresses given will vary depending on inductor layout. An example below should be counted for better design. E D Perforation C A B Slit Magnitude of stress A＞B＝C＞D＞E 1-3. When breaking PC boards along their perforations, the amount of mechanical stress on the inductors can vary according to the method used. The following methods are listed in order from least stressful to most stressful: push-back, slit, V-grooving, and perforation. Thus, any ideal SMD inductor layout must also consider the PCB splitting procedure. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_prec_e-E07R01

3. Considerations for automatic placement ◆Adjustment of mounting machine 1. Excessive impact load should not be imposed on the inductors when mounting onto the PC boards. 2. The maintenance and inspection of the mounter should be conducted periodically. ◆Selection of Adhesives Precautions 1. Mounting inductors with adhesives in preliminary assembly, before the soldering stage, may lead to degraded inductor characteristics unless the following factors are appropriately checked; the size of land patterns, type of adhesive, amount applied, hardening temperature and hardening period. Therefore, it is imperative to consult the manufacturer of the adhesives on proper usage and amounts of adhesive to use. ◆Adjustment of mounting machine 1. If the lower limit of the pick-up nozzle is low, too much force may be imposed on the inductors, causing damage. To avoid this, the following points should be considered before lowering the pick-up nozzle: （1） The lower limit of the pick-up nozzle should be adjusted to the surface level of the PC board after correcting for deflection of the board. （2） The pick-up pressure should be adjusted between 1 and 3N static loads. （3） To reduce the amount of deflection of the board caused by impact of the pick-up nozzle, supporting pins or back-up pins should be used under the PC board. The following diagrams show some typical examples of good pick-up nozzle placement: Item Improper method Proper method chipping Single-sided mounting or cracking supporting pins or back-up pins Double-sided mounting chipping supporting pins or cracking or back-up pins Technical 2. As the alignment pin wears out, adjustment of the nozzle height can cause chipping or cracking of the inductors because of mechanical considerations impact on the inductors. To avoid this, the monitoring of the width between the alignment pin in the stopped position, and maintenance, inspection and replacement of the pin should be conducted periodically. ◆Selection of Adhesives 1. Some adhesives may cause reduced insulation resistance. The difference between the shrinkage percentage of the adhesive and that of the inductors may result in stresses on the inductors and lead to cracking. Moreover, too little or too much adhesive applied to the board may adversely affect component placement, so the following precautions should be noted in the application of adhesives. （1） Required adhesive characteristics a. The adhesive should be strong enough to hold parts on the board during the mounting & solder process. b. The adhesive should have sufficient strength at high temperatures. c. The adhesive should have good coating and thickness consistency. d. The adhesive should be used during its prescribed shelf life. e. The adhesive should harden rapidly. f. The adhesive must not be contaminated. g. The adhesive should have excellent insulation characteristics. h. The adhesive should not be toxic and have no emission of toxic gasses. （2） When using adhesives to mount inductors on a PCB, inappropriate amounts of adhesive on the board may adversely affect component placement. Too little adhesive may cause the inductors to fall off the board during the solder process. Too much adhesive may cause defective soldering due excessive flow of adhesive on to the land or solder pad. ［Recommended conditions］ Amount of adhesives After inductors are bonded Figure 0805 case sizes as examples a a a 0.3mm min b b 100～120μm c Area with no adhesive c c 4. Soldering ◆Selection of Flux 1. Since flux may have a significant effect on the performance of inductors, it is necessary to verify the following conditions prior to use; （1） Flux used should be with less than or equal to 0.1 wt% （Chlorine conversion method） of halogenated content. Flux having a strong acidity content should not be applied. Precautions （2） When soldering inductors on the board, the amount of flux applied should be controlled at the optimum level. （3） When using water-soluble flux, special care should be taken to properly clean the boards. ◆Soldering 1. Temperature, time, amount of solder, etc. are specified in accordance with the following recommended conditions, and please contact us about peak temperature when you use lead-free paste. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_prec_e-E07R01

◆Selection of Flux 1-1. When too much halogenated substance（Chlorine, etc.）content is used to activate the flux, or highly acidic flux is used, an excessive amount of residue after soldering may lead to corrosion of the terminal electrodes or degradation of insulation resistance on the surface of the Inductor. 1-2. Flux is used to increase solderability in flow soldering, but if too much is applied, a large amount of flux gas may be emitted and may detrimentally affect solderability. To minimize the amount of flux applied, it is recommended to use a flux-bubbling system. 1-3. Since the residue of water-soluble flux is easily dissolved by water content in the air, the residue on the surface of Inductor in high humidity conditions may cause a degradation of insulation resistance and therefore affect the reliability of the components. The cleaning methods and the capability of the machines used should also be considered carefully when selecting water-soluble flux. ◆Soldering 1-1. Preheating when soldering Heating: Chip inductor components should be preheated to within 100 to 130℃ of the soldering. Cooling: The temperature difference between the components and cleaning process should not be greater than 100℃. Chip inductors are susceptible to thermal shock when exposed to rapid or concentrated heating or rapid cooling. Therefore, the soldering process must be conducted with a great care so as to prevent malfunction of the components due to excessive thermal shock. ［Reflow soldering］ 【Recommended conditions for eutectic soldering】 【Recommended condition for Pb-free soldering】 300 300 Preheating 230℃ Peak Within 10sec. 260℃ Max. ℃） 200 60Msienc. . 6M0sine.c ℃） 200 Within 10sec. Temperature（ 100 Slow cooling Temperature（ 100 Preheating150℃ Heating abocvSoeololiwn g 60sec. Min. 230℃ 0 0 40sec. Max. ※Ceramic chip components should be preheated to within 100 to 130℃ of the soldering. ※Assured to be reflow soldering for 2 times. ※MC series; Peak 230℃(eutectic soldering)、260℃(Pb-free soldering)max within 5sec. Caution 1. The ideal condition is to have solder mass（fillet）controlled to 1/2 to 1/3 of the thickness of the inductor, as shown below: 1/2T～1/3T Inductor Technical Solder T considerations PC board 2. Because excessive dwell times can detrimentally affect solderability, soldering duration should be kept as close to recommended times as possible. ［Wave soldering］ 【Recommended conditions for eutectic soldering】 【Recommended condition for Pb-free soldering】 300 300 230～250℃ Peak Preheating Within 3sec. 260℃ Max. ℃） 200 120sec. Min. ℃） 200 120sec. Min. Within 10sec. Temperature（ 100 Slow cooling Temperature（ 100 P15re0h℃ea ting cSoololiwn g 0 0 ※Ceramic chip components should be preheated to within 100 to 130℃ of the soldering. ※Assured to be wave soldering for 1 time. ※Except for reflow soldering type. Caution 1. Make sure the inductors are preheated sufficiently. 2. The temperature difference between the inductor and melted solder should not be greater than 100 to 130℃. 3. Cooling after soldering should be as gradual as possible. 4. Wave soldering must not be applied to the inductors designated as for reflow soldering only. ［Hand soldering］ 【Recommended conditions for eutectic soldering 【Recommended condition for Pb-free soldering】 400 400 2W3it0h～in2 38s0e℃c. P35e0a℃k Max. 300 300 Within 3sec. Temperature（℃） 210000 Preheating Slow cooling Temperature（℃） 210000 ⊿T P15re0h℃ea tMiningS. low cooling 0 60sec. Min. 0 60sec. Min. （※⊿Ｔ≦190℃（ 3216Type max）, ⊿Ｔ≦130℃（ 3225 Type min） ※It is recommended to use 20W soldering iron and the tip is 1φ or less. ※The soldering iron should not directly touch the components. ※Assured to be soldering iron for 1 time. Note: The above profiles are the maximum allowable soldering condition, therefore these profiles are not always recommended. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_prec_e-E07R01

Caution 1. Use a 20W soldering iron with a maximum tip diameter of 1.0 mm. 2. The soldering iron should not directly touch the inductor. 5. Cleaning ◆Cleaning conditions 1. When cleaning the PC board after the Inductors are all mounted, select the appropriate cleaning solution according to the type of flux Precautions used and purpose of the cleaning（e.g. to remove soldering flux or other materials from the production process.） 2. Cleaning conditions should be determined after verifying, through a test run, that the cleaning process does not affect the inductor's characteristics. ◆Cleaning conditions 1. The use of inappropriate solutions can cause foreign substances such as flux residue to adhere to the inductor, resulting in a degradation of the inductor's electrical properties（especially insulation resistance）. 2. Inappropriate cleaning conditions（insufficient or excessive cleaning）may detrimentally affect the performance of the inductors. （1） Excessive cleaning Technical a. In the case of ultrasonic cleaning, too much power output can cause excessive vibration of the PC board which may lead to the considerations cracking of the inductor or the soldered portion, or decrease the terminal electrodes' strength. Thus the following conditions should be carefully checked; Ultrasonic output Below 20W/ℓ Ultrasonic frequency Below 40kHz Ultrasonic washing period 5 min. or less 6. Post cleaning processes ◆Application of resin coatings, moldings, etc. to the PCB and components. 1. With some type of resins a decomposition gas or chemical reaction vapor may remain inside the resin during the hardening period or while left under normal storage conditions resulting in the deterioration of the inductor's performance. Precautions 2. When a resin's hardening temperature is higher than the inductor's operating temperature, the stresses generated by the excess heat may lead to inductor damage or destruction. 3. Stress caused by a resin's temperature generated expansion and contraction may damage inductors. The use of such resins, molding materials etc. is not recommended. 7. Handling ◆Breakaway PC boards（splitting along perforations） 1. When splitting the PC board after mounting inductors and other components, care is required so as not to give any stresses of deflection or twisting to the board. 2. Board separation should not be done manually, but by using the appropriate devices. ◆General handling precautions 1. Always wear static control bands to protect against ESD. 2. Keep the inductors away from all magnets and magnetic objects. 3. Use non-magnetic tweezers when handling inductors. Precautions 4. Any devices used with the inductors（ soldering irons, measuring instruments） should be properly grounded. 5. Keep bare hands and metal products（i.e., metal desk）away from chip electrodes or conductive areas that lead to chip electrodes. 6. Keep inductors away from items that generate magnetic fields such as speakers or coils. ◆Mechanical considerations 1. Be careful not to subject the inductors to excessive mechanical shocks. （1） If inductors are dropped on the floor or a hard surface they should not be used. （2） When handling the mounted boards, be careful that the mounted components do not come in contact with or bump against other boards or components. 8. Storage conditions ◆Storage 1. To maintain the solderability of terminal electrodes and to keep the packaging material in good condition, care must be taken to control temperature and humidity in the storage area. Humidity should especially be kept as low as possible. ・Recommended conditions Precautions Ambient temperature: Below 30℃ Humidity: Below 70% RH The ambient temperature must be kept below 40℃. Even under ideal storage conditions, solderability of inductor is deteriorated as time passes, so inductors should be used within 6 months from the time of delivery. ・Inductor should be kept where no chlorine or sulfur exists in the air. ◆Storage Technical 1. If the parts are stocked in a high temperature and humidity environment, problems such as reduced solderability caused by oxidation of considerations terminal electrodes and deterioration of taping/packaging materials may take place. For this reason, components should be used within 6 months from the time of delivery. If exceeding the above period, please check solderability before using the inductors. ▶ This catalog contains the typical specification only due to the limitation of space. When you consider the purchase of our products, please check our specification. For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) . i_mlci_prec_e-E07R01

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