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2 Introduction Murata has various chip inductors for every applications such as power circuits and high frequency circuits. There are 3 types of structure: wirewound, multilayer, film. These variation enables best selection for every user needs. We will support customers using material technologies and highly developed design technologies. Explanation of symbols in this catalog All Products Features of each series New product Features of each item New product Design kit available Reflow OK Reflow soldering applicable FlowOK Flow soldering applicable Inductor for Low Frequency Circuits XX Max height xxmm Shielded with ferrite core E2 step inductance variation Shielded with ferrite core E2 step inductance variation E24 step inductance variation Shielded with magnetic resin Hi Q type Tight inductance tolerance available EU RoHS Compliant All the products in this catalog comply with EU RoHS. EU RoHS is "the European Directive 02/95/EC on the Restriction of the Use of Certain Hazardous Substances in Electrical and Electronic Equipment." For more details, please refer to our website 'Murata's Approach for EU RoHS' (

3 CONTENTS Classification and Structure of Chip Inductors 2 Product Guide 4 Selection Guide 6 Product Guide by Thickness 7 a Introduction Product Guide ing 2 Product Detail 4!Caution/Notice 7 Soldering and Mounting 0 Packaging 4 Design Kits ainductor for Low Frequency Circuits ing 94 Product Detail 95!Caution/Notice 6 Soldering and Mounting 7 Packaging Design Kits 2 a Introduction 6 ing 7 Product Detail!Caution/Notice 65 Soldering and Mounting 67 Packaging 7 Design Kits 72 Inductor for Low Frequency Circuits Quick Reference Introduction of SimSurfing Introduction of EMI/MLCC/Inductor special web site "EMICONFUN!" 2 3

4 Classification and Structure of Chip Inductors oline Up and Application of Chip Inductors Line Up Application For Power Lines / For Low Frequency Circuits (Under 0MHz) Wire Wound Type Ferrite Core Multilayer Type Ferrite Core LQH Series (There are some exception.) LQM Series For Voltage Conversion For Choke For Resonance Circuits For Low Frequency Filter Circuits Wire Wound Type Ferrite Core for High Frequency LQW_H Series LQH_H Series (Over Several MHz) Wire Wound Type Nonmagnetic Core Multilayer Type Nonmagnetic material LQW_A Series LQG Series For Impedance Matching For High Frequency Filter Circuits For RF Choke Film Type Nonmagnetic material LQP Series oconstruction and Feature of Chip Inductors Construction Features Wire Wound Type Ferrite core For Power Lines / For General Circuits Wire Some products are coated with magnetic resin. Electrode Multilayer Type Coil pattern Wide inductance range Good DC bias current characteristics Electrode Small and light weight Low DC resistance Ferrite 2

5 Wire Wound Type For Radio Frequency Wire Electrode Construction Resin coating on the top Nonmagnetic ceramic core Features High Q Large inductance Wire Wound Type For Intermediate Frequency Wire Electrode Multilayer Type Coil pattern Outer electrode Film Type Inner electrode which is produced using photolithography process Outer electrode Resin coating on the top Ferrite core for high frequency Nonmagnetic ceramic High Q at intermeditate frequency Industrial standard design Small size, but high Q otechnical Data Q. Land Area and QF Characteristics 2. Coupling Coefficient Versus Distance between Parts LQH32MN60K PCB: AgPb printed land formed on 0.6mmthick alumina plate Soldering: Reflow soldering Solder layer: Sections shown by oblique lines in figure A B C Coupling Coefficient (%) LQH32M Series µh 330µH Distance between parts 0 k 50k 0k 500k M 5M M Frequency (Hz) Distance between Parts (mm) A : Net characteristics without land pattern B : Characteristic of chip mounted on land C : 2.5 Characteristic of chip mounted on land (in mm) 3

6 Product Guide Murata's LQp series of chip inductors (chip coils) consists of compact, highperformance inductors. Their innovative coil and case structures mean low DC resistance and outstanding highfrequency characteristics. The series is designed for a variety of applications, facilitating component selection for individual circuit requirements. Chokes General Purpose Inductor LQMP_B0 LQMP_C0 LQMP_F0 LQMP_FR LQM2P_C0 LQM2P_G0 LQM2P_GC LQM2P_GR LQM2MP_G0 LQM2HP_J0 LQM2HP_JC LQM2HP_G0 LQM2HP_GC LQM2HP_E0 LQM3P_00 LQM3P_C0 LQM32P_G0 LQH2MC_02 LQH2MC_52 LQH2HP_G0 LQH3NP_M0 LQH3NP_MR LQH3NP_J0 LQH3NP_G0 LQH32P_N0 LQH32P_NC LQH43P_26 LQH44P_P0 LQH44P_J0 LQH5BP_T0 LQH55P_R0 LQMF LQM2D LQM2F LQM3F LQW5C LQWC LQH3C LQH32C_23/_33 LQH32C_53 LQH43C_03 LQH43C_33 LQH55D LQH66S LQMN LQM2N LQH3M LQH32M LQH43M(N) LQG5H LQGH LQP02T LQP03T_02 LQP5T LQP5M LQPM LQW04A LQW5A LQWA LQW2BH LQW2BA LQW2UA LQW3H LQW2H LQH3H p4 p5 p6 p7 p9 p p2 p22 p23 p25 p26 p27 p2 p29 p30 p3 p32 p33 p35 p37 p39 p4 p42 p44 p46 p4 p50 p52 p54 p56 p5 p60 p6 p62 p65 p66 p67 p6 p69 p7 p72 p73 p74 p76 p95 p97 p99 p p3 p p23 p25 p2 p32 p34 p37 p39 p42 p49 p54 p57 p59 p6 p63 p64 Structure Magnetically Shielded Multilayer Wire Wound Magnetically Shielded Multilayer Wire Wound Magnetically Shielded Magnetically Shielded Multilayer Wire Wound (ferrite core) Multilayer Film Wire Wound (air core) Wire Wound (ferrite core) Size Code Inch (mm) 0603 (60) 0603 (60) 0603 (60) 0603 (60) 005 (2) 005 (2) 005 (2) 005 (2) 006 (6) 0 (25) 0 (25) 0 (25) 0 (25) 0 (25) 6 (326) 6 (326) 2 (3225) 006 (6) 006 (6) 0 (25) 22 (3030) 22 (3030) 22 (3030) 22 (3030) 2 (3225) 2 (3225) 2 (4532) 55 () 55 () (5050) 22 (552) 0603 (60) 005 (2) 005 (2) 6 (326) 02 (05) 0603 (60) 6 (326) 2 (3225) 2 (3225) 2 (4532) 2 (4532) 22 (5750) 2525 (6363) 0603 (60) 005 (2) 6 (326) 2 (3225) 2 (4532) 02 (05) 0603 (60) 005 (02) 0 (0603) 02 (05) 02 (05) 0603 (60) 0305 (004) 02 (05) 0603 (60) 005 (5) 005 (5) 0 (25) 6 (326) 005 (2) 6 (326) n 4.9nH n nh.0nh.2nh 0.4nH 0.6nH.0nH.0nH.3nH.nH.3nH 2.2nH 2.7nH 2.nH 2nH.nH 47nH nh nh 54nH nh 33nH 33nH 270nH 5nH 0nH 0nH.0µH.0µH.0µH nh 0nH.0µH.0µH.0µH.0µH nh 560nH µh µh 22µH 0µH.0µH 250µH µh.0µh 2µH.0µH.0µH.0µH.0µH.0µH.0µH 270nH 470nH 470nH nh 0nH 22µH 47µH 47µH 47µH 47µH 2µH.0µH 0µH nh 0µH 50nH 560µH 0nH 0n 2nH 470nH 470nH 470nH 470nH 470nH 470nH 470nH 470nH.5µH.0µH.0µH.0µH 0µH 50nH 0µH 470nH.0µH.0µH 0nH 560nH Inductance Range µ µ CAUTION: Use rosinbased flux, but not strong acidic flux (with chlorine content exceeding 0.2wt%) when soldering chip inductor (chip coil). Do not use watersoluble flux..0µh.0µh.µh.2µh 650nH 3.3µH 3.3µH 3.9µH 22µH 22µH 22µH 0µ Inductance Lineup : E24 or Higher : E2 : Other m 470µH 560µH *There are some items which do not match to E step mH m mh mh

7 Chokes General Purpose Inductor LQMP_B0 LQMP_C0 LQMP_F0 LQMP_FR LQM2P_C0 LQM2P_G0 LQM2P_GC LQM2P_GR LQM2MP_G0 LQM2HP_J0 LQM2HP_JC LQM2HP_G0 LQM2HP_GC LQM2HP_E0 LQM3P_00 LQM3P_C0 LQM32P_G0 LQH2MC_02 LQH2MC_52 LQH2HP_G0 LQH3NP_M0 LQH3NP_MR LQH3NP_J0 LQH3NP_G0 LQH32P_N0 LQH32P_NC LQH43P_26 LQH44P_P0 LQH44P_J0 LQH5BP_T0 LQH55P_R0 LQMF LQM2D LQM2F LQM3F LQW5C LQWC LQH3C LQH32C_23/_33 LQH32C_53 LQH43C_03 LQH43C_33 LQH55D LQH66S LQMN LQM2N LQH3M LQH32M LQH43M(N) LQG5H LQGH LQP02T LQP03T_02 LQP5T LQP5M LQPM LQW04A LQW5A LQWA LQW2BH LQW2BA LQW2UA LQW3H LQW2H LQH3H p4 p5 p6 p7 p9 p p2 p22 p23 p25 p26 p27 p2 p29 p30 p3 p32 p33 p35 p37 p39 p4 p42 p44 p46 p4 p50 p52 p54 p56 p5 p60 p6 p62 p65 p66 p67 p6 p69 p7 p72 p73 p74 p76 p95 p97 p99 p p3 p p23 p25 p2 p32 p34 p37 p39 p42 p49 p54 p57 p59 p6 p63 p64 Rated Current (ma)

8 Selection Guide Construction? Wire Wound Multilayer Film Circuit Type? Power Line Application? Less than 0MHz Choke Voltage Conversion General LQH2MC/006(6).0 2µH/90 595mA LQH2HP/0(25) p µH/30 00mA LQH3NP/22(3030).0 250µH/0 6mA LQH32P/2(3225) p µh/ mA LQH43P/2(4532).0 2µH/2 3300mA LQH44P/55().0 47µH/ mA LQH5BP/(5050) µH/ A LQH55P/22(552).2 22µH/ mA LQW5C/02(05) 0nH/390 0mA LQWC/0603(60) p nH/ mA LQH3C/6(326) 0.2 0µH/0 970mA LQH32C/2(3225) µH/60 450mA LQH43C/2(4532) µH/ mA p74 LQH55D/22(5750) µH/ A p76 LQH66S/2525(6363) µH/ A LQH3M/6(326) 0.5 0µH LQH32M/2(3225).0 560µH LQH43M(N)/2(4532).0 20µH p33 p39 p50 p52 p56 p5 p66 p6 p69 p72 p99 p p3 LQMP/0603(60) p / mA LQM2P/005(2) p / mA(*) LQM2MP/006(6) p /0 600mA LQM2HP/0(25) p /00 00mA p30 LQM3P/6(326) 0.47 /700 0mA LQM32P/2(3225).0µH/00mA LQMF/0603(60).0 µh/50 50mA LQM2D/005(2).0 47µH/7 60mA LQM2F/005(2).0 47µH/7 2mA LQM3F/6(326) µh/70ma LQMN/0603(60) 47 20nH LQM2N/005(2) 0. p32 p60 p6 p62 p65 p95 p97 Signal Line Operating Frequency? Greater than 0MHz High Frequency LQW04A/0305(004) p39. 33nH LQW5A/02(05) p42.3 nh LQWA/0603(60) p nH LQW2BH/005(5) p nH LQW2BA/005(5) p57 2. nh LQW2UA/0(25) p nH LQW3H/6(326) p6. 0nH LQW2H/005(2) p LQG5H/02(05).0 270nH LQGH/0603(60).2 0nH p p23 LQP02T/005(02) 0.4 nh LQP03T/0(0603) 0.6 nh LQP5T/02(05).0 nh LQP5M/02(05).0 33nH LQPM/0603(60).3 0nH p25 p2 p32 p34 p37 LQH3H/6(326) 54 0nH p64 Guide for Digits in this Chart: ofor LQH2MC 006(6)/.0 2µH/90 595mA Size (inch) Size (mm) Inductance Rated Current * In operating temperature exceeding +5 C, derating of current is necessary for LQM2PN3R3NG0/LQM2PN3R3MG0. Please apply the derating curve shown in detailed page according to the operating temperature. 6

9 Product Guide by Thickness Which Thickness? Multilayer Type Wire Wound Type Multilayer Type for Choke Wire Wound Type for Choke 0.35mm LQMP_B0 0.5mm LQMP_C0 /LQM2P_C0 / LQM3P_C0 LQW5C 0.65mm LQH2MC_52 0.7mm LQM2HP_E0 0.mm LQMP_F0 / FR LQMF LQWC 0.5mm LQM3P_00 LQM2D (.0 to µh) / LQM2F_00 0.9mm LQM2P_G0 / GC / GR / LQM2MP_G0 / LQM2HP_G0 / GC / LQM32P_G0 LQH2MC_02 / LQH2HP_G0 / LQH3NP_G0.0mm LQM3F.mm LQM2HP_J0 LQH3NP_J0 / LQH44P_J0.25mm LQM2D (22 to 47µH) / LQM2F_70 / LQM2F_0.4mm LQH3NP_M0 / MR.55mm LQH32P_N0 / NC LQH32C_53.65mm LQH44P_P0.mm LQH3C.5mm LQH55P_R0 2.0mm LQH5BP LQH32C_23 / mm LQH43P_26 LQH43C_03 / mm LQH55D / LQH66S Which Thickness? Inductor for Low Frequency Circuits Multilayer Type Wire Wound Type Multilayer Type Film Type Wire Wound Type 0.2mm LQP02T 0.3mm LQP03T 0.35mm LQP5M 0.4mm LQP5T LQW04A 0.5mm LQG5HN / LQG5HS LQPM LQW5A 0.mm LQMN LQGH LQWA 0.5mm LQM2N (0. to ) 0.9mm LQW2H.25mm LQM2N (2.7 to ).42mm LQW2BA.7mm LQW2BH.mm LQH3M LQH3H / LQW3H.3mm LQW2UA 2.0mm LQH32M 2.6mm LQH43M(N) 7

10 Memo

11 a Introduction Product Guide ing 2 Product Detail 4!Caution/Notice 7 Soldering and Mounting 0 Packaging 4 Design Kits Inductor for Low Frequency Circuits

12 cintroduction of Power Inductor Voltage Conversion Efficiency oeffect of Magnetic Loss Effect of losses in power inductor to voltage conversion efficiency Important factor of power inductor changes according to working condition of power supply. Magnetic loss affect to efficiency at low output condition. Inductor for Low Frequency Circuits Efficiency (%) Air Core µh(q=34.4) Air Core µh(q=25.2) Air Core µh(q=.5) Air Core µh(q=.) Output Current (ma) oeffect of DC Resistance DC resistance affect to efficiency at high output condition. Tested Sample Air Core Inductor Additional Resistor Efficiency (%) µh Air Core (Rdc 0.07Ω) µh Air Core (Rdc 0.2Ω) µh Air Core (Rdc 0.22Ω) µh Air Core (Rdc 0.32Ω) Tested Sample Air Core Inductor Additional Resistor Output Current (ma) We design inductors to match the application using latest simulation technology.

13 Rated Current (ma) Rated Current (ma) Product Guide Power Inductor Multilayer Type Inductance (µh) Power Inductor Wire Wound Type LQM2HP_G0 LQH43P_ T: LQM2MP_G0.6 T: LQM3P_00.6 T: LQM3P_C0.6 T: LQM2P_C0.25 T: T: LQM2HP_E0 2.0 LQM2P_G0.25 T: LQM2P_GC.25 T: LQMPN_F0 0. T: 0. LQH5BP_T0 2.0 T: T: LQM32P_G0 2.5 T: LQM2P_GR.25 T: 0.9 L 2.5 LQM2HP_JC L W T: Thickness (in mm) 2.0 T:. 2.5 LQM2HP_J0 2.5 LQM2HP_GC.6 LQMPN_B0 0. T: T: T:..6 LQMPN_FR 0. T: 0..6 LQMPN_C0 0. T: 0.5 W T: Thickness (in mm) Inductor for Low Frequency Circuits LQH32P_N0 2.5 T:.55 LQH44P_P0 LQH55P_R0 4.0 T: T: LQH3NP_M0 3.0 T: LQH2HP_G0 2.0 T: LQH2MC_02.6 T: Inductance (µh)

14 ing Inductor for Low Frequency Circuits () LQ q M w qproduct ID Product ID LQ wstructure Code H W M edimensions (LgW) Code 5 2 2M 2H 3N B Chip Inductors (Chip Coils) Structure Wire Wound Type (Ferrite Core) Multilayer Type (Ferrite Core) Dimensions (LgW).0g0.5mm.6g0.mm 2.0g.25mm 2.0g.6mm 2.5g2.0mm 3.0g3.0mm 3.2g.6mm 3.2g2.5mm 4.5g3.2mm 4.0g4.0mm 5.0g5.0mm 5.7g5.0mm/5.7g5.2mm 6.3g6.3mm rapplications and Characteristics Code D F D S C P tcategory Code N 2 e P r Series N t R54 y M u EIA Applications and Characteristics for Choke (Lowcurrent DC Power Supplies) LQM for Choke (DC Power Supplies) for Choke LQH for Choke (Magnetically Shielded Type) LQH/LQW for Choke (Coating Type) LQM/LQH for Power Line Category Standard Type G i 0 o D!0 yinductance Expressed by threedigit alphanumerics. The unit is microhenry (µh). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. If there is a decimal point, it is expressed by the capital letter "R". In this case, all figures are significant digits. If inductance is less than 0.µH, the inductance code is expressed by a combination of two figures and the capital letter "N", and the unit of inductance is nanohenry (nh). The capital letter "N" indicates the unit of "nh", and also expresses a decimal point. In this case, all figures are significant digits. uinductance Tolerance Code D J K M N ifeatures (Except LQHppP/LQMppP) Inductance Tolerance ±0.5nH ±% ±30% Code Features Series Standard Type Standard Type Low DC Resistance Low Profile Type Large Current Type LQM/LQH* /LQW LQH32C LQH32C/43CN LQH2MC/32C Low DC Resistance LQM2F /Large Current Type * Except LQH32 Series ithickness (LQHppP/LQMppP Only Except LQH43P) Code B C E F 0 G J M N P R T Code Electrode Sn LF Solder Dimensions (T) 0.35mm 0.5mm 0.7mm 0.mm 0.5mm 0.9mm.mm.4mm.55mm.65mm.5mm 2.0mm oelectrode (Except LQHppP/LQMppP) Lead (Pb) Free Series LQM/LQW LQH2MC LQH (Except LQH2MC) ospecification (LQHppP/LQMppP Only Except LQH43P) Code 0 C R iothickness (LQH43P Only) Code Specification Standard Type Good Bias Current Characteristics Type Low Rdc Type Dimensions (T) mm Continued on the following page. 2

15 ing!0packaging Code Packaging Series K L E B J D Embossed Taping (ø330mm Reel) Embossed Taping (ø0mm Reel) Bulk Paper Taping (ø330mm Reel) Paper Taping (ø0mm Reel) * Except LQH2MC/LQH2HP_G0/LQH3NP/LQH43C *2 LQM2D(22 47µH)/LQM2F(4.7 47µH) only. *3 LQM2D(.0 µh)/lqm2f(.0 ) only. *4 LQM2D(.0 µh)/lqm2f(.0 )/LQM2P only. LQH* /LQM3F/LQM2*2 LQH/LQMP/LQM3F/LQM2*2 /LQM3P/LQM2HP/LQM2MP LQH3NP_MR LQH2MC/LQM/LQW LQM/LQM2*3 LQM/LQM2*4 /LQW Inductor for Low Frequency Circuits 3

16 Multilayer Magnetic Type for Voltage Conversion LQMP_B0 LQMP_B0Series (0603 Size) 0603 Size, 0.4mm max. Thickness Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 0.4±0.2 Ferrite.6±0.5 0.± ±0.05 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQMPNR5NB0p.5µH±30% 600mA 0.35ohm ±25% 50MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh).5µh Inductance (µh).5µh Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.5µH Current (ma) 4

17 Multilayer Magnetic Type for Voltage Conversion LQMP_C0 LQMP_C0Series (0603 Size) 0603 Size, 0.55mm max. Thickness Dimensions Rated Value (p: packaging code) 0.4±0.2 Ferrite.6±0.5 0.± ±0.05 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Voltage Conversion Inductance Rated Current DC Resistance Self Resonance Frequency (min.) LQMPNRNC0p.µH±30% 700mA 0.24ohm ±25% 50MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh).µh Inductance (µh).µh Inductor for Low Frequency Circuits Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.µH Current (ma) 5

18 Multilayer Magnetic Type for Voltage Conversion LQMP_F0 LQMP_F0Series (0603 Size) 0603 Size, 0.95mm max. Thickness Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 0.4±0..6± ±0.5 0.±0.5 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQMPNR0NF0p.0µH±30% 600mA 0.2ohm ±25% 50MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh).0µh Inductance (µh).0µh Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.0µH Current (ma) 6

19 Multilayer Magnetic Type for Voltage Conversion LQMP_FR LQMP_FRSeries (0603 Size) Low DC Resistance Type Dimensions Rated Value (p: packaging code) 0.4±0..6± ±0.5 0.±0.5 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Voltage Conversion Inductance Rated Current DC Resistance Self Resonance Frequency (min.) LQMPNR22NFRp 0.22µH±30% 250mA 0.ohm ±25% 0MHz LQMPNR47NFRp 0.47µH±30% 0mA 0.5ohm ±25% 0MHz LQMPNR0MFRp.0µH 950mA 0.ohm ±25% 0MHz LQMPNR5MFRp.5µH 00mA 0.23ohm ±25% 0MHz LQMPN2R2MFRp 750mA 0.30ohm ±25% 70MHz LQMPN3R3MFRp 3.3µH 700mA 0.35ohm ±25% 60MHz LQMPN4R7MFRp 6mA 0.44ohm ±25% MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +5 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) 3.3µH.5µH 3.3µH.5µH Inductor for Low Frequency Circuits Inductance (µh) Inductance (µh).0µh 0.47µH 0.22µH Frequency (MHz) 0..0µH 0.47µH 0.22µH 0 00 Current (ma) Continued on the following page. 7

20 LQMP_FR Multilayer Magnetic Type for Voltage Conversion Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH.5µH 0.47µH.0µH 0.22µH Current (ma) Inductor for Low Frequency Circuits

21 Multilayer Magnetic Type for Voltage Conversion LQM2P_C0 LQM2P_C0Series (005 Size) 005 Size, 0.55mm max. Thickness Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Refer to pages from p.0 to p.3 for mounting information. InductanceCurrent Characteristics (Typ.) Minimum D 0mm Paper Tape 00 B Bulk(Bag) 00 Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM2PNR47MC0p 0.47µH 0mA 0.2ohm±25% 0MHz 55 C to +25 C LQM2PNR0MC0p.0µH 00mA 0.9ohm±25% 90MHz 55 C to +25 C LQM2PNR5MC0p.5µH 700mA 0.26ohm±25% 70MHz 55 C to +25 C LQM2PN2R2MC0p 600mA 0.34ohm±25% 50MHz 55 C to +25 C Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite 0.5± ±0.2 Ferrite 0.5± ±0.2 (in mm) Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Inductance (µh).5µh.0µh 0.47µH Inductance (µh).5µh.0µh 0.47µH Frequency (MHz) Temperature Rise Characteristics (Typ.) 50.5µH Current (ma) µH Temperature Rise ( C) µH Current (ma) 9

22 Multilayer Magnetic Type for Voltage Conversion LQM2P_G0 LQM2P_G0Series (005 Size) 005 Size,.0mm max. Thickness Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 0.5± ±0.5.25± ±0. (in mm) Packaging Code Packaging Minimum D 0mm Paper Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQM2PNR54MG0p 0.54µH 300mA 0.075ohm ±25% 0MHz LQM2PN3R3MG0p 3.3µH 00mA 0.65ohm ±25% 30MHz LQM2PN3R3NG0p 3.3µH±30% 00mA 0.65ohm ±25% 30MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh) 3.3µH Inductance (µh) 3.3µH 0.54µH 0.54µH 0. 0 Frequency (MHz) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH 0.54µH Current (ma) Current (ma) Notice (Rating) In operating temperature exceeding +5 C, derating of current is necessary for LQM2PN3R3MG0/LQM2PN3R3NG0. Please apply the derating curve shown in chart according to the operating temperature. Derating (LQM2PN3R3MG0/LQM2PN3R3NG0) Rated Current (ma) Operating Temperature ( C) 25

23 Multilayer Magnetic Type for Voltage Conversion LQM2P_GC LQM2P_GCSeries (005 Size) Bias Current Characteristics Improved Dimensions Rated Value (p: packaging code) 0.5± ±0.5.25± ±0. (in mm) Packaging Code Packaging Minimum D 0mm Paper Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Voltage Conversion Inductance Rated Current DC Resistance Self Resonance Frequency (min.) LQM2PNR0NGCp.0µH±30% 0.9A 0.ohm ±25% 50MHz LQM2PN2R2NGCp ±30% 0.A 0.23ohm ±25% MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh).0µh Inductance (µh) Inductor for Low Frequency Circuits.0µH 0. 0 Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.0µH Current (ma) 2

24 Multilayer Magnetic Type for Voltage Conversion LQM2P_GR LQM2P_GRSeries (005 Size) Low DC Resistance Type Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 0.5± ±0.5.25± ±0. (in mm) Packaging Code Packaging Minimum D 0mm Paper Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQM2PNR0NGRp.0µH±30%.3A 0.066ohm ±25% 50MHz LQM2PN3R3MGRp 3.3µH.0A 0.50ohm ±25% 30MHz LQM2PN3R3NGRp 3.3µH±30%.0A 0.50ohm ±25% 30MHz LQM2PN4R7MGRp 0.A 0.23ohm ±25% 30MHz LQM2PN4R7NGRp ±30% 0.A 0.23ohm ±25% 30MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh) 3.3µH Inductance (µh) 3.3µH 0..0µH 0 Frequency (MHz) Temperature Rise Characteristics (Typ.) 0..0µH Current (ma) 30 Temperature Rise ( C) 3.3µH.0µH Current (ma) 22

25 Multilayer Magnetic Type for Voltage Conversion LQM2MP_G0 LQM2MP_G0Series (006 Size) 006 Size,.0mm max. Thickness Dimensions Rated Value (p: packaging code) 0.5± ± ±0..6±0.5 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Voltage Conversion Inductance Rated Current DC Resistance Self Resonance Frequency (min.) LQM2MPNR47MG0p 0.47µH 600mA 0.060ohm ±25% 0MHz LQM2MPNR47NG0p 0.47µH±30% 600mA 0.06ohm ±25% 0MHz LQM2MPNR0NG0p.0µH±30% 0mA 0.05ohm ±25% 60MHz LQM2MPNR5MG0p.5µH 0mA 0.ohm ±25% 50MHz LQM2MPNR5NG0p.5µH±30% 0mA 0.ohm ±25% 50MHz LQM2MPN2R2MG0p 0mA 0.ohm ±25% MHz LQM2MPN2R2NG0p ±30% 0mA 0.ohm ±25% MHz LQM2MPN3R3NG0p 3.3µH±30% 0mA 0.2ohm ±25% 30MHz LQM2MPN4R7MG0p 0mA 0.4ohm ±25% MHz LQM2MPN4R7NG0p ±30% 0mA 0.4ohm ±25% MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C Inductor for Low Frequency Circuits InductanceFrequency Characteristics (Typ.) 3.3µH InductanceCurrent Characteristics (Typ.) 3.3µH Inductance (µh).5µh.0µh 0.47µH Inductance (µh).5µh.0µh 0.47µH Frequency (MHz) Current (ma) Continued on the following page. 23

26 LQM2MP_G0 Multilayer Magnetic Type for Voltage Conversion Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH.5µH.0µH 0.47µH Current (ma) Inductor for Low Frequency Circuits 24

27 Multilayer Magnetic Type for Voltage Conversion LQM2HP_J0 LQM2HP_J0Series (0 Size) 0 Size,.2mm max. Thickness Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM2HPNR0MJ0p.0µH 500mA 0.09ohm±25% 70MHz 55 C to +25 C LQM2HPN2R2MJ0p 00mA 0.2ohm±25% MHz 55 C to +25 C LQM2HPN3R3MJ0p 3.3µH 00mA 0.2ohm±25% 30MHz 55 C to +25 C Test Frequency: MHz Inductance (µh) Class of Magnetic Shield: Magnetic shield of ferrite 3.3µH.0µH 0.6± ±0.2.±0. InductanceCurrent Characteristics (Typ.) Inductance (µh) 2.0±0.2 (in mm) 3.3µH.0µH Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) 50 Temperature Rise ( C) µH.0µH Current (ma) 25

28 Multilayer Magnetic Type for Voltage Conversion LQM2HP_JC LQM2HP_JCSeries (0 Size) Bias Current Characteristics Improved Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance Rated Current DC Resistance InductanceFrequency Characteristics (Typ.) Self Resonance Frequency (min.) Packaging Code Packaging Refer to pages from p.0 to p.3 for mounting information. InductanceCurrent Characteristics (Typ.) Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Operating Temperature Range LQM2HPNR0MJCp.0µH 500mA 0.06ohm±25% 50MHz 55 C to +25 C LQM2HPN2R2NJCp ±30% 00mA 0.75ohm±25% 30MHz 55 C to +25 C Test Frequency: MHz Inductance (µh) Class of Magnetic Shield: Magnetic shield of ferrite.0µh 0.6± ±0.2.±0. Inductance (µh) 2.0±0.2 (in mm).0µh Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.0µH Current (ma) 26

29 Multilayer Magnetic Type for Voltage Conversion LQM2HP_G0 LQM2HP_G0Series (0 Size) 0 Size,.0mm max. Thickness Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM2HPNR47MG0p 0.47µH 00mA 0.04ohm±25% 0MHz 55 C to +25 C LQM2HPNR0MG0p.0µH 600mA 0.055ohm±25% 60MHz 55 C to +25 C LQM2HPNR5MG0p.5µH 500mA 0.07ohm±25% 50MHz 55 C to +25 C LQM2HPN2R2MG0p 300mA 0.0ohm±25% MHz 55 C to +25 C LQM2HPN3R3MG0p 3.3µH 0mA 0.ohm±25% 30MHz 55 C to +25 C LQM2HPN4R7MG0p 0mA 0.ohm±25% 25MHz 55 C to +25 C Test Frequency: MHz Inductance (µh) Class of Magnetic Shield: Magnetic shield of ferrite 0.6± µH.5µH 2.5±0.2.0µH 0.47µH 0.9±0. InductanceCurrent Characteristics (Typ.) Inductance (µh) 2.0±0.2 (in mm) 3.3µH.5µH.0µH Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Frequency (MHz) Temperature Rise Characteristics (Typ.) 3.3µH µH Current (ma) Temperature Rise ( C) 30.5µH.0µH 0.47µH Current (ma) 27

30 Multilayer Magnetic Type for Voltage Conversion LQM2HP_GC LQM2HP_GCSeries (0 Size) Bias Current Characteristics Improved Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM2HPNR0MGCp.0µH 500mA 0.0ohm±25% 50MHz 30 C to +5 C LQM2HPN3R3MGCp 3.3µH 00mA 0.6ohm±25% 30MHz 55 C to +25 C LQM2HPN4R7MGCp 00mA 0.ohm±25% 25MHz 55 C to +25 C Test Frequency: MHz Inductance (µh) Class of Magnetic Shield: Magnetic shield of ferrite 3.3µH.0µH 0.6± ± ±0. InductanceCurrent Characteristics (Typ.) Inductance (µh) 2.0±0.2 (in mm).0µh 3.3µH 0. 0 Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) 30 Temperature Rise ( C) 3.3µH.0µH Current (ma) 2

31 Multilayer Magnetic Type for Voltage Conversion LQM2HP_E0 LQM2HP_E0Series (0 Size) 0 Size, 0.mm max. Thickness Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) LQM2HPNR56ME0p 0.56µH 500mA 0.06ohm±25% 70MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C Inductance (µh) 0.6± ± µH 0.7±0. InductanceCurrent Characteristics (Typ.) Inductance (µh) 2.0±0.2 (in mm) 0.56µH Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH Current (ma) 29

32 Multilayer Magnetic Type for Voltage Conversion LQM3P_00 LQM3P_00Series (6 Size) 6 Size 0.95mm max. Thickness Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM3PNR47M00p 0.47µH 0mA 0.07ohm±25% 0MHz 55 C to +25 C LQM3PNR0M00p.0µH 0mA 0.2ohm±25% 60MHz 55 C to +25 C LQM3PNR5M00p.5µH 00mA 0.4ohm±25% 50MHz 55 C to +25 C LQM3PN2R2M00p 900mA 0.9ohm±25% MHz 55 C to +25 C LQM3PN3R3M00p 3.3µH 00mA 0.24ohm±25% 30MHz 55 C to +25 C LQM3PN4R7M00p 700mA 0.30ohm±25% 25MHz 55 C to +25 C Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite 0.6± µH 3.2± ±0. InductanceCurrent Characteristics (Typ.).6±0.2 (in mm).5µh Inductance (µh).0µh 0.47µH Inductance (µh) 3.3µH.5µH.0µH 0.47µH Frequency (MHz) Temperature Rise Characteristics (Typ.) µH Current (ma) Temperature Rise ( C) 30.5µH.0µH 0.47µH Current (ma) 30

33 Multilayer Magnetic Type for Voltage Conversion LQM3P_C0 LQM3P_C0Series (6 Size) 6 Size 0.55mm max. Thickness Dimensions Rated Value (p: packaging code) InductanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Operating Temperature Range LQM3PNR47MC0p 0.47µH 300mA 0.05ohm±25% 90MHz 55 C to +25 C LQM3PNR0MC0p.0µH 0mA 0.4ohm±25% 70MHz 55 C to +25 C LQM3PNR5MC0p.5µH 00mA 0.7ohm±25% 60MHz 55 C to +25 C LQM3PN2R2MC0p 900mA 0.25ohm±25% 50MHz 55 C to +25 C Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite 0.6± ± ±0.05 InductanceCurrent Characteristics (Typ.).6±0.2 (in mm) Multilayer Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Inductance (µh).5µh.0µh Inductance (µh).5µh 0.47µH.0µH 0.47µH Frequency (MHz) Temperature Rise Characteristics (Typ.) Current (ma) µH Temperature Rise ( C) 30.0µH 0.47µH Current (ma) 3

34 Multilayer Magnetic Type for Voltage Conversion LQM32P_G0 LQM32P_G0Series (2 Size) 2 Size,.0mm max. Thickness Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 0.6± ± ±0. 2.5±0.5 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Inductance Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQM32PNR0MG0p.0µH 00mA 0.04ohm ±25% MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +5 C Only for reflow soldering. InductanceFrequency Characteristics (Typ.) Inductance (µh).0µh InductanceCurrent Characteristics (Typ.) Inductance (µh).0µh Frequency (MHz) Current (ma) Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30.0µH Current (ma) 32

35 Wire Wound Magnetic Type for Voltage Conversion LQH2MC_02 LQH2MC_02Series (006 Size) 006 Size, 0.95mm max. Thickness Dimensions Rated Value (p: packaging code) Inductance 2.0± ±0.2 0.± ±0.2 Rated Current (Based on Inductance Change) * Rated Current (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 0 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH2MCNR0M02p.0µH 45mA 0.30ohm±30% 0MHz LQH2MCNR5M02p.5µH 445mA 0.ohm±30% 95MHz LQH2MCN2R2M02p 425mA 0.4ohm±30% 70MHz LQH2MCN3R3M02p 3.3µH 375mA 0.60ohm±30% 65MHz LQH2MCN4R7M02p 300mA 0.ohm±30% 60MHz LQH2MCN5R6M02p 5.6µH 20mA 0.9ohm±30% 60MHz LQH2MCN6RM02p 6.µH 255mA.0ohm±30% 55MHz LQH2MCNR2M02p.2µH 235mA.ohm±30% 50MHz LQH2MCN0K02p µh±% 225mA.2ohm±30% 4MHz LQH2MCNK02p 2µH±% 2mA.4ohm±30% 44MHz LQH2MCN50K02p 5µH±% 0mA.6ohm±30% MHz LQH2MCN0K02p µh±% 90mA.ohm±30% 35MHz LQH2MCN2K02p 22µH±% 5mA 2.ohm±30% 30MHz LQH2MCN270K02p 27µH±% 0mA 2.5ohm±30% 30MHz LQH2MCN330K02p 33µH±% 60mA 2.ohm±30% 2MHz LQH2MCN390K02p 39µH±% 25mA 4.4ohm±30% 24MHz LQH2MCN470K02p 47µH±% ma 5.ohm±30% MHz LQH2MCN560K02p 56µH±% ma 5.7ohm±30% 7MHz LQH2MCN60K02p 6µH±% 0mA 6.6ohm±30% 4MHz LQH2MCNK02p 2µH±% 90mA 7.5ohm±30% 4MHz 0.90±0.05.6±0.2 (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Test Frequency: MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. Continued on the following page. 33

36 LQH2MC_02 Wire Wound Magnetic Type for Voltage Conversion InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 47µH 22µH µh.0µh Frequency (MHz) Temperature Rise Characteristics (Typ.) 50 47µH µh.0µh InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 47µH 22µH µh.0µh Current (ma) Inductor for Low Frequency Circuits Temperature Rise ( C) Current (ma) 34

37 Wire Wound Magnetic Type for Voltage Conversion LQH2MC_52 LQH2MC_52Series (006 Size) 006 Size, 0.7mm max. Thickness Dimensions Rated Value (p: packaging code) Inductance 2.0± ±0.2 0.± ±0.2 Rated Current (Based on Inductance Change) * Rated Current (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 0 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH2MCNR0M52p.0µH 595mA 0.25ohm±30% 25MHz LQH2MCNR5M52p.5µH 5mA 0.33ohm±30% 65MHz LQH2MCN2R2M52p 500mA 0.42ohm±30% 25MHz LQH2MCN3R3M52p 3.3µH 360mA 0.74ohm±30% MHz LQH2MCN4R7M52p 335mA 0.9ohm±30% 90MHz LQH2MCN6RM52p 6.µH 25mA.23ohm±30% 65MHz LQH2MCN0M52p µh 0mA 2.27ohm±30% 60MHz LQH2MCNM52p 2µH 70mA 2.4ohm±30% 30MHz LQH2MCN50M52p 5µH 50mA 3.5ohm±30% 30MHz LQH2MCN0M52p µh ma 4ohm±30% 30MHz LQH2MCN2M52p 22µH 30mA 5.5ohm±30% 30MHz 0.65±0.05.6±0.2 (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Test Frequency: MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. InductanceFrequency Characteristics (Typ.) Inductance (µh) 0 22µH µh.0µh InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 22µH µh.0µh Frequency (MHz) Current (ma) Continued on the following page. 35

38 LQH2MC_52 Wire Wound Magnetic Type for Voltage Conversion Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µh.0µh Current (ma) Inductor for Low Frequency Circuits 36

39 Wire Wound Magnetic Type for Voltage Conversion LQH2HP_G0 LQH2HP_G0Series (0 Size) 0 Size,.0mm max. Thickness Dimensions Rated Value (p: packaging code) Inductance 2.5± ± ±0.3 Polarity Marking * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH2HPN2R2MG0p 6mA 00mA 0.7ohm 0MHz LQH2HPN3R3MG0p 3.3µH 290mA ma 0.27ohm 65MHz LQH2HPN4R7MG0p 00mA 700mA 0.36ohm 60MHz LQH2HPN6RMG0p 6.µH 00mA 590mA 0.5ohm MHz LQH2HPN0MG0p µh 700mA 490mA 0.73ohm MHz LQH2HPN2MG0p 22µH 490mA 3mA.6ohm MHz LQH2HPNMG0p 0µH 2mA 30mA ohm 5MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within 30% of minimum rated Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. 0.9±0. 2.0±0.2 (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits InductanceFrequency Characteristics (Typ.) 00 InductanceCurrent Characteristics (Typ.) 00 0µH Inductance (µh) 0 22µH µh 6.µH 3.3µH Inductance (µh) 0 0µH 22µH µh 6.µH 3.3µH Frequency (MHz) Current (ma) Continued on the following page. 37

40 LQH2HP_G0 Wire Wound Magnetic Type for Voltage Conversion Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH 22µH 6.µH µh 3.3µH Current (ma) Inductor for Low Frequency Circuits 3

41 Wire Wound Magnetic Type for Voltage Conversion LQH3NP_M0 LQH3NP_M0Series (22 Size) 22 Size,.5mm max. Thickness Dimensions Rated Value (p: packaging code) Inductance 2.7± ± ± ±0.2.2±0.2 (in mm) * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 00 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH3NPNR0MM0p.0µH 0mA 50mA 0.044ohm 30MHz LQH3NPNR0NM0p.0µH±30% 0mA 50mA 0.044ohm 30MHz LQH3NPN2R2MM0p 250mA 600mA 0.073ohm 90MHz LQH3NPN2R2NM0p ±30% 250mA 600mA 0.073ohm 90MHz LQH3NPN3R3MM0p 3.3µH 00mA 450mA 0.092ohm 75MHz LQH3NPN3R3NM0p 3.3µH±30% 00mA 450mA 0.092ohm 75MHz LQH3NPN4R7MM0p 0mA 250mA 0.3ohm 65MHz LQH3NPN4R7NM0p ±30% 0mA 250mA 0.3ohm 65MHz LQH3NPN6RMM0p 6.µH ma 00mA 0.ohm 50MHz LQH3NPN6RNM0p 6.µH±30% ma 00mA 0.ohm 50MHz LQH3NPN0MM0p µh 550mA 70mA 0.26ohm 45MHz LQH3NPN0NM0p µh±30% 550mA 70mA 0.26ohm 45MHz LQH3NPN50MM0p 5µH 5mA 730mA 0.36ohm 30MHz LQH3NPN50NM0p 5µH±30% 5mA 730mA 0.36ohm 30MHz LQH3NPN2MM0p 22µH 4mA 650mA 0.5ohm 2MHz LQH3NPN330MM0p 33µH 370mA 500mA 0.5ohm 22MHz LQH3NPN470MM0p 47µH 3mA 4mA.25ohm MHz LQH3NPNMM0p 0µH 0mA 2mA 3.50ohm 2MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. 3.0±0.2 Polarity Marking.±0. Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Continued on the following page. 39

42 LQH3NP_M0 Wire Wound Magnetic Type for Voltage Conversion InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 47µH µh.0µh Frequency (MHz) Temperature Rise Characteristics (Typ.) 50 0µH 47µH.0µH µh InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 47µH µh.0µh Current (ma) Inductor for Low Frequency Circuits Temperature Rise ( C) Current (ma)

43 Wire Wound Magnetic Type for Voltage Conversion LQH3NP_MR LQH3NP_MRSeries (22 Size) Low DC Resistance Type Dimensions Rated Value (p: packaging code) Inductance InductanceFrequency Characteristics (Typ.) 3.0± ± ±0.2.0±0.2.0±0.2 Polarity Marking * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Refer to pages from p.0 to p.3 for mounting information. DC Resistance InductanceCurrent Characteristics (Typ.) Minimum E 0mm Embossed Tape 00 F 330mm Embossed Tape 000 Self Resonance Frequency (min.) LQH3NPNR0MMRp.0µH 600mA 250mA 0.042ohm 35MHz LQH3NPN2R2MMRp 30mA 750mA 0.06ohm 75MHz LQH3NPN3R3MMRp 3.3µH 0mA 550mA 0.0ohm 70MHz LQH3NPN4R7MMRp 950mA 0mA 0.5ohm 57MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less..±0. (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 3.3µH Inductance (µh).0µh Inductance (µh) 3.3µH.0µH Frequency (MHz) Temperature Rise Characteristics (Typ.) Current (ma) Temperature Rise ( C) µH.0µH Current (ma) 4

44 Wire Wound Magnetic Type for Voltage Conversion LQH3NP_J0 LQH3NP_J0Series (22 Size) 22 Size,.2mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 3.0± ± ± ± ±0.2 Polarity Marking * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 5000 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH3NPNR0NJ0p.0µH±30% 650mA 6mA 0.0ohm MHz LQH3NPNR5NJ0p.5µH±30% 0mA 500mA 0.055ohm 90MHz LQH3NPN2R2MJ0p 50mA 460mA 0.069ohm 90MHz LQH3NPN2R2NJ0p ±30% 50mA 460mA 0.069ohm 90MHz LQH3NPN3R3MJ0p 3.3µH 950mA 270mA 0.5ohm 70MHz LQH3NPN3R3NJ0p 3.3µH±30% 950mA 270mA 0.5ohm 70MHz LQH3NPN4R7MJ0p 70mA ma 0.30ohm 65MHz LQH3NPN4R7NJ0p ±30% 70mA ma 0.30ohm 65MHz LQH3NPN6RMJ0p 6.µH 700mA 50mA 0.2ohm 45MHz LQH3NPN6RNJ0p 6.µH±30% 700mA 50mA 0.2ohm 45MHz LQH3NPN0MJ0p µh 560mA 7mA 0.300ohm 35MHz LQH3NPN0NJ0p µh±30% 560mA 7mA 0.300ohm 35MHz LQH3NPN50MJ0p 5µH 4mA 590mA 0.4ohm 30MHz LQH3NPN50NJ0p 5µH±30% 4mA 590mA 0.4ohm 30MHz LQH3NPN2MJ0p 22µH 350mA 5mA 0.600ohm 25MHz LQH3NPN2NJ0p 22µH±30% 350mA 5mA 0.600ohm 25MHz LQH3NPN330MJ0p 33µH 20mA 4mA 0.900ohm MHz LQH3NPN330NJ0p 33µH±30% 20mA 4mA 0.900ohm MHz LQH3NPN470MJ0p 47µH 0mA 350mA.30ohm 5MHz LQH3NPN470NJ0p 47µH±30% 0mA 350mA.30ohm 5MHz.±0. (in mm) Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. Continued on the following page. 42

45 LQH3NP_J0 InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH Temperature Rise Characteristics (Typ.) Temperature Rise ( C).0µH Frequency (MHz) µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH.0µH Current (ma) InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 33µH 22µH 5µH µh 6.µH 3.3µH 47µH.5µH.0µH Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 43

46 Wire Wound Magnetic Type for Voltage Conversion LQH3NP_G0 LQH3NP_G0Series (22 Size) 22 Size,.0mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 3.0± ± ±0.2 Polarity Marking 0.9± ±0.2.2±0.2 (in mm) * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 500 K 330mm Embossed Tape 6000 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH3NPNR0NG0p.0µH±30% 650mA 525mA 0.0ohm 60MHz LQH3NPNR5NG0p.5µH±30% 300mA 470mA 0.ohm 30MHz LQH3NPN2R2NG0p ±30% 250mA 270mA 0.4ohm 0MHz LQH3NPN3R3NG0p 3.3µH±30% 50mA 30mA 0.ohm 75MHz LQH3NPN4R7NG0p ±30% 00mA 925mA 0.26ohm 60MHz LQH3NPN6RNG0p 6.µH±30% 650mA 7mA 0.45ohm 4MHz LQH3NPN0MG0p µh 500mA 630mA 0.57ohm 45MHz LQH3NPN0NG0p µh±30% 500mA 630mA 0.57ohm 45MHz LQH3NPN50NG0p 5µH±30% 370mA 475mA 0.9ohm 35MHz LQH3NPN2MG0p 22µH 3mA 430mA.ohm 25MHz LQH3NPN2NG0p 22µH±30% 3mA 430mA.ohm 25MHz LQH3NPN330MG0p 33µH 250mA 345mA 2.ohm 24MHz LQH3NPN330NG0p 33µH±30% 250mA 345mA 2.ohm 24MHz LQH3NPN470MG0p 47µH 70mA 270mA 3.0ohm 9MHz LQH3NPN470NG0p 47µH±30% 70mA 270mA 3.0ohm 9MHz LQH3NPN60MG0p 6µH 50mA 235mA 4.2ohm 6MHz LQH3NPN60NG0p 6µH±30% 50mA 235mA 4.2ohm 6MHz LQH3NPNMG0p 0µH ma 65mA.0ohm MHz LQH3NPNNG0p 0µH±30% ma 65mA.0ohm MHz LQH3NPN5MG0p 50µH ma 45mA.0ohm MHz LQH3NPN5NG0p 50µH±30% ma 45mA.0ohm MHz LQH3NPN22MG0p 2µH 0mA 30mA 4.0ohm.5MHz LQH3NPN22NG0p 2µH±30% 0mA 30mA 4.0ohm.5MHz LQH3NPN25MG0p 250µH 0mA 30mA 5.0ohm.0MHz LQH3NPN25NG0p 250µH±30% 0mA 30mA 5.0ohm.0MHz 0.90±0. Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. Continued on the following page. 44

47 LQH3NP_G0 InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 0µH 0 47µH µh.0µh Frequency (MHz) Temperature Rise Characteristics (Typ.) 50 47µH µh.0µh InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 0 0µH 47µH µh.0µh Current (ma) Wire Wound Magnetic Type for Voltage Conversion 250µH Temperature Rise ( C) 30 0µH Current (ma) Inductor for Low Frequency Circuits 45

48 Wire Wound Magnetic Type for Voltage Conversion LQH32P_N0 LQH32P_N0Series (2 Size) 2 Size,.7mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 0.9±0.3 A 2.7± ±0.3.3±0.2 A: 2. max. * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH32PNR47NN0p 0.47µH±30% 30mA 2550mA 0.03ohm 0MHz LQH32PNR0NN0p.0µH±30% 2300mA 50mA 0.045ohm 0MHz LQH32PNR5NN0p.5µH±30% 750mA 750mA 0.057ohm 70MHz LQH32PN2R2NN0p ±30% 550mA 600mA 0.076ohm 70MHz LQH32PN3R3NN0p 3.3µH±30% 250mA 0mA 0.2ohm 50MHz LQH32PN4R7NN0p ±30% 00mA 00mA 0.ohm MHz LQH32PN6RNN0p 6.µH±30% 50mA 50mA 0.24ohm MHz LQH32PN0MN0p µh 750mA 700mA 0.3ohm 30MHz LQH32PN50MN0p 5µH 600mA 5mA 0.57ohm MHz LQH32PN2MN0p 22µH 500mA 450mA 0.ohm MHz LQH32PN330MN0p 33µH 30mA 390mA.5ohm 3MHz LQH32PN470MN0p 47µH 330mA 3mA.7ohm MHz LQH32PN60MN0p 6µH 20mA 275mA 2.2ohm MHz LQH32PNMN0p 0µH 0mA 250mA 2.70ohm MHz LQH32PN2MN0p µh 70mA 0mA 4.3ohm MHz.55± ±0.3 A 2.5± ±0.2 (in mm) Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. Continued on the following page. 46

49 LQH32P_N0 InductanceFrequency Characteristics (Typ.) Inductance (µh) Frequency (MHz) Temperature Rise Characteristics (Typ.) 50 0µH 47µH 22µH µh µh 0µH 6µH 47µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH.0µH 0.47µH.0µH InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 47µH 22µH µh.0µh Current (ma) Wire Wound Magnetic Type for Voltage Conversion Temperature Rise ( C) Current (ma) Inductor for Low Frequency Circuits 47

50 Wire Wound Magnetic Type for Voltage Conversion LQH32P_NC LQH32P_NCSeries (2 Size) Bias Current Characteristics Improved Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 0.9± ± ±0.3.3±0.2 * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH32PNR47NNCp 0.47µH±30% 40mA 2900mA 0.024ohm 0MHz LQH32PNR0NNCp.0µH±30% 3000mA 2500mA 0.036ohm 0MHz LQH32PNR5NNCp.5µH±30% 2600mA ma 0.053ohm 70MHz LQH32PN2R2NNCp ±30% 00mA 50mA 0.064ohm 70MHz LQH32PN3R3NNCp 3.3µH±30% 900mA 550mA 0.0ohm 50MHz LQH32PN4R7NNCp ±30% 600mA 0mA 0.55ohm MHz LQH32PN6RNNCp 6.µH±30% 300mA 0mA 0.2ohm MHz LQH32PN0MNCp µh 00mA 900mA 0.295ohm 30MHz LQH32PN50MNCp 5µH 00mA 700mA 0.475ohm MHz LQH32PN2MNCp 22µH 650mA 550mA 0.65ohm MHz Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less..55± ± ± ±0.2 (in mm) InductanceFrequency Characteristics (Typ.) Inductance (µh) µH.0µH 0.47µH 22µH 5µH µh 6.µH 3.3µH InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 5µH µh 6.µH 3.3µH.5µH.0µH Frequency (MHz) 0.47µH Current (ma) Continued on the following page. 4

51 LQH32P_NC Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH 22µH 5µH µh 6.µH.5µH.0µH 0.47µH Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 49

52 Wire Wound Magnetic Type for Voltage Conversion LQH43P_26 LQH43P_26Series (2 Size) 2 Size, 2.mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 3.6± ±0.3.0min..0min..0min. * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 500 K 330mm Embossed Tape 2500 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH43PNR0N26p.0µH±30% 30mA 3300mA 0.026ohm 0MHz LQH43PN2R2M26p 2300mA 2500mA 0.042ohm 45MHz LQH43PN3R3M26p 3.3µH 00mA ma 0.052ohm MHz LQH43PN4R7M26p 0mA 600mA 0.075ohm 35MHz LQH43PN6RM26p 6.µH 0mA 0mA 0.09ohm 30MHz LQH43PNR2M26p.2µH 0mA 300mA 0.2ohm 25MHz LQH43PN0M26p µh 50mA 70mA 0.47ohm MHz LQH43PN2M26p 22µH 700mA 70mA 0.327ohm 5MHz LQH43PN470M26p 47µH 470mA 5mA 0.7ohm MHz LQH43PNM26p 0µH 3mA 3mA.53ohm 4MHz LQH43PN5M26p 50µH 20mA 260mA 2.362ohm 3MHz LQH43PN22M26p 2µH 2mA 2mA 2.900ohm 2MHz 2.6± ± ±0.2 (in mm) Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is not included): C to +5 C * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 0µH 47µH 0 22µH µh.0µh Frequency (MHz) InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 0µH 47µH 22µH µh.0µh Current (ma) Continued on the following page. 50

53 LQH43P_26 Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 50 2µH 0µH 47µH 30 22µH µh.0µh Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 5

54 Wire Wound Magnetic Type for Voltage Conversion LQH44P_P0 LQH44P_P0Series (55 Size) 55 Size,.mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 3.7± ±0.2.2±0.2.0 min..2±0.2 * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 3500 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH44PNR0NP0p.0µH±30% 2950mA 2450mA 0.030ohm 90MHz LQH44PN2R2MP0p 2500mA 00mA 0.049ohm 70MHz LQH44PN3R3MP0p 3.3µH ma 770mA 0.065ohm 50MHz LQH44PN4R7MP0p 700mA 700mA 0.00ohm MHz LQH44PN6RMP0p 6.µH 0mA 3mA 0.2ohm 35MHz LQH44PN0MP0p µh 50mA 70mA 0.6ohm 25MHz LQH44PN2MP0p 22µH 00mA 790mA 0.37ohm 7MHz 4.0±0.2 Test Frequency: MHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less..65± ± min min. (in mm) InductanceFrequency Characteristics (Typ.) Inductance (µh) 00 22µH µh 6.µH 0 3.3µH.0µH InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 22µH µh 6.µH 3.3µH.0µH Frequency (MHz) Current (ma) Continued on the following page. 52

55 LQH44P_P0 Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH µh.0µh Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 53

56 Wire Wound Magnetic Type for Voltage Conversion LQH44P_J0 LQH44P_J0Series (55 Size) 55 Size,.2mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance.±0. 4.0± ±0.2.±0.2.±0.2 * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 3500 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH44PNR0NJ0p.0µH±30% 00mA 530mA 0.04ohm 30MHz LQH44PNR5MJ0p.5µH 600mA 30mA 0.06ohm 90MHz LQH44PN2R2MJ0p 3mA 230mA 0.074ohm 6MHz LQH44PN3R3MJ0p 3.3µH 900mA 00mA 0.0ohm 55MHz LQH44PN4R7MJ0p ma 90mA 0.7ohm 50MHz LQH44PN6RMJ0p 6.µH 7mA 60mA 0.43ohm 3MHz LQH44PN0MJ0p µh 560mA 790mA 0.7ohm 30MHz LQH44PN50MJ0p 5µH 430mA 6mA 0.35ohm 25MHz LQH44PN2MJ0p 22µH 0mA 550mA 0.40ohm MHz LQH44PN330MJ0p 33µH 360mA 430mA 0.7ohm 5MHz LQH44PN470MJ0p 47µH 300mA 30mA.04ohm 3MHz.5 (typ.) 0.4 (typ.) (0.2) (in mm) Test Frequency: 0kHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. InductanceFrequency Characteristics (Typ.) Inductance (µh) µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH.0µH InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 47µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH.0µH Frequency (MHz) Current (ma) Continued on the following page. 54

57 LQH44P_J0 Temperature Rise Characteristics (Typ.) Temperature Rise ( C) 30 47µH 33µH 22µH 5µH µh 6.µH 3.3µH.5µH.0µH Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 55

58 Wire Wound Magnetic Type for Voltage Conversion LQH5BP_T0 LQH5BP_T0Series ( Size) Size, 2.2mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 5.0± ± ± ±0.2.5±0.2.5±0.2 * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH5BPNR47NT0p 0.47µH±30% 7.7A 4.0A 0.02ohm 2MHz LQH5BPNR0NT0p.0µH±30% 5.A 3.A 0.09ohm 90MHz LQH5BPNR2NT0p.2µH±30% 5.4A 3.A 0.09ohm 90MHz LQH5BPNR5NT0p.5µH±30% 5.0A 3.0A 0.024ohm 70MHz LQH5BPN2R2NT0p ±30% 4.0A 2.6A 0.030ohm 55MHz LQH5BPN2R7NT0p 2.7µH±30% 3.A 2.5A 0.035ohm 50MHz LQH5BPN3R3NT0p 3.3µH±30% 3.5A 2.3A 0.044ohm MHz LQH5BPN4R7NT0p ±30% 3.0A 2.0A 0.05ohm MHz LQH5BPN6RNT0p 6.µH±30% 2.5A.65A 0.03ohm 30MHz LQH5BPN0MT0p µh 2.0A.60A 0.6ohm 25MHz LQH5BPN50MT0p 5µH.6A.A 0.7ohm MHz LQH5BPN2MT0p 22µH.4A.05A 0.259ohm 5MHz (0.2) (in mm) Code Packaging Minimum L 0mm Embossed Tape 500 K 330mm Embossed Tape 3000 Test Frequency: 0kHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is included): C to +25 C Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. InductanceFrequency Characteristics (Typ.) InductanceCurrent Characteristics (Typ.) Inductance (µh) 3.3µH 2.7µH.5µH.0µH/.2µH 0.47µH Inductance (µh) 3.3µH 2.7µH.5µH.0µH/.2µH 0.47µH Frequency (MHz) Current (ma) Continued on the following page. 56

59 LQH5BP_T0 Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH 2.7µH.5µH.0µH/.2µH 0.47µH Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 57

60 Wire Wound Magnetic Type for Voltage Conversion LQH55P_R0 LQH55P_R0Series (22 Size) 22 Size, 2.0mm max. Thickness Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance 5.7±0.2 * *2 Rated Current Rated Current (Based on Inductance Change) (Based on Temperature Rise) Packaging Code Packaging Minimum L 0mm Embossed Tape 500 K 330mm Embossed Tape 3000 Refer to pages from p.0 to p.3 for mounting information. DC Resistance Self Resonance Frequency (min.) LQH55PNR2NR0p.2µH±30% 2600mA 2900mA 0.02ohm 0MHz LQH55PN2R2NR0p ±30% ma 2500mA 0.03ohm 60MHz LQH55PN2R7NR0p 2.7µH±30% 70mA 250mA 0.0ohm 50MHz LQH55PN3R3NR0p 3.3µH±30% 00mA 00mA 0.044ohm 35MHz LQH55PN4R7NR0p ±30% 0mA 750mA 0.060ohm 30MHz LQH55PN6RNR0p 6.µH±30% 0mA 450mA 0.07ohm 25MHz LQH55PN0MR0p µh 00mA 250mA 0.ohm MHz LQH55PN2MR0p 22µH 670mA 50mA 0.26ohm MHz Test Frequency: 0kHz Class of Magnetic Shield: Magnetic shield of magnetic powder in resin Operating Temperature Range (Selftemperature rise is not included): C to +5 C Only for reflow soldering. * When Rated Current is applied to the Products, Inductance will be within ±30% of nominal Inductance value. *2 When Rated Current is applied to the Products, selfgeneration of heat will rise to C or less. 5.2±0.2.5±0.5.2±0.2.6±0.2 (in mm) InductanceFrequency Characteristics (Typ.) 0 InductanceCurrent Characteristics (Typ.) 0 22 µh Inductance (µh) 22µH µh.2µh Inductance (µh) µh 4.7 µh 2.2 µh.2 µh Frequency (MHz) Current (ma) Continued on the following page. 5

61 LQH55P_R0 Temperature Rise Characteristics (Typ.) Temperature Rise ( C) µH 6.µH µh 3.3µH 2.7µH.2µH Current (ma) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 59

62 Multilayer Magnetic Type for Choke LQMF LQMFSeries (0603 Size) 0603 Size Multilayer Magnetic Type for Choke Dimensions 0.3±0.2.6±0. 0.±0. 0.±0. (in mm) Packaging Code Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Rated Value (p: packaging code) Inductor for Low Frequency Circuits Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQMFNR0M00p.0µH MHz 50mA 0.ohm±30% MHz LQMFN2R2M00p MHz ma 0.ohm±30% 0MHz LQMFN4R7M00p MHz 0mA 0.60ohm±30% 50MHz LQMFN0M00p µh MHz 50mA 0.90ohm±30% 30MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) µh.0µh InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 µh.0µh 0 00 Frequency (MHz) Current (ma) 60

63 Multilayer Magnetic Type for Choke LQM2D LQM2DSeries (005 Size) 005 Size, Low DC Resistance Type Dimensions 0.5± ±0.2 Dimension of t t.25±0.2 (in mm) Inductance:.0 to µh 0.5±0.2 Inductance: 22 to 47µH.25±0.2 Packaging Code Packaging Minimum D 0mm Paper Tape 00 * L 0mm Embossed Tape 3000 *2 J 330mm Paper Tape 000 * K 330mm Embossed Tape 000 *2 B Bulk(Bag) 00 *: only LQM2D (.0 to µh) *2: only LQM2D (22 to 47µH) Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Choke Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Self Resonance Frequency (min.) LQM2DNR0N00p.0µH±30% MHz 60mA 0.ohm 75MHz LQM2DN2R2N00p ±30% MHz ma 0.7ohm 50MHz LQM2DN4R7N00p ±30% MHz 30mA 0.30ohm 35MHz LQM2DN0N00p µh±30% MHz 5mA 0.50ohm 24MHz LQM2DN2N00p 22µH±30% MHz 3mA 0.65ohm 6MHz LQM2DN470N00p 47µH±30% MHz 7mA.ohm 7.5MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +5 C ImpedanceFrequency Characteristics (Typ.) µH 22µH µh InductanceCurrent Characteristics (Typ.) 00 0 Inductor for Low Frequency Circuits Impedance (Ω) 0.0µH 0 00 Frequency (MHz) Inductance (µh) 0. 47µH 22µH µh.0µh 0 Current (ma) 6

64 t Multilayer Magnetic Type for Choke LQM2F_00 LQM2F_00Series (005 Size) Bias Current Characteristics Improved Multilayer Magnetic Type for Choke Dimensions 0.5± ±0.2 Dimension of t.25±0.2 (in mm) Inductance:.0 to 0.5±0.2 Inductance: 4.7 to 47µH.25±0.2 Packaging Code Packaging Minimum D 0mm Paper Tape 00 * L 0mm Embossed Tape 3000 *2 J 330mm Paper Tape 000 * K 330mm Embossed Tape 000 *2 B Bulk(Bag) 00 *: only LQM2F (.0 to ) *2: only LQM2F (4.7 to 47µH) Refer to pages from p.0 to p.3 for mounting information. Rated Value (p: packaging code) Inductor for Low Frequency Circuits Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQM2FNR0N00p.0µH±30% MHz 2mA 0.ohm±30% 5MHz LQM2FN2R2N00p ±30% MHz 50mA 0.2ohm±30% 70MHz LQM2FN4R7N00p ±30% MHz 0mA 0.30ohm±30% 25MHz LQM2FN0N00p µh±30% MHz 60mA 0.50ohm±30% 5MHz LQM2FN2N00p 22µH±30% MHz 3mA 0.35ohm±30% 5MHz LQM2FN470N00p 47µH±30% MHz 7mA 0.60ohm±30% 7.5MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +5 C ImpedanceFrequency Characteristics (Typ.) 0000 InductanceCurrent Characteristics (Typ.) 0 47µH Impedance (Ω) µh 22µH 47µH Inductance (µh) 22µH µh.0µh.0µh 0 00 Frequency (MHz) Current (ma) 62

65 Multilayer Magnetic Type for Choke LQM2F_70 LQM2F_70Series (005 Size) 005 Size, Large Current Dimensions 0.5± ±0.2.25±0.2.25±0.2 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Choke Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQM2FN4R7M70p MHz ma 0.35ohm±30% 25MHz LQM2FN0M70p µh MHz 0mA 0.60ohm±30% 5MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) µh InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 µh Inductor for Low Frequency Circuits 0 00 Frequency (MHz) Current (ma) 63

66 Multilayer Magnetic Type for Choke LQM2F_0 LQM2F_0Series (005 Size) 005 Size, Large Current, Low DC Resistance Multilayer Magnetic Type for Choke Dimensions 0.5± ±0.2.25±0.2.25±0.2 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 K 330mm Embossed Tape 000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Rated Value (p: packaging code) Inductor for Low Frequency Circuits Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQM2FN4R7M0p MHz ma 0.ohm±30% 25MHz LQM2FN0M0p µh MHz 0mA 0.30ohm±30% 5MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: 55 C to +25 C ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) µh InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 µh 0 00 Frequency (MHz) Current (ma) 64

67 Multilayer Magnetic Type for Choke LQM3F LQM3FSeries (6 Size) 6 Size Dimensions 0.7± ±0.2.0±0.2.6±0.2 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 K 330mm Embossed Tape 000 B Bulk(Bag) 00 Refer to pages from p.0 to p.3 for mounting information. Multilayer Magnetic Type for Choke Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Self Resonance Frequency (min.) LQM3FN0M00p µh MHz 70mA 0.50ohm MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +5 C ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) InductanceCurrent Characteristics (Typ.) Inductance (µh) 0 Inductor for Low Frequency Circuits 0 00 Frequency (MHz) 0 Current (ma) 65

68 Wire Wound Magnetic Type for Choke LQW5C LQW5CSeries (02 Size) For RF Choke Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Packaging Code Packaging Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Refer to pages from p.0 to p.3 for mounting information. Inductance Test Frequency Rated Current Max. of DC Resistance Self Resonance Frequency (min.) LQW5CNNJ00p nh 0MHz 0mA 0.046ohm 3000MHz LQW5CN33NJ00p 33nH 0MHz 300mA 0.065ohm 00MHz LQW5CN4NJ00p 4nH 0MHz 0mA 0.07ohm 0MHz LQW5CN70NJ00p 70nH 0MHz ma 0.2ohm 300MHz LQW5CN96NJ00p 96nH 0MHz 730mA 0.6ohm 0MHz LQW5CNR3J00p 30nH 0MHz 6mA 0.23ohm 00MHz LQW5CNR6J00p 60nH 0MHz 40mA 0.33ohm 900MHz LQW5CNRJ00p 0nH 0MHz 390mA 0.47ohm 00MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range: 55 C to +25 C (Ambient temperature: selftemperature rise is not included), 55 C to +35 C (Product temperature: selftemperature rise is included) Only for reflow soldering..0±0. 0.3±0. 0.3±0. 0.5±0. 0.5± ±0. (0.) (in mm) ImpedanceFrequency Characteristics (Typ.) 000 InductanceCurrent Characteristics (Typ.) 00 0nH Impedance (Ω) nH nh 4nH Inductance (nh) 0 0nH 96nH 4nH nh Frequency (MHz) Current (ma) Notice (Rating) In operating temperature exceeding +5 C, derating of current is necessary for LQW5C Series. Please apply the derating curve shown in chart according to the opeating temperature. Derating Current Derating (%) Operating Temperature ( C) 25 66

69 Wire Wound Magnetic Type for Choke LQWC LQWCSeries (0603 Size) 0603 size, for FM/TV Band Choke Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Packaging Code Packaging Minimum D 0mm Paper Tape 00 B Bulk(Bag) 500 Refer to pages from p.0 to p.3 for mounting information. Self Resonance Frequency (min.) LQWCN4N9D00p 4.9nH±0.5nH MHz 2600mA 0.05ohm 2300MHz LQWCN5NJ00p 5nH MHz 20mA 0.025ohm 00MHz LQWCN33NJ00p 33nH MHz 700mA 0.035ohm 00MHz LQWCN55NJ00p 55nH MHz 500mA 0.045ohm 600MHz LQWCN5NJ00p 5nH MHz 0mA 0.060ohm 30MHz LQWCNRK00p 0nH±% MHz 00mA 0.ohm 260MHz LQWCNR2J00p nh MHz 0mA 0.05ohm 0MHz LQWCNR6J00p 60nH MHz 00mA 0.ohm 900MHz LQWCNR2J00p 2nH MHz 00mA 0.5ohm 7MHz LQWCNR27J00p 270nH MHz 750mA 0.6ohm 660MHz LQWCNR33J00p 330nH MHz 630mA 0.25ohm 600MHz LQWCNR39J00p 390nH MHz 6mA 0.2ohm 570MHz LQWCNR47J00p 470nH MHz 500mA 0.45ohm 555MHz LQWCNR56J00p 560nH MHz 450mA 0.4ohm 5MHz LQWCNR65J00p 650nH MHz 430mA 0.52ohm 5MHz Class of Magnetic Shield: No magnetic shield Only for reflow soldering..6±0.5 Operating Temperature Range: C to +5 C 0.± ±0. 0.4±0. 0.±0.5 (0.2) (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits ImpedanceFrequency Characteristics (Typ.) nH nH 0 Impedance (Ω) 0nH InductanceCurrent Characteristics (Typ.) Inductance (nh) nH 330nH 0 0nH 4.9nH nH Frequency (MHz) Current (ma) 67

70 Wire Wound Magnetic Type for Choke LQH3C LQH3CSeries (6 Size) 6 Size Multilayer Magnetic Type for Voltage Conversion Dimensions Rated Value (p: packaging code) 2.3±0.2.6± ±0.3.6± min. 0.7min. 0.7min. (in mm).±0.2 Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.0 to p.3 for mounting information. Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQH3CNR2M03p 0.2µH MHz 970mA 0.0ohm±% 250MHz LQH3CNR22M03p 0.22µH MHz 50mA 0.ohm±% 250MHz LQH3CNR47M03p 0.47µH MHz 700mA 0.5ohm±% 0MHz LQH3CNR0M03p.0µH MHz 5mA 0.2ohm±30% 0MHz LQH3CN2R2M03p MHz 430mA 0.4ohm±30% 50MHz LQH3CN4R7M03p MHz 3mA 0.65ohm±30% 3MHz LQH3CN0K03p µh±% MHz 230mA.3ohm±30% MHz LQH3CN2K03p 22µH±% MHz 60mA 3.0ohm±30% 4MHz LQH3CN470K03p 47µH±% MHz 0mA.0ohm±30% MHz LQH3CNK03p 0µH±% MHz 0mA 2ohm±30% 7MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range: C to +5 C ImpedanceFrequency Characteristics (Typ.) 00 InductanceCurrent Characteristics (Typ.) 00 Impedance (kω) µH µh.0µh Inductance (µh) 0 0µH µh.0µh Frequency (MHz) Current (ma) 6

71 Wire Wound Magnetic Type for Choke LQH32C_23/LQH32C_33 LQH32C_23/LQH32C_33Series (2 Size) 2 Size Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.0 to p.3 for mounting information. Self Resonance Frequency (min.) LQH32CNR0M23p.0µH MHz 00mA 0.09ohm±30% 96MHz LQH32CN2R2M23p MHz 600mA 0.3ohm±30% 64MHz LQH32CN4R7M23p MHz 450mA 0.2ohm±30% 43MHz LQH32CN0K23p µh±% MHz 300mA 0.44ohm±30% 26MHz LQH32CN2K23p 22µH±% MHz 250mA 0.7ohm±30% 9MHz LQH32CN470K23p 47µH±% MHz 70mA.3ohm±30% 5MHz LQH32CNK23p 0µH±% MHz 0mA 3.5ohm±30% MHz LQH32CN22K23p 2µH±% MHz 70mA.4ohm±30% 6.MHz LQH32CN33K23p 330µH±% MHz 60mA ohm±30% 5.6MHz LQH32CN39K23p 390µH±% MHz 60mA 7ohm±30% 5MHz LQH32CN47K23p 470µH±% khz 60mA 9ohm±30% 5MHz LQH32CN56K23p 560µH±% khz 60mA 22ohm±30% 5MHz LQH32CNR5M33p 0.5µH MHz 450mA 0.02ohm±30% 0MHz LQH32CNR27M33p 0.27µH MHz 250mA 0.034ohm±30% 250MHz LQH32CNR47M33p 0.47µH MHz 0mA 0.042ohm±30% 50MHz LQH32CNR0M33p.0µH MHz 00mA 0.06ohm±30% 0MHz LQH32CN2R2M33p MHz 790mA 0.097ohm±30% 64MHz LQH32CN4R7M33p MHz 650mA 0.5ohm±30% 43MHz LQH32CN0K33p µh±% MHz 450mA 0.3ohm±30% 26MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range: C to +5 C 2.5± ± ± ±0.3.3± ± ± ±0.2 (in mm) Continued on the following page. Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits 69

72 LQH32C_23/LQH32C_33 Multilayer Magnetic Type for Voltage Conversion ImpedanceFrequency Characteristics (Typ.) Impedance (kω) µH µh.0µh Frequency (MHz) InductanceCurrent Characteristics (Typ.) Inductance (µh) µH µh.0µh Current (ma) Inductor for Low Frequency Circuits 70

73 Wire Wound Magnetic Type for Choke LQH32C_53 LQH32C_53Series (2 Size) 2 Size,.7mm max. Thickness Dimensions Rated Value (p: packaging code) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.0 to p.3 for mounting information. Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQH32CNR0M53p.0µH MHz 00mA 0.060ohm±30% 0MHz LQH32CN2R2M53p MHz 790mA 0.097ohm±30% 64MHz LQH32CN3R3M53p 3.3µH MHz 7mA 0.2ohm±30% 50MHz LQH32CN4R7M53p MHz 650mA 0.5ohm±30% 43MHz LQH32CN6RM53p 6.µH MHz 5mA 0.25ohm±30% 32MHz LQH32CN0K53p µh±% MHz 450mA 0.30ohm±30% 26MHz LQH32CN50K53p 5µH±% MHz 300mA 0.5ohm±30% 26MHz LQH32CN2K53p 22µH±% MHz 250mA 0.7ohm±30% 9MHz LQH32CN330K53p 33µH±% MHz 0mA.ohm±30% 7MHz LQH32CN470K53p 47µH±% MHz 70mA.3ohm±30% 5MHz LQH32CN60K53p 6µH±% MHz 30mA 2.2ohm±30% 2MHz LQH32CNK53p 0µH±% MHz 0mA 3.5ohm±30% MHz Class of Magnetic Shield: No magnetic shield A Operating Temperature Range: C to +5 C 2.5± ± ± ±0.3.3± ±0.3.55±0.5 A A : 2. max. 2.5±0.2 (in mm) Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits ImpedanceFrequency Characteristics (Typ.) 0 InductanceCurrent Characteristics (Typ.) 00 Impedance (kω) 0. 0µH µh.0µh Inductance (µh) 0 0µH µh 0.0.0µH Frequency (MHz) Current (ma) 00 7

74 Wire Wound Magnetic Type for Choke LQH43C_03 LQH43C_03Series (2 Size) 2 Size Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) ImpedanceFrequency Characteristics (Typ.) Packaging Code Packaging Minimum L 0mm Embossed Tape 500 Refer to pages from p.0 to p.3 for mounting information. Inductance Test Frequency Rated Current Max. of DC Resistance Self Resonance Frequency (min.) LQH43CNR0M03p.0µH MHz 0mA 0.0ohm 0MHz LQH43CNR5M03p.5µH MHz 00mA 0.09ohm 5MHz LQH43CN2R2M03p MHz 900mA 0.ohm 60MHz LQH43CN3R3M03p 3.3µH MHz 00mA 0.3ohm 47MHz LQH43CN4R7M03p MHz 750mA 0.5ohm 35MHz LQH43CN6RM03p 6.µH MHz 7mA 0.ohm 30MHz LQH43CN0K03p µh±% MHz 650mA 0.24ohm 23MHz LQH43CN50K03p 5µH±% MHz 570mA 0.32ohm MHz LQH43CN2K03p 22µH±% MHz 4mA 0.6ohm 5MHz LQH43CN330K03p 33µH±% MHz 3mA.0ohm 2MHz LQH43CN470K03p 47µH±% MHz 20mA.ohm MHz LQH43CN60K03p 6µH±% MHz 2mA.7ohm.4MHz LQH43CNK03p 0µH±% MHz 90mA 2.2ohm 6.MHz LQH43CN5K03p 50µH±% MHz 30mA 3.5ohm 5.5MHz LQH43CN22K03p 2µH±% MHz ma 4.0ohm 4.5MHz LQH43CN33K03p 330µH±% MHz 0mA 6.ohm 3.6MHz LQH43CN47K03p 470µH±% khz 90mA.5ohm 3.0MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range (Ambient temperature: selftemperature rise is not included): C to +5 C ± ±0.3.0min..0min..0min. 2.6± ± ±0.2 InductanceCurrent Characteristics (Typ.) 00 (in mm) 0 0µH 0 0µH Impedance (kω) µh.0µh Inductance (µh) µh 0..0µH Frequency (MHz) Current (ma) 72

75 Wire Wound Magnetic Type for Choke LQH43C_33 LQH43C_33Series (2 Size) Low DC Resistance Type Dimensions Rated Value (p: packaging code) 3.6± ±0.3.0min..0min..0min. Packaging Refer to pages from p.0 to p.3 for mounting information. Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) LQH43CNR56M33p 0.56µH MHz 2950mA 0.023ohm±30% 60MHz LQH43CNR2M33p 0.2µH MHz 200mA 0.027ohm±30% 30MHz LQH43CNR0M33p.0µH MHz 2600mA 0.032ohm±30% MHz LQH43CNR5M33p.5µH MHz 2450mA 0.036ohm±30% 0MHz LQH43CNRM33p.µH MHz 2300mA 0.042ohm±30% 70MHz LQH43CN2R2M33p MHz ma 0.047ohm±30% 60MHz LQH43CN2R7M33p 2.7µH MHz 00mA 0.053ohm±30% 50MHz LQH43CN3R3M33p 3.3µH MHz 650mA 0.076ohm±30% 47MHz LQH43CN3R9M33p 3.9µH MHz 600mA 0.02ohm±30% MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range (Ambient temperature: selftemperature rise is not included): C to +5 C 2.6± ± ±0.2 (in mm) Code Packaging Minimum L 0mm Embossed Tape 500 Wire Wound Magnetic Type for Voltage Conversion Inductor for Low Frequency Circuits ImpedanceFrequency Characteristics (Typ.) 000 InductanceCurrent Characteristics (Typ.) 0 Impedance (Ω) µH.0µH Inductance (µh) 3.3µH.5µH.0µH.5µH Frequency (MHz) Current (ma) 73

76 Wire Wound Magnetic Type for Choke LQH55D LQH55DSeries (22 Size) 22 Size, Large Current Wire Wound Magnetic Type for Choke Dimensions.3 min. 5.0± ± ±0.3.7 min..3 min. 4.7±0.3 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 350 K 330mm Embossed Tape 500 Refer to pages from p.0 to p.3 for mounting information. Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQH55DNR2M03p 0.2µH MHz 6000mA 0.007ohm±% 450MHz LQH55DNR27M03p 0.27µH MHz 5300mA 0.0ohm±% 300MHz LQH55DNR47M03p 0.47µH MHz 400mA 0.03ohm±% 0MHz LQH55DNR0M03p.0µH MHz 00mA 0.09ohm±% 50MHz LQH55DNR5M03p.5µH MHz 3700mA 0.022ohm±% MHz LQH55DN2R2M03p MHz 30mA 0.029ohm±% 0MHz LQH55DN3R3M03p 3.3µH MHz 2900mA 0.036ohm±% MHz LQH55DN4R7M03p MHz 2700mA 0.04ohm±% 30MHz LQH55DN6RM03p 6.µH MHz 00mA 0.074ohm±% 25MHz LQH55DN0M03p µh MHz 700mA 0.093ohm±% MHz LQH55DN50M03p 5µH MHz 0mA 0.5ohm±% 7MHz LQH55DN2M03p 22µH MHz 0mA 0.9ohm±% 5MHz LQH55DN330M03p 33µH MHz 900mA 0.32ohm±% 2MHz LQH55DN470M03p 47µH MHz 00mA 0.ohm±% MHz LQH55DN60M03p 6µH MHz 6mA 0.67ohm±% 7.6MHz LQH55DNM03p 0µH 0kHz 560mA 0.6ohm±% 6.5MHz LQH55DN5M03p 50µH 0kHz 4mA.9ohm±% 5.0MHz LQH55DN22M03p 2µH 0kHz 3mA 2.4ohm±% 4.0MHz LQH55DN33M03p 330µH 0kHz 270mA 4.4ohm±% 3.MHz LQH55DN47M03p 470µH 0kHz 2mA 5.4ohm±% 2.4MHz LQH55DN6M03p 60µH 0kHz 90mA.ohm±%.9MHz LQH55DN2M03p 00µH khz 50mA.3ohm±%.7MHz LQH55DN222M03p 20µH khz 0mA 2.5ohm±%.2MHz LQH55DN472M03p 4700µH khz 70mA 43.6ohm±% 0.MHz LQH55DN3M03p 000µH khz 50mA 0ohm±% 0.5MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range: C to +0 C Only for reflow soldering. Continued on the following page. 74

77 LQH55D ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) µH 00µH 0µH µh µh Frequency (MHz) InductanceCurrent Characteristics (Typ.) µH 000 Inductance (µh) 00µH 00 0µH 0 µh µh Current (A) Wire Wound Magnetic Type for Choke Inductor for Low Frequency Circuits 75

78 Wire Wound Magnetic Type for Choke LQH66S LQH66SSeries (2525 Size) 2525 Size, Closed Magnetic Circuit Wire Wound Magnetic Type for Choke Dimensions.3 min. 6.3± ± ±0.3.7 min..3 min. 4.7±0.3 (in mm) Packaging Code Packaging Minimum L 0mm Embossed Tape 350 K 330mm Embossed Tape 500 Refer to pages from p.0 to p.3 for mounting information. Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Self Resonance Frequency (min.) Inductor for Low Frequency Circuits LQH66SNR27M03p 0.27µH MHz 6000mA 0.007ohm±% 300MHz LQH66SNR6M03p 0.6µH MHz 5300mA 0.0ohm±% 0MHz LQH66SNR0M03p.0µH MHz 4700mA 0.03ohm±% 50MHz LQH66SNR5M03p.5µH MHz 300mA 0.06ohm±% MHz LQH66SN2R2M03p MHz 3300mA 0.09ohm±% 0MHz LQH66SN3R3M03p 3.3µH MHz 2600mA 0.022ohm±% MHz LQH66SN4R7M03p MHz 20mA 0.025ohm±% 30MHz LQH66SN6RM03p 6.µH MHz 00mA 0.029ohm±% 25MHz LQH66SN0M03p µh MHz 600mA 0.036ohm±% MHz LQH66SN50M03p 5µH MHz 300mA 0.069ohm±% 7MHz LQH66SN2M03p 22µH MHz 0mA 0.07ohm±% 5MHz LQH66SN330M03p 33µH MHz 60mA 0.4ohm±% 2MHz LQH66SN470M03p 47µH MHz 760mA 0.7ohm±% MHz LQH66SN60M03p 6µH MHz 600mA 0.29ohm±% 7.6MHz LQH66SNM03p 0µH 0kHz 5mA 0.36ohm±% 6.5MHz LQH66SN5M03p 50µH 0kHz 4mA 0.63ohm±% 5.0MHz LQH66SN22M03p 2µH 0kHz 350mA 0.79ohm±% 4.0MHz LQH66SN33M03p 330µH 0kHz 20mA.ohm±% 3.2MHz LQH66SN47M03p 470µH 0kHz 2mA 2.2ohm±% 2.5MHz LQH66SN6M03p 60µH 0kHz 0mA 3.9ohm±% 2.0MHz LQH66SN2M03p 00µH khz 60mA 4.9ohm±%.7MHz LQH66SN222M03p 20µH khz 0mA 9.4ohm±%.2MHz LQH66SN472M03p 4700µH khz 70mA 9.5ohm±% 0.MHz LQH66SN3M03p 000µH khz 50mA 39.7ohm±% 0.5MHz Class of Magnetic Shield: Magnetic shield of ferrite Operating Temperature Range: C to +0 C Only for reflow soldering. Continued on the following page. 76

79 LQH66S ImpedanceFrequency Characteristics (Typ.) Impedance (Ω) 000µH µH 00 0µH 0 µh µh Frequency (MHz) InductanceCurrent Characteristics (Typ.) µH 000 Inductance (µh) 00µH 00 0µH 0 µh µh Current (A) Wire Wound Magnetic Type for Choke Inductor for Low Frequency Circuits 77

80 !Caution/Notice Inductor for Low Frequency Circuits!Caution/ Notice Rating Do not use products beyond the rated current as this may create excessive heat. Storage and Operating Condition <Operating Environment> Do not use products in chemical atmosphere such as chlorine gas, acid or sulfide gas. <Storage Requirements>. Storage Period LQM series should be used within 6 months; the other products should be used within 2 months. Check solderability if this period is exceeded. 2. Storage Conditions () Store products in a warehouse in compliance with the following conditions: Temperature: to + degrees C. Humidity: 5 to 5% (relative humidity) Do not subject products to rapid changes in temperature and humidity. Do not store them in chemical atmosphere such as one containing sulfurous acid gas or alkaline gas. This will prevent electrode oxidation which causes poor solderability and possible corrosion of inductors. (2) Do not store products in bulk packaging to prevent collision among inductors which causes core chipping and wire breakage. (3) Store products on pallets to protect from humidity, dust, etc. (4) Avoid heat shock, vibration, direct sunlight, etc. Handling This item is designed to have sufficient strength, but handle with care to avoid chipping or breaking its ceramic structure. LQW_C series To prevent breaking the wire, avoid touching with sharp material, such as tweezers or other material such as bristles of cleaning brush, to the wire wound portion. To prevent breaking the core, avoid applying excessive mechanical shock to products mounted on the board. In some mounting machines, when picking up components, support pin pushes up the components from the bottom of base tape. In this case, please remove the support pin. The support pin may damage the components and break wire. In rare case, the laser recognition can not recognize this component. Please contact us when you use laser recognizion. (There is no problem with the permeation and reflection type.)!caution Notice The product temperature rises about C maximum when the permissible current is applied to LQW5C/LQWC. Please care heatproof temperatures of the substrate and parts in the surrounding. LQH_C/D/H/M/N/P series To prevent breaking the wire, avoid touching with sharp material, such as tweezers or other material such as bristles of cleaning brush, to the wire wound portion of this product. To prevent breaking the core, avoid applying excessive mechanical shock to products mounted on the board. Temperature may rise up to max. C when applying the rated current to Inductor for Power Lines. Be careful of the temperature rating of the circuit board and components around the chip inductor. LQM series There is the possibility that magnetism may change the inductance value. Do not use a magnet or tweezers with magnetism when handling chip inductors. (The tip of the tweezers should be molded with resin or pottery.) When the excessive current over rated current is applied, it may cause the inductance value to change due to magnetism. <Handling>. Avoid applying excessive stress to products to prevent damage. 2. Do not touch wire wound with sharp objects such as tweezers to prevent wire breakage. 3. Do not apply excessive force to products mounted on boards to prevent core breakage. <Transportation> Do not apply excessive vibration or mechanical shock to products. <Resin Coating> When coating products with resin, the relatively high resin curing stress may change inductance values. For exterior coating, select resin carefully so that electrical and mechanical performance of the product is not affected. Prior to use, please evaluate reliability with the product mounted in your application set. (LQW, LQH series) An open circuit issue may occur by mechanical stress caused by the resin, amount/cured shape of resin, or operating condition etc. Some resins containing impurities or chloride may possibly generate chlorine by hydrolysis under some operating condition may cause corrosion of wire of inductor, leading to open circuit. Continued on the following page. 7

81 !Caution/Notice <Rated Current> Based on Inductance Change (LQH2HP_G0 Series) Inductance will be within 30% of minimum rated Inductance value. (Other LQH_P Series except for LQH2HP_G0 Series) Inductance will be within ±30% of nominal Inductance value. Based on Temperature Rise For LQH2MC series LQH_P series rated current is set to keep temperature rise caused by self heating C or less. For other Inductor for Power Lines please refer to individual specifications. <Handling of a Substrate> After mounting products on a substrate, do not apply any stress to the product caused by bending or twisting to the substrate when cropping the substrate, inserting and removing a connector from the substrate or tightening screw to the substrate. Excessive mechanical stress may cause cracking in the Product. Bending Twisting Measuring Method Measuring Method of Inductance/Q. Residual elements and stray elements of test fixture can be described by Fparameter as shown in the following: Zm Test Head I V A C Test fixture B D V = A B I C D 2. The impedance of chip inductor (chip coil) Zx and measured value Zm can be described by input/output current/voltage. Zm = V I, 3. Thus, the relation between Zx and Zm is shown in the following: Zm β Zx = α ZmΓ Residual Impedance 0.556nH 0.77nH 4. Lx and Qx should be calculated with the following equation. I2 V2 Product Zx = V2 I2 where, α = D / A = β = B / D = Zsm ( Yom Zsm) Zss Γ = C / A = Yom Zsm: measured impedance of short chip Zss: residual impedance of short chip* Yom: measured admittance when opening the fixture *Residual impedance of short chip Im (Zx) Lx = 2πf, Zx Series LQW5C LQWC Im (Zx) Qx = Re (Zx) Lx: Inductance of chip inductor (chip coil) Qx: Q of chip inductor (chip coil) f: Measuring frequency V2 I2!Caution/ Notice Inductor for Low Frequency Circuits 79

82 Soldering and Mounting. Standard Land Pattern Dimensions Inductor for Low Frequency Circuits Soldering and Mounting A high Q value is achieved when the PCB electrode land pattern is designed so that it does not project beyond the chip inductor (chip coil) electrode. Series LQMF/P LQM2D/2F/2P LQM2MP LQM2HP LQM3F LQM3P LQM32P LQH2MC LQH3C LQH32P LQH44P LQH5BP LQH55D/66S LQW5C LQWC LQH2HP LQH32C LQH3NP a c b Standard Land Dimensions LQH44P LQH5BP LQW5C LQWC Land Pattern + Solder Resist Land Pattern Solder Resist (in mm) a b c LQMF Flow /P Reflow LQM2D/2F/2P LQM2MP LQM2HP LQM3F/3P LQM32P LQH2MC LQH3C LQH32P LQH55D/66S LQH43C LQH43P LQH55P Attention should be paid to potential magnetic coupling effects when using the inductor (coil) as a resonator. Continued on the following page. 0

83 Soldering and Mounting 2. Standard Soldering Conditions () Soldering method Chip inductor (Chip coils) can be flow or reflow soldered. Please contact Murata regarding other soldering methods. As for LQH2MC/2HP/3NP/32P/44P/5BP/55D/55P/66S, LQM32P, LQW5C/C series, please use reflow soldering. (2) Soldering profile "Flow Soldering profile (Sn3.0Ag0.5Cu solder) Series LQMF/P LQM2D/2F/2P/2MP/2HP LQM3F/3P LQH3C LQH32C LQH43C/43P Temperature ( C) T Temp. (T) Preheating Time. (t) T3 T2 Preheating t t2 Heating Solder: Use Sn3.0Ag0.5Cu solder. Flux: Use rosinbased flux, but not strongly acidic flux (with chlorine content exceeding 0.2wt%). Do not use watersoluble flux. The flux used for LQW5C/C series should use the rosinbased flux that includes middle activator equivalent to 0.06wt% to 0.wt% chlorine. For additional mounting methods, please contact Murata. time (s) Standard Profile Heating Temp. (T2) Time. (t2) 50 C 60s min. 250 C 4 to 6s 50 C 60s min. 250 C 4 to 6s Limit Profile Standard Profile Limit Profile Cycle Heating of flow Temp. (T3) Time. (t2) 2 times max. 2 times max. 265±3 C 265±3 C 5s max. 5s max. Cycle of flow 2 times max. times Soldering and Mounting Inductor for Low Frequency Circuits "Reflow Soldering profile (Sn3.0Ag0.5Cu solder) Temperature ( C) 0 50 T2 T Preheating t t2 T4 T3 90±30s time (s) Limit Profile Standard Profile Series LQMF/P LQM2D/2F/2P/2MP/2HP LQM3F/3P LQH2MC, LQH2HP LQH3C LQH3NP/32P/43P/44P/5BP/55P LQW5C/C Temp. (T) Heating Standard Profile Time. (t) 2 C 30 to 60s 245±3 C Peak Cycle Heating temperature (T2) of reflow Temp. (T3) Time. (t2) 2 times max. Limit Profile Peak temperature (T4) 230 C 60s max. 260 C/s Cycle of reflow 2 times max. LQH32C LQH43C LQH55D, LQH66S 2 C 30 to 60s 245±3 C 2 times max. 230 C 60s max. 260 C/s time Continued on the following page.

84 Soldering and Mounting Inductor for Low Frequency Circuits Soldering and Mounting (3) Reworking with Soldering Iron Preheating at 50 C for minute is required. Do not directly touch the ceramic element with the tip of the soldering iron. The reworking soldering conditions are as follows: 3. Mounting Instructions () Land Pattern Dimensions Large lands reduce Q of the mounted chip. Also, large protruding land areas (bordered by lines having dimensions 'c' and 'd' shown) cause floating and electrode leaching. (2) Magnetic Coupling Since some chip inductors (chip coils) are constructed like an open magnetic circuit, narrow spacing between inductors (coils) may cause magnetic coupling. LQM, LQH66S and LQH_P series have a magnetically shielded structure. The structure makes their coupling coefficient smaller than that of conventional chip inductors (chip coils). (3) PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. Soldering iron power output: 0W max. Temperature of soldering iron tip: 350 C Diameter of soldering iron end: 3.0mm max. Soldering time: within 3 s Land Products should be located in the sideways direction (Length: a<b) to the mechanical stress. Poor example except LQH3NP/44P/5BP Poor example LQH3NP/44P/5BP b a Good example The electrode part of the product should be located like the picture to the mechanical stress. d electrode Solder Resist c Magnetic Coupling electrode Good example Continued on the following page. 2

85 Soldering and Mounting (4) Amount of Solder Paste Excessive solder causes electrode corrosion, while insufficient solder causes low electrode bonding strength. Adjust the amount of solder paste as shown on the right so that solder is applied. " Guideline of solder paste thickness LQW5C: 50 to 0µm LQM, LQWC, LQH2MC/2HP, LQH3NP/32P, LQH44P/5BP/55P: 0 to 50µm LQH3C/32C, LQH43C/43P, LQH55P, LQH66S: 0 to 300µm (5) Amount of Adhesive If too much adhesive is applied, then it may overflow into the land or termination areas and yield poor solderability. In contrast, if insufficient adhesive is applied, or if the adhesive is not sufficiently hardened, then the chip may become detached during flow soldering. Apply the adhesive in accordance with the conditions shown in chart. 4. Cleaning The following conditions should be observed when cleaning chip inductors (chip coils): () Cleaning Temperature: 60 C max. ( C max. for alcohol cleaning agents) (2) Ultrasonic Output: W/l max. Duration: 5 minutes max. Frequency: 2 to khz Care should be taken not to cause resonance of the PCB and mounted products. (3) Cleaning agent The following cleaning agents have been tested on individual components. Evaluation in complete assembly should be done prior to production. (a) Alcohol cleaning agents Isopropyl alcohol (IPA) (b) Aqueous cleaning agents Pine Alpha ST0S LQH66S series: Aqueous agents should not be used because they may cause quality deterioration or damage to appearance. LQH_C/D/H/N/P LQM LQH_C/H/M/N LQMF/P LQM2D/2F/2P/2MP LQM2HP/3F/3P LQH3C LQH32C LQH43C LQH_S LQW_C LQM Typical Application Amount (in:mg) IR (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agents have been removed with deionized water. For additional cleaning methods, please contact Murata. Soldering and Mounting Inductor for Low Frequency Circuits 3

86 Packaging Minimum and mm Width Taping Dimensions Inductor for Low Frequency Circuits Packaging Paper Tape b 2.0± ± ±0. LQW5C * 0.64/0.66 * 0.66 (4nH) 0.64 (700nH) a a Direction of feed b. ø ±0. 3.5±0.05 c (.0) 0. max. ø0mm reel D [000] LQW5C Dimensions Total Thickness of Tape Packaging Code (Minimum Qty. [pcs.]) c ø330mm reel Bulk B [500] (in mm) Continued on the following page. 4

87 Packaging Minimum and mm Width Taping Dimensions Paper Tape a ø ±0. 4.0±0. 2.0± ±0.05 b.75±0. (.0) Direction of feed <Embossed> 0.2 Dimension of the cavity of embossed tape is measured at the bottom side. LQM2D (µh) LQM2F () LQMF a Dimensions b c c. max.. max.. max. <Paper> c : 0.25 LQM2HP/3P_00, LQH2 Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel Bulk D [00] J [000] B [00] D [00] J [000] B [00] LQM2P_C max. D [00] B [00] LQM2P_G0/GC/GR max. D [00] B [00] Embossed Tape LQM2D (2247µH) LQM2F (4.747µH) LQM3F a Dimensions b Total Thickness of Tape Depth of Cavity D [00] J [000] B [00] LQWC.0.. max. D [00] B [500] LQH3C LQH32C_33/_23 LQH32C_ L [00] L [00] L [00] K [7500] K [7500] K [7500] LQH32P L [00] K [7500] c Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel LQMP_B L [00] B [00] LQMP_C L [00] B [00] LQMP_F L [00] B [00] Bulk L [3000] K [000] B [00] L [3000] K [000] B [00] LQM2HP_J0/JC L [3000] B [00] LQM2HP_G0/GC L [3000] B [00] LQM2HP_E L [3000] B [00] LQM2MP_G L [3000] B [00] L [3000] K [000] B [00] LQM3P_ L [3000] B [00] LQM3P_C L [00] B [00] LQM32P_G L [3000] B [00] LQH2MC_ L [3000] B [0] LQH2MC_ L [3000] B [0] Inductor for Low Frequency Circuits Packaging (in mm) Continued on the following page. 5

88 Packaging Minimum and mm Width Taping Dimensions <Embossed> Inductor for Low Frequency Circuits Packaging Embossed Tape Dimensions Depth of Cavity Packaging Code (Minimum Qty. [pcs.]) a b c ø0mm reel ø330mm reel Bulk LQH2HP_G L [3000] Embossed Tape Polarity Marking a ø ±0. 4.0±0. 2.0± ±0.05 b.75±0. (.0) Direction of feed Dimension of the cavity of embossed tape is measured at the bottom side. Polarity Marking ø ±0.05 b.75±0. (.0) Dimensions Depth of Cavity Packaging Code (Minimum Qty. [pcs.]) a b c ø0mm reel ø330mm reel Bulk LQH3NP_MR E [00] 0.25 a 4.0±0. 4.0±0. c Direction of feed Leadin/out wire 2.0±0.05 Dimension of the cavity of embossed tape is measured at the bottom side. c <Embossed> 0.2 (in mm) Continued on the following page. 6

89 Packaging Minimum and 2mm Width Embossed Taping Dimensions Embossed Tape a 2.0±0.05.0±0. 4.0±0. ø ± ±0. b Direction of feed Dimension of the cavity of embossed tape is measured at the bottom side. a Dimensions (*c: Depth of Cavity) a 2.0±0.05.0±0. 4.0±0. ø Direction of feed Dimension of the cavity of embossed tape is measured at the bottom side. 5.5± ±0. b d d c c (2.0) b c d ø0mm reel Packaging Code (Minimum Qty. [pcs.]) (2.0) ø330mm reel LQH3NP_M L [00] K [00] LQH3NP_J L [00] K [5000] LQH3NP_G L [500] K [6000] Embossed Tape a LQH43C L [500] LQH43P L [500] K [2500] LQH44 P_J L [00] K [3500] LQH55D LQH66S Polarity Marking b Leadin/out wire Dimensions (*c: Depth of Cavity) c d Bulk Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel LQH44P_P L [00] K [3500] LQH5BP L [500] K [3000] 0.4 L [350] K [500] 0.4 L [350] K [500] Bulk (in mm) Inductor for Low Frequency Circuits Packaging Minimum and 2mm Width Embossed Taping Dimensions ø ±0. 2.0± ± Direction of feed.75±0. 5.5± ±0.3 Leadin/out wire 0.30± ±0. Dimension of the cavity of embossed tape is measured at the bottom side. Embossed Tape Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel Bulk LQH55P L [500] K [3000] (in mm) 7

90 Design Kits Holder Type Inductor for Low Frequency Circuits Design Kits oeklmqm2ph (Inductor for Power Lines Multilayer Type) No LQMPNR5NB0 LQMPNRNC0 LQMPNR0NF0 LQMPNR22NFR LQMPNR47NFR LQMPNR0MFR LQMPNR5MFR LQMPN2R2MFR LQMPN3R3MFR LQMPN4R7MFR LQM2PNR47MC0 LQM2PNR0MC0 LQM2PNR5MC0 LQM2PN2R2MC0 LQM2PNR54MG0 LQM2PN3R3MG0 LQM2PNR0NGC LQM2PN2R2NGC LQM2PNR0NGR LQM2PN3R3MGR LQM2PN4R7MGR LQM2MPNR47MG0 LQM2MPNR0NG0 LQM2MPNR5MG0 LQM2MPN2R2MG0 LQM2MPN3R3NG0 LQM2MPN4R7MG0 LQM2HPNR56ME0 LQM2HPNR47MG0 LQM2HPNR0MG0 LQM2HPNR5MG0 LQM2HPN2R2MG0 LQM2HPN3R3MG0 LQM2HPN4R7MG0 LQM2HPNR0MGC LQM2HPN3R3MGC LQM2HPN4R7MGC LQM2HPNR0MJ0 LQM2HPN2R2MJ0 LQM2HPN3R3MJ0 LQM2HPNR0MJC LQM2HPN2R2NJC LQM3PNR47MC0 LQM3PNR0MC0 LQM3PNR5MC0 LQM3PN2R2MC0 LQM3PNR47M00 LQM3PNR0M00 LQM3PNR5M00 LQM3PN2R2M00 LQM3PN3R3M00 LQM3PN4R7M00 LQM32PNR0MG0.5µH.µH.0µH 0.22µH 0.47µH.0µH.5µH 3.3µH 0.47µH.0µH.5µH 0.54µH 3.3µH.0µH.0µH 3.3µH 0.47µH.0µH.5µH 3.3µH 0.56µH 0.47µH.0µH.5µH 3.3µH.0µH 3.3µH.0µH 3.3µH.0µH 0.47µH.0µH.5µH 0.47µH.0µH.5µH 3.3µH.0µH ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% 0.35±25% 0.24±25% 0.2±25% 0.±25% 0.5±25% 0.±25% 0.23±25% 0.30±25% 0.35±25% 0.44±25% 0.2±25% 0.9±25% 0.26±25% 0.34±25% 0.075±25% 0.65±25% 0.±25% 0.23±25% 0.066±25% 0.50±25% 0.23±25% 0.060±25% 0.05±25% 0.±25% 0.±25% 0.2±25% 0.4±25% 0.06±25% 0.04±25% 0.055±25% 0.07±25% 0.0±25% 0.±25% 0.±25% 0.0±25% 0.6±25% 0.±25% 0.09±25% 0.2±25% 0.2±25% 0.06±25% 0.75±25% 0.05±25% 0.4±25% 0.7±25% 0.25±25% 0.07±25% 0.2±25% 0.4±25% 0.9±25% 0.24±25% 0.30±25% 0.04±25% (pcs.) Inductance Nominal Tolerance DC Resistance (Ω) Rated Current (ma) Continued on the following page.

91 Design Kits Continued from the preceding page. oeklmh2mcg (Inductor for Power Lines Wire Wound Type) No LQH2MCNR0M02 LQH2MCNR5M02 LQH2MCN2R2M02 LQH2MCN3R3M02 LQH2MCN4R7M02 LQH2MCN5R6M02 LQH2MCN6RM02 LQH2MCNR2M02 LQH2MCN0K02 LQH2MCNK02 LQH2MCN50K02 LQH2MCN0K02 LQH2MCN2K02 LQH2MCN270K02 LQH2MCN330K02 LQH2MCN390K02 LQH2MCN470K02 LQH2MCN560K02 LQH2MCN60K02 LQH2MCNK02 LQH2MCNR0M52 LQH2MCNR5M52 LQH2MCN2R2M52 LQH2MCN3R3M52 LQH2MCN4R7M52 LQH2MCN6RM52 LQH2MCN0M52 LQH2MCNM52 LQH2MCN50M52 LQH2MCN0M52 LQH2MCN2M52 LQH2HPN2R2MG0 LQH2HPN3R3MG0 LQH2HPN4R7MG0 LQH2HPN6RMG0 LQH2HPN0MG0 LQH2HPN2MG0 LQH2HPNMG0.0µH.5µH 3.3µH 5.6µH 6.µH.2µH µh 2µH 5µH µh 22µH 27µH 33µH 39µH 47µH 56µH 6µH 2µH.0µH.5µH 3.3µH 6.µH µh 2µH 5µH µh 22µH 3.3µH 6.µH µh 22µH 0µH ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% oeklmqh3pd (Inductor for Power Lines Wire Wound Type) No LQH3NPNR0NG0 LQH3NPNR5NG0 LQH3NPN2R2NG0 LQH3NPN3R3NG0 LQH3NPN4R7NG0 LQH3NPN6RNG0 LQH3NPN0MG0 LQH3NPN50NG0 LQH3NPN2MG0 LQH3NPN330MG0 LQH3NPN470MG0 LQH3NPN60MG0 LQH3NPNMG0 LQH3NPN5MG0 LQH3NPN22MG0 LQH3NPN25MG0 LQH3NPNR0NJ0 LQH3NPNR5NJ0 LQH3NPN2R2MJ0 LQH3NPN3R3MJ0 LQH3NPN4R7MJ0 (pcs.) (pcs.) Inductance Nominal Tolerance Inductance Nominal Tolerance.0µH.5µH 3.3µH 6.µH µh 5µH 22µH 33µH 47µH 6µH 0µH 50µH 2µH 250µH.0µH.5µH 3.3µH ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% DC Resistance (Ω) 0.30±30% 0.±30% 0.4±30% 0.60±30% 0.±30% 0.9±30%.0±30%.±30%.2±30%.4±30%.6±30%.±30% 2.±30% 2.5±30% 2.±30% 4.4±30% 5.±30% 5.7±30% 6.6±30% 7.5±30% 0.25±30% 0.33±30% 0.42±30% 0.74±30% 0.9±30%.23±30% 2.27±30% 2.4±30% 3.5±30% 4±30% 5.5±30% DC Resistance (Ω) Rated Current (ma) Based on Inductance Change Based on Temperature Rise Rated Current (ma) Based on Inductance Change Based on Temperature Rise Inductor for Low Frequency Circuits Design Kits Continued on the following page. 9

92 Design Kits Inductor for Low Frequency Circuits Design Kits No LQH3NPN6RMJ0 LQH3NPN0MJ0 LQH3NPN50MJ0 LQH3NPN2MJ0 LQH3NPN330MJ0 LQH3NPN470MJ0 LQH3NPNR0MM0 LQH3NPN2R2MM0 LQH3NPN3R3MM0 LQH3NPN4R7MM0 LQH3NPN6RMM0 LQH3NPN0MM0 LQH3NPN50MM0 LQH3NPN2MM0 LQH3NPN330MM0 LQH3NPN470MM0 LQH3NPNMM0 LQH32PNR47NN0 LQH32PNR0NN0 LQH32PNR5NN0 LQH32PN2R2NN0 LQH32PN3R3NN0 LQH32PN4R7NN0 LQH32PN6RNN0 LQH32PN0MN0 LQH32PN50MN0 LQH32PN2MN0 LQH32PN330MN0 LQH32PN470MN0 LQH32PN60MN0 LQH32PNMN0 LQH32PN2MN0 6.µH µh 5µH 22µH 33µH 47µH.0µH 3.3µH 6.µH µh 5µH 22µH 33µH 47µH 0µH 0.47µH.0µH.5µH 3.3µH 6.µH µh 5µH 22µH 33µH 47µH 6µH 0µH µh ±30% ±30% ±30% ±30% ±30% ±30% ±30% oeklmqh4pc (Inductor for Power Lines Wire Wound Type) No LQH44PNR0NJ0 LQH44PNR5MJ0 LQH44PN2R2MJ0 LQH44PN3R3MJ0 LQH44PN4R7MJ0 LQH44PN6RMJ0 LQH44PN0MJ0 LQH44PN50MJ0 LQH44PN2MJ0 LQH44PN330MJ0 LQH44PN470MJ0 LQH44PNR0NP0 LQH44PN2R2MP0 LQH44PN3R3MP0 LQH44PN4R7MP0 LQH44PN6RMP0 LQH44PN0MP0 LQH44PN2MP0 LQH43PNR0N26 LQH43PN2R2M26 LQH43PN3R3M26 LQH43PN4R7M26 LQH43PN6RM26 LQH43PNR2M26 LQH43PN0M26 LQH43PN2M26 LQH43PN470M26 LQH43PNM26 LQH43PN5M26 LQH43PN22M26 (pcs.) (pcs.) Inductance Nominal Tolerance Inductance Nominal Tolerance.0µH.5µH 3.3µH 6.µH µh 5µH 22µH 33µH 47µH.0µH 3.3µH 6.µH µh 22µH.0µH 3.3µH 6.µH.2µH µh 22µH 47µH 0µH 50µH 2µH ±30% ±30% ±30% DC Resistance (Ω) DC Resistance (Ω) Rated Current (ma) Based on Inductance Change Based on Temperature Rise Rated Current (ma) Based on Inductance Change Based on Temperature Rise Continued from the preceding page Continued on the following page. 90

93 Design Kits Continued from the preceding page. oeklmqh5pc (Inductor for Power Lines Wire Wound Type) No oeklmmfb (for Choke Multilayer Type) No LQMFNR0M00 LQMFN2R2M00 LQMFN4R7M00 LQMFN0M00 LQM2FNR0N00 LQM2FN2R2N00 LQM2FN4R7M70 LQM2FN4R7M0 LQM2FN0M70 LQM2FN0M0 LQM2FN2N00 LQM2FN470N00 LQM3FN0M00 LQH32CNR5M33 LQH32CNR27M33 LQH32CNR47M33 LQH32CNR0M33 LQH32CN2R2M33 LQH32CN0K33 LQH32CNR0M23 LQH32CN2R2M23 LQH32CN4R7M23 LQH32CN0K23 LQH32CN2K23 LQH32CN470K23 LQH32CNK23 LQH32CN22K23 LQH32CN33K23 LQH32CN39K23 LQH32CN47K23 LQH32CN56K23 LQH32CNR0M53 LQH32CN2R2M53 LQH32CN4R7M53 LQH32CN0K53 LQH32CN50K53 LQH32CN2K53 LQH32CN330K53 LQH32CN470K53 LQH32CN60K53 LQH32CNK53 oeklmh32cc (for Choke Wire Wound Type) No. LQH5BPNR47NT0 LQH5BPNR0NT0 LQH5BPNR2NT0 LQH5BPNR5NT0 LQH5BPN2R2NT0 LQH5BPN2R7NT0 LQH5BPN3R3NT0 LQH5BPN4R7NT0 LQH5BPN6RNT0 LQH5BPN0MT0 LQH5BPN50MT0 LQH5BPN2MT0 (pcs.) (pcs.) (pcs.) Inductance Nominal Tolerance 0.47µH.0µH.2µH.5µH 2.7µH 3.3µH 6.µH µh 5µH 22µH Inductance Nominal Tolerance.0µH µh.0µh µh µh 22µH 47µH µh 0.5µH 0.27µH 0.47µH.0µH µh.0µh µh 22µH 47µH 0µH 2µH 330µH 390µH 470µH 560µH.0µH µh 5µH 22µH 33µH 47µH 6µH 0µH ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% ±30% Inductance Nominal Tolerance ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% DC Resistance (Ω) Rated Current (ma) Based on Inductance Change Based on Temperature Rise DC Resistance (Ω) 0.±30% 0.±30% 0.60±30% 0.90±30% 0.±30% 0.2±30% 0.35±30% 0.±30% 0.60±30% 0.30±30% 0.35±30% 0.60±30% 0.50 max. DC Resistance (Ω) 0.02±30% 0.034±30% 0.042±30% 0.06±30% 0.097±30% 6 LQH32CN4R7M33 0.5±30% ±30% 0.09±30% 0.3±30% 0.2±30% 0.44±30% 0.7±30%.3±30% 3.5±30%.4±30% ±30% 7±30% 9±30% 22±30% 0.06±30% 0.097±30% 0.5±30% 0.3±30% 0.5±30% 0.7±30%.±30%.3±30% 2.2±30% 3.5±30% Rated Current (ma) Rated Current (ma) Continued on the following page. Inductor for Low Frequency Circuits Design Kits 9

94 Design Kits Continued from the preceding page. Inductor for Low Frequency Circuits Design Kits oeklmh43cd (for Choke Wire Wound Type) No LQH43CNR0M03 LQH43CNR5M03 LQH43CN2R2M03 LQH43CN3R3M03 LQH43CN4R7M03 LQH43CN6RM03 LQH43CN0K03 LQH43CN50K03 LQH43CN2K03 LQH43CN330K03 LQH43CN470K03 LQH43CN60K03 LQH43CNK03 LQH43CN5K03 LQH43CN22K03 LQH43CN33K03 LQH43CN47K03 LQH43CNR0M33 LQH43CNR5M33 LQH43CNRM33 LQH43CN2R2M33 LQH43CN2R7M33 LQH43CN3R3M33 LQH43CN3R9M33 LQH43CNR56M33 LQH43CNR2M33 (pcs.) oeklmwcb (for Choke Wire Wound Type) No LQW5CNNJ00 LQW5CN33NJ00 LQW5CN4NJ00 LQW5CN70NJ00 LQW5CN96NJ00 LQW5CNR3J00 LQW5CNR6J00 LQW5CNRJ00 LQWCN4N9D00 LQWCN5NJ00 LQWCN33NJ00 LQWCN55NJ00 LQWCN5NJ00 LQWCNRK00 LQWCNR2J00 LQWCNR6J00 LQWCNR2J00 LQWCNR27J00 LQWCNR33J00 LQWCNR39J00 LQWCNR47J00 LQWCNR56J00 LQWCNR65J00 (pcs.) Inductance Nominal Tolerance.0µH.5µH 3.3µH 6.µH µh 5µH 22µH 33µH 47µH 6µH 0µH 50µH 2µH 330µH 470µH.0µH.5µH.µH 2.7µH 3.3µH 3.9µH 0.56µH 0.2µH nh 33nH 4nH 70nH 96nH 30nH 60nH 0nH 4.9nH 5nH 33nH 55nH 5nH 0nH nh 60nH 2nH 270nH 330nH 390nH 470nH 560nH 650nH ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% Inductance Nominal Tolerance ±0.5nH ±% DC Resistance (Ω) DC Resistance (Ω) max Rated Current (ma) Rated Current (ma)

95 ainductor for Low Frequency Circuits ing 94 Product Detail 95!Caution/Notice 6 Soldering and Mounting 7 Packaging Design Kits 2 Inductor for Low Frequency Circuits

96 Inductor for Low Frequency Circuits ing Inductor for Low Frequency Circuits () LQ q M w qproduct ID Product ID LQ wstructure Code H M edimensions (LgW) Code Chip Inductors (Chip Coils) Structure Wire Wound Type (Ferrite Core) Multilayer Type (Ferrite Core) Dimensions (LgW).6g0.mm 2.0g.25mm 3.2g.6mm 3.2g2.5mm 4.5g3.2mm rapplications and Characteristics Code N N M tcategory Code N!0Packaging e N r Series LQM LQH N t 47N y M u EIA Applications and Characteristics for Resonant Circuit for Resonant Circuit for Resonant Circuit (Coating Type) Category Standard Type 0 i 0 o D!0 yinductance Expressed by threedigit alphanumerics. The unit is microhenry (µh). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. If there is a decimal point, it is expressed by the capital letter "R". In this case, all figures are significant digits. If inductance is less than 0.µH, the inductance code is expressed by a combination of two figures and the capital letter "N", and the unit of inductance is nanohenry (nh). The capital letter "N" indicates the unit of "nh", and also expresses a decimal point. In this case, all figures are significant digits. uinductance Tolerance Code J K M ifeatures 0 Standard Type Standard Type 2 Standard Type * Except LQM2N Series *2 Except LQH32 Series oelectrode Lead (Pb) Free Code 0 3 Electrode Sn LF Solder Inductance Tolerance ±% Code Features Series Code Packaging Series K L B J D Embossed Taping (ø330mm Reel) Embossed Taping (ø0mm Reel) Bulk Paper Taping (ø330mm Reel) Paper Taping (ø0mm Reel) LQH/LQM2* LQH/LQM2* LQM LQM/LQM2* 2 LQM/LQM2* 2 * LQM2N(2.7 ) only. *2 LQM2N(0. ) only. LQM* /LQH* 2 LQM2N LQH32M Series LQM LQH 94

97 Inductor for Low Frequency Circuits Multilayer Magnetic Type LQMN LQMNSeries (0603 Size) 0603 Size, Multilayer Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 00 Refer to pages from p.7 to p. for mounting information. Test Frequency Self Resonance Frequency (min.) LQMNN47NM00p 47nH 50MHz 50mA 0.30ohm 50MHz 260MHz LQMNN6NM00p 6nH 50MHz 50mA 0.30ohm 50MHz 250MHz LQMNN2NM00p 2nH 50MHz 50mA 0.30ohm 50MHz 245MHz LQMNNRK00p 0nH±% 25MHz 50mA 0.50ohm 5 25MHz 2MHz LQMNNR2K00p nh±% 25MHz 50mA 0.50ohm 5 25MHz 5MHz LQMNNR5K00p 50nH±% 25MHz 50mA 0.60ohm 5 25MHz 0MHz LQMNNRK00p 0nH±% 25MHz 50mA 0.60ohm 5 25MHz 65MHz LQMNNR22K00p 2nH±% 25MHz 50mA 0.0ohm 5 25MHz 50MHz LQMNNR27K00p 270nH±% 25MHz 50mA 0.0ohm 5 25MHz 36MHz LQMNNR33K00p 330nH±% 25MHz 35mA 0.5ohm 5 25MHz 25MHz LQMNNR39K00p 390nH±% 25MHz 35mA.00ohm 5 25MHz MHz LQMNNR47K00p 470nH±% 25MHz 35mA.35ohm 5 25MHz 5MHz LQMNNR56K00p 560nH±% 25MHz 35mA.55ohm 5 25MHz 95MHz LQMNNR6K00p 60nH±% 25MHz 35mA.70ohm 5 25MHz 90MHz LQMNNR2K00p nh±% 25MHz 35mA 2.ohm 5 25MHz 5MHz LQMNNR0K00p 00nH±% MHz 25mA 0.60ohm 35 MHz 75MHz LQMNNR2K00p 0nH±% MHz 25mA 0.0ohm 35 MHz 65MHz LQMNNR5K00p 500nH±% MHz 25mA 0.0ohm 35 MHz 60MHz LQMNNRK00p 00nH±% MHz 25mA 0.95ohm 35 MHz 55MHz LQMNN2R2K00p 20nH±% MHz 5mA.5ohm 35 MHz 50MHz Class of Magnetic Shield: Magnetic shield of ferrite 0.35±0.5.6±0.5 0.±0.5 Operating Temperature Range: C to +5 C 0.±0.5 (in mm) Multilayer Magnetic Type Inductor for Low Frequency Circuits Continued on the following page. 95

98 LQMN Inductor for Low Frequency Circuits Multilayer Magnetic Type QFrequency Characteristics (Typ.) Q nH 0nH nh 47nH 0 0 Frequency (MHz) 00 InductanceCurrent Characteristics (Typ.) Inductance (nh) nH nh 0nH 47nH 0 00 Current (ma) 96

99 Inductor for Low Frequency Circuits Multilayer Magnetic Type LQM2N LQM2NSeries (005 Size) 005 Size, Multilayer Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 00 * L 0mm Embossed Tape 3000 *2 J 330mm Paper Tape 000 * K 330mm Embossed Tape 000 *2 B Bulk(Bag) 00 *: only 0. to *2: only 2.7 to Refer to pages from p.7 to p. for mounting information. Test Frequency Self Resonance Frequency (min.) LQM2NNRKp 0.µH±% 25MHz 250mA 0.26ohm 25MHz 3MHz LQM2NNR2Kp 0.2µH±% 25MHz 250mA 0.29ohm 25MHz 3MHz LQM2NNR5Kp 0.5µH±% 25MHz 250mA 0.32ohm 25MHz 270MHz LQM2NNRKp 0.µH±% 25MHz 250mA 0.35ohm 25MHz 250MHz LQM2NNR22Kp 0.22µH±% 25MHz 250mA 0.3ohm 25MHz 2MHz LQM2NNR27Kp 0.27µH±% 25MHz 250mA 0.42ohm 25MHz 0MHz LQM2NNR33Kp 0.33µH±% 25MHz 250mA 0.4ohm 25MHz 0MHz LQM2NNR39Kp 0.39µH±% 25MHz 0mA 0.53ohm 25 25MHz 65MHz LQM2NNR47Kp 0.47µH±% 25MHz 0mA 0.57ohm 25 25MHz 50MHz LQM2NNR56Kp 0.56µH±% 25MHz 50mA 0.63ohm 25 25MHz MHz LQM2NNR6Kp 0.6µH±% 25MHz 50mA 0.72ohm 25 25MHz 25MHz LQM2NNR2Kp 0.2µH±% 25MHz 50mA 0.ohm 25 25MHz 5MHz LQM2NNR0Kp µh±% MHz 50mA 0.ohm 45 MHz 7MHz LQM2NNR2Kp.2µH±% MHz 50mA 0.47ohm 45 MHz 97MHz LQM2NNR5Kp.5µH±% MHz 50mA 0.50ohm 45 MHz 7MHz LQM2NNRKp.µH±% MHz 50mA 0.57ohm 45 MHz 0MHz LQM2NN2R2Kp ±% MHz 30mA 0.63ohm 45 MHz 7MHz LQM2NN2R7Kp 2.7µH±% MHz 30mA 0.69ohm 45 MHz 66MHz LQM2NN3R3Kp 3.3µH±% MHz 30mA 0.0ohm 45 MHz 59MHz LQM2NN3R9Kp 3.9µH±% MHz 30mA 0.9ohm 45 MHz 53MHz LQM2NN4R7Kp ±% MHz 30mA.00ohm 45 MHz 47MHz Class of Magnetic Shield: Magnetic shield of ferrite 0.5± ±0.3 Dimension of t Operating Temperature Range: C to +5 C t Inductance: 0. to Inductance: 2.7 to.25±0.2 (in mm) 0.5±0.2.25±0.2 Multilayer Magnetic Type Inductor for Low Frequency Circuits Continued on the following page. 97

100 LQM2N Inductor for Low Frequency Circuits Multilayer Magnetic Type QFrequency Characteristics (Typ.) Q 0.0µH 0.µH 0.µH 0.22µH 60 0.µH Frequency (MHz) InductanceCurrent Characteristics (Typ.) Inductance (µh) µH.0µH 0.2µH 0.22µH 0.µH 0 00 Current (ma) 9

101 Inductor for Low Frequency Circuits Wire Wound Magnetic Type LQH3M LQH3MSeries (6 Size) 6 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.7 to p. for mounting information. Test Frequency Self Resonance Frequency (min.) LQH3MNR5K03p 0.5µH±% MHz 250mA 0.39ohm±% 25MHz 250MHz LQH3MNR22K03p 0.22µH±% MHz 2mA 0.43ohm±% 25MHz 250MHz LQH3MNR33K03p 0.33µH±% MHz 230mA 0.45ohm±% 30 25MHz 250MHz LQH3MNR47K03p 0.47µH±% MHz 25mA 0.3ohm±% 30 25MHz 0MHz LQH3MNR56K03p 0.56µH±% MHz 0mA 0.6ohm±% 30 25MHz 0MHz LQH3MNR6K03p 0.6µH±% MHz 90mA 0.67ohm±% 30 25MHz 60MHz LQH3MNR2K03p 0.2µH±% MHz 5mA 0.73ohm±% 30 25MHz MHz LQH3MNR0K03p.0µH±% MHz 75mA 0.49ohm±30% 35 MHz 0MHz LQH3MNR2J03p.2µH MHz 65mA 0.37ohm±30% 35 MHz 90MHz LQH3MNR2K03p.2µH±% MHz 65mA 0.9ohm±30% 35 MHz 90MHz LQH3MNR5J03p.5µH MHz 55mA.0ohm±30% 35 MHz 75MHz LQH3MNR5K03p.5µH±% MHz 55mA.0ohm±30% 35 MHz 75MHz LQH3MNRJ03p.µH MHz 50mA.6ohm±30% 35 MHz 60MHz LQH3MNRK03p.µH±% MHz 50mA.6ohm±30% 35 MHz 60MHz LQH3MN2R2J03p MHz ma 0.7ohm±30% 35 MHz 50MHz LQH3MN2R2K03p ±% MHz ma 0.7ohm±30% 35 MHz 50MHz LQH3MN2R7J03p 2.7µH MHz 35mA 0.55ohm±30% 35 MHz 43MHz LQH3MN2R7K03p 2.7µH±% MHz 35mA 0.55ohm±30% 35 MHz 43MHz LQH3MN3R3J03p 3.3µH MHz 30mA 0.6ohm±30% 35 MHz 3MHz LQH3MN3R3K03p 3.3µH±% MHz 30mA 0.6ohm±30% 35 MHz 3MHz LQH3MN3R9J03p 3.9µH MHz 25mA.5ohm±30% 35 MHz 35MHz LQH3MN3R9K03p 3.9µH±% MHz 25mA.5ohm±30% 35 MHz 35MHz LQH3MN4R7J03p MHz ma.7ohm±30% 35 MHz 3MHz LQH3MN4R7K03p ±% MHz ma.7ohm±30% 35 MHz 3MHz LQH3MN5R6J03p 5.6µH MHz 5mA.ohm±30% 35 MHz 2MHz LQH3MN5R6K03p 5.6µH±% MHz 5mA.ohm±30% 35 MHz 2MHz LQH3MN6RJ03p 6.µH MHz ma 2.0ohm±30% 35 MHz 25MHz LQH3MN6RK03p 6.µH±% MHz ma 2.0ohm±30% 35 MHz 25MHz LQH3MNR2J03p.2µH MHz 5mA 2.2ohm±30% 35 MHz 23MHz LQH3MNR2K03p.2µH±% MHz 5mA 2.2ohm±30% 35 MHz 23MHz Class of Magnetic Shield: No magnetic shield 2.3± ± min. 0.7 min. 0.7 min. Operating Temperature Range: C to +5 C.±0.2.6±0.2.6±0.2 (in mm) Wire Wound Magnetic Type Inductor for Low Frequency Circuits Continued on the following page. 99

102 LQH3M Inductor for Low Frequency Circuits Wire Wound Magnetic Type Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQH3MN0J03p µh MHz 0mA 2.5ohm±30% 35 5MHz MHz LQH3MN0K03p µh±% MHz 0mA 2.5ohm±30% 35 5MHz MHz LQH3MNJ03p 2µH MHz 95mA 2.7ohm±30% 35 5MHz MHz LQH3MNK03p 2µH±% MHz 95mA 2.7ohm±30% 35 5MHz MHz LQH3MN50J03p 5µH MHz 90mA 3.0ohm±30% 35 5MHz 6MHz LQH3MN50K03p 5µH±% MHz 90mA 3.0ohm±30% 35 5MHz 6MHz LQH3MN0J03p µh MHz 5mA 3.4ohm±30% 35 5MHz 5MHz LQH3MN0K03p µh±% MHz 5mA 3.4ohm±30% 35 5MHz 5MHz LQH3MN2J03p 22µH MHz 5mA 3.ohm±30% 2.5MHz 4MHz LQH3MN2K03p 22µH±% MHz 5mA 3.ohm±30% 2.5MHz 4MHz LQH3MN270J03p 27µH MHz 5mA 3.4ohm±30% 2.5MHz 3MHz LQH3MN270K03p 27µH±% MHz 5mA 3.4ohm±30% 2.5MHz 3MHz LQH3MN330J03p 33µH MHz 0mA 3.ohm±30% 2.5MHz 2MHz LQH3MN330K03p 33µH±% MHz 0mA 3.ohm±30% 2.5MHz 2MHz LQH3MN390J03p 39µH MHz 55mA 7.2ohm±30% 2.5MHz MHz LQH3MN390K03p 39µH±% MHz 55mA 7.2ohm±30% 2.5MHz MHz LQH3MN470J03p 47µH MHz 55mA.0ohm±30% 2.5MHz MHz LQH3MN470K03p 47µH±% MHz 55mA.0ohm±30% 2.5MHz MHz LQH3MN560J03p 56µH MHz 50mA.9ohm±30% 2.5MHz 9MHz LQH3MN560K03p 56µH±% MHz 50mA.9ohm±30% 2.5MHz 9MHz LQH3MN60J03p 6µH MHz 50mA 9.9ohm±30% 2.5MHz.5MHz LQH3MN60K03p 6µH±% MHz 50mA 9.9ohm±30% 2.5MHz.5MHz LQH3MNJ03p 2µH MHz 45mA ohm±30% 2.5MHz 7.5MHz LQH3MNK03p 2µH±% MHz 45mA ohm±30% 2.5MHz 7.5MHz LQH3MNJ03p 0µH MHz 45mA 2ohm±30% 2.5MHz 7MHz LQH3MNK03p 0µH±% MHz 45mA 2ohm±30% 2.5MHz 7MHz Class of Magnetic Shield: No magnetic shield Q Operating Temperature Range: C to +5 C 0µH µh µh InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 33µH µh.0µh Frequency (MHz) Current (ma) 0

103 Inductor for Low Frequency Circuits Wire Wound Magnetic Type LQH32M LQH32MSeries (2 Size) 2 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.7 to p. for mounting information. Test Frequency Self Resonance Frequency (min.) LQH32MNR0M23p.0µH MHz 445mA 0.5ohm MHz 0MHz LQH32MNR2M23p.2µH MHz 425mA 0.6ohm MHz 0MHz LQH32MNR5K23p.5µH±% MHz 0mA 0.6ohm MHz 75MHz LQH32MNRK23p.µH±% MHz 390mA 0.7ohm MHz 60MHz LQH32MN2R2K23p ±% MHz 370mA 0.ohm MHz 50MHz LQH32MN2R7K23p 2.7µH±% MHz 3mA 0.9ohm MHz 43MHz LQH32MN3R3K23p 3.3µH±% MHz 300mA.0ohm MHz 3MHz LQH32MN3R9K23p 3.9µH±% MHz 290mA.ohm MHz 35MHz LQH32MN4R7K23p ±% MHz 270mA.2ohm MHz 3MHz LQH32MN5R6K23p 5.6µH±% MHz 250mA.3ohm MHz 2MHz LQH32MN6RK23p 6.µH±% MHz 2mA.5ohm MHz 25MHz LQH32MNR2K23p.2µH±% MHz 225mA.6ohm MHz 23MHz LQH32MN0J23p µh MHz 90mA.ohm 35 MHz MHz LQH32MN0K23p µh±% MHz 90mA.ohm 35 MHz MHz LQH32MNJ23p 2µH MHz 0mA 2.0ohm 35 MHz MHz LQH32MNK23p 2µH±% MHz 0mA 2.0ohm 35 MHz MHz LQH32MN50J23p 5µH MHz 70mA 2.2ohm 35 MHz 6MHz LQH32MN50K23p 5µH±% MHz 70mA 2.2ohm 35 MHz 6MHz LQH32MN0J23p µh MHz 65mA 2.5ohm 35 MHz 5MHz LQH32MN0K23p µh±% MHz 65mA 2.5ohm 35 MHz 5MHz LQH32MN2J23p 22µH MHz 50mA 2.ohm 35 MHz 4MHz LQH32MN2K23p 22µH±% MHz 50mA 2.ohm 35 MHz 4MHz LQH32MN270J23p 27µH MHz 25mA 3.ohm 35 MHz 3MHz LQH32MN270K23p 27µH±% MHz 25mA 3.ohm 35 MHz 3MHz LQH32MN330J23p 33µH MHz 5mA 3.5ohm MHz 2MHz LQH32MN330K23p 33µH±% MHz 5mA 3.5ohm MHz 2MHz LQH32MN390J23p 39µH MHz ma 3.9ohm MHz MHz LQH32MN390K23p 39µH±% MHz ma 3.9ohm MHz MHz LQH32MN470J23p 47µH MHz 0mA 4.3ohm MHz MHz LQH32MN470K23p 47µH±% MHz 0mA 4.3ohm MHz MHz Class of Magnetic Shield: No magnetic shield Operating Temperature Range: C to +5 C 2.5± ± ± ±0.3.3± ± ± ±0.2 (in mm) Wire Wound Magnetic Type Inductor for Low Frequency Circuits Continued on the following page.

104 LQH32M Inductor for Low Frequency Circuits Wire Wound Magnetic Type Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQH32MN560J23p 56µH MHz 5mA 4.9ohm MHz MHz LQH32MN560K23p 56µH±% MHz 5mA 4.9ohm MHz MHz LQH32MN60J23p 6µH MHz 0mA 5.5ohm MHz 9MHz LQH32MN60K23p 6µH±% MHz 0mA 5.5ohm MHz 9MHz LQH32MNJ23p 2µH MHz 70mA 6.2ohm MHz.5MHz LQH32MNK23p 2µH±% MHz 70mA 6.2ohm MHz.5MHz LQH32MNJ23p 0µH MHz 0mA 7.0ohm 796kHz MHz LQH32MNK23p 0µH±% MHz 0mA 7.0ohm 796kHz MHz LQH32MN2J23p µh MHz 75mA.0ohm 796kHz 7.5MHz LQH32MN2K23p µh±% MHz 75mA.0ohm 796kHz 7.5MHz LQH32MN5J23p 50µH MHz 70mA 9.3ohm 796kHz 7MHz LQH32MN5K23p 50µH±% MHz 70mA 9.3ohm 796kHz 7MHz LQH32MNJ23p 0µH MHz 65mA.2ohm 796kHz 6MHz LQH32MNK23p 0µH±% MHz 65mA.2ohm 796kHz 6MHz LQH32MN22J23p 2µH MHz 65mA.ohm 796kHz 5.5MHz LQH32MN22K23p 2µH±% MHz 65mA.ohm 796kHz 5.5MHz LQH32MN27J23p 270µH MHz 65mA 2.5ohm 796kHz 5MHz LQH32MN27K23p 270µH±% MHz 65mA 2.5ohm 796kHz 5MHz LQH32MN33J23p 330µH MHz 65mA 3.0ohm 796kHz 5MHz LQH32MN33K23p 330µH±% MHz 65mA 3.0ohm 796kHz 5MHz LQH32MN39J23p 390µH MHz 50mA 22.0ohm kHz 5MHz LQH32MN39K23p 390µH±% MHz 50mA 22.0ohm kHz 5MHz LQH32MN47J23p 470µH khz 45mA 25.0ohm kHz 5MHz LQH32MN47K23p 470µH±% khz 45mA 25.0ohm kHz 5MHz LQH32MN56J23p 560µH khz ma 2.0ohm kHz 5MHz LQH32MN56K23p 560µH±% khz ma 2.0ohm kHz 5MHz Class of Magnetic Shield: No magnetic shield Q µH Operating Temperature Range: C to +5 C µh µh InductanceCurrent Characteristics (Typ.) Inductance (µh) µH 0µH 39µH µh 3.9µH.0µH 0 0. Frequency (MHz) Current (ma) 2

105 Inductor for Low Frequency Circuits Wire Wound Magnetic Type LQH43M/LQH43N LQH43M/LQH43NSeries (2 Size) 2 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 500 K 330mm Embossed Tape 2500 Refer to pages from p.7 to p. for mounting information. Test Frequency Self Resonance Frequency (min.) LQH43MNR0M03p.0µH MHz 500mA 0.ohm MHz MHz LQH43MNR2M03p.2µH MHz 500mA 0.ohm MHz 0MHz LQH43MNR5M03p.5µH MHz 500mA 0.30ohm MHz 5MHz LQH43MNRM03p.µH MHz 500mA 0.30ohm MHz 75MHz LQH43MN2R2M03p MHz 500mA 0.30ohm MHz 62MHz LQH43MN2R7M03p 2.7µH MHz 500mA 0.32ohm MHz 53MHz LQH43MN3R3M03p 3.3µH MHz 500mA 0.35ohm MHz 47MHz LQH43MN3R9M03p 3.9µH MHz 500mA 0.3ohm MHz 4MHz LQH43MN4R7K03p ±% MHz 500mA 0.ohm 30 MHz 3MHz LQH43MN5R6K03p 5.6µH±% MHz 500mA 0.47ohm 30 MHz 33MHz LQH43MN6RK03p 6.µH±% MHz 450mA 0.50ohm 30 MHz 3MHz LQH43MNR2K03p.2µH±% MHz 450mA 0.56ohm 30 MHz 27MHz LQH43MN0J03p µh MHz 0mA 0.56ohm 35 MHz 23MHz LQH43MN0K03p µh±% MHz 0mA 0.56ohm 35 MHz 23MHz LQH43MNJ03p 2µH MHz 30mA 0.62ohm 35 MHz 2MHz LQH43MNK03p 2µH±% MHz 30mA 0.62ohm 35 MHz 2MHz LQH43MN50J03p 5µH MHz 360mA 0.73ohm 35 MHz 9MHz LQH43MN50K03p 5µH±% MHz 360mA 0.73ohm 35 MHz 9MHz LQH43MN0J03p µh MHz 3mA 0.2ohm 35 MHz 7MHz LQH43MN0K03p µh±% MHz 3mA 0.2ohm 35 MHz 7MHz LQH43MN2J03p 22µH MHz 3mA 0.94ohm 35 MHz 5MHz LQH43MN2K03p 22µH±% MHz 3mA 0.94ohm 35 MHz 5MHz LQH43MN270J03p 27µH MHz 300mA.ohm 35 MHz 4MHz LQH43MN270K03p 27µH±% MHz 300mA.ohm 35 MHz 4MHz LQH43MN330J03p 33µH MHz 270mA.2ohm 35 MHz 2MHz LQH43MN330K03p 33µH±% MHz 270mA.2ohm 35 MHz 2MHz LQH43MN390J03p 39µH MHz 2mA.4ohm 35 MHz MHz LQH43MN390K03p 39µH±% MHz 2mA.4ohm 35 MHz MHz LQH43MN470J03p 47µH MHz 2mA.5ohm 35 MHz MHz LQH43MN470K03p 47µH±% MHz 2mA.5ohm 35 MHz MHz Class of Magnetic Shield: No magnetic shield 3.6± ±0.3.0min..0min..0min. 2.6±0.2 Operating Temperature Range: C to +5 C 3.2± ±0.2 (in mm) Wire Wound Magnetic Type Inductor for Low Frequency Circuits Continued on the following page. 3

106 LQH43M/LQH43N Inductor for Low Frequency Circuits Wire Wound Magnetic Type LQH43NN2J03p 00µH khz 35mA 45.0ohm 252kHz.5MHz LQH43NN2K03p 00µH±% khz 35mA 45.0ohm 252kHz.5MHz LQH43NN222J03p 20µH khz 30mA 50.0ohm 252kHz.3MHz LQH43NN222K03p 20µH±% khz 30mA 50.0ohm 252kHz.3MHz Class of Magnetic Shield: No magnetic shield Inductance Test Frequency Rated Current Operating Temperature Range: C to +5 C Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQH43MN560J03p 56µH MHz 0mA.7ohm 35 MHz 9.3MHz LQH43MN560K03p 56µH±% MHz 0mA.7ohm 35 MHz 9.3MHz LQH43MN60J03p 6µH MHz 0mA.9ohm 35 MHz.4MHz LQH43MN60K03p 6µH±% MHz 0mA.9ohm 35 MHz.4MHz LQH43MNJ03p 2µH MHz 70mA 2.2ohm 35 MHz 7.5MHz LQH43MNK03p 2µH±% MHz 70mA 2.2ohm 35 MHz 7.5MHz LQH43MNJ03p 0µH MHz 60mA 2.5ohm 796kHz 6.MHz LQH43MNK03p 0µH±% MHz 60mA 2.5ohm 796kHz 6.MHz LQH43MN2J03p µh MHz 50mA 3.0ohm 796kHz 6.2MHz LQH43MN2K03p µh±% MHz 50mA 3.0ohm 796kHz 6.2MHz LQH43MN5J03p 50µH MHz 30mA 3.7ohm 796kHz 5.5MHz LQH43MN5K03p 50µH±% MHz 30mA 3.7ohm 796kHz 5.5MHz LQH43MNJ03p 0µH MHz ma 4.5ohm 796kHz 5MHz LQH43MNK03p 0µH±% MHz ma 4.5ohm 796kHz 5MHz LQH43MN22J03p 2µH MHz ma 5.4ohm 796kHz 4.5MHz LQH43MN22K03p 2µH±% MHz ma 5.4ohm 796kHz 4.5MHz LQH43MN27J03p 270µH MHz 0mA 6.ohm 796kHz 4MHz LQH43MN27K03p 270µH±% MHz 0mA 6.ohm 796kHz 4MHz LQH43MN33J03p 330µH MHz 95mA.2ohm 796kHz 3.6MHz LQH43MN33K03p 330µH±% MHz 95mA.2ohm 796kHz 3.6MHz LQH43MN39J03p 390µH MHz 90mA 9.7ohm 796kHz 3.3MHz LQH43MN39K03p 390µH±% MHz 90mA 9.7ohm 796kHz 3.3MHz LQH43MN47J03p 470µH khz 0mA.ohm 796kHz 3MHz LQH43MN47K03p 470µH±% khz 0mA.ohm 796kHz 3MHz LQH43MN56J03p 560µH khz 70mA 4.5ohm 796kHz 2.7MHz LQH43MN56K03p 560µH±% khz 70mA 4.5ohm 796kHz 2.7MHz LQH43MN6J03p 60µH khz 65mA 7.0ohm 796kHz 2.5MHz LQH43MN6K03p 60µH±% khz 65mA 7.0ohm 796kHz 2.5MHz LQH43MN2J03p µh khz 60mA.5ohm 796kHz 2.2MHz LQH43MN2K03p µh±% khz 60mA.5ohm 796kHz 2.2MHz LQH43MN2J03p 00µH khz 50mA 25.0ohm 252kHz 2MHz LQH43MN2K03p 00µH±% khz 50mA 25.0ohm 252kHz 2MHz LQH43MN22J03p 0µH khz 45mA 30.0ohm 252kHz.MHz LQH43MN22K03p 0µH±% khz 45mA 30.0ohm 252kHz.MHz LQH43MN52J03p 500µH khz ma 37.0ohm 252kHz.6MHz LQH43MN52K03p 500µH±% khz ma 37.0ohm 252kHz.6MHz Continued on the following page. 4

107 LQH43M/LQH43N QFrequency Characteristics (Typ.) Q µH 0µH µh 0 0. Frequency (MHz) InductanceCurrent Characteristics (Typ.) µH 00µH 00 Inductance (µh) 390µH 0µH 0 39µH µh 0 00 Current (ma) Wire Wound Magnetic Type Inductor for Low Frequency Circuits 5

108 Inductor for Low Frequency Circuits!Caution/Notice!Caution Inductor for Low Frequency Circuits!Caution/ Notice Rating Do not use products beyond the rated current as this may create excessive heat. Storage and Operating Condition <Operating Environment> Do not use products in chemical atmosphere such as chlorine gas, acid or sulfide gas. <Storage Requirements>. Storage Period LQM series should be used within 6 months; the other products should be used within 2 months. Check solderability if this period is exceeded. 2. Storage Conditions () Store products in a warehouse in compliance with the following conditions: Temperature: to + degrees C. Humidity: 5 to 5% (relative humidity) Do not subject products to rapid changes in temperature and humidity. Do not store them in chemical atmosphere such as one containing sulfurous acid gas or alkaline gas. This will prevent electrode oxidation which causes poor solderability and possible corrosion of inductors. (2) Do not store products in bulk packaging to prevent collision among inductors which causes core chipping and wire breakage. (3) Store products on pallets to protect from humidity, dust, etc. (4) Avoid heat shock, vibration, direct sunlight, etc. Handling This item is designed to have sufficient strength, but handle with care to avoid chipping or breaking its ceramic structure. LQH_M/N series To prevent breaking the wire, avoid touching with sharp material, such as tweezers or other material such as bristles of cleaning brush, to the wire wound portion of this product. To prevent breaking the core, avoid applying excessive mechanical shock to products mounted on the board. LQM series There is the possibility that magnetism may change the inductance value. Do not use a magnet or tweezers with magnetism when handling chip inductors. (The tip of the tweezers should be molded with resin or pottery.) When the excessive current over rated current is applied, it may cause the inductance value to change due to magnetism. Notice <Handling>. Avoid applying excessive stress to products to prevent damage. 2. Do not touch wire wound with sharp objects such as tweezers to prevent wire breakage. 3. Do not apply excessive force to products mounted on boards to prevent core breakage. <Transportation> Do not apply excessive vibration or mechanical shock to products. <Resin Coating> When coating products with resin, the relatively high resin curing stress may change inductance values. For exterior coating, select resin carefully so that electrical and mechanical performance of the product is not affected. Prior to use, please evaluate reliability with the product mounted in your application set. (LQH series) An open circuit issue may occur by mechanical stress caused by the resin, amount/cured shape of resin, or operating condition etc. Some resins containing impurities or chloride may possibly generate chlorine by hydrolysis under some operating condition may cause corrosion of wire of inductor, leading to open circuit. <Handling of a Substrate> After mounting products on a substrate, do not apply any stress to the product caused by bending or twisting to the substrate when cropping the substrate, inserting and removing a connector from the substrate or tightening screw to the substrate. Excessive mechanical stress may cause cracking in the Product. Bending Twisting 6

109 Inductor for Low Frequency Circuits Soldering and Mounting. Standard Land Pattern Dimensions A high Q value is achieved when the PCB electrode land pattern is designed so that it does not project beyond the chip inductor (chip coil) electrode. Land Pattern + Solder Resist Land Pattern Solder Resist (in mm) Series Standard Land Dimensions LQMN LQM2N a b c LQH3M Flow LQMN 0.7 Reflow c LQM2N b LQH3M LQH32M LQH43M LQH43N Attention should be paid to potential magnetic coupling effects when using the inductor (coil) as a resonator. 2. Standard Soldering Conditions a () Soldering method Chip inductor (Chip coils) can be flow or reflow soldered. Please contact Murata regarding other soldering methods. Solder: Use Sn3.0Ag0.5Cu solder. Flux: Use rosinbased flux, but not strongly acidic flux (with chlorine content exceeding 0.2wt%). Do not use watersoluble flux. For additional mounting methods, please contact Murata. Continued on the following page. Soldering and Mounting Inductor for Low Frequency Circuits 7

110 Inductor for Low Frequency Circuits Soldering and Mounting (2) Soldering profile "Flow Soldering profile (Sn3.0Ag0.5Cu solder) LQMN LQM2N LQH3M Series Temperature ( C) T Temp. (T) Preheating Time. (t) T3 T2 Preheating t t2 Heating time (s) Standard Profile Heating Temp. (T2) Time. (t2) 50 C 60s min. 250 C 4 to 6s Limit Profile Standard Profile Limit Profile Cycle Heating of flow Temp. (T3) Time. (t2) 2 times max. 265±3 C 5s max. Cycle of flow 2 times max. LQH32M LQH43M(N) 50 C 60s min. 250 C 4 to 6s 2 times max. 265±3 C 5s max. times Inductor for Low Frequency Circuits "Reflow Soldering profile (Sn3.0Ag0.5Cu solder) Temperature ( C) 0 50 T4 T2 T T3 Limit Profile Preheating t Standard Profile t2 90±30s time (s) Soldering and Mounting LQMN LQM2N LQH3M LQH32M LQH43M(N) Series Standard Profile Heating Peak Cycle Heating temperature Temp. (T) Time. (t) (T2) of reflow Temp. (T3) Time. (t2) 2 C 30 to 60s 245±3 C 2 C 30 to 60s 245±3 C (3) Reworking with Soldering Iron Preheating at 50 C for minute is required. Do not directly touch the ceramic element with the tip of the soldering iron. The reworking soldering conditions are as follows: 2 times max. 2 times max. Limit Profile Peak temperature (T4) 230 C 60s max. 260 C/s Cycle of reflow 2 times max. 230 C 60s max. 260 C/s time Soldering iron power output: 0W max. Temperature of soldering iron tip: 350 C Diameter of soldering iron end: 3.0mm max. Soldering time: within 3 s Continued on the following page.

111 Inductor for Low Frequency Circuits Soldering and Mounting 3. Mounting Instructions () Land Pattern Dimensions Large lands reduce Q of the mounted chip. Also, large protruding land areas (bordered by lines having dimensions 'c' and 'd' shown) cause floating and electrode leaching. (2) Magnetic Coupling Since some chip inductors (chip coils) are constructed like an open magnetic circuit, narrow spacing between inductors (coils) may cause magnetic coupling. LQM series have a magnetically shielded structure. The structure makes their coupling coefficient smaller than that of conventional chip inductors (chip coils). (3) PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. Land Products should be located in the sideways direction (Length: a<b) to the mechanical stress. Poor example Poor example b a Good example The electrode part of the product should be located like the picture to the mechanical stress. d electrode Solder Resist c Magnetic Coupling electrode Good example Soldering and Mounting Inductor for Low Frequency Circuits (4) Amount of Solder Paste Excessive solder causes electrode corrosion, while insufficient solder causes low electrode bonding strength. Adjust the amount of solder paste as shown on the right so that solder is applied. " Guideline of solder paste thickness LQM: 0 to 50µm LQHs except for ones written above: 0 to 300µm LQH_M LQM Continued on the following page. 9

112 Inductor for Low Frequency Circuits Soldering and Mounting Inductor for Low Frequency Circuits Soldering and Mounting (5) Amount of Adhesive If too much adhesive is applied, then it may overflow into the land or termination areas and yield poor solderability. In contrast, if insufficient adhesive is applied, or if the adhesive is not sufficiently hardened, then the chip may become detached during flow soldering. Apply the adhesive in accordance with the conditions shown in chart. 4. Cleaning The following conditions should be observed when cleaning chip inductors (chip coils): () Cleaning Temperature: 60 C max. ( C max. for alcohol cleaning agents) (2) Ultrasonic Output: W/l max. Duration: 5 minutes max. Frequency: 2 to khz Care should be taken not to cause resonance of the PCB and mounted products. (3) Cleaning agent The following cleaning agents have been tested on individual components. Evaluation in complete assembly should be done prior to production. (a) Alcohol cleaning agents Isopropyl alcohol (IPA) (b) Aqueous cleaning agents Pine Alpha ST0S LQMN LQM2N LQH3M LQH32M LQH43M(N) LQH_M/N LQM Typical Application Amount (in:mg) IR (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agents have been removed with deionized water. For additional cleaning methods, please contact Murata.

113 Inductor for Low Frequency Circuits Packaging Minimum and mm Width Taping Dimensions Paper Tape a ø ±0. 4.0±0. 2.0± ±0.05 b.75±0. (.0) Direction of feed <Embossed> Dimension of the cavity of embossed tape is measured at the bottom side. LQM2N (0.) LQMN Embossed Tape LQM2N (2.7) LQH3M LQH32M Dimensions a b Dimensions a b a 0.2 Total Thickness of Tape c. max.. max. c Depth of Cavity c Minimum and 2mm Width Embossed Taping Dimensions Embossed Tape LQH43M(N) ±0.05.0±0. 4.0±0. ø ± ±0. <Paper> c Packaging Code (Minimum Qty. [pcs.]) ø0mm reel D [00] ø330mm reel J [000] Bulk B [00] D [00] J [000] B [00] Packaging Code (Minimum Qty. [pcs.]) ø0mm reel L [3000] ø330mm reel K [000] Bulk B [00] L [00] K [7500] L [00] K [7500] b Direction of feed Dimension of the cavity of embossed tape is measured at the bottom side. a Dimensions (*c: Depth of Cavity) b 4.9 c 2.7 d c (2.0) Packaging Code (Minimum Qty. [pcs.]) d ø0mm reel ø330mm reel 0.3 L [500] K [2500] Bulk (in mm) (in mm) Packaging Inductor for Low Frequency Circuits

114 Inductor for Low Frequency Circuits Design Kits Holder Type Design Kits Inductor for Low Frequency Circuits oeklmqmb (for General Use Multilayer Type) No. 2 3 LQMNN47NM00 LQMNN6NM00 LQMNN2NM00 47nH 6nH 2nH oeklmm2nb (for General Use Multilayer Type) 4 LQMNNRK00 0nH ±% No LQMNNR2K00 LQMNNR5K00 LQMNNRK00 LQMNNR22K00 LQMNNR27K00 LQMNNR33K00 LQMNNR39K00 LQMNNR47K00 LQMNNR56K00 LQMNNR6K00 LQMNNR2K00 LQMNNR0K00 LQMNNR2K00 LQMNNR5K00 LQMNNRK00 LQMNN2R2K00 LQM2NNRK LQM2NNR2K LQM2NNR5K LQM2NNRK LQM2NNR22K LQM2NNR27K LQM2NNR33K LQM2NNR39K LQM2NNR47K LQM2NNR56K LQM2NNR6K LQM2NNR2K LQM2NNR0K LQM2NNR2K LQM2NNR5K LQM2NNRK LQM2NN2R2K LQM2NN2R7K LQM2NN3R3K LQM2NN3R9K LQM2NN4R7K (pcs.) (pcs.) Inductance Nominal Tolerance nh 50nH 0nH 2nH 270nH 330nH 390nH 470nH 560nH 60nH nh 00nH 0nH 500nH 00nH 20nH 0.µH 0.2µH 0.5µH 0.µH 0.22µH 0.27µH 0.33µH 0.39µH 0.47µH 0.56µH 0.6µH 0.2µH.0µH.2µH.5µH.µH 2.7µH 3.3µH 3.9µH ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% Inductance Nominal Tolerance ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) oeklmh32mc (for General Use Wire Wound Type) No LQH32MNR0M23 LQH32MNR2M23 LQH32MNR5K23 LQH32MNRK23 LQH32MN2R2K23 (pcs.) Inductance Nominal Tolerance.0µH.2µH.5µH.µH ±% ±% ±% DC Resistance (Ω) max. 6 LQH32MN2R7K23 2.7µH ±% Continued on the following page Rated Current (ma)

115 Inductor for Low Frequency Circuits Design Kits No LQH32MN3R3K23 LQH32MN3R9K23 LQH32MN4R7K23 LQH32MN5R6K23 LQH32MN6RK23 LQH32MNR2K23 LQH32MN0K23 LQH32MNK23 LQH32MN50K23 LQH32MN0K23 LQH32MN2K23 LQH32MN270K23 LQH32MN330K23 LQH32MN390K23 LQH32MN470K23 LQH32MN560K23 LQH32MN60K23 LQH32MNK23 LQH32MNK23 LQH32MN2K23 LQH32MN5K23 LQH32MNK23 LQH32MN22K23 LQH32MN27K23 LQH32MN33K23 LQH32MN39K23 LQH32MN47K23 LQH32MN56K23 3.3µH 3.9µH 5.6µH 6.µH.2µH µh 2µH 5µH µh 22µH 27µH 33µH 39µH 47µH 56µH 6µH 2µH 0µH µh 50µH 0µH 2µH 270µH 330µH 390µH 470µH 560µH oeklmh43mb (for General Use Wire Wound Type) No Continued from the preceding page. LQH43MNR0M03 LQH43MNR2M03 LQH43MNR5M03 LQH43MNRM03 LQH43MN2R2M03 LQH43MN2R7M03 LQH43MN3R3M03 LQH43MN3R9M03 LQH43MN4R7K03 LQH43MN5R6K03 LQH43MN6RK03 LQH43MNR2K03 LQH43MN0K03 LQH43MNK03 LQH43MN50K03 LQH43MN0K03 LQH43MN2K03 LQH43MN270K03 LQH43MN330K03 LQH43MN390K03 LQH43MN470K03 LQH43MN560K03 LQH43MN60K03 LQH43MNK03 LQH43MNK03 LQH43MN2K03 LQH43MN5K03 LQH43MNK03 LQH43MN22K03 LQH43MN27K03 LQH43MN33K03 LQH43MN39K03 LQH43MN47K03 (pcs.) (pcs.) Inductance Nominal Tolerance.0µH.2µH.5µH.µH 2.7µH 3.3µH 3.9µH 5.6µH 6.µH.2µH µh 2µH 5µH µh 22µH 27µH 33µH 39µH 47µH 56µH 6µH 2µH 0µH µh 50µH 0µH 2µH 270µH 330µH 390µH 470µH ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% Inductance Nominal Tolerance ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% ±% DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Continued on the following page. Design Kits Inductor for Low Frequency Circuits 3

116 Inductor for Low Frequency Circuits Design Kits Continued from the preceding page. Design Kits Inductor for Low Frequency Circuits No LQH43MN56K03 LQH43MN6K03 LQH43MN2K03 LQH43MN2K03 LQH43MN22K03 LQH43MN52K03 LQH43NN2K03 LQH43NN222K03 (pcs.) Inductance Nominal Tolerance 560µH 60µH µh 00µH 0µH 500µH 00µH 20µH ±% ±% ±% ±% ±% ±% ±% ±% DC Resistance (Ω) max Rated Current (ma)

117 Inductor for Low Frequency Circuits a Introduction ing Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits

118 cintroduction of Inductor for Low Frequency Circuits oapplication of Matching INPUT IN Vt LNA Vdd VGG LNA IF SAW Filter SAW Filter Matching VCO RF Choke Matching PA for Oscillator Vdd2 VGG Buffer Stage Oscillation Stage OUTPUT Vdd3 Vco RF Choke Matching RF Choke P Out RF Choke RF Choke RF Choke Matching Out Matching Matching Matching Matching For Matching High Q or tight inductance tolerance is required to improve signal quality. Especially, film type is suitable at receiver circuit because tight tolerance is required. crecommended Film Type LQP03T Series (for miniaturize) LQP5M Series Multilayer Type LQG5H Series For Matching High Q is required to reduce signal loss. Wire wound type and film type are suitable when tight tolerance is essential. crecommended Wire Wound Type LQW5A Series LQWA Series LQW2BH Series Film Type LQP03T Series LQP5M Series Multilayer Type LQG5H Series For Matching For Oscillator High Q or tight inductance tolerance is required to stabilize oscillation and signal quality. Wire wound type is suitable for high Q, film type is suitable for tight tolerance. crecommended Wire Wound Type LQW5A Series LQWA Series LQWA_ Series (for output efficiency improvement) Wire Wound Type LQW5A Series LQWA Series For Matching Small shape is required. Film type is suitable because of its tight inductance tolerance and fine inductance step. crecommended Film Type LQP03T Series (for miniaturize) LQP5M Series (for frequency selectivity) Multilayer Type LQG5H Series Film Type LQP03T Series (for miniaturize) LQP5M Series (for frequency selectivity) Multilayer Type LQG5H Series For RF Choke Low DC resistance is required because of large operation current. Wire wound type or multilayer type is suitable. crecommended Wire Wound Type LQW5A Series LQWA Series Multilayer Type LQG5H Series For RF Choke Low DC resistance is required because of large operation current. Wire wound type or multilayer type is suitable. crecommended Wire Wound Type LQW5A Series LQWA Series LQWA_ Series Multilayer Type LQG5H Series For RF Choke Low DC resistance is required because of large operation current. Especially, wire wound type is suitable for GSM because over A of current is working. crecommended Wire Wound Type Multilayer Type LQW5A Series LQG5H Series LQWA Series LQWA_ Series LQW2BH Series (for output efficiency improvement) ANTENNA For Matching LQW series is suitable to get high antenna sensitivity because of its high Q and tight tolerance spec. crecommended Wire Wound Type LQW5A Series LQWA Series 6

119 ing () LQ q G 5 H N N0 S w e r t y u 0 2 D i o!0 qproduct ID Product ID LQ Chip Inductors (Chip Coils) wstructure Code Structure G Multilayer Type (Aircore Inductor (Coil)) H Wire Wound Type (Ferrite Core) P Film Type Wire Wound Type (Aircore Inductor (Coil)) W Wire Wound Type (Ferrite Core) edimensions (LgW) Code Dimensions (LgW) EIA B 2U 3 0.4g0.2mm 0.6g0.3mm 0.g0.4mm.0g0.5mm.6g0.mm 2.0g.25mm 2.0g.5mm 2.5g2.0mm 3.2g.6mm rapplications and Characteristics Code Series Applications and Characteristics H LQG Multilayer Aircore Inductor (Coil) M Film Type LQP T Film Type (Low DC Resistance Type) A High Q Type (UHFSHF) LQW H High Q Type (VHFUHF) H LQH for Highfrequency Resonant Circuit tcategory Code Category N Standard Type S!0Packaging yinductance Expressed by threedigit alphanumerics. The unit is microhenry (µh). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. If there is a decimal point, it is expressed by the capital letter "R". In this case, all figures are significant digits. If inductance is less than 0.µH, the inductance code is expressed by a combination of two figures and the capital letter "N", and the unit of inductance is nanohenry (nh). The capital letter "N" indicates the unit of "nh", and also expresses a decimal point. In this case, all figures are significant digits. uinductance Tolerance Code B C D G H J K S W ifeatures oelectrode Lead (Pb) Free Code HighQ/ Low DC Resistance Electrode Sn LF Solder Inductance Tolerance ±0.nH ±0.2nH ±0.5nH ±2% ±3% ±% ±0.3nH ±0.05nH Code Features Series 0 Standard Type LQG/LQP/LQW/LQH* * Except LQH32 Series Series LQGH/LQWppA/LQWppC LQG5H/LQP02T/LQP03T/LQP5T/ LQPppM LQWppH/LQH LQW5A/A/2BH Inductor for Low Frequency Circuits Code Packaging Series K L B J D * Except LQP02T/5T *2 Except LQW2H *3 Except LQW2BA/LQW2UA Embossed Taping (ø330mm Reel) Embossed Taping (ø0mm Reel) Bulk Paper Taping (ø330mm Reel) Paper Taping (ø0mm Reel) LQH/LQWppH* 2 LQH/LQW2BA/LQW2UA/LQWppH LQW/LQG/LQP LQWA/LQG/LQP* LQWppA*3 /LQG/LQP 7

120 Multilayer NonMagnetic Type LQG5HN LQG5HNSeries (02 Size) 02 Size, Multilayer Type Inductor for Low Frequency Circuits Multilayer NonMagnetic Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Refer to pages from p.67 to p.70 for mounting information. LQG5HN9NJ02p 9.nH 0MHz 300mA 0.34ohm 0MHz 30MHz LQG5HNNJ02p nh 0MHz 300mA 0.35ohm 0MHz 30MHz LQG5HN2NJ02p 2nH 0MHz 300mA 0.4ohm 0MHz 200MHz LQG5HN5NJ02p 5nH 0MHz 300mA 0.46ohm 0MHz 2300MHz LQG5HNNJ02p nh 0MHz 300mA 0.5ohm 0MHz MHz LQG5HN22NJ02p 22nH 0MHz 300mA 0.5ohm 0MHz 00MHz LQG5HN27NJ02p 27nH 0MHz 300mA 0.67ohm 0MHz 600MHz Code Packaging Minimum D 0mm Paper Tape 000 J 330mm Paper Tape B Bulk(Bag) 00 Test Frequency Self Resonance Frequency (min.) LQG5HNN0S02p.0nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNNS02p.nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNN2S02p.2nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNN3S02p.3nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNN5S02p.5nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNN6S02p.6nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HNNS02p.nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HN2N0S02p 2.0nH±0.3nH 0MHz 300mA 0.2ohm 0MHz 6000MHz LQG5HN2N2S02p 2.2nH±0.3nH 0MHz 300mA 0.5ohm 0MHz 6000MHz LQG5HN2N4S02p 2.4nH±0.3nH 0MHz 300mA 0.6ohm 0MHz 6000MHz LQG5HN2N7S02p 2.7nH±0.3nH 0MHz 300mA 0.7ohm 0MHz 6000MHz LQG5HN3N0S02p 3.0nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HN3N3S02p 3.3nH±0.3nH 0MHz 300mA 0.9ohm 0MHz 6000MHz LQG5HN3N6S02p 3.6nH±0.3nH 0MHz 300mA 0.9ohm 0MHz 6000MHz LQG5HN3N9S02p 3.9nH±0.3nH 0MHz 300mA 0.9ohm 0MHz 6000MHz LQG5HN4N3S02p 4.3nH±0.3nH 0MHz 300mA 0.2ohm 0MHz 6000MHz LQG5HN4N7S02p 4.7nH±0.3nH 0MHz 300mA 0.23ohm 0MHz 6000MHz LQG5HN5NS02p 5.nH±0.3nH 0MHz 300mA 0.24ohm 0MHz 6000MHz LQG5HN5N6S02p 5.6nH±0.3nH 0MHz 300mA 0.26ohm 0MHz 5300MHz LQG5HN6N2S02p 6.2nH±0.3nH 0MHz 300mA 0.27ohm 0MHz 4300MHz LQG5HN6NJ02p 6.nH 0MHz 300mA 0.29ohm 0MHz 40MHz LQG5HN7N5J02p 7.5nH 0MHz 300mA 0.3ohm 0MHz 3900MHz LQG5HNN2J02p.2nH 0MHz 300mA 0.33ohm 0MHz 3600MHz Operating Temperature Range: 55 C to +25 C 0.25±0. Only for reflow soldering..0±0.05 Polarity Marking 0.5± ±0.05 (in mm) Continued on the following page.

121 LQG5HN Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQG5HN33NJ02p 33nH 0MHz 0mA 0.67ohm 0MHz 500MHz LQG5HN39NJ02p 39nH 0MHz 0mA.06ohm 0MHz 0MHz LQG5HN47NJ02p 47nH 0MHz 0mA.5ohm 0MHz 00MHz LQG5HN56NJ02p 56nH 0MHz 0mA.ohm 0MHz 00MHz LQG5HN6NJ02p 6nH 0MHz 0mA.25ohm 0MHz 00MHz LQG5HN2NJ02p 2nH 0MHz 50mA.60ohm 0MHz 600MHz LQG5HNRJ02p 0nH 0MHz 50mA.60ohm 0MHz 600MHz LQG5HNR2J02p nh 0MHz 50mA.60ohm 0MHz 600MHz Operating Temperature Range: 55 C to +25 C Q nH Only for reflow soldering..5nh 33nH 2nH 4.7nH nh Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) 00 0 nh 6nH 33nH 2nH 4.7nH.5nH Frequency (MHz) Inductor for Low Frequency Circuits Multilayer NonMagnetic Type 9

122 Multilayer NonMagnetic Type LQG5HS LQG5HSSeries (02 Size) Designed under Industrial Global Standard Inductor for Low Frequency Circuits Multilayer NonMagnetic Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Refer to pages from p.67 to p.70 for mounting information. LQG5HS9NJ02p 9.nH 0MHz 300mA 0.26ohm 0MHz 30MHz LQG5HSNJ02p nh 0MHz 300mA 0.26ohm 0MHz 30MHz LQG5HS2NJ02p 2nH 0MHz 300mA 0.2ohm 0MHz 3000MHz LQG5HS5NJ02p 5nH 0MHz 300mA 0.32ohm 0MHz 2500MHz LQG5HSNJ02p nh 0MHz 300mA 0.36ohm 0MHz 20MHz LQG5HS22NJ02p 22nH 0MHz 300mA 0.42ohm 0MHz 900MHz LQG5HS27NJ02p 27nH 0MHz 300mA 0.46ohm 0MHz 700MHz Code Test Frequency Packaging Minimum D 0mm Paper Tape 000 J 330mm Paper Tape B Bulk(Bag) 00 Self Resonance Frequency (min.) LQG5HSN0S02p.0nH±0.3nH 0MHz 300mA 0.07ohm 0MHz 000MHz LQG5HSNS02p.nH±0.3nH 0MHz 300mA 0.09ohm 0MHz 6000MHz LQG5HSN2S02p.2nH±0.3nH 0MHz 300mA 0.09ohm 0MHz 6000MHz LQG5HSN3S02p.3nH±0.3nH 0MHz 300mA 0.09ohm 0MHz 6000MHz LQG5HSN5S02p.5nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HSN6S02p.6nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HSNS02p.nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS2N0S02p 2.0nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS2N2S02p 2.2nH±0.3nH 0MHz 300mA 0.2ohm 0MHz 6000MHz LQG5HS2N4S02p 2.4nH±0.3nH 0MHz 300mA 0.5ohm 0MHz 6000MHz LQG5HS2N7S02p 2.7nH±0.3nH 0MHz 300mA 0.5ohm 0MHz 6000MHz LQG5HS3N0S02p 3.0nH±0.3nH 0MHz 300mA 0.7ohm 0MHz 6000MHz LQG5HS3N3S02p 3.3nH±0.3nH 0MHz 300mA 0.7ohm 0MHz 6000MHz LQG5HS3N6S02p 3.6nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS3N9S02p 3.9nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS4N3S02p 4.3nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS4N7S02p 4.7nH±0.3nH 0MHz 300mA 0.ohm 0MHz 6000MHz LQG5HS5NS02p 5.nH±0.3nH 0MHz 300mA 0.2ohm 0MHz 5300MHz LQG5HS5N6S02p 5.6nH±0.3nH 0MHz 300mA 0.2ohm 0MHz 4500MHz LQG5HS6N2S02p 6.2nH±0.3nH 0MHz 300mA 0.22ohm 0MHz 4500MHz LQG5HS6NJ02p 6.nH 0MHz 300mA 0.24ohm 0MHz 4500MHz LQG5HS7N5J02p 7.5nH 0MHz 300mA 0.24ohm 0MHz 40MHz LQG5HSN2J02p.2nH 0MHz 300mA 0.24ohm 0MHz 3700MHz Operating Temperature Range: 55 C to +25 C 0.25±0. Only for reflow soldering..0±0.05 Polarity Marking 0.5± ±0.05 (in mm) Continued on the following page.

123 LQG5HS Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQG5HS33NJ02p 33nH 0MHz 0mA 0.5ohm 0MHz 600MHz LQG5HS39NJ02p 39nH 0MHz 0mA 0.65ohm 0MHz 0MHz LQG5HS47NJ02p 47nH 0MHz 0mA 0.72ohm 0MHz 00MHz LQG5HS56NJ02p 56nH 0MHz 0mA 0.2ohm 0MHz 00MHz LQG5HS6NJ02p 6nH 0MHz 0mA 0.92ohm 0MHz 00MHz LQG5HS2NJ02p 2nH 0MHz 50mA.2ohm 0MHz 700MHz LQG5HSRJ02p 0nH 0MHz 50mA.25ohm 0MHz 600MHz LQG5HSR2J02p nh 0MHz 50mA.3ohm 0MHz 600MHz LQG5HSR5J02p 50nH 0MHz ma 2.99ohm 0MHz 550MHz LQG5HSRJ02p 0nH 0MHz 30mA 3.3ohm 0MHz 500MHz LQG5HSR22J02p 2nH 0MHz ma 3.77ohm 0MHz 450MHz LQG5HSR27J02p 270nH 0MHz ma 4.94ohm 0MHz 0MHz Operating Temperature Range: 55 C to +25 C Q 0 60 Only for reflow soldering..0nh 3.3nH nh nh 56nH 22nH 270nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) nH nh 56nH 22nH nh 3.3nH.0nH Frequency (MHz) Multilayer NonMagnetic Type Inductor for Low Frequency Circuits Continued on the following page. 2

124 LQG5HS Inductor for Low Frequency Circuits Reference Data LQG5HSN0S02 LQG5HSNS02 LQG5HSN2S02 LQG5HSN3S02 LQG5HSN5S02 LQG5HSN6S02 LQG5HSNS02 LQG5HS2N0S02 LQG5HS2N2S02 LQG5HS2N4S02 LQG5HS2N7S02 LQG5HS3N0S02 LQG5HS3N3S02 LQG5HS3N6S02 LQG5HS3N9S02 LQG5HS4N3S02 LQG5HS4N7S02 LQG5HS5NS02 LQG5HS5N6S02 LQG5HS6N2S02 LQG5HS6NJ02 LQG5HS7N5J02 LQG5HSN2J02 LQG5HS9NJ02 LQG5HSNJ02 LQG5HS2NJ02 Inductance (nh) 0MHz MHz MHz Q (Typ.).GHz GHz GHz Rdc (Ω Typ.) SRF (MHz Typ.) LQG5HS5NJ LQG5HSNJ LQG5HS22NJ LQG5HS27NJ LQG5HS33NJ LQG5HS39NJ Multilayer NonMagnetic Type LQG5HS47NJ02 LQG5HS56NJ02 LQG5HS6NJ02 LQG5HS2NJ02 LQG5HSRJ02 LQG5HSR2J

125 Multilayer NonMagnetic Type LQGH LQGHSeries (0603 Size) 0603 Size, Multilayer Type Dimensions Rated Value (p: packaging code) Inductance Packaging Refer to pages from p.67 to p.70 for mounting information. LQGHNRJ00p 0nH 0MHz 300mA 0.90ohm 2 0MHz 00MHz Operating Temperature Range: C to +5 C 0.3±0.2 Test Frequency Only for reflow soldering..6±0.5 Polarity Marking Rated Current Max. of DC Resistance Q (min.) Code Test Frequency Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 00 Self Resonance Frequency (min.) LQGHNN2S00p.2nH±0.3nH 0MHz 500mA 0.ohm 2 0MHz 6000MHz LQGHNN5S00p.5nH±0.3nH 0MHz 500mA 0.ohm 2 0MHz 6000MHz LQGHNNS00p.nH±0.3nH 0MHz 500mA 0.ohm 2 0MHz 6000MHz LQGHN2N2S00p 2.2nH±0.3nH 0MHz 500mA 0.ohm 2 0MHz 6000MHz LQGHN2N7S00p 2.7nH±0.3nH 0MHz 500mA 0.5ohm 2 0MHz 6000MHz LQGHN3N3S00p 3.3nH±0.3nH 0MHz 500mA 0.5ohm 2 0MHz 6000MHz LQGHN3N9S00p 3.9nH±0.3nH 0MHz 450mA 0.5ohm 2 0MHz 6000MHz LQGHN4N7S00p 4.7nH±0.3nH 0MHz 450mA 0.ohm 2 0MHz 6000MHz LQGHN5N6S00p 5.6nH±0.3nH 0MHz 430mA 0.ohm 2 0MHz 5000MHz LQGHN6NJ00p 6.nH 0MHz 430mA 0.25ohm 2 0MHz 5000MHz LQGHNN2J00p.2nH 0MHz 0mA 0.25ohm 2 0MHz 00MHz LQGHNNJ00p nh 0MHz 0mA 0.30ohm 2 0MHz 3500MHz LQGHN2NJ00p 2nH 0MHz 0mA 0.35ohm 2 0MHz 3000MHz LQGHN5NJ00p 5nH 0MHz 350mA 0.ohm 2 0MHz 200MHz LQGHNNJ00p nh 0MHz 350mA 0.45ohm 2 0MHz 2600MHz LQGHN22NJ00p 22nH 0MHz 300mA 0.50ohm 2 0MHz 2300MHz LQGHN27NJ00p 27nH 0MHz 300mA 0.55ohm 2 0MHz 00MHz LQGHN33NJ00p 33nH 0MHz 300mA 0.60ohm 2 0MHz 700MHz LQGHN39NJ00p 39nH 0MHz 300mA 0.65ohm 2 0MHz 500MHz LQGHN47NJ00p 47nH 0MHz 300mA 0.70ohm 2 0MHz 0MHz LQGHN56NJ00p 56nH 0MHz 300mA 0.75ohm 2 0MHz 0MHz LQGHN6NJ00p 6nH 0MHz 300mA 0.0ohm 2 0MHz 00MHz LQGHN2NJ00p 2nH 0MHz 300mA 0.5ohm 2 0MHz 900MHz 0.±0.5 0.±0.5 (in mm) Inductor for Low Frequency Circuits Multilayer NonMagnetic Type Continued on the following page. 23

126 LQGH Inductor for Low Frequency Circuits QFrequency Characteristics (Typ.) Q nH nh 3.3nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) 00 6nH 0 nh 3.3nH Frequency (MHz) Multilayer NonMagnetic Type 24

127 Film NonMagnetic Type LQP02T LQP02TSeries (005 Size) 005 Size Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQP02TN0N4S02p 0.4nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TN0N5S02p 0.5nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TN0N6S02p 0.6nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TN0N7S02p 0.7nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TN0NS02p 0.nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TN0N9S02p 0.9nH±0.3nH 500MHz 3mA 0.60ohm 500MHz 6000MHz LQP02TNN0S02p.0nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNNS02p.nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNN2S02p.2nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNN3S02p.3nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNN5S02p.5nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNN6S02p.6nH±0.3nH 500MHz 2mA 0.90ohm 500MHz 6000MHz LQP02TNNS02p.nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN2N0S02p 2.0nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN2N2S02p 2.2nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN2N4S02p 2.4nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN2N7S02p 2.7nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN3N0S02p 3.0nH±0.3nH 500MHz 0mA.35ohm 500MHz 6000MHz LQP02TN3N3S02p 3.3nH±0.3nH 500MHz 0mA.65ohm 500MHz 6000MHz LQP02TN3N6S02p 3.6nH±0.3nH 500MHz 0mA.65ohm 500MHz 6000MHz LQP02TN3N9S02p 3.9nH±0.3nH 500MHz 0mA.65ohm 500MHz 6000MHz LQP02TN4N3S02p 4.3nH±0.3nH 500MHz 0mA.65ohm 500MHz 6000MHz LQP02TN4N7S02p 4.7nH±0.3nH 500MHz 60mA 2.ohm 500MHz 6000MHz LQP02TN5NS02p 5.nH±0.3nH 500MHz 60mA 2.ohm 500MHz 6000MHz LQP02TN5N6S02p 5.6nH±0.3nH 500MHz ma 2.ohm 500MHz 6000MHz LQP02TN6N2J02p 6.2nH 500MHz ma 2.ohm 500MHz 5500MHz LQP02TN6NJ02p 6.nH 500MHz ma 2.5ohm 500MHz 5500MHz LQP02TN7N5J02p 7.5nH 500MHz ma 2.5ohm 500MHz 4500MHz LQP02TNN2J02p.2nH 500MHz ma 3.5ohm 500MHz 5000MHz LQP02TN9NJ02p 9.nH 500MHz ma 3.5ohm 500MHz 00MHz Operating Temperature Range: C to +5 C Only for reflow soldering. 0.± to 0.2 Polarity Marking 0.± ±0.02 (in mm) Inductor for Low Frequency Circuits Film NonMagnetic Type Continued on the following page. 25

128 LQP02T Inductor for Low Frequency Circuits Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQP02TNNJ02p nh 500MHz ma 3.60ohm 500MHz 00MHz LQP02TN2NJ02p 2nH 500MHz ma 3.90ohm 7 500MHz 3500MHz LQP02TN5NJ02p 5nH 500MHz ma 4.35ohm 7 500MHz 3000MHz LQP02TNNJ02p nh 500MHz ma 4.0ohm 7 500MHz 2500MHz Operating Temperature Range: C to +5 C Q Frequency (MHz) Only for reflow soldering. 0.6nH.0nH 2.2nH 3.3nH 4.7nH 6.nH.2nH nh 000 InductanceFrequency Characteristics (Typ.) Inductance (nh) 0 nh.2nh 6.nH 4.7nH 3.3nH 2.2nH.0nH 0.6nH Frequency (MHz) Film NonMagnetic Type Continued on the following page. 26

129 LQP02T Reference Data 00MHz LQP02TN0N4 0.4 LQP02TN0N5 0.5 LQP02TN0N6 0.6 LQP02TN0N7 0.7 LQP02TN0N 0. LQP02TN0N9 0.9 LQP02TNN0.0 LQP02TNN. LQP02TNN2.2 LQP02TNN3.3 LQP02TNN5.5 LQP02TNN6.6 LQP02TNN. LQP02TN2N0 2.0 LQP02TN2N2 2.2 LQP02TN2N4 2.4 LQP02TN2N7 2.7 LQP02TN3N0 3.0 LQP02TN3N3 3.3 LQP02TN3N6 3.6 LQP02TN3N9 3.9 LQP02TN4N3 4.3 LQP02TN4N7 4.7 LQP02TN5N 5. LQP02TN5N6 5.6 LQP02TN6N2 6.2 Inductance (nh) (Typ.) 900MHz.GHz 2.0GHz GHz MHz MHz Q (Typ.).GHz GHz GHz Inductor for Low Frequency Circuits LQP02TN6N LQP02TN7N LQP02TNN LQP02TN9N LQP02TNN LQP02TN2N LQP02TN5N LQP02TNN Film NonMagnetic Type 27

130 0.3± ± ± ±0.03 Film NonMagnetic Type LQP03T_02 LQP03T_02Series (0 Size) 0 Size, High Q, Wide Variation Inductor for Low Frequency Circuits Film NonMagnetic Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency 0.6± to 56nH 6 to nh Polarity Marking Colored Side 0.5±0.05 Rated Current Polarity Marking Colored Side Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 5000 J 330mm Paper Tape B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQP03TN0N6B02p 0.6nH±0.nH 500MHz 50mA 0.07ohm 4 500MHz 6000MHz LQP03TN0N6C02p 0.6nH±0.2nH 500MHz 50mA 0.07ohm 4 500MHz 6000MHz LQP03TN0N7B02p 0.7nH±0.nH 500MHz 00mA 0.0ohm 4 500MHz 6000MHz LQP03TN0N7C02p 0.7nH±0.2nH 500MHz 00mA 0.0ohm 4 500MHz 6000MHz LQP03TN0NB02p 0.nH±0.nH 500MHz 00mA 0.0ohm 4 500MHz 6000MHz LQP03TN0NC02p 0.nH±0.2nH 500MHz 00mA 0.0ohm 4 500MHz 6000MHz LQP03TN0N9B02p 0.9nH±0.nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TN0N9C02p 0.9nH±0.2nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNN0B02p.0nH±0.nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNN0C02p.0nH±0.2nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNNB02p.nH±0.nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNNC02p.nH±0.2nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNN2B02p.2nH±0.nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNN2C02p.2nH±0.2nH 500MHz 750mA 0.ohm 4 500MHz 6000MHz LQP03TNN3B02p.3nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN3C02p.3nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN4B02p.4nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN4C02p.4nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN5B02p.5nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN5C02p.5nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN6B02p.6nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN6C02p.6nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN7B02p.7nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN7C02p.7nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNNB02p.nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNNC02p.nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN9B02p.9nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TNN9C02p.9nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2N0B02p 2.0nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2N0C02p 2.0nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz 0.6± ±0.05 (in mm) Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Continued on the following page. 2

131 LQP03T_02 Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQP03TN2NB02p 2.nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2NC02p 2.nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2N2B02p 2.2nH±0.nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2N2C02p 2.2nH±0.2nH 500MHz 600mA 0.5ohm 4 500MHz 6000MHz LQP03TN2N3B02p 2.3nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N3C02p 2.3nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N4B02p 2.4nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N4C02p 2.4nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N5B02p 2.5nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N5C02p 2.5nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N6B02p 2.6nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N6C02p 2.6nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N7B02p 2.7nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N7C02p 2.7nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2NB02p 2.nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2NC02p 2.nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N9B02p 2.9nH±0.nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN2N9C02p 2.9nH±0.2nH 500MHz 500mA 0.ohm 4 500MHz 6000MHz LQP03TN3N0B02p 3.0nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N0C02p 3.0nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3NB02p 3.nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3NC02p 3.nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N2B02p 3.2nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N2C02p 3.2nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N3B02p 3.3nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N3C02p 3.3nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N4B02p 3.4nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N4C02p 3.4nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N5B02p 3.5nH±0.nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N5C02p 3.5nH±0.2nH 500MHz 450mA 0.25ohm 4 500MHz 6000MHz LQP03TN3N6B02p 3.6nH±0.nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3N6C02p 3.6nH±0.2nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3N7B02p 3.7nH±0.nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3N7C02p 3.7nH±0.2nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3NB02p 3.nH±0.nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3NC02p 3.nH±0.2nH 500MHz 0mA 0.30ohm 4 500MHz 6000MHz LQP03TN3N9B02p 3.9nH±0.nH 500MHz 0mA 0.30ohm 4 500MHz 5700MHz LQP03TN3N9C02p 3.9nH±0.2nH 500MHz 0mA 0.30ohm 4 500MHz 5700MHz LQP03TN4N3H02p 4.3nH±3% 500MHz 350mA 0.ohm 4 500MHz 5300MHz LQP03TN4N3J02p 4.3nH 500MHz 350mA 0.ohm 4 500MHz 5300MHz LQP03TN4N7H02p 4.7nH±3% 500MHz 350mA 0.ohm 4 500MHz 40MHz LQP03TN4N7J02p 4.7nH 500MHz 350mA 0.ohm 4 500MHz 40MHz LQP03TN5NH02p 5.nH±3% 500MHz 350mA 0.ohm 4 500MHz 40MHz LQP03TN5NJ02p 5.nH 500MHz 350mA 0.ohm 4 500MHz 40MHz Inductor for Low Frequency Circuits Film NonMagnetic Type Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Continued on the following page. 29

132 LQP03T_02 Inductor for Low Frequency Circuits Film NonMagnetic Type Inductance LQP03TN5N6H02p 5.6nH±3% 500MHz 350mA 0.ohm 4 500MHz 00MHz LQP03TN5N6J02p 5.6nH 500MHz 350mA 0.ohm 4 500MHz 00MHz LQP03TN6N2H02p 6.2nH±3% 500MHz 300mA 0.60ohm 4 500MHz 00MHz LQP03TN6N2J02p 6.2nH 500MHz 300mA 0.60ohm 4 500MHz 00MHz LQP03TN6NH02p 6.nH±3% 500MHz 300mA 0.60ohm 4 500MHz 3900MHz LQP03TN6NJ02p 6.nH 500MHz 300mA 0.60ohm 4 500MHz 3900MHz LQP03TN7N5H02p 7.5nH±3% 500MHz 300mA 0.60ohm 4 500MHz 3700MHz LQP03TN7N5J02p 7.5nH 500MHz 300mA 0.60ohm 4 500MHz 3700MHz LQP03TNN2H02p.2nH±3% 500MHz 250mA 0.70ohm 4 500MHz 3600MHz LQP03TNN2J02p.2nH 500MHz 250mA 0.70ohm 4 500MHz 3600MHz LQP03TN9NH02p 9.nH±3% 500MHz 250mA 0.70ohm 4 500MHz 3300MHz LQP03TN9NJ02p 9.nH 500MHz 250mA 0.70ohm 4 500MHz 3300MHz LQP03TNNH02p nh±3% 500MHz 250mA 0.70ohm 4 500MHz 30MHz LQP03TNNJ02p nh 500MHz 250mA 0.70ohm 4 500MHz 30MHz LQP03TN2NH02p 2nH±3% 500MHz 250mA 0.70ohm 2 500MHz 2900MHz LQP03TN2NJ02p 2nH 500MHz 250mA 0.70ohm 2 500MHz 2900MHz LQP03TN5NH02p 5nH±3% 500MHz 250mA 0.70ohm 2 500MHz 2600MHz LQP03TN5NJ02p 5nH 500MHz 250mA 0.70ohm 2 500MHz 2600MHz LQP03TNNH02p nh±3% 500MHz 0mA 0.0ohm 2 500MHz 20MHz LQP03TNNJ02p nh 500MHz 0mA 0.0ohm 2 500MHz 20MHz LQP03TN22NH02p 22nH±3% 500MHz 50mA.90ohm 2 500MHz 20MHz LQP03TN22NJ02p 22nH 500MHz 50mA.90ohm 2 500MHz 20MHz LQP03TN27NH02p 27nH±3% 500MHz ma 2.30ohm 2 500MHz 00MHz LQP03TN27NJ02p 27nH 500MHz ma 2.30ohm 2 500MHz 00MHz LQP03TN33NJ02p 33nH 300MHz ma 2.95ohm 9 300MHz 700MHz LQP03TN39NJ02p 39nH 300MHz ma 3.00ohm 9 300MHz 500MHz LQP03TN47NJ02p 47nH 300MHz 0mA 3.60ohm 9 300MHz 300MHz LQP03TN56NJ02p 56nH 300MHz 0mA 3.90ohm 9 300MHz 0MHz LQP03TN6NJ02p 6nH 300MHz 50mA.00ohm 300MHz 0MHz LQP03TN2NJ02p 2nH 300MHz 50mA.0ohm 300MHz 00MHz LQP03TNRJ02p 0nH 300MHz ma.0ohm 300MHz 900MHz LQP03TNR2J02p nh 300MHz ma 2.0ohm 300MHz 00MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Test Frequency QFrequency Characteristics (Typ.) Q nH 27nH 3.0nH nh Rated Current 2nH nh Frequency (MHz) Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) InductanceFrequency Characteristics (Typ.) Inductance (nh) 00 0 nh 2nH 56nH 27nH nh Frequency (MHz) 3nH Continued on the following page. 30

133 LQP03T_02 Reference Data 00MHz Inductance (nh) (Typ.) 900MHz.GHz 2.0GHz 2.4GHz 00MHz 900MHz Q (Typ.).GHz 2.0GHz 2.4GHz LQP03TN0N6p min 42 min 62 min 65 min 7 min LQP03TN0N7p02 LQP03TN0Np02 LQP03TN0N9p02 LQP03TNN0p02 LQP03TNNp02 LQP03TNN2p02 LQP03TNN3p02 LQP03TNN4p02 LQP03TNN5p02 LQP03TNN6p02 LQP03TNN7p02 LQP03TNNp02 LQP03TNN9p02 LQP03TN2N0p02 LQP03TN2Np02 LQP03TN2N2p02 LQP03TN2N3p02 LQP03TN2N4p02 LQP03TN2N5p02 LQP03TN2N6p02 LQP03TN2N7p02 LQP03TN2Np02 LQP03TN2N9p02 LQP03TN3N0p02 LQP03TN3Np02 LQP03TN3N2p02 LQP03TN3N3p02 LQP03TN3N4p02 LQP03TN3N5p min 35 min 35 min 35 min 35 min min 42 min 42 min 42 min 42 min min 62 min 62 min 62 min 62 min min 65 min 65 min 65 min 65 min min 7 min 7 min 7 min 7 min Inductor for Low Frequency Circuits LQP03TN3N6p LQP03TN3N7p LQP03TN3Np LQP03TN3N9p LQP03TN4N3p LQP03TN4N7p LQP03TN5Np02 LQP03TN5N6p02 LQP03TN6N2p02 LQP03TN6Np02 LQP03TN7N5p02 LQP03TNN2p02 LQP03TN9Np02 LQP03TNNp Film NonMagnetic Type LQP03TN2Np LQP03TN5Np LQP03TNNp LQP03TN22Np LQP03TN27Np LQP03TN33Np LQP03TN39Np LQP03TN47Np LQP03TN56Np

134 Film NonMagnetic Type LQP5T LQP5TSeries (02 Size) 02 Size, High Q Film Type Inductor for Low Frequency Circuits Film NonMagnetic Type Dimensions Rated Value (p: packaging code) Inductance Packaging Refer to pages from p.67 to p.70 for mounting information. LQP5TN5N6C02p 5.6nH±0.2nH 500MHz ma 0.6ohm 7 500MHz 4500MHz LQP5TN6NH02p 6.nH±3% 500MHz 30mA 0.7ohm 7 500MHz 3500MHz LQP5TNN2H02p.2nH±3% 500MHz ma 0.ohm 7 500MHz 3000MHz LQP5TNNH02p nh±3% 500MHz 0mA.0ohm 7 500MHz 2500MHz LQP5TN2NH02p 2nH±3% 500MHz 90mA.0ohm 7 500MHz 2500MHz LQP5TN5NH02p 5nH±3% 500MHz 90mA.3ohm 7 500MHz 00MHz LQP5TNNH02p nh±3% 500MHz 0mA.5ohm 7 500MHz 500MHz Operating Temperature Range: C to +5 C Polarity Marking Test Frequency Only for reflow soldering..00±0.05 Rated Current Max. of DC Resistance Q (min.) Code Packaging Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Test Frequency Self Resonance Frequency (min.) LQP5TNN0B02p.0nH±0.nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNN0C02p.0nH±0.2nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNNB02p.nH±0.nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNNC02p.nH±0.2nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNN2B02p.2nH±0.nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNN2C02p.2nH±0.2nH 500MHz 300mA 0.ohm 7 500MHz 6000MHz LQP5TNN3B02p.3nH±0.nH 500MHz 300mA 0.5ohm 7 500MHz 6000MHz LQP5TNN3C02p.3nH±0.2nH 500MHz 300mA 0.5ohm 7 500MHz 6000MHz LQP5TNN5B02p.5nH±0.nH 500MHz 300mA 0.5ohm 7 500MHz 6000MHz LQP5TNN5C02p.5nH±0.2nH 500MHz 300mA 0.5ohm 7 500MHz 6000MHz LQP5TNN6B02p.6nH±0.nH 500MHz 250mA 0.5ohm 7 500MHz 6000MHz LQP5TNN6C02p.6nH±0.2nH 500MHz 250mA 0.5ohm 7 500MHz 6000MHz LQP5TNNB02p.nH±0.nH 500MHz 250mA 0.5ohm 7 500MHz 6000MHz LQP5TNNC02p.nH±0.2nH 500MHz 250mA 0.5ohm 7 500MHz 6000MHz LQP5TN2N0C02p 2.0nH±0.2nH 500MHz 2mA 0.2ohm 7 500MHz 6000MHz LQP5TN2N2C02p 2.2nH±0.2nH 500MHz 2mA 0.2ohm 7 500MHz 6000MHz LQP5TN2N4C02p 2.4nH±0.2nH 500MHz 2mA 0.2ohm 7 500MHz 6000MHz LQP5TN2N7C02p 2.7nH±0.2nH 500MHz 2mA 0.2ohm 7 500MHz 6000MHz LQP5TN3N0C02p 3.0nH±0.2nH 500MHz 90mA 0.3ohm 7 500MHz 5500MHz LQP5TN3N3C02p 3.3nH±0.2nH 500MHz 90mA 0.3ohm 7 500MHz 5500MHz LQP5TN3N6C02p 3.6nH±0.2nH 500MHz 70mA 0.3ohm 7 500MHz 5500MHz LQP5TN3N9C02p 3.9nH±0.2nH 500MHz 70mA 0.4ohm 7 500MHz 5500MHz LQP5TN4N7C02p 4.7nH±0.2nH 500MHz 60mA 0.5ohm 7 500MHz 5000MHz 0.50± ± ±0. (in mm) Continued on the following page. 32

135 LQP5T QFrequency Characteristics (Typ.) Q 0 2.0nH nH.2nH 2nH nh Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) Frequency (MHz) nh 2nH.2nH 3.9nH 2.0nH 000 Inductor for Low Frequency Circuits Film NonMagnetic Type 33

136 Film NonMagnetic Type LQP5M LQP5MSeries (02 Size) 02 Size, Tight Inductance Tolerance Inductor for Low Frequency Circuits Film NonMagnetic Type Dimensions Rated Value (p: packaging code) Packaging Code Packaging Minimum D 0mm Paper Tape 000 J 330mm Paper Tape B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. LQP5MNN0B02p.0nH±0.nH 500MHz 0mA 0.ohm 3 500MHz 6000MHz LQP5MNN0W02p.0nH±0.05nH 500MHz 0mA 0.ohm 3 500MHz 6000MHz LQP5MNNB02p.nH±0.nH 500MHz 390mA 0.ohm 3 500MHz 6000MHz LQP5MNNW02p.nH±0.05nH 500MHz 390mA 0.ohm 3 500MHz 6000MHz LQP5MNN2B02p.2nH±0.nH 500MHz 390mA 0.ohm 3 500MHz 6000MHz LQP5MNN2W02p.2nH±0.05nH 500MHz 390mA 0.ohm 3 500MHz 6000MHz LQP5MNN3B02p.3nH±0.nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN3W02p.3nH±0.05nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN4W02p.4nH±0.05nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN5B02p.5nH±0.nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN5W02p.5nH±0.05nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN6B02p.6nH±0.nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MNN6W02p.6nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MNN7W02p.7nH±0.05nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNNB02p.nH±0.nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNNW02p.nH±0.05nH 500MHz 20mA 0.2ohm 3 500MHz 6000MHz LQP5MNN9W02p.9nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N0B02p 2.0nH±0.nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N0W02p 2.0nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2NW02p 2.nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N2B02p 2.2nH±0.nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N2W02p 2.2nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N3W02p 2.3nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N4B02p 2.4nH±0.nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N4W02p 2.4nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N5W02p 2.5nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N6W02p 2.6nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N7B02p 2.7nH±0.nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2N7W02p 2.7nH±0.05nH 500MHz 2mA 0.3ohm 3 500MHz 6000MHz LQP5MN2NW02p 2.nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz Operating Temperature Range: C to +5 C Inductance 0.25±0. Test Frequency Only for reflow soldering..0±0. Rated Current 0.5± ±0. Max. of DC Resistance (in mm) Q (min.) Test Frequency Self Resonance Frequency (min.) Continued on the following page. 34

137 LQP5M Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQP5MN2N9W02p 2.9nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N0B02p 3.0nH±0.nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N0W02p 3.0nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3NW02p 3.nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N2W02p 3.2nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N3B02p 3.3nH±0.nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N3W02p 3.3nH±0.05nH 500MHz 90mA 0.4ohm 3 500MHz 6000MHz LQP5MN3N4W02p 3.4nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N5W02p 3.5nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N6B02p 3.6nH±0.nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N6W02p 3.6nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N7W02p 3.7nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3NW02p 3.nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N9B02p 3.9nH±0.nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN3N9W02p 3.9nH±0.05nH 500MHz 70mA 0.5ohm 3 500MHz 6000MHz LQP5MN4N3B02p 4.3nH±0.nH 500MHz 60mA 0.6ohm 3 500MHz 6000MHz LQP5MN4N7B02p 4.7nH±0.nH 500MHz 60mA 0.6ohm 3 500MHz 6000MHz LQP5MN5NB02p 5.nH±0.nH 500MHz ma 0.7ohm 3 500MHz 6000MHz LQP5MN5N6B02p 5.6nH±0.nH 500MHz ma 0.7ohm 3 500MHz 6000MHz LQP5MN6N2B02p 6.2nH±0.nH 500MHz 30mA 0.9ohm 3 500MHz 6000MHz LQP5MN6NB02p 6.nH±0.nH 500MHz 30mA 0.9ohm 3 500MHz 6000MHz LQP5MN7N5B02p 7.5nH±0.nH 500MHz ma.ohm 3 500MHz 5500MHz LQP5MNN2B02p.2nH±0.nH 500MHz ma.ohm 3 500MHz 5500MHz LQP5MN9NB02p 9.nH±0.nH 500MHz 0mA.3ohm 3 500MHz 4500MHz LQP5MNNG02p nh±2% 500MHz 0mA.3ohm 3 500MHz 4500MHz LQP5MN2NG02p 2nH±2% 500MHz 90mA.6ohm 3 500MHz 3700MHz LQP5MN5NG02p 5nH±2% 500MHz 90mA.ohm 3 500MHz 3300MHz LQP5MNNG02p nh±2% 500MHz 0mA 2.0ohm 3 500MHz 30MHz LQP5MN22NG02p 22nH±2% 500MHz 70mA 2.6ohm 3 500MHz 200MHz LQP5MN27NG02p 27nH±2% 500MHz 70mA 3.ohm 3 500MHz 2500MHz LQP5MN33NG02p 33nH±2% 500MHz 60mA 3.ohm 3 500MHz MHz Operating Temperature Range: C to +5 C Q Only for reflow soldering. 2.2nH 4.7nH.2nH InductanceFrequency Characteristics (Typ.) Inductance (nh) 0 33nH 5nH.2nH 4.7nH Inductor for Low Frequency Circuits Film NonMagnetic Type 5nH 33nH 2.2nH Frequency (MHz) Frequency (MHz) Continued on the following page. 35

138 LQP5M Inductor for Low Frequency Circuits Reference Data 00MHz LQP5MNN0.0 LQP5MNN. LQP5MNN2.2 LQP5MNN3.3 LQP5MNN4.4 LQP5MNN5.5 LQP5MNN6.6 LQP5MNN7.7 LQP5MNN. LQP5MNN9.9 LQP5MN2N0 2.0 LQP5MN2N 2. LQP5MN2N2 2.2 LQP5MN2N3 2.3 LQP5MN2N4 2.4 LQP5MN2N5 2.5 LQP5MN2N6 2.6 LQP5MN2N7 2.7 LQP5MN2N 2. LQP5MN2N9 2.9 LQP5MN3N0 3.0 LQP5MN3N 3. LQP5MN3N2 3.2 LQP5MN3N3 3.3 LQP5MN3N4 3.4 LQP5MN3N5 3.5 Inductance (nh) (Typ.) 900MHz.GHz 2.0GHz GHz MHz MHz Q (Typ.).GHz GHz GHz LQP5MN3N LQP5MN3N LQP5MN3N LQP5MN3N LQP5MN4N LQP5MN4N Film NonMagnetic Type LQP5MN5N LQP5MN5N6 LQP5MN6N2 LQP5MN6N LQP5MN7N5 LQP5MNN2 LQP5MN9N LQP5MNN LQP5MN2N LQP5MN5N LQP5MNN LQP5MN22N LQP5MN27N LQP5MN33N

139 Film NonMagnetic Type LQPM LQPMSeries (0603 Size) 0603 Size, Film Type Dimensions Rated Value (p: packaging code) Inductance Packaging Refer to pages from p.67 to p.70 for mounting information. LQPMNRG02p 0nH±2% 300MHz 50mA 6.ohm 7 300MHz 700MHz Operating Temperature Range: C to +5 C 0.2 min. Test Frequency Only for reflow soldering..6±0.5 Rated Current Max. of DC Resistance Q (min.) Code Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 500 Test Frequency Self Resonance Frequency (min.) LQPMNN3C02p.3nH±0.2nH 500MHz 300mA 0.3ohm 7 500MHz 6000MHz LQPMNN5C02p.5nH±0.2nH 500MHz 300mA 0.3ohm 7 500MHz 6000MHz LQPMNNC02p.nH±0.2nH 500MHz 250mA 0.4ohm 7 500MHz 6000MHz LQPMN2N2C02p 2.2nH±0.2nH 500MHz 250mA 0.4ohm 7 500MHz 6000MHz LQPMN2N7C02p 2.7nH±0.2nH 500MHz 250mA 0.4ohm 7 500MHz 6000MHz LQPMN3N3C02p 3.3nH±0.2nH 500MHz 250mA 0.4ohm 7 500MHz 6000MHz LQPMN3N9C02p 3.9nH±0.2nH 500MHz 0mA 0.5ohm 7 500MHz 5900MHz LQPMN4N7C02p 4.7nH±0.2nH 500MHz 0mA 0.5ohm 7 500MHz 50MHz LQPMN5N6C02p 5.6nH±0.2nH 500MHz 0mA 0.6ohm 7 500MHz 4700MHz LQPMN6NC02p 6.nH±0.2nH 500MHz 0mA 0.7ohm 7 500MHz 4300MHz LQPMNN2C02p.2nH±0.2nH 500MHz 50mA 0.ohm 7 500MHz 3600MHz LQPMNNG02p nh±2% 500MHz 50mA.0ohm 7 500MHz 30MHz LQPMN2NG02p 2nH±2% 500MHz 50mA.0ohm 7 500MHz 3000MHz LQPMN5NG02p 5nH±2% 500MHz 50mA.3ohm 7 500MHz 2700MHz LQPMNNG02p nh±2% 500MHz 0mA.5ohm 7 500MHz 2300MHz LQPMN22NG02p 22nH±2% 500MHz 0mA.9ohm 7 500MHz MHz LQPMN27NG02p 27nH±2% 500MHz 0mA 2.4ohm 7 500MHz 900MHz LQPMN33NG02p 33nH±2% 500MHz 0mA 2.ohm 7 500MHz 700MHz LQPMN39NG02p 39nH±2% 500MHz 0mA 2.ohm 7 500MHz 0MHz LQPMN47NG02p 47nH±2% 300MHz 0mA 2.2ohm 7 300MHz 0MHz LQPMN56NG02p 56nH±2% 300MHz 50mA 3.4ohm 7 300MHz 00MHz LQPMN6NG02p 6nH±2% 300MHz 50mA 3.5ohm 7 300MHz 900MHz LQPMN2NG02p 2nH±2% 300MHz 50mA 4.6ohm 7 300MHz 00MHz 0.± ±0. (in mm) Inductor for Low Frequency Circuits Film NonMagnetic Type Continued on the following page. 37

140 LQPM Inductor for Low Frequency Circuits QFrequency Characteristics (Typ.) Q 0.5nH nH 0 6.nH 33nH 5nH 0 0nH 6nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) nH 6nH 33nH 5nH 6.nH 3.3nH.5nH Frequency (MHz) Film NonMagnetic Type 3

141 Wire Wound NonMagnetic Type (Horizontal Axis) LQW04A LQW04ASeries (0305 Size) 0305 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW04ANNC00p.nH±0.2nH 0MHz 990mA 0.03ohm 5 250MHz.0GHz LQW04ANND00p.nH±0.5nH 0MHz 990mA 0.03ohm 5 250MHz.0GHz LQW04ANNC00p.nH±0.2nH 0MHz 700mA 0.06ohm 5 250MHz 7.0GHz LQW04ANND00p.nH±0.5nH 0MHz 700mA 0.06ohm 5 250MHz 7.0GHz LQW04AN2N7C00p 2.7nH±0.2nH 0MHz 570mA 0.07ohm 5 250MHz 5.0GHz LQW04AN2N7D00p 2.7nH±0.5nH 0MHz 570mA 0.07ohm 5 250MHz 5.0GHz LQW04AN3N0C00p 3.0nH±0.2nH 0MHz 6mA 0.07ohm 5 250MHz 3.0GHz LQW04AN3N0D00p 3.0nH±0.5nH 0MHz 6mA 0.07ohm 5 250MHz 3.0GHz LQW04AN3N3C00p 3.3nH±0.2nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04AN3N3D00p 3.3nH±0.5nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04AN3N6C00p 3.6nH±0.2nH 0MHz 530mA 0.ohm 5 250MHz 3.0GHz LQW04AN3N6D00p 3.6nH±0.5nH 0MHz 530mA 0.ohm 5 250MHz 3.0GHz LQW04AN3N9C00p 3.9nH±0.2nH 0MHz 530mA 0.ohm 5 250MHz 2.0GHz LQW04AN3N9D00p 3.9nH±0.5nH 0MHz 530mA 0.ohm 5 250MHz 2.0GHz LQW04AN4N3C00p 4.3nH±0.2nH 0MHz 530mA 0.ohm 5 250MHz.0GHz LQW04AN4N3D00p 4.3nH±0.5nH 0MHz 530mA 0.ohm 5 250MHz.0GHz LQW04AN4N7C00p 4.7nH±0.2nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04AN4N7D00p 4.7nH±0.5nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04AN5NC00p 5.nH±0.2nH 0MHz 470mA 0.2ohm 250MHz.0GHz LQW04AN5ND00p 5.nH±0.5nH 0MHz 470mA 0.2ohm 250MHz.0GHz LQW04AN5N6C00p 5.6nH±0.2nH 0MHz 470mA 0.2ohm 250MHz 9.0GHz LQW04AN5N6D00p 5.6nH±0.5nH 0MHz 470mA 0.2ohm 250MHz 9.0GHz LQW04AN6N2C00p 6.2nH±0.2nH 0MHz 390mA 0.9ohm 250MHz 9.0GHz LQW04AN6N2D00p 6.2nH±0.5nH 0MHz 390mA 0.9ohm 250MHz 9.0GHz LQW04AN6NC00p 6.nH±0.2nH 0MHz 4mA 0.4ohm 250MHz 9.0GHz LQW04AN6ND00p 6.nH±0.5nH 0MHz 4mA 0.4ohm 250MHz 9.0GHz LQW04AN7N5C00p 7.5nH±0.2nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04AN7N5D00p 7.5nH±0.5nH 0MHz 4mA 0.4ohm 250MHz.0GHz LQW04ANN2C00p.2nH±0.2nH 0MHz 350mA 0.23ohm 250MHz.0GHz LQW04ANN2D00p.2nH±0.5nH 0MHz 350mA 0.23ohm 250MHz.0GHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. 0.± ± ± ± (in mm) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 39

142 LQW04A Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW04AN9NC00p 9.nH±0.2nH 0MHz 0mA 0.6ohm 250MHz 7.0GHz LQW04AN9ND00p 9.nH±0.5nH 0MHz 0mA 0.6ohm 250MHz 7.0GHz LQW04ANNH00p nh±3% 0MHz 330mA 0.26ohm 250MHz 7.0GHz LQW04ANNJ00p nh 0MHz 330mA 0.26ohm 250MHz 7.0GHz LQW04ANNH00p nh±3% 0MHz 3mA 0.2ohm 5 250MHz 7.0GHz LQW04ANNJ00p nh 0MHz 3mA 0.2ohm 5 250MHz 7.0GHz LQW04AN2NH00p 2nH±3% 0MHz 3mA 0.2ohm 5 250MHz 6.0GHz LQW04AN2NJ00p 2nH 0MHz 3mA 0.2ohm 5 250MHz 6.0GHz LQW04AN3NH00p 3nH±3% 0MHz 20mA 0.34ohm 5 250MHz 6.0GHz LQW04AN3NJ00p 3nH 0MHz 20mA 0.34ohm 5 250MHz 6.0GHz LQW04AN5NH00p 5nH±3% 0MHz 2mA 0.4ohm 5 250MHz 5.5GHz LQW04AN5NJ00p 5nH 0MHz 2mA 0.4ohm 5 250MHz 5.5GHz LQW04AN6NH00p 6nH±3% 0MHz 270mA 0.3ohm 5 250MHz 5.5GHz LQW04AN6NJ00p 6nH 0MHz 270mA 0.3ohm 5 250MHz 5.5GHz LQW04ANNH00p nh±3% 0MHz 2mA 0.54ohm 5 250MHz 5.0GHz LQW04ANNJ00p nh 0MHz 2mA 0.54ohm 5 250MHz 5.0GHz LQW04AN9NH00p 9nH±3% 0MHz 60mA 0.73ohm 5 250MHz 5.0GHz LQW04AN9NJ00p 9nH 0MHz 60mA 0.73ohm 5 250MHz 5.0GHz LQW04ANNH00p nh±3% 0MHz 2mA 0.56ohm 5 250MHz 5.0GHz LQW04ANNJ00p nh 0MHz 2mA 0.56ohm 5 250MHz 5.0GHz LQW04AN22NH00p 22nH±3% 0MHz 0mA 0.63ohm 5 250MHz 5.0GHz LQW04AN22NJ00p 22nH 0MHz 0mA 0.63ohm 5 250MHz 5.0GHz LQW04AN23NH00p 23nH±3% 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN23NJ00p 23nH 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN24NH00p 24nH±3% 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN24NJ00p 24nH 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN25NH00p 25nH±3% 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN25NJ00p 25nH 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN27NH00p 27nH±3% 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN27NJ00p 27nH 0MHz 60mA 0.95ohm 5 250MHz 4.0GHz LQW04AN33NH00p 33nH±3% 0MHz ma.ohm 5 250MHz 4.0GHz LQW04AN33NJ00p 33nH 0MHz ma.ohm 5 250MHz 4.0GHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Continued on the following page.

143 LQW04A QFrequency Characteristics (Typ.) Q Reference Data LQW04ANN LQW04ANN LQW04AN2N7 LQW04AN3N0 LQW04AN3N3 LQW04AN3N6 LQW04AN3N9 LQW04AN4N3 LQW04AN4N7 LQW04AN5N LQW04AN5N6 LQW04AN6N2 LQW04AN6N LQW04AN7N5 LQW04ANN2 LQW04AN9N LQW04ANN LQW04ANN LQW04AN2N LQW04AN3N LQW04AN5N LQW04AN6N LQW04ANN LQW04ANN LQW04AN22N LQW04AN27N LQW04AN33N Frequency (MHz) Inductance (nh) Nominal MHz nH 5.6nH 9.nH 3nH 22nH 27nH 33nH 00MHz MHz InductanceFrequency Characteristics (Typ.) Inductance (nh) Frequency (MHz) Q (Typ.).5GHz GHz GHz nH 27nH 22nH 3nH 9.nH 5.6nH.nH 2.4GHz Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) 4

144 Wire Wound NonMagnetic Type (Horizontal Axis) LQW5A_00 LQW5A_00Series (02 Size) 02 Size, Wound Type Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW5ANN5B00p.5nH±0.nH 0MHz 00mA 0.03ohm 250MHz.0GHz LQW5ANN5C00p.5nH±0.2nH 0MHz 00mA 0.03ohm 250MHz.0GHz LQW5ANN5D00p.5nH±0.5nH 0MHz 00mA 0.03ohm 250MHz.0GHz LQW5AN2N4B00p 2.4nH±0.nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N4C00p 2.4nH±0.2nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N4D00p 2.4nH±0.5nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N5B00p 2.5nH±0.nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N5C00p 2.5nH±0.2nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N5D00p 2.5nH±0.5nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N7B00p 2.7nH±0.nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N7C00p 2.7nH±0.2nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N7D00p 2.7nH±0.5nH 0MHz 50mA 0.05ohm 250MHz 5.0GHz LQW5AN2N9B00p 2.9nH±0.nH 0MHz 750mA 0.07ohm 250MHz 5.0GHz LQW5AN2N9C00p 2.9nH±0.2nH 0MHz 750mA 0.07ohm 250MHz 5.0GHz LQW5AN2N9D00p 2.9nH±0.5nH 0MHz 750mA 0.07ohm 250MHz 5.0GHz LQW5AN3N9B00p 3.9nH±0.nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN3N9C00p 3.9nH±0.2nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN3N9D00p 3.9nH±0.5nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4NB00p 4.nH±0.nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4NC00p 4.nH±0.2nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4ND00p 4.nH±0.5nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N3B00p 4.3nH±0.nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N3C00p 4.3nH±0.2nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N3D00p 4.3nH±0.5nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N7B00p 4.7nH±0.nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N7C00p 4.7nH±0.2nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN4N7D00p 4.7nH±0.5nH 0MHz 750mA 0.07ohm MHz.0GHz LQW5AN5NB00p 5.nH±0.nH 0MHz 600mA 0.2ohm MHz.0GHz LQW5AN5NC00p 5.nH±0.2nH 0MHz 600mA 0.2ohm MHz.0GHz LQW5AN5ND00p 5.nH±0.5nH 0MHz 600mA 0.2ohm MHz.0GHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering..0±0. 0.2±0. 0.2±0. 0.5±0. 0.5±0. W 0.±0.05 W Inductance (nh) 0.6±0..523, 0, 0.5± (in mm) Continued on the following page. 42

145 LQW5A_00 Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW5AN5NB00p 5.nH±0.nH 0MHz 700mA 0.2ohm MHz.0GHz LQW5AN5NC00p 5.nH±0.2nH 0MHz 700mA 0.2ohm MHz.0GHz LQW5AN5ND00p 5.nH±0.5nH 0MHz 700mA 0.2ohm MHz.0GHz LQW5AN6N2B00p 6.2nH±0.nH 0MHz 700mA 0.09ohm MHz.0GHz LQW5AN6N2C00p 6.2nH±0.2nH 0MHz 700mA 0.09ohm MHz.0GHz LQW5AN6N2D00p 6.2nH±0.5nH 0MHz 700mA 0.09ohm MHz.0GHz LQW5AN6NG00p 6.nH±2% 0MHz 700mA 0.09ohm MHz 6.0GHz LQW5AN6NH00p 6.nH±3% 0MHz 700mA 0.09ohm MHz 6.0GHz LQW5AN6NJ00p 6.nH 0MHz 700mA 0.09ohm MHz 6.0GHz LQW5AN7N3G00p 7.3nH±2% 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5AN7N3H00p 7.3nH±3% 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5AN7N3J00p 7.3nH 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5AN7N5G00p 7.5nH±2% 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5AN7N5H00p 7.5nH±3% 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5AN7N5J00p 7.5nH 0MHz 570mA 0.3ohm MHz 6.0GHz LQW5ANN2G00p.2nH±2% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANN2H00p.2nH±3% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANN2J00p.2nH 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANN7G00p.7nH±2% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANN7H00p.7nH±3% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANN7J00p.7nH 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9NG00p 9.nH±2% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9NH00p 9.nH±3% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9NJ00p 9.nH 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9N5G00p 9.5nH±2% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9N5H00p 9.5nH±3% 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5AN9N5J00p 9.5nH 0MHz 5mA 0.4ohm MHz 5.5GHz LQW5ANNG00p nh±2% 0MHz 500mA 0.7ohm MHz 5.5GHz LQW5ANNH00p nh±3% 0MHz 500mA 0.7ohm MHz 5.5GHz LQW5ANNJ00p nh 0MHz 500mA 0.7ohm MHz 5.5GHz LQW5ANNG00p nh±2% 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5ANNH00p nh±3% 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5ANNJ00p nh 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5AN2NG00p 2nH±2% 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5AN2NH00p 2nH±3% 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5AN2NJ00p 2nH 0MHz 500mA 0.4ohm MHz 5.5GHz LQW5AN3NG00p 3nH±2% 0MHz 430mA 0.2ohm MHz 5.0GHz LQW5AN3NH00p 3nH±3% 0MHz 430mA 0.2ohm MHz 5.0GHz LQW5AN3NJ00p 3nH 0MHz 430mA 0.2ohm MHz 5.0GHz LQW5AN5NG00p 5nH±2% 0MHz 460mA 0.6ohm MHz 5.0GHz LQW5AN5NH00p 5nH±3% 0MHz 460mA 0.6ohm MHz 5.0GHz LQW5AN5NJ00p 5nH 0MHz 460mA 0.6ohm MHz 5.0GHz LQW5AN6NG00p 6nH±2% 0MHz 370mA 0.24ohm MHz 4.5GHz LQW5AN6NH00p 6nH±3% 0MHz 370mA 0.24ohm MHz 4.5GHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 43

146 LQW5A_00 Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW5AN6NJ00p 6nH 0MHz 370mA 0.24ohm MHz 4.5GHz LQW5ANNG00p nh±2% 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5ANNH00p nh±3% 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5ANNJ00p nh 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5AN9NG00p 9nH±2% 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5AN9NH00p 9nH±3% 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5AN9NJ00p 9nH 0MHz 370mA 0.27ohm MHz 4.5GHz LQW5ANNG00p nh±2% 0MHz 370mA 0.27ohm MHz 4.0GHz LQW5ANNH00p nh±3% 0MHz 370mA 0.27ohm MHz 4.0GHz LQW5ANNJ00p nh 0MHz 370mA 0.27ohm MHz 4.0GHz LQW5AN22NG00p 22nH±2% 0MHz 3mA 0.30ohm MHz 4.0GHz LQW5AN22NH00p 22nH±3% 0MHz 3mA 0.30ohm MHz 4.0GHz LQW5AN22NJ00p 22nH 0MHz 3mA 0.30ohm MHz 4.0GHz LQW5AN23NG00p 23nH±2% 0MHz 3mA 0.30ohm MHz 3.GHz LQW5AN23NH00p 23nH±3% 0MHz 3mA 0.30ohm MHz 3.GHz LQW5AN23NJ00p 23nH 0MHz 3mA 0.30ohm MHz 3.GHz LQW5AN24NG00p 24nH±2% 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN24NH00p 24nH±3% 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN24NJ00p 24nH 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN27NG00p 27nH±2% 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN27NH00p 27nH±3% 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN27NJ00p 27nH 0MHz 20mA 0.52ohm MHz 3.5GHz LQW5AN30NG00p 30nH±2% 0MHz 270mA 0.5ohm MHz 3.3GHz LQW5AN30NH00p 30nH±3% 0MHz 270mA 0.5ohm MHz 3.3GHz LQW5AN30NJ00p 30nH 0MHz 270mA 0.5ohm MHz 3.3GHz LQW5AN33NG00p 33nH±2% 0MHz 260mA 0.63ohm MHz 3.2GHz LQW5AN33NH00p 33nH±3% 0MHz 260mA 0.63ohm MHz 3.2GHz LQW5AN33NJ00p 33nH 0MHz 260mA 0.63ohm MHz 3.2GHz LQW5AN36NG00p 36nH±2% 0MHz 260mA 0.63ohm MHz 3.GHz LQW5AN36NH00p 36nH±3% 0MHz 260mA 0.63ohm MHz 3.GHz LQW5AN36NJ00p 36nH 0MHz 260mA 0.63ohm MHz 3.GHz LQW5AN39NG00p 39nH±2% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN39NH00p 39nH±3% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN39NJ00p 39nH 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5ANNG00p nh±2% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5ANNH00p nh±3% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5ANNJ00p nh 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN43NG00p 43nH±2% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN43NH00p 43nH±3% 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN43NJ00p 43nH 0MHz 250mA 0.70ohm MHz 3.0GHz LQW5AN47NG00p 47nH±2% 0MHz 2mA.0ohm 25 0MHz 2.9GHz LQW5AN47NH00p 47nH±3% 0MHz 2mA.0ohm 25 0MHz 2.9GHz LQW5AN47NJ00p 47nH 0MHz 2mA.0ohm 25 0MHz 2.9GHz LQW5AN5NG00p 5nH±2% 0MHz 2mA.0ohm 25 0MHz 2.5GHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Continued on the following page. 44

147 LQW5A_00 Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW5AN5NH00p 5nH±3% 0MHz 2mA.0ohm 25 0MHz 2.5GHz LQW5AN5NJ00p 5nH 0MHz 2mA.0ohm 25 0MHz 2.5GHz LQW5AN56NG00p 56nH±2% 0MHz 0mA.7ohm 25 0MHz 2.GHz LQW5AN56NH00p 56nH±3% 0MHz 0mA.7ohm 25 0MHz 2.GHz LQW5AN56NJ00p 56nH 0MHz 0mA.7ohm 25 0MHz 2.GHz LQW5AN62NG00p 62nH±2% 0MHz 45mA.2ohm 0MHz 2.6GHz LQW5AN62NH00p 62nH±3% 0MHz 45mA.2ohm 0MHz 2.6GHz LQW5AN62NJ00p 62nH 0MHz 45mA.2ohm 0MHz 2.6GHz LQW5AN6NG00p 6nH±2% 0MHz ma.96ohm 0MHz 2.5GHz LQW5AN6NJ00p 6nH 0MHz ma.96ohm 0MHz 2.5GHz LQW5AN72NG00p 72nH±2% 0MHz 35mA 2.ohm 50MHz 2.5GHz LQW5AN72NJ00p 72nH 0MHz 35mA 2.ohm 50MHz 2.5GHz LQW5AN75NG00p 75nH±2% 0MHz 35mA 2.ohm 50MHz 2.4GHz LQW5AN75NJ00p 75nH 0MHz 35mA 2.ohm 50MHz 2.4GHz LQW5AN2NG00p 2nH±2% 0MHz 30mA 2.24ohm 50MHz 2.3GHz LQW5AN2NJ00p 2nH 0MHz 30mA 2.24ohm 50MHz 2.3GHz LQW5AN9NG00p 9nH±2% 0MHz 25mA 2.3ohm 50MHz 2.GHz LQW5AN9NJ00p 9nH 0MHz 25mA 2.3ohm 50MHz 2.GHz LQW5ANRJ00p 0nH 0MHz ma 2.52ohm 50MHz.5GHz LQW5ANR2J00p nh 0MHz ma 2.66ohm 50MHz.0GHz Operating Temperature Range: 55 C to +25 C 50 Only for reflow soldering. InductanceFrequency Characteristics (Typ.) 00 Inductor for Low Frequency Circuits Q nH 0 nh nH 56nH 27nH 25 nh Frequency (MHz) Inductance (nh) 0 nh 2nH 56nH 27nH nh 4.7nH Frequency (MHz) Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 45

148 LQW5A_00 Inductor for Low Frequency Circuits Reference Data LQW5A_00 Inductance (nh) Nominal LQW5ANN5.5 LQW5AN2N4 2.4 LQW5AN2N5 2.5 LQW5AN2N7 2.7 LQW5AN2N9 2.9 LQW5AN3N9 3.9 LQW5AN4N 4. LQW5AN4N3 4.3 LQW5AN4N7 4.7 LQW5AN5N 5. LQW5AN5N 5. LQW5AN6N2 6.2 LQW5AN6N 6. LQW5AN7N3 7.3 LQW5AN7N5 7.5 LQW5ANN2.2 LQW5ANN7.7 LQW5AN9N 9. LQW5AN9N5 9.5 LQW5ANN LQW5ANN LQW5AN2N 2 LQW5AN3N 3 LQW5AN5N 5 LQW5AN6N 6 LQW5ANN LQW5AN9N 9 300MHz MHz MHz Q (Typ.).5GHz GHz GHz GHz LQW5ANN LQW5AN22N LQW5AN23N LQW5AN24N LQW5AN27N LQW5AN30N Wire Wound NonMagnetic Type (Horizontal Axis) LQW5AN33N LQW5AN36N LQW5AN39N LQW5ANN LQW5AN43N LQW5AN47N LQW5AN5N LQW5AN56N LQW5AN62N LQW5AN6N LQW5AN72N LQW5AN75N LQW5AN2N LQW5AN9N LQW5ANR LQW5ANR

149 Wire Wound NonMagnetic Type (Horizontal Axis) LQW5A_ LQW5A_Series (02 Size) 02 Size, High Q Wound, Low DC Resistance Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Refer to pages from p.67 to p.70 for mounting information. Test Frequency InductanceFrequency Characteristics (Typ.) Minimum D 0mm Paper Tape 000 B Bulk(Bag) 500 Self Resonance Frequency (min.) LQW5ANN3Cp.3nH±0.2nH 0MHz 0mA 0.07ohm 250MHz 6.0GHz LQW5ANN3Dp.3nH±0.5nH 0MHz 0mA 0.07ohm 250MHz 6.0GHz LQW5AN2N2Cp 2.2nH±0.2nH 0MHz 00mA 0.027ohm MHz 4.0GHz LQW5AN2N2Dp 2.2nH±0.5nH 0MHz 00mA 0.027ohm MHz 4.0GHz LQW5AN2N4Dp 2.4nH±0.5nH 0MHz 00mA 0.027ohm MHz 4.0GHz LQW5AN3N3Dp 3.3nH±0.5nH 0MHz 900mA 0.0ohm MHz 2.0GHz LQW5AN3N4Cp 3.4nH±0.2nH 0MHz 900mA 0.0ohm MHz 2.0GHz LQW5AN3N4Dp 3.4nH±0.5nH 0MHz 900mA 0.0ohm MHz 2.0GHz LQW5AN3N6Cp 3.6nH±0.2nH 0MHz 900mA 0.0ohm MHz 9.5GHz LQW5AN3N6Dp 3.6nH±0.5nH 0MHz 900mA 0.0ohm MHz 9.5GHz LQW5AN3N9Dp 3.9nH±0.5nH 0MHz 900mA 0.0ohm MHz 7.0GHz LQW5AN4N7Dp 4.7nH±0.5nH 0MHz 00mA 0.05ohm MHz.0GHz LQW5AN5NCp 5.nH±0.2nH 0MHz 00mA 0.05ohm MHz.0GHz LQW5AN5NDp 5.nH±0.5nH 0MHz 00mA 0.05ohm MHz.0GHz LQW5AN5N6Cp 5.6nH±0.2nH 0MHz 00mA 0.05ohm MHz.0GHz LQW5AN5N6Dp 5.6nH±0.5nH 0MHz 00mA 0.05ohm MHz.0GHz Operating Temperature Range: 55 C to +25 C Q Only for reflow soldering..3nh 3.6nH 5.6nH.0±0. 0.2±0. 0.2± Frequency (MHz) 0.5±0. Inductance (nh) 0.5±0. 0.6±0. 0.±0.05 (in mm) 5.6nH 3.6nH.3nH Frequency (MHz) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 47

150 LQW5A_ Inductor for Low Frequency Circuits Reference Data LQW5A_ Inductance (nh) Nominal LQW5ANN3.3 LQW5AN2N2 2.2 LQW5AN2N4 2.4 LQW5AN3N3 3.3 LQW5AN3N4 3.4 LQW5AN3N6 3.6 LQW5AN3N9 3.9 LQW5AN4N7 4.7 LQW5AN5N 5. LQW5AN5N MHz MHz GHz Q (Typ.).5GHz GHz GHz GHz Wire Wound NonMagnetic Type (Horizontal Axis) 4

151 Wire Wound NonMagnetic Type (Horizontal Axis) LQWA_00 LQWA_00Series (0603 Size) 0603 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Refer to pages from p.67 to p.70 for mounting information. LQWAN2NG00p 2nH±2% 0MHz 600mA 0.3ohm MHz 6000MHz LQWAN2NJ00p 2nH 0MHz 600mA 0.3ohm MHz 6000MHz LQWAN3NG00p 3nH±2% 0MHz 600mA 0.3ohm MHz 6000MHz LQWAN3NJ00p 3nH 0MHz 600mA 0.3ohm MHz 6000MHz LQWAN5NG00p 5nH±2% 0MHz 600mA 0.3ohm 250MHz 6000MHz LQWAN5NJ00p 5nH 0MHz 600mA 0.3ohm 250MHz 6000MHz LQWAN6NG00p 6nH±2% 0MHz 550mA 0.6ohm 250MHz 5500MHz Code Test Frequency Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 500 Self Resonance Frequency (min.) LQWAN2N2D00p 2.2nH±0.5nH 0MHz 700mA 0.049ohm 6 250MHz 6000MHz LQWAN3N6C00p 3.6nH±0.2nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN3N6D00p 3.6nH±0.5nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN3N9C00p 3.9nH±0.2nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN3N9D00p 3.9nH±0.5nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN4N3C00p 4.3nH±0.2nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN4N3D00p 4.3nH±0.5nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN4N7D00p 4.7nH±0.5nH 0MHz 50mA 0.059ohm MHz 6000MHz LQWAN5N6C00p 5.6nH±0.2nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN5N6D00p 5.6nH±0.5nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN6N2C00p 6.2nH±0.2nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN6N2D00p 6.2nH±0.5nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN6NC00p 6.nH±0.2nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN6ND00p 6.nH±0.5nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWAN7N5D00p 7.5nH±0.5nH 0MHz 750mA 0.02ohm MHz 6000MHz LQWANN2D00p.2nH±0.5nH 0MHz 650mA 0.ohm MHz 6000MHz LQWANN7D00p.7nH±0.5nH 0MHz 650mA 0.ohm MHz 6000MHz LQWAN9ND00p 9.nH±0.5nH 0MHz 650mA 0.ohm MHz 6000MHz LQWAN9N5D00p 9.5nH±0.5nH 0MHz 650mA 0.ohm MHz 6000MHz LQWANNG00p nh±2% 0MHz 650mA 0.ohm MHz 6000MHz LQWANNJ00p nh 0MHz 650mA 0.ohm MHz 6000MHz LQWANNG00p nh±2% 0MHz 650mA 0.ohm MHz 6000MHz LQWANNJ00p nh 0MHz 650mA 0.ohm MHz 6000MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering..6± ±0. 0.3±0. 0.± ±0.5 * 0.± ±0. * LQWAN_: 0.±0.3 (in mm) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 49

152 LQWA_00 Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQWAN6NJ00p 6nH 0MHz 550mA 0.6ohm 250MHz 5500MHz LQWANNG00p nh±2% 0MHz 550mA 0.6ohm 250MHz 5500MHz LQWANNJ00p nh 0MHz 550mA 0.6ohm 250MHz 5500MHz LQWANNG00p nh±2% 0MHz 550mA 0.6ohm 250MHz 4900MHz LQWANNJ00p nh 0MHz 550mA 0.6ohm 250MHz 4900MHz LQWAN22NG00p 22nH±2% 0MHz 500mA 0.7ohm 250MHz 4600MHz LQWAN22NJ00p 22nH 0MHz 500mA 0.7ohm 250MHz 4600MHz LQWAN24NG00p 24nH±2% 0MHz 500mA 0.2ohm 250MHz 300MHz LQWAN24NJ00p 24nH 0MHz 500mA 0.2ohm 250MHz 300MHz LQWAN27NG00p 27nH±2% 0MHz 4mA 0.2ohm 250MHz 3700MHz LQWAN27NJ00p 27nH 0MHz 4mA 0.2ohm 250MHz 3700MHz LQWAN30NG00p 30nH±2% 0MHz 4mA 0.23ohm 250MHz 3300MHz LQWAN30NJ00p 30nH 0MHz 4mA 0.23ohm 250MHz 3300MHz LQWAN33NG00p 33nH±2% 0MHz 4mA 0.23ohm 250MHz 30MHz LQWAN33NJ00p 33nH 0MHz 4mA 0.23ohm 250MHz 30MHz LQWAN36NG00p 36nH±2% 0MHz 0mA 0.26ohm 250MHz 2900MHz LQWAN36NJ00p 36nH 0MHz 0mA 0.26ohm 250MHz 2900MHz LQWAN39NG00p 39nH±2% 0MHz 0mA 0.26ohm 250MHz 200MHz LQWAN39NJ00p 39nH 0MHz 0mA 0.26ohm 250MHz 200MHz LQWAN43NG00p 43nH±2% 0MHz 30mA 0.29ohm 0MHz 2700MHz LQWAN43NJ00p 43nH 0MHz 30mA 0.29ohm 0MHz 2700MHz LQWAN47NG00p 47nH±2% 0MHz 30mA 0.29ohm 3 0MHz 2600MHz LQWAN47NJ00p 47nH 0MHz 30mA 0.29ohm 3 0MHz 2600MHz LQWAN5NG00p 5nH±2% 0MHz 370mA 0.33ohm 3 0MHz 2500MHz LQWAN5NJ00p 5nH 0MHz 370mA 0.33ohm 3 0MHz 2500MHz LQWAN56NG00p 56nH±2% 0MHz 360mA 0.35ohm 3 0MHz MHz LQWAN56NJ00p 56nH 0MHz 360mA 0.35ohm 3 0MHz MHz LQWAN62NG00p 62nH±2% 0MHz 20mA 0.5ohm 3 0MHz 2300MHz LQWAN62NJ00p 62nH 0MHz 20mA 0.5ohm 3 0MHz 2300MHz LQWAN6NG00p 6nH±2% 0MHz 3mA 0.3ohm 3 0MHz 20MHz LQWAN6NJ00p 6nH 0MHz 3mA 0.3ohm 3 0MHz 20MHz LQWAN72NG00p 72nH±2% 0MHz 270mA 0.56ohm 34 50MHz MHz LQWAN72NJ00p 72nH 0MHz 270mA 0.56ohm 34 50MHz MHz LQWAN75NG00p 75nH±2% 0MHz 270mA 0.56ohm 34 50MHz 50MHz LQWAN75NJ00p 75nH 0MHz 270mA 0.56ohm 34 50MHz 50MHz LQWAN2NG00p 2nH±2% 0MHz 250mA 0.60ohm 34 50MHz 00MHz LQWAN2NJ00p 2nH 0MHz 250mA 0.60ohm 34 50MHz 00MHz LQWAN9NG00p 9nH±2% 0MHz 230mA 0.64ohm 34 50MHz 900MHz LQWAN9NJ00p 9nH 0MHz 230mA 0.64ohm 34 50MHz 900MHz LQWANRG00p 0nH±2% 0MHz 2mA 0.6ohm 34 50MHz 00MHz LQWANRJ00p 0nH 0MHz 2mA 0.6ohm 34 50MHz 00MHz LQWANRG00p nh±2% 0MHz 0mA.2ohm 32 50MHz 700MHz LQWANRJ00p nh 0MHz 0mA.2ohm 32 50MHz 700MHz LQWANR2G00p nh±2% 0MHz 0mA.3ohm 32 50MHz 600MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. Continued on the following page. 50

153 LQWA_00 Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQWANR2J00p nh 0MHz 0mA.3ohm 32 50MHz 600MHz LQWANR3G00p 30nH±2% 0MHz 70mA.4ohm 32 50MHz 450MHz LQWANR3J00p 30nH 0MHz 70mA.4ohm 32 50MHz 450MHz LQWANR5G00p 50nH±2% 0MHz 60mA.5ohm 32 50MHz 0MHz LQWANR5J00p 50nH 0MHz 60mA.5ohm 32 50MHz 0MHz LQWANR6G00p 60nH±2% 0MHz 50mA 2.ohm 32 50MHz 350MHz LQWANR6J00p 60nH 0MHz 50mA 2.ohm 32 50MHz 350MHz LQWANRG00p 0nH±2% 0MHz ma 2.2ohm 25 0MHz 300MHz LQWANRJ00p 0nH 0MHz ma 2.2ohm 25 0MHz 300MHz LQWANRG00p 0nH±2% 0MHz ma 2.4ohm 25 0MHz 250MHz LQWANRJ00p 0nH 0MHz ma 2.4ohm 25 0MHz 250MHz LQWANR22G00p 2nH±2% 0MHz ma 2.5ohm 25 0MHz 0MHz LQWANR22J00p 2nH 0MHz ma 2.5ohm 25 0MHz 0MHz LQWANR27G00p 270nH±2% 0MHz ma 3.4ohm 30 0MHz 960MHz LQWANR27J00p 270nH 0MHz ma 3.4ohm 30 0MHz 960MHz LQWANR33G00p 330nH±2% 0MHz 5mA 5.5ohm 30 0MHz 00MHz LQWANR33J00p 330nH 0MHz 5mA 5.5ohm 30 0MHz 00MHz LQWANR39G00p 390nH±2% 0MHz 0mA 6.2ohm 30 0MHz 00MHz LQWANR39J00p 390nH 0MHz 0mA 6.2ohm 30 0MHz 00MHz LQWANR47G00p 470nH±2% 0MHz 75mA 7.0ohm 30 0MHz 700MHz LQWANR47J00p 470nH 0MHz 75mA 7.0ohm 30 0MHz 700MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering..7nh InductanceFrequency Characteristics (Typ.) nH Inductor for Low Frequency Circuits 0 nh 00 2nH Q 0 47nH 60 0nH 470nH 2nH Frequency (MHz) Inductance (nh) 0 0nH 47nH nh.7nh Frequency (MHz) Wire Wound NonMagnetic Type (Horizontal Axis) 5

154 Wire Wound NonMagnetic Type (Horizontal Axis) LQWA_ LQWA_Series (0603 Size) 0603 Size, High Q Wound, Low DC Resistance Type Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum D 0mm Paper Tape 00 J 330mm Paper Tape 000 B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQWAN2N2Dp 2.2nH±0.5nH 0MHz 0mA 0.0ohm MHz 000MHz LQWAN3N9Cp 3.9nH±0.2nH 0MHz 00mA 0.032ohm 3 250MHz 00MHz LQWAN3N9Dp 3.9nH±0.5nH 0MHz 00mA 0.032ohm 3 250MHz 00MHz LQWAN5N6Dp 5.6nH±0.5nH 0MHz 900mA 0.045ohm 3 250MHz 000MHz LQWAN6NCp 6.nH±0.2nH 0MHz 900mA 0.045ohm 3 250MHz 7000MHz LQWAN6NDp 6.nH±0.5nH 0MHz 900mA 0.045ohm 3 250MHz 7000MHz LQWANN2Dp.2nH±0.5nH 0MHz 00mA 0.05ohm 3 250MHz 7000MHz LQWANNGp nh±2% 0MHz 00mA 0.05ohm 3 250MHz 5000MHz LQWANNJp nh 0MHz 00mA 0.05ohm 3 250MHz 5000MHz LQWAN2NGp 2nH±2% 0MHz 750mA 0.07ohm 3 250MHz 5000MHz LQWAN2NJp 2nH 0MHz 750mA 0.07ohm 3 250MHz 5000MHz LQWAN5NJp 5nH 0MHz 700mA 0.05ohm MHz 4500MHz LQWANNGp nh±2% 0MHz 700mA 0.05ohm MHz 3500MHz LQWANNJp nh 0MHz 700mA 0.05ohm MHz 3500MHz LQWAN22NGp 22nH±2% 0MHz 6mA 0.099ohm MHz 30MHz LQWAN22NJp 22nH 0MHz 6mA 0.099ohm MHz 30MHz LQWAN27NGp 27nH±2% 0MHz 590mA 0.6ohm MHz 200MHz LQWAN27NJp 27nH 0MHz 590mA 0.6ohm MHz 200MHz LQWAN33NJp 33nH 0MHz 550mA 0.32ohm MHz 2500MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering..6± ±0. 0.3±0. 0.± ±0.5 * 0.± ±0. * LQWAN_: 0.±0.3 (in mm) Continued on the following page. 52

155 LQWA_ QFrequency Characteristics (Typ.) Q 0 2.2nH 50 nh 0 33nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) 0 33nH nh 2.2nH Frequency (MHz) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) 53

156 Wire Wound NonMagnetic Type (Vertical Axis) LQW2BH_03 LQW2BH_03Series (005 Size) 005 Size, Wound Type Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Vertical Axis) Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW2BHN3N3D03p 3.3nH±0.5nH 0MHz 9mA 0.05ohm 250MHz 6000MHz LQW2BHN6ND03p 6.nH±0.5nH 0MHz 60mA 0.ohm 250MHz 50MHz LQW2BHNN2D03p.2nH±0.5nH 0MHz 630mA 0.2ohm 250MHz 3900MHz LQW2BHNNJ03p nh 0MHz 3mA 0.03ohm MHz 3300MHz LQW2BHN2NJ03p 2nH 0MHz 60mA 0.ohm MHz 30MHz LQW2BHN5NJ03p 5nH 0MHz 630mA 0.2ohm MHz 2700MHz LQW2BHNNJ03p nh 0MHz 690mA 0.ohm MHz 2600MHz LQW2BHN22NJ03p 22nH 0MHz 7mA 0.09ohm MHz MHz LQW2BHN27NJ03p 27nH 0MHz 5mA 0.7ohm 250MHz 2300MHz LQW2BHN33NG03p 33nH±2% 0MHz 570mA 0.5ohm 250MHz 900MHz LQW2BHN33NJ03p 33nH 0MHz 570mA 0.5ohm 250MHz 900MHz LQW2BHN39NG03p 39nH±2% 0MHz 730mA 0.09ohm 250MHz 700MHz LQW2BHN39NJ03p 39nH 0MHz 730mA 0.09ohm 250MHz 700MHz LQW2BHN47NG03p 47nH±2% 0MHz 450mA 0.23ohm 0MHz 600MHz LQW2BHN47NJ03p 47nH 0MHz 450mA 0.23ohm 0MHz 600MHz LQW2BHN56NG03p 56nH±2% 0MHz 430mA 0.26ohm 0MHz 500MHz LQW2BHN56NJ03p 56nH 0MHz 430mA 0.26ohm 0MHz 500MHz LQW2BHN6NG03p 6nH±2% 0MHz 460mA 0.23ohm 0MHz 0MHz LQW2BHN6NJ03p 6nH 0MHz 460mA 0.23ohm 0MHz 0MHz LQW2BHN2NG03p 2nH±2% 0MHz 3mA 0.42ohm 50MHz 0MHz LQW2BHN2NJ03p 2nH 0MHz 3mA 0.42ohm 50MHz 0MHz LQW2BHNRG03p 0nH±2% 0MHz 270mA 0.55ohm 35 50MHz 900MHz LQW2BHNRJ03p 0nH 0MHz 350mA 0.3ohm 50MHz 900MHz LQW2BHNR2G03p nh±2% 0MHz 3mA 0.ohm 50MHz 750MHz LQW2BHNR2J03p nh 0MHz 3mA 0.ohm 50MHz 750MHz LQW2BHNR5G03p 50nH±2% 0MHz 260mA 0.6ohm 30 50MHz 350MHz LQW2BHNR5J03p 50nH 0MHz 390mA 0.47ohm 30 50MHz 350MHz LQW2BHNRG03p 0nH±2% 0MHz 250mA 0.7ohm 35 0MHz 700MHz LQW2BHNRJ03p 0nH 0MHz 250mA 0.7ohm 35 0MHz 700MHz LQW2BHNR22G03p 2nH±2% 0MHz 2mA 0.70ohm 35 0MHz 500MHz Operating Temperature Range: C to +5 C.5± ± min. 0.5 min. 0.5 min ±0.2.5±0.2 (in mm) Continued on the following page. 54

157 LQW2BH_03 Inductance QFrequency Characteristics (Typ.) Test Frequency Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW2BHNR22J03p 2nH 0MHz 2mA 0.70ohm 35 0MHz 500MHz LQW2BHNR27J03p 270nH MHz 90mA 2.00ohm MHz 550MHz LQW2BHNR27K03p 270nH±% MHz 90mA 2.00ohm MHz 550MHz LQW2BHNR33J03p 330nH MHz 0mA 2.ohm MHz 500MHz LQW2BHNR33K03p 330nH±% MHz 0mA 2.ohm MHz 500MHz LQW2BHNR39J03p 390nH MHz 70mA 2.50ohm MHz 0MHz LQW2BHNR39K03p 390nH±% MHz 70mA 2.50ohm MHz 0MHz LQW2BHNR47J03p 470nH MHz 60mA 2.0ohm MHz 350MHz LQW2BHNR47K03p 470nH±% MHz 60mA 2.0ohm MHz 350MHz Operating Temperature Range: C to +5 C Q nH 330nH nh 2nH 33nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) nH 330nH 270nH 33nH nh Frequency (MHz) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Vertical Axis) 55

158 Wire Wound NonMagnetic Type (Vertical Axis) LQW2BH_3 LQW2BH_3Series (005 Size) 005 Size, High Q Wound, Low DC Resistance Type Inductor for Low Frequency Circuits Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW2BHN2N7D3p 2.7nH±0.5nH 0MHz 900mA 0.02ohm 250MHz 6000MHz LQW2BHN3ND3p 3.nH±0.5nH 0MHz 00mA 0.02ohm 250MHz 6000MHz LQW2BHN3N3D3p 3.3nH±0.5nH 0MHz 700mA 0.02ohm 250MHz 6000MHz LQW2BHN5N6D3p 5.6nH±0.5nH 0MHz 500mA 0.02ohm MHz 6000MHz LQW2BHN6ND3p 6.nH±0.5nH 0MHz 0mA 0.02ohm MHz 50MHz LQW2BHNN6D3p.6nH±0.5nH 0MHz 300mA 0.03ohm MHz 3900MHz LQW2BHNNJ3p nh 0MHz 3mA 0.03ohm MHz 3300MHz LQW2BHN2NK3p 2nH±% 0MHz 0mA 0.04ohm 250MHz 30MHz LQW2BHN5NK3p 5nH±% 0MHz 00mA 0.04ohm 250MHz 30MHz LQW2BHNNK3p.nH±% 0MHz 00mA 0.05ohm 250MHz 2600MHz LQW2BHN2NK3p 2nH±% 0MHz 950mA 0.05ohm 250MHz 20MHz LQW2BHN27NK3p 27nH±% 0MHz 900mA 0.06ohm 250MHz 00MHz Operating Temperature Range: C to +5 C.5± ± min. 0.5 min. 0.5 min ±0.2.5±0.2 (in mm) Wire Wound NonMagnetic Type (Vertical Axis) QFrequency Characteristics (Typ.) Q nH 2nH 27nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) 0 27nH 2nH 3.3nH Frequency (MHz) 56

159 Wire Wound NonMagnetic Type (Horizontal Axis) LQW2BA LQW2BASeries (005 Size) 005 Size, Horizontal Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW2BAS2NJ00p 2.nH 00mA 0.06ohm 0 20MHz LQW2BAS3N0J00p 3.0nH 00mA 0.06ohm 65 20MHz LQW2BAS5N6J00p 5.6nH 600mA 0.0ohm MHz LQW2BAS6NJ00p 6.nH 600mA 0.ohm MHz LQW2BAS7N5J00p 7.5nH 600mA 0.4ohm MHz LQW2BASN2J00p.2nH 600mA 0.2ohm 50 40MHz LQW2BASNJ00p nh 600mA 0.ohm MHz LQW2BAS2NJ00p 2nH 600mA 0.5ohm 50 00MHz LQW2BAS5NJ00p 5nH 600mA 0.7ohm 50 30MHz LQW2BASNJ00p nh 600mA 0.ohm 50 30MHz LQW2BAS22NJ00p 22nH 500mA 0.22ohm MHz LQW2BAS24NJ00p 24nH 500mA 0.22ohm 50 MHz LQW2BAS27NJ00p 27nH 500mA 0.25ohm MHz LQW2BAS33NJ00p 33nH 500mA 0.27ohm MHz LQW2BAS36NJ00p 36nH 500mA 0.27ohm MHz LQW2BAS39NJ00p 39nH 500mA 0.29ohm 60 00MHz LQW2BAS43NJ00p 43nH 500mA 0.34ohm 60 00MHz LQW2BAS47NJ00p 47nH 500mA 0.3ohm MHz LQW2BAS56NJ00p 56nH 500mA 0.34ohm MHz LQW2BAS6NJ00p 6nH 500mA 0.3ohm MHz LQW2BAS2NJ00p 2nH 0mA 0.42ohm MHz LQW2BAS9NJ00p 9nH 0mA 0.4ohm MHz LQW2BASRJ00p 0nH 0mA 0.46ohm MHz LQW2BASRJ00p nh 0mA 0.4ohm 50 0MHz LQW2BASR2J00p nh 0mA 0.5ohm 50 0MHz LQW2BASR5J00p 50nH 0mA 0.56ohm 50 9MHz LQW2BASRJ00p 0nH 0mA 0.64ohm 50 9MHz LQW2BASR22J00p 2nH 0mA 0.70ohm 50 MHz LQW2BASR24J00p 2nH 350mA.00ohm MHz LQW2BASR27J00p 270nH 350mA.00ohm 4 730MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. 2.09± ±0..42±0..53±0.2.5± ±0.5 (in mm) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 57

160 LQW2BA Inductor for Low Frequency Circuits Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW2BASR33J00p 330nH 3mA.ohm 4 650MHz LQW2BASR39J00p 390nH 290mA.50ohm 4 600MHz LQW2BASR47J00p 470nH 250mA.76ohm MHz LQW2BASR56J00p 560nH 230mA.90ohm MHz LQW2BASR6J00p 60nH 90mA 2.ohm MHz LQW2BASR2J00p nh 0mA 2.35ohm MHz Operating Temperature Range: 55 C to +25 C Q Only for reflow soldering. 9nH 330nH nh 47nH 2.nH nh.2nh Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) nh 330nH 9nH 47nH nh.2nh 2.nH Frequency (MHz) Wire Wound NonMagnetic Type (Horizontal Axis) 5

161 Wire Wound NonMagnetic Type (Horizontal Axis) LQW2UA LQW2UASeries (0 Size) 0 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW2UAS2NJ00p 2nH 00mA 0.09ohm MHz LQW2UASNJ00p nh 00mA 0.ohm MHz LQW2UAS22NJ00p 22nH 00mA 0.2ohm 55 MHz LQW2UAS27NJ00p 27nH 00mA 0.3ohm MHz LQW2UAS33NJ00p 33nH 00mA 0.4ohm MHz LQW2UAS39NJ00p 39nH 00mA 0.5ohm MHz LQW2UAS47NJ00p 47nH 00mA 0.6ohm MHz LQW2UAS56NJ00p 56nH 00mA 0.ohm MHz LQW2UAS6NJ00p 6nH 00mA 0.2ohm MHz LQW2UAS2NJ00p 2nH 00mA 0.22ohm 60 00MHz LQW2UASRJ00p 0nH 650mA 0.56ohm 60 00MHz LQW2UASR2J00p nh 650mA 0.63ohm MHz LQW2UASR5J00p 50nH 50mA 0.7ohm 45 50MHz LQW2UASRJ00p 0nH 6mA 0.77ohm MHz LQW2UASR22J00p 2nH 500mA 0.4ohm MHz LQW2UASR27J00p 270nH 500mA 0.9ohm MHz LQW2UASR33J00p 330nH 450mA.05ohm MHz LQW2UASR39J00p 390nH 470mA.2ohm MHz LQW2UASR47J00p 470nH 470mA.9ohm MHz LQW2UASR56J00p 560nH 0mA.33ohm 45 45MHz LQW2UASR62J00p 6nH 300mA.4ohm MHz LQW2UASR6J00p 60nH 0mA.47ohm MHz LQW2UASR75J00p 750nH 360mA.54ohm MHz LQW2UASR2J00p nh 0mA.6ohm MHz LQW2UASR9J00p 9nH 30mA.6ohm 35 3MHz LQW2UASR0J00p 00nH 370mA.75ohm MHz LQW2UASR2J00p 0nH 3mA 2ohm 35 2MHz LQW2UASR5J00p 500nH 330mA 2.3ohm 2 MHz LQW2UASRJ00p 00nH 300mA 2.6ohm 2 MHz LQW2UAS2R2J00p 20nH 20mA 2.ohm 2 30MHz Operating Temperature Range: 55 C to +25 C Only for reflow soldering. 2.62± ± ±0..3± ± ±0.5 (in mm) Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Horizontal Axis) Continued on the following page. 59

162 LQW2UA Inductor for Low Frequency Circuits Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current Max. of DC Resistance Q (min.) Test Frequency Self Resonance Frequency (min.) LQW2UAS2R7J00p 2700nH 290mA 3.2ohm 22 MHz LQW2UAS3R3J00p 3300nH 290mA 3.4ohm 22 90MHz LQW2UAS3R9J00p 3900nH 260mA 3.6ohm 70MHz LQW2UAS4R7J00p 4700nH 260mA 4ohm 60MHz Operating Temperature Range: 55 C to +25 C Q Only for reflow soldering. 470nH 0nH 9nH 00nH 4700nH 6nH 2nH Frequency (MHz) InductanceFrequency Characteristics (Typ.) Inductance (nh) nH 00nH 9nH 470nH 0nH 6nH 2nH Frequency (MHz) Wire Wound NonMagnetic Type (Horizontal Axis) 60

163 Wire Wound NonMagnetic Type (Vertical Axis) LQW3H LQW3HSeries (6 Size) 6 Size, Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW3HNNJ03p.nH 0MHz 750mA 0.029ohm±% MHz 00MHz LQW3HNNK03p.nH±% 0MHz 750mA 0.029ohm±% MHz 00MHz LQW3HN5NJ03p 4.7nH 0MHz 60mA 0.035ohm±% MHz 00MHz LQW3HN5NK03p 4.7nH±% 0MHz 60mA 0.035ohm±% MHz 00MHz LQW3HN7NJ03p 7nH 0MHz 650mA 0.037ohm±% MHz 00MHz LQW3HN7NK03p 7nH±% 0MHz 650mA 0.037ohm±% MHz 00MHz LQW3HN23NJ03p 23nH 0MHz 590mA 0.046ohm±% MHz 00MHz LQW3HN23NK03p 23nH±% 0MHz 590mA 0.046ohm±% MHz 00MHz LQW3HN27NJ03p 27nH 0MHz 560mA 0.05ohm±% MHz 00MHz LQW3HN27NK03p 27nH±% 0MHz 560mA 0.05ohm±% MHz 00MHz LQW3HN33NJ03p 33nH 0MHz 530mA 0.057ohm±% MHz 00MHz LQW3HN33NK03p 33nH±% 0MHz 530mA 0.057ohm±% MHz 00MHz LQW3HN39NJ03p 39nH 0MHz 490mA 0.067ohm±% MHz 00MHz LQW3HN39NK03p 39nH±% 0MHz 490mA 0.067ohm±% MHz 00MHz LQW3HN47NJ03p 47nH 0MHz 30mA 0.ohm±% MHz 00MHz LQW3HN47NK03p 47nH±% 0MHz 30mA 0.ohm±% MHz 00MHz LQW3HN56NJ03p 56nH 0MHz 330mA 0.4ohm±% MHz 00MHz LQW3HN56NK03p 56nH±% 0MHz 330mA 0.4ohm±% MHz 00MHz LQW3HN64NJ03p 64nH 0MHz 290mA 0.ohm±% MHz 00MHz LQW3HN64NK03p 64nH±% 0MHz 290mA 0.ohm±% MHz 00MHz LQW3HN4NJ03p 4nH 0MHz 2mA 0.2ohm±% MHz 00MHz LQW3HN4NK03p 4nH±% 0MHz 2mA 0.2ohm±% MHz 00MHz LQW3HNRJ03p 0nH 0MHz 230mA 0.3ohm±% MHz 900MHz LQW3HNRK03p 0nH±% 0MHz 230mA 0.3ohm±% MHz 900MHz Operating Temperature Range: C to +5 C 2.3± ± min. 0.7 min. 0.7 min..±0.2 (in mm).6±0.2.6±0.2 Continued on the following page. Inductor for Low Frequency Circuits Wire Wound NonMagnetic Type (Vertical Axis) 6

164 LQW3H Inductor for Low Frequency Circuits QFrequency Characteristics (Typ.) Q nH 0nH.nH Frequency (MHz) Wire Wound NonMagnetic Type (Vertical Axis) 62

165 Wire Wound Magnetic Type (Horizontal Axis) LQW2H_00 LQW2H_00Series (005 Size) 005 Size, Ferrite Core High Frequency Wound Type Dimensions Rated Value (p: packaging code) Inductance Test Frequency Rated Current Max. of DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 3000 B Bulk(Bag) 500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQW2HNR47J00p 0.47µH MHz 60mA.30ohm 35 0MHz 6MHz LQW2HNR56J00p 0.56µH MHz 50mA.43ohm 35 0MHz 50MHz LQW2HNR6J00p 0.6µH MHz 30mA 2.2ohm 35 0MHz 5MHz LQW2HNR2J00p 0.2µH MHz 25mA 2.34ohm 35 0MHz 40MHz LQW2HNR0J00p.0µH MHz 5mA 2.6ohm 35 0MHz 450MHz LQW2HNR2J00p.2µH MHz 0mA 3.2ohm 35 0MHz 0MHz LQW2HNR5J00p.5µH MHz 5mA 5.33ohm 35 0MHz 350MHz LQW2HNRJ00p.µH MHz 0mA 5.5ohm 35 0MHz 3MHz LQW2HN2R2J00p MHz 75mA 6.50ohm 35 0MHz 300MHz Operating Temperature Range: C to +5 C Only for reflow soldering. 2.0± ±0. 0.9±0..2± ±0. (in mm) Inductor for Low Frequency Circuits QFrequency Characteristics (Typ.) 0 InductanceFrequency Characteristics (Typ.) Q 60.0µH 0.6µH.5µH 0.47µH Frequency (MHz) Inductance (µh) 0. Frequency (MHz) 0.5µH.0µH 0.6µH 0.47µH 00 Wire Wound Magnetic Type (Horizontal Axis) 63

166 Wire Wound Magnetic Type (Vertical Axis) LQH3H LQH3HSeries (6 Size) 6 Size, Ferrite Core High Frequency Wound Type Inductor for Low Frequency Circuits Wire Wound Magnetic Type (Vertical Axis) Dimensions Rated Value (p: packaging code) Inductance Test Frequency QFrequency Characteristics (Typ.) Rated Current DC Resistance Q (min.) Packaging Code Packaging Minimum L 0mm Embossed Tape 00 K 330mm Embossed Tape 7500 Refer to pages from p.67 to p.70 for mounting information. Test Frequency Self Resonance Frequency (min.) LQH3HN54NK03p 54nH±% MHz 9mA 0.035ohm±30% 50 0MHz 00MHz LQH3HN95NK03p 95nH±% MHz 790mA 0.047ohm±30% 60 0MHz 650MHz LQH3HNR4J03p 45nH MHz 700mA 0.06ohm±30% 60 0MHz 500MHz LQH3HNR4K03p 45nH±% MHz 700mA 0.06ohm±30% 60 0MHz 500MHz LQH3HNR2J03p 25nH MHz 5mA 0.ohm±30% 60 0MHz 430MHz LQH3HNR2K03p 25nH±% MHz 5mA 0.ohm±30% 60 0MHz 430MHz LQH3HNR29J03p 290nH MHz 4mA 0.7ohm±30% 60 0MHz 360MHz LQH3HNR29K03p 290nH±% MHz 4mA 0.7ohm±30% 60 0MHz 360MHz LQH3HNR39J03p 390nH MHz 330mA 0.26ohm±30% 60 0MHz 300MHz LQH3HNR39K03p 390nH±% MHz 330mA 0.26ohm±30% 60 0MHz 300MHz LQH3HNR50J03p 500nH MHz 260mA 0.44ohm±30% 60 0MHz 270MHz LQH3HNR50K03p 500nH±% MHz 260mA 0.44ohm±30% 60 0MHz 270MHz LQH3HNR6J03p 6nH MHz 250mA 0.4ohm±30% 60 0MHz 2MHz LQH3HNR6K03p 6nH±% MHz 250mA 0.4ohm±30% 60 0MHz 2MHz LQH3HNR75J03p 750nH MHz 90mA 0.79ohm±30% 60 0MHz 2MHz LQH3HNR75K03p 750nH±% MHz 90mA 0.79ohm±30% 60 0MHz 2MHz LQH3HNRJ03p 0nH MHz 0mA 0.6ohm±30% 60 0MHz 0MHz LQH3HNRK03p 0nH±% MHz 0mA 0.6ohm±30% 60 0MHz 0MHz Operating Temperature Range: C to +5 C Q ± ± min. 0.7 min. 0.7 min. 25nH 0nH 54nH.±0.2.6±0.2.6±0.2 (in mm) Frequency (MHz) 64

167 !Caution/Notice!Caution Rating Do not use products beyond the rated current as this may create excessive heat. Storage and Operating Condition <Operating Environment> Do not use products in chemical atmosphere such as chlorine gas, acid or sulfide gas. <Storage Requirements>. Storage Period LQG series should be used within 6 months; the other products should be used within 2 months. Check solderability if this period is exceeded. 2. Storage Conditions () Store products in a warehouse in compliance with the following conditions: Temperature: to + degrees C. Humidity: 5 to 5% (relative humidity) Do not subject products to rapid changes in temperature and humidity. Do not store them in chemical atmosphere such as one containing sulfurous acid gas or alkaline gas. This will prevent electrode oxidation which causes poor solderability and possible corrosion of inductors. (2) Do not store products in bulk packaging to prevent collision among inductors which causes core chipping and wire breakage. (3) Store products on pallets to protect from humidity, dust, etc. (4) Avoid heat shock, vibration, direct sunlight, etc. Handling This item is designed to have sufficient strength, but handle with care to avoid chipping or breaking its ceramic structure. LQW_A/LQW_H series To prevent breaking the wire, avoid touching with sharp material, such as tweezers or other material such as bristles of cleaning brush, to the wire wound portion. To prevent breaking the core, avoid applying excessive mechanical shock to products mounted on the board. In some mounting machines, when picking up components, support pin pushes up the components from the bottom of base tape. In this case, please remove the support pin. The support pin may damage the components and break wire. In rare case, the laser recognition can not recognize this component. Please contact us when you use laser recognizion. (There is no problem with the permeation and reflection type.) Notice LQH_H series To prevent breaking the wire, avoid touching with sharp material, such as tweezers or other material such as bristles of cleaning brush, to the wire wound portion of this product. To prevent breaking the core, avoid applying excessive mechanical shock to products mounted on the board. LQG,LQP series (exept LQP02T_02/LQP03T_02) The pattern of the chip inductor is covered with protective film. Take care to avoid damaging the chip inductor when handling it with pickup nozzles, sharp instruments, etc. <Handling>. Avoid applying excessive stress to products to prevent damage. 2. Do not touch wire wound with sharp objects such as tweezers to prevent wire breakage. 3. Do not apply excessive force to products mounted on boards to prevent core breakage. <Transportation> Do not apply excessive vibration or mechanical shock to products. <Resin Coating> When coating products with resin, the relatively high resin curing stress may change inductance values. For exterior coating, select resin carefully so that electrical and mechanical performance of the product is not affected. Prior to use, please evaluate reliability with the product mounted in your application set. (LQW,LQH series) An open circuit issue may occur by mechanical stress caused by the resin, amount/cured shape of resin, or operating condition etc. Some resins containing impurities or chloride may possibly generate chlorine by hydrolysis under some operating condition may cause corrosion of wire of inductor, leading to open circuit. (LQP02T_02,LQP03T_02) When products are coated with resin, please contact us in advance. <Handling of a Substrate> After mounting products on a substrate, do not apply any stress to the product caused by bending or twisting to the substrate when cropping the substrate, inserting and removing a connector from the substrate or tightening screw to the substrate. Excessive mechanical stress may cause cracking in the Product. Bending Twisting Continued on the following page.!caution/ Notice Inductor for Low Frequency Circuits 65

168 !Caution/Notice Inductor for Low Frequency Circuits Measuring Method Measuring Method of Inductance/Q. Residual elements and stray elements of test fixture can be described by Fparameter as shown in the following: Zm Test Head I V A C Test fixture B D V = A B I C D 2. The impedance of chip inductor (chip coil) Zx and measured value Zm can be described by input/output current/voltage. Zm = V I, 3. Thus, the relation between Zx and Zm is shown in the following: Zm β Zx = α ZmΓ 0nH 0.nH 0.464nH 0.40nH 0.556nH 0.77nH I2 V2 Product Zx = V2 I2 where, α = D / A = β = B / D = Zsm ( Yom Zsm) Zss Γ = C / A = Yom Zsm: measured impedance of short chip Zss: residual impedance of short chip* Yom: measured admittance when opening the fixture *Residual impedance of short chip Residual Impedance Zx Series LQG5HS LQP02T LQW04A LQP03T_02 LQG5HN, LQW5A, LQP5T/M LQGH, LQPM, LQWA, LQW2H V2 I2 4. Lx and Qx should be calculated with the following equation. Im (Zx) Lx = 2πf, Im (Zx) Qx = Re (Zx) Lx: Inductance of chip inductor (chip coil) Qx: Q of chip inductor (chip coil) f: Measuring frequency!caution/ Notice 66

169 Soldering and Mounting. Standard Land Pattern Dimensions A high Q value is achieved when the PCB electrode land pattern is designed so that it does not project beyond the chip inductor (chip coil) electrode. Land Pattern + Solder Resist Land Pattern Solder Resist (in mm) Series Standard Land Dimensions LQG5H LQGH LQP02T LQP03T LQP5M/5T LQPM LQW04A LQW5A LQWA LQW2H LQW2BH LQW2BA LQW2UA LQW3H LQH3H Attention should be paid to potential magnetic coupling effects when using the inductor (coil) as a resonator. 2. Standard Soldering Conditions () Soldering method Chip inductor (Chip coils) can be flow or reflow soldered. Please contact Murata regarding other soldering methods. As for LQG, LQP, LQW04A/5A/A/2H/2BA/2UA series, please use reflow soldering. Solder: Use Sn3.0Ag0.5Cu solder. Flux: Use rosinbased flux, but not strongly acidic flux (with chlorine content exceeding 0.2wt%). Do not use watersoluble flux. The flux used for LQW04/5//2/2BA/2UA series should use the rosinbased flux that includes middle activator equivalent to 0.06wt% to 0.wt% chlorine. For additional mounting methods, please contact Murata. a c b a b c LQG5H LQGH LQP02T LQP03T LQP5M/5T LQPM LQW04A LQW5A LQWA LQW2H LQW2BH LQW2BA LQW2UA LQH3H LQW3H Continued on the following page. Soldering and Mounting Inductor for Low Frequency Circuits 67

170 Soldering and Mounting (2) Soldering profile "Flow Soldering profile (Sn3.0Ag0.5Cu solder) LQW2BH/3H LQH3H Series Temperature ( C) T Temp. (T) Preheating Time. (t) T3 T2 Preheating t t2 Heating time (s) Standard Profile Heating Temp. (T2) Time. (t2) 50 C 60s min. 250 C 4 to 6s Limit Profile Standard Profile Limit Profile Cycle Heating of flow Temp. (T3) Time. (t2) 2 times max. 265±3 C 5s max. Cycle of flow 2 times max. Inductor for Low Frequency Circuits "Reflow Soldering profile (Sn3.0Ag0.5Cu solder) Series LQG5H/H LQW04A/5A/A/2H LQW2BA/2UA LQP02T/03T/5M/5T/M LQW2BH/3H LQH3H Temperature ( C) 0 50 T2 T Preheating t t2 Standard Profile Heating Peak Cycle Heating temperature Temp. (T) Time. (t) (T2) of reflow Temp. (T3) Time. (t2) 2 C 30 to 60s 245±3 C T4 T3 90±30s time (s) Limit Profile Standard Profile 2 times max. Limit Profile Peak temperature (T4) 230 C 60s max. 260 C/s Cycle of reflow 2 times max. (3) Reworking with Soldering Iron *Except LQP02T Series Preheating at 50 C for minute is required. Do not directly touch the ceramic element with the tip of the soldering iron. The reworking soldering conditions are as follows: Soldering iron power output: 0W max. Temperature of soldering iron tip: 350 C Diameter of soldering iron end: 3.0mm max. Soldering time: within 3 s Continued on the following page. Soldering and Mounting 6

171 Soldering and Mounting 3. Mounting Instructions () Land Pattern Dimensions Large lands reduce Q of the mounted chip. Also, large protruding land areas (bordered by lines having dimensions 'c' and 'd' shown) cause floating and electrode leaching. (2) PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. (3) Amount of Solder Paste Excessive solder causes electrode corrosion, while insufficient solder causes low electrode bonding strength. Adjust the amount of solder paste as shown on the right so that solder is applied. " Guideline of solder paste thickness LQP (Except LQP02T), LQG, LQW5A/A/ 2H/2BA/2UA: 0 to 50µm LQP02T: 50 to 0µm LQW04A: 0 to 0µm LQW_H: 0 to 300µm LQW5A Series: Too much solder may cause slant or rotation of chip at the time of solder melting. Please reduce the amount of solder by using smaller solder area than land pattern, as shown in figure at right. b c b Land Products should be located in the sideways direction (Length: a<b) to the mechanical stress. Poor example Poor example b a Good example The electrode part of the product should be located like the picture to the mechanical stress. d a Stencil Pattern b c b d LQW_H LQW_A/2H Stencil Pattern Land Pattern d electrode.2 Solder Resist.2 Solder Resist c electrode Land Pattern b c b a Good example LQP/LQG a 0.65 b 0.35 c 0.50 d (in mm) Continued on the following page. Soldering and Mounting Inductor for Low Frequency Circuits 69

172 Soldering and Mounting Inductor for Low Frequency Circuits (4) Amount of Adhesive If too much adhesive is applied, then it may overflow into the land or termination areas and yield poor solderability. In contrast, if insufficient adhesive is applied, or if the adhesive is not sufficiently hardened, then the chip may become detached during flow soldering. Apply the adhesive in accordance with the conditions shown in chart. 4. Cleaning The following conditions should be observed when cleaning chip inductors (chip coils): () Cleaning Temperature: 60 C max. ( C max. for alcohol cleaning agents) (2) Ultrasonic Output: W/l max. Duration: 5 minutes max. Frequency: 2 to khz Care should be taken not to cause resonance of the PCB and mounted products. (3) Cleaning agent The following cleaning agents have been tested on individual components. Evaluation in complete assembly should be done prior to production. (a) Alcohol cleaning agents Isopropyl alcohol (IPA) (b) Aqueous cleaning agents Pine Alpha ST0S LQW2BH LQH3H LQW3H LQW_H Typical Application Amount (in:mg) IR (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agents have been removed with deionized water. For additional cleaning methods, please contact Murata. Soldering and Mounting 70

173 Packaging Minimum and mm Width Taping Dimensions Paper Tape LQG5H LQP5T LQP5M LQPM LQW04A LQW5A_00 2 LQW5A_ 3 b 2.0± ± ±0. a Direction of feed ø ±0. 3.5±0.05 (.0) LQG5H, LQP5M/M c LQP02T/03T/5T, LQW04A/5A Dimensions Total Thickness of Tape Packaging Code (Minimum Qty. [pcs.]) a b c ø0mm reel ø330mm reel Bulk max. D [000] J [50000] B [00] LQP02T max. D [000] B [500] LQP03T_ / max. D [5000] J [50000] B [500] 0.67 (0.656nH) 0.65 (6nH) /0.66/ / Minimum and mm Width Taping Dimensions Paper Tape LQGH LQWA_00 LQWA_ 0. max. 0. max. 0. max max. 0. max. 0. max (.52.7nH, nH, 5.6.nH,.29.5nH, nh, 2nH, 5nH) 0.66 (2.9nH, 5.nH, 7.3nH, 7.5nH, nh, 3nH, 623nH, 0nH, nh) 0.64 (249nH) ø ±0.05 b.75±0. (.0) <Embossed> 0.2 a 4.0±0. 4.0±0. c 2.0±0.05 Direction of feed Dimension of the cavity of embossed tape is measured at the bottom side. Embossed Tape a LQH3H, LQW3H.9 a Dimensions Dimensions b.5..9 b 3.6 Total Thickness of Tape c. max.. max.. max. Depth of Cavity c 2.0 c D [000] B [500] D [000] J [50000] B [500] D [00] J [000] B [500] D [000] B [500] D [000] B [500] D [000] B [500] <Paper> c : 0.3 LQW2BH 0.25 LQW2H (.3nH) 0.66 (2.25.6nH) Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel Bulk D [00] J [000] B [00] D [00] J [000] B [500] D [00] J [000] B [500] Packaging Code (Minimum Qty. [pcs.]) ø0mm reel ø330mm reel Bulk L [00] K [7500] LQW2H L [3000] B [500] LQW2BH L [00] K [7500] LQW2BA L [00] LQW2UA L [00] (in mm) (in mm) Packaging Inductor for Low Frequency Circuits 7

174 Design Kits Holder Type Design Kits Inductor for Low Frequency Circuits oeklmq5sc (High Frequency Multilayer Type) No LQG5HSN0S02 LQG5HSNS02 LQG5HSN2S02 LQG5HSN3S02 LQG5HSN5S02 LQG5HSN6S02 LQG5HSNS02 LQG5HS2N0S02 LQG5HS2N2S02 LQG5HS2N4S02 LQG5HS2N7S02 LQG5HS3N0S02 LQG5HS3N3S02 LQG5HS3N6S02 LQG5HS3N9S02 LQG5HS4N3S02 LQG5HS4N7S02 LQG5HS5NS02 LQG5HS5N6S02 LQG5HS6N2S02 LQG5HS6NJ02 LQG5HS7N5J02 LQG5HSN2J02 LQG5HS9NJ02 LQG5HSNJ02 LQG5HS2NJ02 LQG5HS5NJ02 LQG5HSNJ02 LQG5HS22NJ02 LQG5HS27NJ02 LQG5HS33NJ02 LQG5HS39NJ02 LQG5HS47NJ02 LQG5HS56NJ02 LQG5HS6NJ02 LQG5HS2NJ02 LQG5HSRJ02 LQG5HSR2J02 LQG5HSR5J02 LQG5HSRJ02 LQG5HSR22J02 LQG5HSR27J02 Nominal.0nH.nH.2nH.3nH.5nH.6nH.nH 2.0nH 2.2nH 2.4nH 2.7nH 3.0nH 3.3nH 3.6nH 3.9nH 4.3nH 4.7nH 5.nH 5.6nH 6.2nH 6.nH 7.5nH.2nH 9.nH nh 2nH 5nH nh 22nH 27nH 33nH 39nH 47nH 56nH 6nH 2nH 0nH nh 50nH 0nH 2nH 270nH oeklmqgb (High Frequency Multilayer Type) No LQGHNN2S00 LQGHNN5S00 LQGHNNS00 LQGHN2N2S00 LQGHN2N7S00 LQGHN3N3S00 LQGHN3N9S00 LQGHN4N7S00 LQGHN5N6S00 (pcs.) (pcs.).2nh.5nh.nh 2.2nH 2.7nH 3.3nH 3.9nH 4.7nH 5.6nH Inductance Tolerance ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH Inductance Nominal Tolerance ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Continued on the following page. 72

175 Design Kits Continued from the preceding page. No LQGHN6NJ00 LQGHNN2J00 LQGHNNJ00 LQGHN2NJ00 LQGHN5NJ00 LQGHNNJ00 LQGHN22NJ00 LQGHN27NJ00 LQGHN33NJ00 LQGHN39NJ00 LQGHN47NJ00 LQGHN56NJ00 LQGHN6NJ00 LQGHN2NJ00 LQGHNRJ00 oeklmqp02c (High Frequency Film Type) No LQP02TN0N4S02 LQP02TN0N5S02 LQP02TN0N6S02 LQP02TN0N7S02 LQP02TN0NS02 LQP02TN0N9S02 LQP02TNN0S02 LQP02TNNS02 LQP02TNN2S02 LQP02TNN3S02 LQP02TNN5S02 LQP02TNN6S02 LQP02TNNS02 LQP02TN2N0S02 LQP02TN2N2S02 LQP02TN2N4S02 LQP02TN2N7S02 LQP02TN3N0S02 LQP02TN3N3S02 LQP02TN3N6S02 LQP02TN3N9S02 LQP02TN4N3S02 LQP02TN4N7S02 LQP02TN5NS02 LQP02TN5N6S02 LQP02TN6N2J02 LQP02TN6NJ02 LQP02TN7N5J02 LQP02TNN2J02 LQP02TN9NJ02 LQP02TNNJ02 LQP02TN2NJ02 LQP02TN5NJ02 LQP02TNNJ02 (pcs.) (pcs.) oeklmqp32b (High Frequency Film Type) No LQP03TN0N6B02 LQP03TN0N7B02 LQP03TN0NB02 LQP03TN0N9B02 LQP03TNN0B02 LQP03TNNB02 LQP03TNN2B02 LQP03TNN3B02 (pcs.) Inductance Nominal Tolerance 6.nH.2nH nh 2nH 5nH nh 22nH 27nH 33nH 39nH 47nH 56nH 6nH 2nH 0nH 0.4nH 0.5nH 0.6nH 0.7nH 0.nH 0.9nH.0nH.nH.2nH.3nH.5nH.6nH.nH 2.0nH 2.2nH 2.4nH 2.7nH 3.0nH 3.3nH 3.6nH 3.9nH 4.3nH 4.7nH 5.nH 5.6nH 6.2nH 6.nH 7.5nH.2nH 9.nH nh 2nH 5nH nh Inductance Nominal Tolerance ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH ±0.3nH Inductance Nominal Tolerance 0.6nH 0.7nH 0.nH 0.9nH.0nH.nH.2nH.3nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH Q (min.) Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Rated Current (ma) Continued on the following page. Design Kits Inductor for Low Frequency Circuits 73

176 Design Kits Design Kits Inductor for Low Frequency Circuits No LQP03TNN4B02 LQP03TNN5B02 LQP03TNN6B02 LQP03TNN7B02 LQP03TNNB02 LQP03TNN9B02 LQP03TN2N0B02 LQP03TN2NB02 LQP03TN2N2B02 LQP03TN2N3B02 LQP03TN2N4B02 LQP03TN2N5B02 LQP03TN2N6B02 LQP03TN2N7B02 LQP03TN2NB02 LQP03TN2N9B02 LQP03TN3N0B02 LQP03TN3NB02 LQP03TN3N2B02 LQP03TN3N3B02 LQP03TN3N4B02 LQP03TN3N5B02 LQP03TN3N6B02 LQP03TN3N7B02 LQP03TN3NB02 LQP03TN3N9B02 LQP03TN4N3H02 LQP03TN4N7H02 LQP03TN5NH02 LQP03TN5N6H02 LQP03TN6N2H02 LQP03TN6NH02 LQP03TN7N5H02 LQP03TNN2H02 LQP03TN9NH02 LQP03TNNH02 LQP03TN2NH02 LQP03TN5NH02 LQP03TNNH02 LQP03TN22NH02 LQP03TN27NH02 LQP03TN33NJ02 LQP03TN39NJ02 LQP03TN47NJ02 LQP03TN56NJ02 LQP03TN6NJ02 LQP03TN2NJ02 LQP03TNRJ02 LQP03TNR2J02 (pcs.) oeklmqp5b (High Frequency Film Type) No Continued from the preceding page. LQP5MNN0B02 LQP5MNNB02 LQP5MNN2B02 LQP5MNN3B02 LQP5MNN5B02 LQP5MNN6B02 LQP5MNNB02 LQP5MN2N0B02 LQP5MN2N2B02 LQP5MN2N4B02 LQP5MN2N7B02 (pcs.) Inductance Nominal Tolerance.4nH.5nH.6nH.7nH.nH.9nH 2.0nH 2.nH 2.2nH 2.3nH 2.4nH 2.5nH 2.6nH 2.7nH 2.nH 2.9nH 3.0nH 3.nH 3.2nH 3.3nH 3.4nH 3.5nH 3.6nH 3.7nH 3.nH 3.9nH 4.3nH 4.7nH 5.nH 5.6nH 6.2nH 6.nH 7.5nH.2nH 9.nH nh 2nH 5nH nh 22nH 27nH 33nH 39nH 47nH 56nH 6nH 2nH 0nH nh.0nh.nh.2nh.3nh.5nh.6nh.nh 2.0nH 2.2nH 2.4nH 2.7nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% Inductance Nominal Tolerance 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH 0.nH Q (min.) Q (min.) DC Resistance (Ω) max Rated Current (ma) 2 LQP5MN3N0B02 3.0nH 0.nH Continued on the following page DC Resistance (Ω) max Rated Current (ma)

177 Design Kits Continued from the preceding page. No LQP5MN3N3B02 LQP5MN3N6B02 LQP5MN3N9B02 LQP5MN4N3B02 LQP5MN4N7B02 LQP5MN5NB02 LQP5MN5N6B02 LQP5MN6N2B02 LQP5MN6NB02 LQP5MN7N5B02 LQP5MNN2B02 LQP5MN9NB02 LQP5MNNG02 LQP5MN2NG02 LQP5MN5NG02 LQP5MNNG02 LQP5MN22NG02 LQP5MN27NG02 LQP5MN33NG02 LQW04ANNC00 LQW04ANNC00 LQW04AN2N7C00 LQW04AN3N0C00 LQW04AN3N3C00 LQW04AN3N6C00 LQW04AN3N9C00 LQW04AN4N3C00 LQW04AN4N7C00 LQW04AN5NC00 LQW04AN5N6C00 LQW04AN6N2C00 LQW04AN6NC00 LQW04AN7N5C00 LQW04ANN2C00 LQW04AN9NC00 LQW04ANNH00 LQW04ANNH00 LQW04AN2NH00 LQW04AN3NH00 LQW04AN5NH00 LQW04AN6NH00 LQW04ANNH00 LQW04AN9NH00 LQW04ANNH00 LQW04AN22NH00 LQW04AN23NH00 LQW04AN24NH00 LQW04AN25NH00 LQW04AN27NH00 LQW04AN33NH00 (pcs.) Inductance Nominal Tolerance 3.3nH 3.6nH 3.9nH 4.3nH 4.7nH 5.nH 5.6nH 6.2nH 6.nH 7.5nH.2nH 9.nH nh 2nH 5nH nh 22nH 27nH 33nH oeklmqw04d (High Frequency Wire Wound Type) No. (pcs.).nh.nh 2.7nH 3.0nH 3.3nH 3.6nH 3.9nH 4.3nH 4.7nH 5.nH 5.6nH 6.2nH 6.nH 7.5nH.2nH 9.nH nh nh 2nH 3nH 5nH 6nH nh 9nH nh 22nH 23nH 24nH 25nH 27nH 33nH oeklmqw5j (High Frequency Wire Wound Type) No LQW5ANN3C LQW5AN2N2C LQW5AN3N3D LQW5AN3N4C LQW5AN3N6C LQW5AN5N6C LQW5ANN5B00 (pcs.) 0.nH 0.nH 0.nH 0.nH 0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±2% ±2% ±2% ±2% ±2% ±2% ±2% Inductance Nominal Tolerance ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% ±3% Inductance Nominal Tolerance.3nH 2.2nH 3.3nH 3.4nH 3.6nH 5.6nH.5nH ±0.2nH ±0.2nH ±0.5nH ±0.2nH ±0.2nH ±0.2nH ±0.nH Q (min.) Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Rated Current (ma) Continued on the following page. Design Kits Inductor for Low Frequency Circuits 75

178 Design Kits Continued from the preceding page. Design Kits Inductor for Low Frequency Circuits No LQW5AN2N4B00 LQW5AN2N5B00 LQW5AN2N7B00 LQW5AN2N9B00 LQW5AN3N9B00 LQW5AN4NB00 LQW5AN4N3B00 LQW5AN4N7B00 LQW5AN5NB00 LQW5AN5NB00 LQW5AN6N2B00 LQW5AN6NG00 LQW5AN7N3G00 LQW5AN7N5G00 LQW5ANN2G00 LQW5ANN7G00 LQW5AN9NG00 LQW5AN9N5G00 LQW5ANNG00 LQW5ANNG00 LQW5AN2NG00 LQW5AN3NG00 LQW5AN5NG00 LQW5AN6NG00 LQW5ANNG00 LQW5AN9NG00 LQW5ANNG00 LQW5AN22NG00 LQW5AN23NG00 LQW5AN24NG00 LQW5AN27NG00 LQW5AN30NG00 LQW5AN33NG00 LQW5AN36NG00 LQW5AN39NG00 LQW5ANNG00 LQW5AN43NG00 LQW5AN47NG00 LQW5AN5NG00 LQW5AN56NG00 LQW5AN62NG00 LQW5AN6NG00 LQW5AN75NG00 LQW5AN2NG00 LQW5AN9NG00 LQW5ANRJ00 LQW5ANR2J00 (pcs.) Inductance Nominal Tolerance 2.4nH 2.5nH 2.7nH 2.9nH 3.9nH 4.nH 4.3nH 4.7nH 5.nH 5.nH 6.2nH 6.nH 7.3nH 7.5nH.2nH.7nH 9.nH 9.5nH nh nh 2nH 3nH 5nH 6nH nh 9nH nh 22nH 23nH 24nH 27nH 30nH 33nH 36nH 39nH nh 43nH 47nH 5nH 56nH 62nH 6nH 75nH 2nH 9nH 0nH nh oeklmqgb (High Frequency Wire Wound Type) No LQWAN3N6C00 LQWAN3N9C00 LQWAN4N3C00 LQWAN5N6C00 LQWAN6N2C00 LQWAN6NC00 LQWANNG00 LQWANNG00 LQWAN2NG00 LQWAN3NG00 LQWAN5NG00 LQWAN6NG00 LQWANNG00 LQWANNG00 (pcs.) 3.6nH 3.9nH 4.3nH 5.6nH 6.2nH 6.nH nh nh 2nH 3nH 5nH 6nH nh nh ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±0.nH ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% Inductance Nominal Tolerance ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±0.2nH ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Continued on the following page. 76

179 Design Kits Continued from the preceding page. No LQWAN22NG00 LQWAN24NG00 LQWAN27NG00 LQWAN30NG00 LQWAN33NG00 LQWAN36NG00 LQWAN39NG00 LQWAN43NG00 LQWAN47NG00 LQWAN5NG00 LQWAN56NG00 LQWAN62NG00 LQWAN6NG00 LQWAN72NG00 LQWAN75NG00 LQWAN2NG00 LQWAN9NG00 LQWANRG00 LQWANRG00 LQWANR2G00 LQWANR3G00 LQWANR5G00 LQWANR6G00 LQWANRG00 LQWANRG00 LQWANR22G00 LQWANR27G00 LQWANR33G00 LQWANR39G00 LQWANR47G00 LQWAN3N9C LQWAN6NC LQWANNG LQWAN2NG LQWANNG LQWAN22NG LQWAN27NG (pcs.) Inductance Nominal Tolerance 22nH 24nH 27nH 30nH 33nH 36nH 39nH 43nH 47nH 5nH 56nH 62nH 6nH 72nH 75nH 2nH 9nH 0nH nh nh 30nH 50nH 60nH 0nH 0nH 2nH 270nH 330nH 390nH 470nH 3.9nH 6.nH nh 2nH nh 22nH 27nH ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±2% ±0.2nH ±0.2nH ±2% ±2% ±2% ±2% ±2% oeklmqw2a (for High Frequency Wire Wound Ferrite Core Type) No LQW2HNR47J00 LQW2HNR56J00 LQW2HNR6J00 LQW2HNR2J00 LQW2HNR0J00 LQW2HNR2J00 LQW2HNR5J00 LQW2HNRJ00 LQW2HN2R2J00 (pcs.) Inductance Nominal Tolerance 0.47µH 0.56µH 0.6µH 0.2µH.0µH.2µH.5µH.µH oeklmqw2bb (for High Frequency Wire Wound Air Core Type) No LQW2BHN2N7D3 LQW2BHN3ND3 LQW2BHN3N3D3 LQW2BHN5N6D3 LQW2BHN6ND3 LQW2BHNN6D3 LQW2BHNNJ3 LQW2BHN2NK3 LQW2BHN5NK3 LQW2BHNNK3 LQW2BHN2NK3 (pcs.) Inductance Nominal Tolerance 2.7nH 3.nH 3.3nH 5.6nH 6.nH.6nH nh 2nH 5nH.nH 2nH ±0.5nH ±0.5nH ±0.5nH ±0.5nH ±0.5nH ±0.5nH ±% ±% ±% ±% Q (min.) Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Rated Current (ma) Continued on the following page. Design Kits Inductor for Low Frequency Circuits 77

180 Design Kits Continued from the preceding page. Design Kits Inductor for Low Frequency Circuits No LQW2BHN27NK3 LQW2BHN33NJ03 LQW2BHN39NJ03 LQW2BHN47NJ03 LQW2BHN56NJ03 LQW2BHN6NJ03 LQW2BHN2NJ03 LQW2BHNRJ03 LQW2BHNR2J03 LQW2BHNR5J03 LQW2BHNRJ03 LQW2BHNR22J03 LQW2BHNR27K03 LQW2BHNR33K03 LQW2BHNR39K03 LQW2BHNR47K03 (pcs.) Inductance Nominal Tolerance 27nH 33nH 39nH 47nH 56nH 6nH 2nH 0nH nh 50nH 0nH 2nH 270nH 330nH 390nH 470nH oeklmw2bua (High Frequency Wire Wound Type) No LQW2BAS2NJ00 LQW2BAS3N0J00 LQW2BAS5N6J00 LQW2BAS6NJ00 LQW2BAS7N5J00 LQW2BASN2J00 LQW2BASNJ00 LQW2BAS2NJ00 LQW2BAS5NJ00 LQW2BASNJ00 LQW2BAS22NJ00 LQW2BAS24NJ00 LQW2BAS27NJ00 LQW2BAS33NJ00 LQW2BAS36NJ00 LQW2BAS39NJ00 LQW2BAS43NJ00 LQW2BAS47NJ00 LQW2BAS56NJ00 LQW2BAS6NJ00 LQW2BAS2NJ00 LQW2BAS9NJ00 LQW2BASRJ00 LQW2BASRJ00 LQW2BASR2J00 LQW2BASR5J00 LQW2BASRJ00 LQW2BASR22J00 LQW2BASR24J00 LQW2BASR27J00 LQW2BASR33J00 LQW2BASR39J00 LQW2BASR47J00 LQW2BASR56J00 LQW2BASR6J00 LQW2BASR2J00 LQW2UAS2NJ00 LQW2UASNJ00 LQW2UAS22NJ00 LQW2UAS27NJ00 LQW2UAS33NJ00 LQW2UAS39NJ00 LQW2UAS47NJ00 LQW2UAS56NJ00 LQW2UAS6NJ00 (pcs.) 2.nH 3nH 5.6nH 6.nH 7.5nH.2nH nh 2nH 5nH nh 22nH 24nH 27nH 33nH 36nH 39nH 43nH 47nH 56nH 6nH 2nH 9nH 0nH nh nh 50nH 0nH 2nH 2nH 270nH 330nH 390nH 470nH 560nH 60nH nh 2nH nh 22nH 27nH 33nH 39nH 47nH 56nH 6nH ±% ±% ±% ±% ±% Inductance Nominal Tolerance Q (min.) Q (min.) DC Resistance (Ω) max DC Resistance (Ω) max Rated Current (ma) Rated Current (ma) Continued on the following page. 7

181 Design Kits Continued from the preceding page. No LQW2UAS2NJ00 LQW2UASRJ00 LQW2UASR2J00 LQW2UASR5J00 LQW2UASRJ00 LQW2UASR22J00 LQW2UASR27J00 LQW2UASR33J00 LQW2UASR39J00 LQW2UASR47J00 LQW2UASR56J00 LQW2UASR62J00 LQW2UASR6J00 LQW2UASR75J00 LQW2UASR2J00 LQW2UASR9J00 LQW2UASR0J00 LQW2UASR2J00 LQW2UASR5J00 LQW2UASRJ00 LQW2UAS2R2J00 LQW2UAS2R7J00 LQW2UAS3R3J00 LQW2UAS3R9J00 LQW2UAS4R7J00 (pcs.) Inductance Nominal Tolerance 2nH 0nH nh 50nH 0nH 2nH 270nH 330nH 390nH 470nH 560nH 6nH 60nH 750nH nh 9nH 00nH 0nH 500nH 00nH 20nH 2700nH 3300nH 3900nH 4700nH Q (min.) DC Resistance (Ω) max Rated Current (ma) Design Kits Inductor for Low Frequency Circuits 79

182 Memo 0

183 Quick Reference Inductor for Power Lines (Power Inductor) Inductor for Low Frequency Circuits LQH2MC LQH2HP LQH3NP LQH3C LQH32C LQH32P LQH43C LQH43P LQH44P LQH5BP LQH55D LQH55P LQH66S LQMF LQMP LQM2D LQM2F LQM2P LQM2MP LQM2HP LQM3F LQM3P LQM32P LQW5C LQWC p.33 p.37 p.39 p.6 p.69 p.46 p.72 p.50 p.52 p.56 p.74 p.5 p.76 p.60 p.4 p.6 p.62 p.9 p.23 p.25 p.65 p.30 p.32 p.66 p.67 LQH3M LQH32M LQH43M LQH43N LQMN LQM2N p.99 p. p.3 p.3 p.95 p.97 LQG5H LQGH LQH3H LQP02T LQP03T LQP5M LQP5T LQPM LQW04A LQW5A LQWA LQW2H LQW2BA LQW2BH LQW2UA LQW3H p. p.23 p.64 p.25 p.2 p.34 p.32 p.37 p.39 p.42 p.49 p.63 p.57 p.54 p.59 p.6

184 2

185 3

!Note Please read rating and!caution (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or

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