Flow soldering available. Reflow soldering available. Meet large current lines. Meet high frequency noise up to 1-2GHz

Transcription

1 Mar.28,211

2 Introduction Murata Manufacturing Co., Ltd. has been developed the EMI suppression device market since the invention of 3 terminal capacitor DS3 series in Also, we have been struggling to develop and popularize new noise countermeasure technologies as well as new products in the concept of "Develop unique products", as the best solution partner of customers. We hope you can find your key device to your noise problem. Explanation of symbols in this catalog Features of each series Features of each item All Products FlowOK Flow soldering available New product Exist in design kit eflow OK eflow soldering available ated current 1A or more ated current 3A or more Meet large current lines ated current A or more Meet high frequency noise up to 12GHz Meet ultra high frequency noise up to GHz LC Combined Type Filter Low cut off frequency type for UHF band noise which affects to digital TV tuner for high speed differential signal lines (USB2./LVDS/IEEE1394 etc.) for ultra high speed differential signal lines (HDMI/DVI/Display Port/USB3. etc.) Line impedance has been matched to transmission lines for EU ohs Compliant All the products in this catalog comply with EU ohs. EU ohs is "the European Directive 22/95/EC on the estriction 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 ohs' ( Mar.28,211

3 CONTENTS Selection Guide for Noise Suppression Filter 2 EMI Filter Selection by Application 4 adigital Still Camera 4 asmartphone 5 abluray/dvd 6 alcdtv 7 EMI Filter Selection by Circuits and Noise Frequency 8 Product Guide BLp Series Introduction Part Numbering Series Line Up Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits NFp Series Introduction 2 Part Numbering 4 Series Line Up 7 Product Detail 1!Caution/Notice 138 Soldering and Mounting 139 Packaging 145 Design Kits 146 DLp/PLp Series Introduction 15 Part Numbering 152 Series Line Up 154 Product Detail 156!Caution/Notice 174 Soldering and Mounting 176 Packaging 182 Design Kits 184 BN Series Line Up 188 Function Example 188 Product Detail 191!Caution/Notice 195 Soldering and Mounting 197 Packaging 21 Design Kits 22 Product Guide by Size 23 Part Number Quick eference 24 Alphabetic Product Name Index 24 Introduction of elated Catalogs 25 Introduction of EMI/MLCC/Inductor special web site "EMICONFUN!" 26 Mar.28,211

4 Selection Guide for Noise Suppression Filter ofeatures & Suitable Circuits Type Features Suitable Circuits Ferrite Bead BLM/BLA Series Miniaturized Unnecessary of GND connection Effective at low impedance line Application set with less noise radiation Low impedance line Capacitor Type NFM/NFA/NFE/NF/ NFL/NFW Series Great noise suppression effect With effect as ByPass capacitor (Lineup for Power) Good noise separation from signal (LC filter for Signal) Effective at high impedance line Application set with higher noise radiation High impedance line Circuit with ByPass capacitor Circuit driven by high frequency Common Mode Choke Coil Possible to suppress noise with less affect of ultra high speed signal Great effect for common mode noise Less magnetic saturation by current High speed differential signal line I/F cable driver Power line oexample Common Mode Choke Coil Suppresses common mode noise. Ferrite Bead Inductor Suppresses differential mode noise. Vcc DC power supply input section Common Mode Choke Coil Suppresses common mode noise. USB/IEEE1394 GND Threeterminal Capacitor Suppresses differential mode noise. Mar.28,211 2

5 Selection Guide for Noise Suppression Filter oadvantages to Use Common Mode Choke Coils 1. Great Effect for Common Mode Noise Differential mode inductors work as a half impedance for common mode noise. Common Mode Choke Coils are effective for common mode noise. Stray capacitance Noise source N Ex) 2pcs of differential mode inductor ~ Load Stray capacitance eference ground surface 2. Possible to Suppress Noise with Less Affect of Ultra High Speed Signal Common Mode Choke Coils can suppress Noise with less affect of Signal, even if the frequency range of Signal and Noise are same, because of they separate each conductive mode of current. Signal spectrum (Differential mode) Noise spectrum (Common mode) Used differential mode inductor Signal is attenuated with Noise suppression Frequency Frequency Used Common Mode Choke Coil Noise is suppressed without less affect of Signal Frequency 3. Less Magnetic Saturation by Current Common Mode Choke Coils are effective for noise suppression of DC power lines, due to their less magnetic saturation at high power current, that comes from their construction of cancelling magnetic flux of differential mode current at each coils. Mar.28,211 3

6 EMI Filter Selection by Application EMI Filter Selection by Application Digital Still Camera Application Sample Data Line BLM ** B/BLA ** B p57 p85 IC Power Line BLM ** P/BLM ** A p22 p3 Data Line BLM ** B/BLA ** B p57 p85 DLPNS p16 NFM ** P p112 Flash Memory Lens Image Sensor Image Sensor Controler A/D Converter CPU (DSP,JPEG) LCD Controler LCD Panel Speaker Lens Motor Motor Driver MCU Audio Processer USB I/F Card Slot Power Unit Microphone AC Adapter USB Differential Data Line Power Line DLPNS/11S p16 p162 Storage Media Battery AC Adapter Input BLM ** P/BLM ** A p22 p3 DLW5BT p157 NFM ** P p112 Mar.28,211 4

7 EMI Filter Selection by Application EMI Filter Selection by Application Smartphone Application Sample WiFi F Module BLM3/BLM15 p22 p24 p27 p3 p31 p47 p49 p57 p59 p75 p77 p83 LCD/Camera NFA18SL p129 DLPNS/DLP1ND/DLP11S p16 p162 p165 Touch Panel BT SIM Slot Micro SD Slot LCD Monitor GPS LCD Driver Camera Module Cellular F Cellular BB ACPU Audio IC Speaker D/D Converter Flash Memory Mic DAM Power Management IC NFC Battery USB IC Power Line NFM18PS/PC p112 p113 Audio Line BLM2/3 p22 p3 p46 p47 p57 p75 USB DLPNS p16 BLM15P/BLM18KG p31 p32 p42 DLM11G/DLM2HG p158 p159 DLP11S/11T p162 Mar.28,211 5

8 EMI Filter Selection by Application EMI Filter Selection by Application Bluray/DVD Application Sample IC Power Line BLM18P/18K/18EG/21P NFM18PS/PC p28 p34 p36 p42 p112 p113 Control Panel Data Line BLM15B/15H/15G BLA p59 p77 p83 p85 p88 Optical Drive Clock Line Panel Controller BLM ** B p57 Memory System Processor System Control CLK Imaging Processor NFL18/21 to Power Supply p125 p128 Power Line Audio Line Video Line Date Line Power Line Video Encoder Decoder CLK Audio AD/DAC Demodulatio IC Power Line 1394 Transceiver HDMI Transmitter BLM18P/18K/18EG NFM ** P p28 p34 p42 p112 TV Tuner DLW5 p157 Head Phone IEEE1394 HDMI Video Audio DLP11S/DLP2AD p162 p166 DLP11S/DLP2AD p162 p166 BLM ** B/BLA ** B p57 p85 DLM11G p158 DLW21 p169 DLW21 p169 NFL18/21 p125 p128 DLM2HG p159 Mar.28,211 6

9 EMI Filter Selection by Application EMI Filter Selection by Application LCDTV Application Sample SDS Line DLP11S/DLP2AD p162 p166 LVDS SDS GrayScale Voltage Generater Timing Controler esalution Convert Scaler IP Convert Frame Memory LVDS Line DLP11S/DLP2AD p162 p166 Source Driver Display Gate Driver Picture Processing Engine Audio Processor Audio IN/OUT Audio Power Amp Back Light A/D Convert Video Decoder AC Converter Backlight Up Convert Panel Picture Processing Environment IC Tuner (BS/CS/UHF) Analog I/O (GB Composite) Digital I/O (DVI,iLink/HDMI) Audio Line DLW5BT p157 AC IN IC Power Line NFM18PS/PC p112 p113 BLM18P/18K/18EG p28 p34 p42 Digital I/O DLP11S/DLP2AD DLW21S p162 p166 p169 Mar.28,211 7

10 EMI Filter Selection by Circuits and Noise Frequency o / Circuit Type? Power Line General Signal Line Under MHz High Speed Signal Line Over MHz Noise Frequency? Noise Frequency: Under 1GHz Inductor Type (Suppression Effect: Normal) Capacitor Type (Suppression Effect: High) BLM3A 21/.21A/Imp.Ω BLM3P 21/.75.9A/Imp.2233Ω BLM15A 42/ A/Imp.Ω BLM15P 42/1.8A/Imp.12Ω BLM15PG/PD 42/12.2A/Imp.12Ω BLM18P 63/.53A/Imp.347Ω BLM21P 85/1.56A/Imp.2233Ω BLM31P 126/1.56A/Imp.336Ω BLM41P 186/1.56A/Imp.6Ω Low DC esistance Type BLM18K 63/1.36A/Imp.266Ω BLM18S 63/1.56A/Imp.2633Ω NFM18PC 63/24A/Cap..12.2µF NFM21P 85/26A/Cap..14.7µF NFM3DP 125/2A/Cap..22µF NFM31P 126/6A/Cap.27µF NFM41P 186/26A/Cap..21.5µF NFM55P 222/6A/Cap.1.5µF T Circuit Filter Feed Through Type NFE31P 126/6A/Cap.2222pF NFE61P 276/2A/Cap.3347pF Block Type BN22/23 15A/ange1MHz2GHz p22 p3 p24 p31 p32 p34 p36 p38 p4 p42 p44 p113 p115 p116 p117 p118 p119 p1 p111 p191 BLM2A 5/Imp.12Ω BLM3A 21/Imp.Ω BLM15A 42/Imp.Ω BLM18A 63/Imp.12Ω BLM18T 63/Imp.12Ω BLM18 63/Imp.12Ω BLM21A 85/Imp.12Ω BLM21 85/Imp.12Ω Array Type BLA2AA 84/Imp.12Ω BLA31A 126/Imp.3Ω NFM18C 63/Cap.2222pF NFM21C 85/Cap.2222pF NFM3DC 125/Cap.2222pF NFM41C 186/Cap.2222pF Array Type NFA31C 126/Cap.2222pF T Circuit Filter Feed Through Type NFE31P 126/Cap.2222pF NFE61P 276/Cap.3347pF p46 p47 p49 p52 p56 p7 p54 p72 p85 p88 p12 p121 p122 p123 p124 p1 p111 BLM3B 21/Imp.6Ω BLM15B 42/Imp.518Ω BLM18B 63/Imp.525Ω BLM21B 85/Imp.527Ω Array Type BLA2AB 84/Imp.Ω BLA31B 126/Imp.12Ω LC Combined NFL18ST 63/Cut off 55MHz NFL18SP 63/Cut off 155MHz NFL21S 85/Cut off 5MHz NFW31S 126/Cut off 5MHz C Combined NF21G 85/22Ω/Cap.pF Array Type (C/LC Combined) NFA31G 126/6.8Ω/Cap.pF NFA18S 63/Cut off 548MHz NFA21S 85/Cut off 533MHz p57 p59 p63 p67 p85 p88 p125 p127 p128 p134 p136 p137 p129 p132 Noise Frequency: GHz Band Inductor Type (Suppression Effect: Normal) Capacitor Type (Suppression Effect: High) BLM15EG 42/.71.5A/Imp.1222Ω BLM18HE 63/.5.8A/Imp.615Ω BLM18EG 63/.52A/Imp.6Ω NFM18PS 63/2A/Cap..471.µF p27 p79 p28 p112 BLM3HG 21/Imp.6Ω BLM15HG 42/Imp.6Ω BLM15EG 42/Imp.1222Ω BLM18HG 63/Imp.47Ω BLM18HK 63/Imp.33Ω BLM18EG 63/Imp.6Ω p75 p77 p27 p79 p79 p28 BLM3HD 21/Imp.33Ω BLM15HD 42/Imp.618Ω BLM15HB 42/Imp.1222Ω BLM18HD 63/Imp.47Ω BLM18HB 63/Imp.1233Ω BLM18HE 63/Imp.615Ω LC Combined NFL18ST 63/Cut off 25MHz Array Type (LC Combined) NFA18S 63/Cut off 548MHz NFA21S 85/Cut off 533MHz p75 p77 p77 p79 p79 p79 p125 p131 p132 Noise Frequency: HighGHz Band Inductor Type BLM15GG 42/Imp.2247Ω BLM18GG 63/Imp.47Ω p83 p84 BLM15GA 42/Imp.75Ω p83 Mar.28,211 8

11 EMI Filter Selection by Circuits and Noise Frequency o Circuit Type? High Speed Differential Signal Line DC Power Line High Speed Signal Line (USB/LVDS/IEEE1394 etc.) Ultra High Speed Signal Line (HDMI/DVI/Display Port etc.) Audio Line p156 DLW5AH 214/.2A/Imp.4Ω DLW5BS 22/.55A/Imp.193Ω DLW5BT 22/1.56A/Imp.14Ω p156 p157 High Current Type Automotive Available p173 PLTHH 12.9mmx6.6mm /6A/Imp.4Ω DLPNS 325/Imp.1512Ω DLP11SN 54/Imp.3533Ω DLW21H 85/Imp.6718Ω DLW21S_SQ 85/Imp.6737Ω DLP31S 126/Imp.1255Ω DLW31S 126/Imp.922Ω Array Type DLP1ND 525/Imp.359Ω DLP2AD 84/Imp.3528Ω DLP31D 126/Imp.944Ω p16 p162 p171 p169 p164 p172 p165 p166 p168 DLP11SA 54/Imp.359Ω DLP11TB 54/Imp.8Ω DLW21S_HQ 85/Imp.6712Ω p162 p162 p169 p158 DLM11G 54/Imp.6Ω DLM2HG 8/Imp.6Ω DLW5BT 22/1.56A/Imp.14Ω p159 p157 Guide of Digits in this Chart: ofor BLM3P 21/.75.9A/Imp.2233Ω Size (inch) ated Current Impedance ofor BN22/23 15A/ange1MHz2GHz ated Current Effective Frequency ange ofor NF21G 85/22Ω/Cap.pF Size (inch) ofor NFA18S esistance Capacitance 63/Cut off 548MHz Size (inch) Cutoff Frequency ofor DLW5BS 22/.55A/Imp.193Ω Size ated Current Impedance (inch) Mar.28,211 9

12 Product Guide BLp For General Band Noise For GHz Band Noise For HighGHz Band Noise Inductor Type Universal Type [ Power Lines / Signal Lines ] Signal Lines Type Power Lines Type Signal Lines Type For General Signal Lines For High Speed Signal Lines For Digital Interface Lines Signal Lines Type Universal Type [ Power Lines / Signal Lines ] Series BLM3A p22 21 (63) BLM15A p24 42 (5) BLM2A p46 5 (42) 7 12 BLM3AG p (63) BLM15AG p49 42 (5) BLM18A BLM21A p (168) p (212) BLM18T p56 63 (168) p85 BLA2AA (4 circuits array) 84 (2) p88 BLA31A (4 circuits array) 126 (3216) BLM3B p (63) BLM15B BLM18B BLM21B p (5) p (168) p (212) p85 BLA2AB 6 84 (2) (4 circuits array) p88 BLA31B (3216) (4 circuits array) BLM18 BLM21 p (168) p (212) BLM3P p3 33 (.75A) 21 (63) 22 (.9A) BLM15P* p31 3 (2.2A) 8 (1.5A) 42 (5) (1A) 6 (1.7A)12 (1.3A/1.8A) BLM18P* BLM21P* BLM31P* BLM41P* p34 33 (3A) 12 (2A) 22 (1.4A) 47 (1A) 63 (168) 3 (1A) 6 (.5A) 18 (1.5A) 33 (1.2A) p36 3 (3A) 22 (2A) 85 (212) 22 (6A) 6 (3A) 12 (3A) 33 (1.5A) p38 5 (3A) 39 (2A) 126 (3216) 33 (6A) 12 (3A) 6 (1.5A) p4 75 (3A) 47 (2A) 186 (4516) 6 (6A) 18 (3A) (1.5A) p42 BLM18K* 3 (5A) 7 (3.5A) 22 (2.2A) 47 (1.5A) 63 (168) (Low DC esistance Type) 26 (6A) (3A) 12 (3A) 33 (1.7A) 6 (1.3A) p44 BLM18S* 7 (4A) 22 (2.5A) 63 (168) (Low DC esistance Type) 26 (6A) 12 (3A) 33 (1.5A) BLM15EG* p27 22 (.7A) 42 (5) 12 (1.5A) BLM18EG* p28 12 (2A) 33 (.5A) 47 (.5A) 63 (168) (2A) 22 (2A/1A) 39 (.5A) 6 (.5A) p75 BLM3HG 21 (63) 6 BLM3HD p (63) p77 BLM15HG 42 (5) 6 p77 BLM15HD 42 (5) 6 18 p77 BLM15HB 42 (5) BLM18HG p (168) 47 p79 BLM18HE* 63 (168) BLM18HD p79 Size Code Inch (mm) 63 (168) p79 BLM18HB 63 (168) p79 BLM18HK 63 (168) p83 BLM15GG 42 (5) p83 BLM15GA 42 (5) p84 BLM18GG 63 (168) at MHz (.6A) 6 (.8A) 15 (.5A) Effective Frequency ange khz khz 1MHz MHz MHz 1GHz GHz * The derating of rated current is required for some items according to the operating temperature on the each product page. Mar.28,211

13 Product Guide NFp Capacitor Type Signal Lines Type Power Lines Type Universal Type [ Power Lines / Signal Lines ] Series p12 NFM18C 63 (168) NFM21C NFM3DC NFM41C NFA31C (4 circuits array) NFM18P NFM21P NFM3DP* NFM31P NFM41P NFE31P NFE61P p121 p122 p123 p124 p112 p115 p116 p117 p (212) 125 (3212) 186 (4516) 126 (3216) 63 (168) 85 (212) 125 (3212) 126 (3216) 186 (4516) p119 NFM55P 222 (575) p1 p111 Size Code Inch (mm) 126 (3216) 276 (6816) Capacitance (F) Effective Frequency ange p p p p.1µ 1µ µ khz khz 1MHz MHz MHz 1GHz GHz NFp LC(C) Combined Type Series Size Code Inch (mm) Cutoff 5 Effective Frequency ange khz khz 1MHz MHz MHz 1GHz GHz p125 NFL18ST 63 (168) p127 NFL18SP 63 (168) Signal Lines Type NFL21S p (212) p129 NFA18S (4 circuits array) 63 (168) p132 NFA21S (4 circuits array) 85 (212) NFW31S p (3216) NF21G p (212) p137 NFA31G (4 circuits array) 126 (3216) * The derating of rated current is required for some items according to the operating temperature on the each product page. Mar.28,211 11

14 Product Guide DLp/PLp Common Mode Choke Coils Large Current Common Mode Choke Coil for Automotive Available Signal Lines Type For Audio Lines For Ultra High Speed Signal Lines Universal Type [ Power Lines / Signal Lines ] Large Current Type for Automotive Available Series DLM11G DLM2HG DLPNS DLP11S DLP31S DLP2AD (2 circuits array) DLP31D (2 circuits array) DLW21S DLW21H DLW31S DLW5BS* / DLW5AH DLW5BT* Size Code Inch (mm) 54 (12) 8 (252) p (86) p (12) p163 DLP11TB 54 (12) 126 (3216) p165 DLP1ND 525 (156) PLTHH p158 p159 p164 p166 p168 p169 p171 p (2) 126 (3216) 85 (212) 85 (212) 126 (3216) p (55) (536) p157 p (55) Common Mode at MHz (at MHz) Effective Frequency ange khz khz 1MHz MHz MHz 1GHz GHz BN Block EMIFILr Series Height (mm) ated Voltage (Vdc) ated Current (A) Effective Frequency ange khz khz 1MHz MHz MHz 1GHz GHz BN22* p Power Lines Type Lead Type SMD Type BN23* BN24 BN25 BN2 BN3 BN5 BN12* p191 p191 p191 p193 p193 p193 p max. 18 max max BN16* p * The derating of rated current is required for some items according to the operating temperature on the each product page. Mar.28,211 12

15 BLp Series Introduction Part Numbering Series Line Up Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits Mar.28,211

16 BLp Series Introduction Example of BLM Series Structure Inner Electrode Outer Electrode Ferrite Sheet Through Hole Cross Section Equivalent Circuit Line Up Classification of 16 Meet HighGHz Band Noise HighGHz Band High GHz Band Noise Frequency Band BLM_G Series BLM18Gp BLM15Gp BLM_H Series BLM18Hp BLM15Hp BLM_E Series BLM18Ep BLM15Ep Low BLM standard line up K(for digital interfaces) AG (for general signal lines) Bp (for high speed signal lines) A(for general signal lines / power lines) BLM_P Series (for Power Lines) Large current available up to 6A Small (Less than 1A) ated Current Large (1A and more) Mar.28,211 14

17 BLp Series Introduction Difference between BLM A type and B type (HG type vs HD/HB type) A type: Impedance curve rises from low frequency range. Suppress noise in wide frequency range. B type: Impedance curve rises sharply. Less damage to signal waveforms. ccomparison of Impedance Curve ccomparison of esistance Element 12 9 BLM18BD61SN BLM18BD61SN1 (Ω) 6 BLM18AG61SN1 (Ω) 6 BLM18AG61SN ccomparison of Test Effect (25MHz) Test Circuit 29.7cm Waveform test point 7cm Waveform 25MHz OSC 1cm Ferrite Bead Pattern width.15cm 74HC4 74HC4 Line impedance 127Ω 74HC Both side glass epoxy PCB(ε4.7) All of back side is GND PCB thickness=.6mm BLM_B Series has less damage to high speed signal waveform. No filter BLM18AG61SN1 BLM18BD61SN1 Small Distortion Spectrum Spectrum has been reduced from low frequency range. Noise frequency has been reduced without reducing signals of low frequency. Mar.28,211 15

18 BLp Part Numbering (Part Number) BL M 18 AG 2 S N 1 D q w e r t y u i o qproduct ID Product ID BL s wtype Code Type A M Array Type Ferrite Bead Single Type edimensions (LgW) Code Dimensions (LgW) EIA A g.2mm.6g.3mm 1.g.5mm 1.6g.8mm 2.g1.mm 2.g1.25mm 3.2g1.6mm 4.5g1.6mm timpedance Expressed by three figures. The unit is in ohm (Ω) at MHz. The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. yelectrode Expressed by a letter. Ex.) Code ucategory Code N S/T A inumber of Circuits Code 1 4 Electrode Sn Plating Au Plating Category Standard Type Number of Circuits 1 Circuit 4 Circuits Mar.28, rcharacteristics/applications Code * 1 AG A TG BA BB BC BD PD PG P KG SG K HG EG HB HD HE HK GA GG opackaging Code K L B J D Characteristics/Applications for General Use for Highspeed Signal Lines for Power Supplies for Power Supplies (Low DC esistance Type) for Digital Interface for GHz Band General Use for GHz Band General Use (Low DC esistance Type) for GHz Band Highspeed Signal Lines for GHz Band Digital Interface for HighGHz Band Highspeed Signal Lines for HighGHz Band General Use * 1 Frequency characteristics vary with each code. Packaging Embossed Taping (ø33mm eel) Embossed Taping (ø18mm eel) Bulk Paper Taping (ø33mm eel) Paper Taping (ø18mm eel) BLM2/3/15/18/21, BLA2A/31 BLM3/15 BLM18 BLM15/18 BLM3/15/18/21, BLA2A BLM3/15 BLM3/15/18/21, BLA2A/31 BLM15 BLM3/15/18/21/31/41 BLM15 BLM18 BLM18/21 BLM3/15/18 BLM15/18 BLM15/18 BLM3/15/18 BLM18 BLM18 BLM15 BLM15/18 * 1 BLM21BD222SN1/BLM21BD272SN1 only. * 2 Except BLM21BD222SN1/BLM21BD272SN1 * 3 Except BLM18T BLM21 * 1 /31/41 Series Series All Series BLM3/15/18 * 3 /21 * 2, BLA2A/31 BLM2/3/15/18/21 * 2, BLA2A/31

19 BLp Series Line Up Size Code (Inch) Thickness (mm) Type For General Signal Lines For General Signal Lines Universal Type [Power lines/signal lines] For High Speed Signal Lines (Sharp Impedance Curve) For GHz Band Noise For Power Lines For General Signal Lines For High Speed Signal Lines For General Signal Lines Universal Type [Power lines/signal lines] p46 p47 p22 p57 p3 p75 p75 p49 p51 p24 Part Number Impedance ated at MHz/2 C at 1GHz/2 C Current BLM2AGSN1 ohm(typ.) 5mA BLM2AG7SN1 7ohm±25% 25mA BLM2AG121SN1 12ohm±25% 2mA BLM3AGSN1 ohm(typ.) 5mA BLM3AG7SN1 7ohm(Typ.) 2mA BLM3AG8SN1 8ohm±25% 2mA BLM3AG121SN1 12ohm±25% 2mA BLM3AG241SN1 24ohm±25% 2mA BLM3AG61SN1 6ohm±25% ma BLM3AG2SN1 ohm±25% ma BLM3ASN1 ohm(typ.) ma BLM3A8SN1 8ohm±25% 5mA BLM3A121SN1 12ohm±25% 45mA BLM3A241SN1 24ohm±25% 35mA BLM3A61SN1 6ohm±25% 25mA BLM3A2SN1 ohm±25% 2mA BLM3BD75SN1 75ohm±25% 3mA BLM3BD121SN1 12ohm±25% 25mA BLM3BD241SN1 24ohm±25% 2mA BLM3BD471SN1 47ohm±25% 215mA BLM3BD61SN1 6ohm±25% 2mA BLM3BBSN1 ohm±25% 3mA BLM3BB22SN1 22ohm±25% 2mA BLM3BB47SN1 47ohm±25% 2mA BLM3BB75SN1 75ohm±25% 2mA BLM3BB121SN1 12ohm±25% ma BLM3BC33SN1 33ohm±25% 15mA BLM3BC56SN1 56ohm±25% ma BLM3BC8SN1 8ohm±25% ma BLM3PG22SN1 22ohm±25% 9mA BLM3PG33SN1 33ohm±25% 75mA BLM3HG61SN1 6ohm±25% ohm±4% 15mA BLM3HG2SN1 ohm±25% 18ohm±4% 125mA BLM3HD331SN1 33ohm±25% 2mA BLM3HD471SN1 47ohm±25% 175mA BLM3HD61SN1 6ohm±25% 15mA BLM3HD2SN1 ohm±25% 12mA BLM15AGSN1 ohm(typ.) ma BLM15AG7SN1 7ohm(Typ.) 5mA BLM15AG121SN1 12ohm±25% 5mA BLM15AG221SN1 22ohm±25% 3mA BLM15AG61SN1 6ohm±25% 3mA BLM15AG2SN1 ohm±25% 2mA BLM15AG61AN1 6ohm±25% 3mA BLM15AG2AN1 ohm±25% 2mA BLM15ASN1 ohm(typ.) 174mA BLM15A3SN1 3ohm±25% 1mA BLM15A7SN1 7ohm±25% 78mA BLM15A121SN1 12ohm±25% 68mA BLM15A221SN1 22ohm±25% 58mA BLM15A61SN1 6ohm±25% 42mA BLM15A2SN1 ohm±25% 35mA Continued on the following page. Mar.28,211 17

20 BLp Series Line Up Size Code (Inch) Thickness (mm) BLM15BA47SN1 47ohm±25% 2mA BLM15BA75SN1 75ohm±25% 2mA p31 BLM15P121SN1 12ohm±25% 18mA p32 BLM15PGSN1 ohm(typ.) ma For Power Lines BLM15PD3SN1 3ohm±25% 22mA BLM15PD6SN1 6ohm±25% 17mA BLM15PD8SN1 8ohm±25% 15mA BLM15PD121SN1 12ohm±25% 13mA p77 BLM15HG61SN1 6ohm±25% ohm±4% 3mA For General Signal Lines BLM15HG2SN1 ohm±25% 14ohm±4% 25mA p77 BLM15HD61SN1 6ohm±25% 14ohm±4% 3mA For High Speed BLM15HD2SN1 ohm±25% 2ohm±4% 25mA Signal Lines BLM15HD182SN1 18ohm±25% 27ohm±4% 2mA (Sharp Impedance Curve) BLM15HB121SN1 12ohm±25% 5ohm±4% 3mA BLM15HB221SN1 22ohm±25% 9ohm±4% 25mA Universal Type p27 BLM15EG121SN1 12ohm±25% 145ohm(Typ.) 15mA [Power Lines/Signal Lines] BLM15EG221SN1 22ohm±25% 27ohm(Typ.) 7mA p83 BLM15GG221SN1 22ohm±25% 6ohm±4% 3mA For General Signal Lines BLM15GG471SN1 47ohm±25% 12ohm±4% 2mA For High Speed Signal Lines p83 BLM15GA75SN1 75ohm±25% ohm±4% 2mA p52 BLM18AG121SN1 12ohm±25% 5mA BLM18AG151SN1 15ohm±25% 5mA BLM18AG221SN1 22ohm±25% 5mA BLM18AG331SN1 33ohm±25% 5mA BLM18AG471SN1 47ohm±25% 5mA For General Signal Lines BLM18AG61SN1 6ohm±25% 5mA BLM18AG2SN1 ohm±25% 4mA p56 BLM18TG121TN1 12ohm±25% 2mA BLM18TG221TN1 22ohm±25% 2mA BLM18TG61TN1 6ohm±25% 2mA BLM18TG2TN1 ohm±25% ma For GHz Band Noise For HighGHz Band Noise Type For High Speed Signal Lines (Sharp Impedance Curve) p59 Part Number Impedance ated at MHz/2 C at 1GHz/2 C Current BLM15BD75SN1 75ohm±25% 3mA BLM15BD121SN1 12ohm±25% 3mA BLM15BD221SN1 22ohm±25% 3mA BLM15BD471SN1 47ohm±25% 2mA BLM15BD61SN1 6ohm±25% 2mA BLM15BD2SN1 ohm±25% 2mA BLM15BD182SN1 18ohm±25% ma BLM15BB5SN1 5ohm±25% 5mA BLM15BBSN1 ohm±25% 3mA BLM15BB22SN1 22ohm±25% 3mA BLM15BB47SN1 47ohm±25% 3mA BLM15BB75SN1 75ohm±25% 3mA BLM15BB121SN1 12ohm±25% 3mA BLM15BB221SN1 22ohm±25% 2mA BLM15BC121SN1 12ohm±25% 35mA BLM15BC241SN1 24ohm±25% 25mA BLM15BA5SN1 5ohm±25% 3mA BLM15BASN1 ohm±25% 3mA BLM15BA22SN1 22ohm±25% 3mA.5 BLM15BA33SN1 33ohm±25% 3mA Continued on the following page. Mar.28,211 18

21 BLp Series Line Up Size Thickness Code (Inch) (mm) For Power Lines Type For High Speed Signal Lines (Sharp Impedance Curve) For Digital Interface Lines Standard Type p63 p7 p34 p42 Low DC esistance Type p44 Part Number Impedance ated at MHz/2 C at 1GHz/2 C Current BLM18BD47SN1 47ohm±25% 5mA BLM18BD121SN1 12ohm±25% 2mA BLM18BD151SN1 15ohm±25% 2mA BLM18BD221SN1 22ohm±25% 2mA BLM18BD331SN1 33ohm±25% 2mA BLM18BD421SN1 42ohm±25% 2mA BLM18BD471SN1 47ohm±25% 2mA BLM18BD61SN1 6ohm±25% 2mA BLM18BD2SN1 ohm±25% ma BLM18BD152SN1 15ohm±25% 5mA BLM18BD182SN1 18ohm±25% 5mA BLM18BD222SN1 22ohm±25% 5mA BLM18BD252SN1 25ohm±25% 5mA BLM18BB5SN1 5ohm±25% 7mA BLM18BBSN1 ohm±25% 7mA BLM18BB22SN1 22ohm±25% 6mA BLM18BB47SN1 47ohm±25% 55mA BLM18BB6SN1 6ohm±25% 55mA BLM18BB75SN1 75ohm±25% 5mA BLM18BB121SN1 12ohm±25% 5mA BLM18BB141SN1 14ohm±25% 45mA BLM18BB151SN1 15ohm±25% 45mA BLM18BB221SN1 22ohm±25% 45mA BLM18BB331SN1 33ohm±25% 4mA BLM18BB471SN1 47ohm±25% 3mA BLM18BA5SN1 5ohm±25% 5mA BLM18BASN1 ohm±25% 5mA BLM18BA22SN1 22ohm±25% 5mA BLM18BA47SN1 47ohm±25% 3mA BLM18BA75SN1 75ohm±25% 3mA BLM18BA121SN1 12ohm±25% 2mA BLM18K121SN1 12ohm±25% 2mA BLM18K221SN1 22ohm±25% 2mA BLM18K471SN1 47ohm±25% 2mA BLM18K61SN1 6ohm±25% 2mA BLM18K2SN1 ohm±25% 2mA BLM18PG3SN1 3ohm(Typ.) ma BLM18PG33SN1 33ohm±25% 3mA BLM18PG6SN1 6ohm(Typ.) 5mA BLM18PG121SN1 12ohm±25% 2mA BLM18PG181SN1 18ohm±25% 15mA BLM18PG221SN1 22ohm±25% 14mA BLM18PG331SN1 33ohm±25% 12mA BLM18PG471SN1 47ohm±25% ma BLM18KG26TN1 26ohm±25% 6mA BLM18KG3TN1 3ohm±25% 5mA BLM18KG7TN1 7ohm±25% 35mA BLM18KG1TN1 ohm±25% 3mA BLM18KG121TN1 12ohm±25% 3mA BLM18KG221SN1 22ohm±25% 22mA BLM18KG331SN1 33ohm±25% 17mA BLM18KG471SN1 47ohm±25% 15mA BLM18KG61SN1 6ohm±25% 13mA BLM18SG26TN1 26ohm±25% 6mA BLM18SG7TN1 7ohm±25% 4mA BLM18SG121TN1 12ohm±25% 3mA BLM18SG221TN1 22ohm±25% 25mA BLM18SG331TN1 33ohm±25% 15mA Continued on the following page. Mar.28,211 19

22 BLp Series Line Up Size Thickness Code (Inch) (mm) For GHz Band Noise Type For General Signal Lines For High Speed Signal Lines (Sharp Impedance Curve) For Digital Interface Lines Universal Type [Power lines/ Signal lines] For HighGHz Band Noise For General Signal Lines For High Speed Signal Lines (Sharp Impedance Curve) For Digital Interface Lines p79 p79 p79 p28 p84 p54 p67 p72 Part Number Impedance ated at MHz/2 C at 1GHz/2 C Current BLM18HG471SN1 47ohm±25% 6ohm(Typ.) 2mA BLM18HG61SN1 6ohm±25% 7ohm(Typ.) 2mA BLM18HG2SN1 ohm±25% ohm(typ.) ma BLM18HE61SN1 6ohm±25% 6ohm(Typ.) 8mA BLM18HE2SN1 ohm±25% ohm(typ.) 6mA BLM18HE152SN1 15ohm±25% 15ohm(Typ.) 5mA BLM18HD471SN1 47ohm±25% ohm(typ.) ma BLM18HD61SN1 6ohm±25% 12ohm(Typ.) ma BLM18HD2SN1 ohm±25% 17ohm(Typ.) 5mA BLM18HB121SN1 12ohm±25% 5ohm±4% 2mA BLM18HB221SN1 22ohm±25% 1ohm±4% ma BLM18HB331SN1 33ohm±25% 16ohm±4% 5mA BLM18HK331SN1 33ohm±25% 4ohm±4% 2mA BLM18HK471SN1 47ohm±25% 6ohm±4% 2mA BLM18HK61SN1 6ohm±25% 7ohm±4% ma BLM18HK2SN1 ohm±25% 12ohm±4% 5mA BLM18EG1TN1 ohm±25% 14ohm(Typ.) 2mA BLM18EG121SN1 12ohm±25% 145ohm(Typ.) 2mA BLM18EG221SN1 22ohm±25% 26ohm(Typ.) 2mA BLM18EG221TN1 22ohm±25% 3ohm(Typ.) ma BLM18EG331TN1 33ohm±25% 45ohm(Typ.) 5mA BLM18EG391TN1 39ohm±25% 52ohm(Typ.) 5mA BLM18EG471SN1 47ohm±25% 55ohm(Typ.) 5mA BLM18EG61SN1 6ohm±25% 7ohm(Typ.) 5mA BLM18GG471SN1 47ohm±25% 18ohm±3% 2mA BLM21AG121SN1 12ohm±25% 2mA BLM21AG151SN1 15ohm±25% 2mA BLM21AG221SN1 22ohm±25% 2mA BLM21AG331SN1 33ohm±25% 2mA BLM21AG471SN1 47ohm±25% 2mA BLM21AG61SN1 6ohm±25% 2mA BLM21AG2SN1 ohm±25% 2mA BLM21BD121SN1 12ohm±25% 2mA BLM21BD151SN1 15ohm±25% 2mA BLM21BD221SN1 22ohm±25% 2mA BLM21BD331SN1 33ohm±25% 2mA BLM21BD421SN1 42ohm±25% 2mA BLM21BD471SN1 47ohm±25% 2mA BLM21BD61SN1 6ohm±25% 2mA BLM21BD751SN1 75ohm±25% 2mA BLM21BD2SN1 ohm±25% 2mA BLM21BD152SN1 15ohm±25% 2mA BLM21BD182SN1 18ohm±25% 2mA BLM21BD222TN1 22ohm±25% 2mA BLM21BD222SN1 225ohm(Typ.) 2mA BLM21BD272SN1 27ohm±25% 2mA BLM21BB5SN1 5ohm±25% 5mA BLM21BB6SN1 6ohm±25% 2mA BLM21BB75SN1 75ohm±25% 2mA BLM21BB121SN1 12ohm±25% 2mA BLM21BB151SN1 15ohm±25% 2mA BLM21BB21SN1 2ohm±25% 2mA BLM21BB221SN1 22ohm±25% 2mA BLM21BB331SN1 33ohm±25% 2mA BLM21BB471SN1 47ohm±25% 2mA BLM21K121SN1 12ohm±25% 2mA BLM21K221SN1 22ohm±25% 2mA BLM21K471SN1 47ohm±25% 2mA BLM21K61SN1 6ohm±25% 2mA BLM21K2SN1 ohm±25% 2mA Continued on the following page. Mar.28,211 2

23 BLp Series Line Up Size Thickness Code (Inch) (mm) Type For Power Lines For Power Lines For Power Lines For General Signal Lines For High Speed Signal Lines For General Signal Lines For High Speed Signal Lines p36 p38 p4 p85 p85 p88 p88 Part Number Impedance ated at MHz/2 C at 1GHz/2 C Current BLM21PG22SN1 22ohm±25% 6mA BLM21PG3SN1 3ohm(Typ.) 3mA BLM21PG6SN1 6ohm±25% 3mA BLM21PG121SN1 12ohm±25% 3mA BLM21PG221SN1 22ohm±25% 2mA BLM21PG331SN1 33ohm±25% 15mA BLM31PG33SN1 33ohm±25% 6mA BLM31PG5SN1 5ohm(Typ.) 3mA BLM31PG121SN1 12ohm±25% 3mA BLM31PG391SN1 39ohm±25% 2mA BLM31PG61SN1 6ohm±25% 15mA BLM41PG6SN1 6ohm(Typ.) 6mA BLM41PG75SN1 75ohm(Typ.) 3mA BLM41PG181SN1 18ohm±25% 3mA BLM41PG471SN1 47ohm±25% 2mA BLM41PG2SN1 ohm±25% 15mA BLA2AAG121SN4 12ohm±25% ma BLA2AAG221SN4 22ohm±25% 5mA BLA2AAG61SN4 6ohm±25% 5mA BLA2AAG2SN4 ohm±25% 5mA BLA2ABBSN4 ohm±25% 2mA BLA2ABB22SN4 22ohm±25% 2mA BLA2ABB47SN4 47ohm±25% 2mA BLA2ABB121SN4 12ohm±25% 5mA BLA2ABB221SN4 22ohm±25% 5mA BLA2ABD75SN4 75ohm±25% 2mA BLA2ABD121SN4 12ohm±25% 2mA BLA2ABD221SN4 22ohm±25% ma BLA2ABD471SN4 47ohm±25% ma BLA2ABD61SN4 6ohm±25% ma BLA2ABD2SN4 ohm±25% 5mA BLA31AG3SN4 3ohm±25% 2mA BLA31AG6SN4 6ohm±25% 2mA BLA31AG121SN4 12ohm±25% 15mA BLA31AG221SN4 22ohm±25% 15mA BLA31AG61SN4 6ohm±25% ma BLA31AG2SN4 ohm±25% 5mA BLA31BD121SN4 12ohm±25% 15mA BLA31BD221SN4 22ohm±25% 15mA BLA31BD471SN4 47ohm±25% ma BLA31BD61SN4 6ohm±25% ma BLA31BD2SN4 ohm±25% 5mA Mar.28,211 21

24 BLM Series Universal Type [Power Lines/Signal Lines] Type BLM3A BLM3ASeries (21 Size) High Spec Ferrite Bead Ultra low dc resistance and wide impedance line up. Fit for both power lines and signal lines. Universal Type [Power Lines/Signal Lines] Dimensions.6±.3.3±.3.15±.5.3±.3 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 15 J 33mm eel Paper Tape 5 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM3ASN1p ohm(typ.) ma.5ohm max. 55 C to +125 C BLM3A8SN1p 8ohm±25% 5mA.18ohm max. 55 C to +125 C BLM3A121SN1p 12ohm±25% 45mA.23ohm max. 55 C to +125 C BLM3A241SN1p 24ohm±25% 35mA.38ohm max. 55 C to +125 C BLM3A61SN1p 6ohm±25% 25mA.85ohm max. 55 C to +125 C BLM3A2SN1p ohm±25% 2mA 1.25ohm max. 55 C to +125 C Number of Circuits: 1 ImpedanceFrequency Characteristics (Main Items) BLM3A2SN1 BLM3A61SN1 BLM3A241SN1 BLM3A121SN1 BLM3A8SN1 BLM3ASN1 1 3 ImpedanceFrequency Characteristics BLM3ASN1 BLM3A8SN1 BLM3A121SN Continued on the following page. Mar.28,211 22

25 BLM Series Universal Type [Power Lines/Signal Lines] BLM3A BLM3A Series (21 Size) ImpedanceFrequency Characteristics BLM3A241SN1 BLM3A61SN1 BLM3A2SN Universal Type [Power Lines/Signal Lines] 1 3 Mar.28,211 23

26 BLM Series Universal Type [Power Lines/Signal Lines] BLM15A BLM15ASeries (42 Size) High Spec Ferrite Bead Ultra low dc resistance and wide impedance line up. Fit for both power lines and signal lines. Universal Type [Power Lines/Signal Lines] Dimensions.25±.1 1.±.5.5±.5.5±.5 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape J 33mm eel Paper Tape 5 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM15ASN1p ohm(typ.) 174mA.15ohm max. 55 C to +125 C BLM15A3SN1p 3ohm±25% 1mA.6ohm max. 55 C to +125 C BLM15A7SN1p 7ohm±25% 78mA.1ohm max. 55 C to +125 C BLM15A121SN1p 12ohm±25% 68mA.13ohm max. 55 C to +125 C BLM15A221SN1p 22ohm±25% 58mA.18ohm max. 55 C to +125 C BLM15A61SN1p 6ohm±25% 42mA.34ohm max. 55 C to +125 C BLM15A2SN1p ohm±25% 35mA.49ohm max. 55 C to +125 C Number of Circuits: Continued on the following page. BLM15A2SN1 BLM15A61SN1 BLM15A221SN1 BLM15A121SN1 BLM15A7SN1 BLM15A3SN1 BLM15ASN1 1 3 Mar.28,211 24

27 BLM Series Universal Type [Power Lines/Signal Lines] BLM15A Series (42 Size) BLM15A ImpedanceFrequency Characteristics BLM15ASN BLM15A121SN BLM15A3SN BLM15A221SN BLM15A7SN BLM15A61SN1 1 3 Universal Type [Power Lines/Signal Lines] BLM15A2SN Mar.28,211 25

28 Feature Advantage BLMppA Series Universal Type [Power Lines/Signal Lines] Excellent for Both of Signal and Power Lines! Multi Function BLMppA Series Feature a1/2 DC resistance than conventional type by latest technology New ferrite material Optimum ferrite firing condition Fine piling technology Advanced coil pattern design technology aimproved stability of performance at heat shock awide lineup from to useful for signal line Advantage ahigh ated Current Good for Miniaturize of high power equipment alower Voltage down at Ferrite bead Good for Battery driven equipment by saving running voltage margin ahigher eliability Drastically educed DC esistance DC esistance Comparison New type (BLM3A) Conventional type (BLM3AG) DC esistance (Ω) 2. Drastically reduced (Ω) Impedance Change (%) 3 2 Test esult Heat Shock 5 New type (BLM15A) Heat Shock Cycle (cycles) Conventional type (BLM15AG) Mar.28,211 26

29 BLM Series Universal Type [Power Lines/Signal Lines] BLM15E BLM15ESeries (42 Size) For GHz band noise, also capable to large current. Dimensions.25±.1 1.±.5.5±.5.5±.5 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape J 33mm eel Paper Tape 5 B Bulk(Bag) Universal Type [Power Lines/Signal Lines] ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM15EG121SN1p 12ohm±25% 145ohm(Typ.) 15mA.95ohm max. 55 C to +125 C BLM15EG221SN1p 22ohm±25% 27ohm(Typ.) 7mA.28ohm max. 55 C to +125 C Number of Circuits: BLM15EG221SN1 BLM15EG121SN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM15E series. Please apply the derating curve shown in chart according to the operating temperature. Derating 2.1 Derated Current (A) BLM15EG121SN Operating Temperature ( C) Derated Current (A) BLM15EG221SN Operating Temperature ( C) ImpedanceFrequency Characteristics BLM15EG121SN1 2 BLM15EG221SN Mar.28,211 27

30 BLM Series Universal Type [Power Lines/Signal Lines] BLM18E BLM18ESeries (63 Size) For GHz band noise, also capable to large current. Universal Type [Power Lines/Signal Lines] Dimensions 1.6±.15.8±.15.4±.2 T Part Number T BLM18EGpppTN1.5±.15 BLM18EGpppSN1.8±.15 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM18EG1TN1p ohm±25% 14ohm(Typ.) 2mA.45ohm max. 55 C to +125 C BLM18EG121SN1p 12ohm±25% 145ohm(Typ.) 2mA.4ohm max. 55 C to +125 C BLM18EG221SN1p 22ohm±25% 26ohm(Typ.) 2mA.5ohm max. 55 C to +125 C BLM18EG221TN1p 22ohm±25% 3ohm(Typ.) ma.15ohm max. 55 C to +125 C BLM18EG331TN1p 33ohm±25% 45ohm(Typ.) 5mA.21ohm max. 55 C to +125 C BLM18EG391TN1p 39ohm±25% 52ohm(Typ.) 5mA.3ohm max. 55 C to +125 C BLM18EG471SN1p 47ohm±25% 55ohm(Typ.) 5mA.21ohm max. 55 C to +125 C BLM18EG61SN1p 6ohm±25% 7ohm(Typ.) 5mA.35ohm max. 55 C to +125 C Number of Circuits: 1 ImpedanceFrequency Characteristics (Main Items) BLM18EG_TN Series 8 BLM18EG391TN1 6 BLM18EG331TN1 BLM18EG221TN1 4 BLM18EG1TN1 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM18EG series. Please apply the derating curve shown in chart according to the operating temperature. Derating BLM18EG_SN Series BLM18EG61SN1 8 BLM18EG471SN1 6 BLM18EG221SN1 BLM18EG121SN1 4 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 28

31 BLM Series Universal Type [Power Lines/Signal Lines] BLM18E Series (63 Size) BLM18E ImpedanceFrequency Characteristics BLM18EG1TN1 BLM18EG121SN1 BLM18EG221SN BLM18EG221TN1 BLM18EG331TN1 BLM18EG391TN Universal Type [Power Lines/Signal Lines] BLM18EG471SN1 8 BLM18EG61SN Mar.28,211 29

32 BLM Series Power Lines Type BLM3P BLM3PSeries (21 Size) 21 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions.6±.3.3±.3.15±.5.3±.3 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 15 J 33mm eel Paper Tape 5 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM3PG22SN1p 22ohm±25% 9mA.65ohm max. 55 C to +125 C BLM3PG33SN1p 33ohm±25% 75mA.9ohm max. 55 C to +125 C Number of Circuits: BLM3PG33SN1 4 2 BLM3PG22SN1 1 3 ImpedanceFrequency Characteristics BLM3PG22SN1 8 BLM3PG33SN Mar.28,211 3

33 BLM Series Power Lines Type BLM15P BLM15PSeries (42 Size) Improved DC resistance, meet larger current. *Please refer to the products which are designed for both power lines and signal lines. Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Power Lines Type 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM15P121SN1p 12ohm±25% 18mA.6ohm max. 55 C to +125 C Number of Circuits: BLM15P121SN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM15P series. Please apply the derating curve shown in chart according to the operating temperature. Derating Derated Current [A] A BLM15P121SN1 85 Operating Temperature [ C] A ImpedanceFrequency Characteristics BLM15P121SN Mar.28,211 31

34 BLM Series Power Lines Type BLM15PG/BLM15PD BLM15PG/BLM15PDSeries (42 Size) 42 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM15PGSN1p ohm(typ.) ma.5ohm max. 55 C to +125 C BLM15PD3SN1p 3ohm±25% 22mA.35ohm max. 55 C to +125 C BLM15PD6SN1p 6ohm±25% 17mA.6ohm max. 55 C to +125 C BLM15PD8SN1p 8ohm±25% 15mA.7ohm max. 55 C to +125 C BLM15PD121SN1p 12ohm±25% 13mA.9ohm max. 55 C to +125 C Number of Circuits: BLM15PD121SN1 BLM15PD8SN1 BLM15PD6SN1 BLM15PD3SN1 BLM15PGSN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM15PD series. Please apply the derating curve shown in chart according to the operating temperature. Derating Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 32

35 BLM Series Power Lines Type BLM15PG/BLM15PD Series (42 Size) BLM15PG/BLM15PD ImpedanceFrequency Characteristics BLM15PGSN1 BLM15PD3SN1 BLM15PD6SN Power Lines Type 1 3 BLM15PD8SN1 16 BLM15PD121SN Mar.28,211 33

36 BLM Series Power Lines Type BLM18P BLM18PSeries (63 Size) 63 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions.4±.2 1.6±.15.8±.15.8±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM18PG3SN1p 3ohm(Typ.) ma.5ohm max. 55 C to +125 C BLM18PG33SN1p 33ohm±25% 3mA.25ohm max. 55 C to +125 C BLM18PG6SN1p 6ohm(Typ.) 5mA.ohm max. 55 C to +125 C BLM18PG121SN1p 12ohm±25% 2mA.5ohm max. 55 C to +125 C BLM18PG181SN1p 18ohm±25% 15mA.9ohm max. 55 C to +125 C BLM18PG221SN1p 22ohm±25% 14mA.ohm max. 55 C to +125 C BLM18PG331SN1p 33ohm±25% 12mA.15ohm max. 55 C to +125 C BLM18PG471SN1p 47ohm±25% ma.2ohm max. 55 C to +125 C Number of Circuits: BLM18PG471SN1 BLM18PG331SN1 BLM18PG221SN1 BLM18PG181SN1 BLM18PG121SN1 BLM18PG6SN1 BLM18PG33SN1 BLM18PG3SN1 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM18PG series. Please apply the derating curve shown in chart according to the operating temperature. Derating 1 3 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 34

37 BLM Series Power Lines Type BLM18P Series (63 Size) BLM18P ImpedanceFrequency Characteristics BLM18PG3SN1 BLM18PG33SN1 BLM18PG6SN Power Lines Type BLM18PG121SN1 BLM18PG181SN1 BLM18PG221SN BLM18PG331SN1 45 BLM18PG471SN Mar.28,211 35

38 BLM Series Power Lines Type BLM21P BLM21PSeries (85 Size) 85 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. *Please refer to BLM18K for downsizing. Power Lines Type Dimensions.5±.2.85±.2 Equivalent Circuit (esistance element becomes dominant at high frequencies.) 2.± ±.2 Packaging Code Packaging Minimum Quantity EIA CODE : 85 : Electrode D 18mm eel Paper Tape 4 J 33mm eel Paper Tape (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM21PG22SN1p 22ohm±25% 6mA.1ohm max. 55 C to +125 C BLM21PG3SN1p 3ohm(Typ.) 3mA.15ohm max. 55 C to +125 C BLM21PG6SN1p 6ohm±25% 3mA.25ohm max. 55 C to +125 C BLM21PG121SN1p 12ohm±25% 3mA.3ohm max. 55 C to +125 C BLM21PG221SN1p 22ohm±25% 2mA.5ohm max. 55 C to +125 C BLM21PG331SN1p 33ohm±25% 15mA.9ohm max. 55 C to +125 C Number of Circuits: BLM21PG3SN1 BLM21PG22SN1 BLM21PG6SN1 BLM21PG331SN1 BLM21PG221SN1 BLM21PG121SN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM21PG series. Please apply the derating curve shown in chart according to the operating temperature. Derating 6 5 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 36

39 BLM Series Power Lines Type BLM21P Series (85 Size) BLM21P ImpedanceFrequency Characteristics BLM21PG22SN1 BLM21PG3SN1 BLM21PG6SN Power Lines Type BLM21PG121SN1 16 BLM21PG221SN1 4 BLM21PG331SN Mar.28,211 37

40 BLM Series Power Lines Type BLM31P BLM31PSeries (126 Size) 126 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions.7±.3 3.2±.2 1.6±.2 1.1±.2 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 3 K 33mm eel Embossed Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM31PG33SN1p 33ohm±25% 6mA.1ohm max. 55 C to +125 C BLM31PG5SN1p 5ohm(Typ.) 3mA.25ohm max. 55 C to +125 C BLM31PG121SN1p 12ohm±25% 3mA.25ohm max. 55 C to +125 C BLM31PG391SN1p 39ohm±25% 2mA.5ohm max. 55 C to +125 C BLM31PG61SN1p 6ohm±25% 15mA.9ohm max. 55 C to +125 C Number of Circuits: BLM31PG391SN1 BLM31PG5SN1 BLM31PG33SN1 BLM31PG61SN1 BLM31PG121SN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM31PG series. Please apply the derating curve shown in chart according to the operating temperature. Derating 6 5 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 38

41 BLM Series Power Lines Type BLM31P Series (126 Size) BLM31P ImpedanceFrequency Characteristics BLM31PG33SN1 BLM31PG5SN1 BLM31PG121SN Power Lines Type BLM31PG391SN1 6 BLM31PG61SN Mar.28,211 39

42 BLM Series Power Lines Type BLM41P BLM41PSeries (186 Size) 186 size for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions.7±.3 1.6±.2 Equivalent Circuit (esistance element becomes dominant at high frequencies.) 4.5±.2 1.6±.2 : Electrode (in mm) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 25 K 33mm eel Embossed Tape 8 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM41PG6SN1p 6ohm(Typ.) 6mA.1ohm max. 55 C to +125 C BLM41PG75SN1p 75ohm(Typ.) 3mA.25ohm max. 55 C to +125 C BLM41PG181SN1p 18ohm±25% 3mA.25ohm max. 55 C to +125 C BLM41PG471SN1p 47ohm±25% 2mA.5ohm max. 55 C to +125 C BLM41PG2SN1p ohm±25% 15mA.9ohm max. 55 C to +125 C Number of Circuits: 1 BLM41PG Series (6ohm to 18ohm) BLM41PG75SN1 BLM41PG181SN1 BLM41PG6SN1 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM41PG series. Please apply the derating curve shown in chart according to the operating temperature. Derating BLM41PG Series (47ohm to ohm) 12 9 BLM41PG2SN1 6 BLM41PG471SN1 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 4

43 BLM Series Power Lines Type BLM41P Series (186 Size) BLM41P ImpedanceFrequency Characteristics BLM41PG6SN1 BLM41PG75SN1 BLM41PG181SN Power Lines Type BLM41PG471SN1 6 BLM41PG2SN Mar.28,211 41

44 BLM Series Power Lines Type BLM18K BLM18KSeries (63 Size) 6A Max, high performance type for power lines up to 6ohm. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions 1.6±.15.8±.15.4±.2 T Part Number T BLM18KG_TN.6±.15 BLM18KG_SN.8±.15 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM18KG26TN1p 26ohm±25% 6mA.7ohm max. 55 C to +125 C BLM18KG3TN1p 3ohm±25% 5mA.ohm max. 55 C to +125 C BLM18KG7TN1p 7ohm±25% 35mA.22ohm max. 55 C to +125 C BLM18KG1TN1p ohm±25% 3mA.3ohm max. 55 C to +125 C BLM18KG121TN1p 12ohm±25% 3mA.3ohm max. 55 C to +125 C BLM18KG221SN1p 22ohm±25% 22mA.5ohm max. 55 C to +125 C BLM18KG331SN1p 33ohm±25% 17mA.8ohm max. 55 C to +125 C BLM18KG471SN1p 47ohm±25% 15mA.13ohm max. 55 C to +125 C BLM18KG61SN1p 6ohm±25% 13mA.15ohm max. 55 C to +125 C Number of Circuits: BLM18KG61SN1 BLM18KG471SN1 BLM18KG331SN1 BLM18KG221SN1 BLM18KG121TN1 BLM18KG1TN1 BLM18KG7TN1 BLM18KG3TN1 BLM18KG26TN1 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM18KG series. Please apply the derating curve shown in chart according to the operating temperature. Derating Derated Current [A] Mar.28, Operating Temperature [ C] Continued on the following page.

45 BLM Series Power Lines Type BLM18K Series (63 Size) BLM18K ImpedanceFrequency Characteristics BLM18KG26TN BLM18KG3TN BLM18KG7TN Power Lines Type BLM18KG1TN1 2 BLM18KG121TN1 2 BLM18KG221SN BLM18KG331SN1 6 BLM18KG471SN1 8 BLM18KG61SN Mar.28,211 43

46 BLM Series Power Lines Type BLM18S BLM18SSeries (63 Size) 6A Max, high performance type for power lines. *Please refer to the products which are designed for both power lines and signal lines. Power Lines Type Dimensions 1.6±.15.8±.15.5±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.).4±.2 : Electrode (in mm) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape J 33mm eel Paper Tape 3 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM18SG26TN1p 26ohm±25% 6mA.7ohm max. 55 C to +125 C BLM18SG7TN1p 7ohm±25% 4mA.2ohm max. 55 C to +125 C BLM18SG121TN1p 12ohm±25% 3mA.25ohm max. 55 C to +125 C BLM18SG221TN1p 22ohm±25% 25mA.4ohm max. 55 C to +125 C BLM18SG331TN1p 33ohm±25% 15mA.7ohm max. 55 C to +125 C Number of Circuits: BLM18SG331TN1 BLM18SG221TN1 BLM18SG121TN1 BLM18SG7TN1 BLM18SG26TN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM18SG series. Please apply the derating curve shown in chart according to the operating temperature. Derating 6 5 Derated Current [A] Operating Temperature [ C] Continued on the following page. Mar.28,211 44

47 BLM Series Power Lines Type BLM18S Series (63 Size) BLM18S ImpedanceFrequency Characteristics BLM18SG26TN1 BLM18SG7TN1 BLM18SG121TN Power Lines Type BLM18SG221TN BLM18SG331TN Mar.28,211 45

48 BLM Series Signal Lines Type BLM2A BLM2ASeries (5 Size) Ultra small 5 size for general signal lines. Signal Lines Type Dimensions.4±.2.2±.2.2±.2 Equivalent Circuit (esistance element becomes dominant at high frequencies.).+.4/.3 Packaging : Electrode (in mm) Code Packaging Minimum Quantity D 18mm eel Paper Tape 2 B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM2AGSN1p ohm(typ.) 5mA.1ohm max. 55 C to +125 C BLM2AG7SN1p 7ohm±25% 25mA.5ohm max. 55 C to +125 C BLM2AG121SN1p 12ohm±25% 2mA.8ohm max. 55 C to +125 C Number of Circuits: 1 ImpedanceFrequency Characteristics (Main Items) BLM2AG121SN1 BLM2AG7SN1 BLM2AGSN1 1 3 ImpedanceFrequency Characteristics BLM2AGSN1 BLM2AG7SN1 BLM2AG121SN Mar.28,211 46

49 BLM Series Signal Lines Type BLM3AG BLM3AGSeries (21 Size) 21 size for general signal lines. Dimensions.6±.3.3±.3.15±.5.3±.3 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 15 J 33mm eel Paper Tape 5 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM3AGSN1p ohm(typ.) 5mA.1ohm max. 55 C to +125 C BLM3AG7SN1p 7ohm(Typ.) 2mA.4ohm max. 55 C to +125 C BLM3AG8SN1p 8ohm±25% 2mA.4ohm max. 55 C to +125 C BLM3AG121SN1p 12ohm±25% 2mA.5ohm max. 55 C to +125 C BLM3AG241SN1p 24ohm±25% 2mA.8ohm max. 55 C to +125 C BLM3AG61SN1p 6ohm±25% ma 1.5ohm max. 55 C to +125 C BLM3AG2SN1p ohm±25% ma 2.5ohm max. 55 C to +125 C Number of Circuits: BLM3AG2SN1 BLM3AG61SN1 BLM3AG241SN1 BLM3AG121SN1 BLM3AG8SN1 BLM3AG7SN1 BLM3AGSN1 1 3 ImpedanceFrequency Characteristics BLM3AGSN1 BLM3AG7SN1 BLM3AG8SN Continued on the following page. Mar.28,211 47

50 BLM Series Signal Lines Type BLM3AG Series (21 Size) BLM3AG ImpedanceFrequency Characteristics Signal Lines Type BLM3AG121SN1 BLM3AG241SN1 BLM3AG61SN BLM3AG2SN Mar.28,211 48

51 BLM Series Signal Lines Type BLM15AG_SN BLM15AG_SNSeries (42 Size) 42 size for general signal lines. Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Signal Lines Type 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM15AGSN1p ohm(typ.) ma.5ohm max. 55 C to +125 C BLM15AG7SN1p 7ohm(Typ.) 5mA.15ohm max. 55 C to +125 C BLM15AG121SN1p 12ohm±25% 5mA.25ohm max. 55 C to +125 C BLM15AG221SN1p 22ohm±25% 3mA.35ohm max. 55 C to +125 C BLM15AG61SN1p 6ohm±25% 3mA.6ohm max. 55 C to +125 C BLM15AG2SN1p ohm±25% 2mA 1.ohm max. 55 C to +125 C Number of Circuits: BLM15AG2SN1 BLM15AG61SN1 BLM15AG221SN1 BLM15AG121SN1 BLM15AG7SN1 BLM15AGSN1 1 3 ImpedanceFrequency Characteristics BLM15AGSN1 BLM15AG7SN1 BLM15AG121SN Continued on the following page. Mar.28,211 49

52 BLM Series Signal Lines Type BLM15AG_SN Series (42 Size) BLM15AG_SN ImpedanceFrequency Characteristics Signal Lines Type BLM15AG221SN1 BLM15AG61SN1 BLM15AG2SN Mar.28,211 5

53 BLM Series Signal Lines Type BLM15AG_AN BLM15AG_ANSeries Gold Plating (42 Size) Au plating electrode for wire bonding mount. Dimensions.25±.1 1.±.5.5±.5.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Signal Lines Type Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM15AG61AN1p 6ohm±25% 3mA.6ohm max. 55 C to +125 C BLM15AG2AN1p ohm±25% 2mA 1.ohm max. 55 C to +125 C Number of Circuits: 1 This product is Au plating version designed for wire bonding mount. Be sure that this product is not designed for solder mounting BLM15AG2AN1 BLM15AG61AN1 1 3 ImpedanceFrequency Characteristics BLM15AG61AN1 8 BLM15AG2AN Mar.28,211 51

54 BLM Series Signal Lines Type BLM18A BLM18ASeries (63 Size) 63 size for general signal lines. *Please refer to BLM15A for downsizing. Signal Lines Type Dimensions.4±.2.8±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.) 1.6±.15.8±.15 Packaging Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM18AG121SN1p 12ohm±25% 5mA.18ohm max. 55 C to +125 C BLM18AG151SN1p 15ohm±25% 5mA.25ohm max. 55 C to +125 C BLM18AG221SN1p 22ohm±25% 5mA.25ohm max. 55 C to +125 C BLM18AG331SN1p 33ohm±25% 5mA.3ohm max. 55 C to +125 C BLM18AG471SN1p 47ohm±25% 5mA.35ohm max. 55 C to +125 C BLM18AG61SN1p 6ohm±25% 5mA.38ohm max. 55 C to +125 C BLM18AG2SN1p ohm±25% 4mA.5ohm max. 55 C to +125 C Number of Circuits: BLM18AG2SN1 BLM18AG61SN1 BLM18AG471SN1 BLM18AG331SN1 BLM18AG221SN1 BLM18AG151SN1 BLM18AG121SN1 1 3 ImpedanceFrequency Characteristics BLM18AG121SN1 BLM18AG151SN1 BLM18AG221SN Continued on the following page. Mar.28,211 52

55 BLM Series Signal Lines Type BLM18A Series (63 Size) BLM18A ImpedanceFrequency Characteristics BLM18AG331SN1 BLM18AG471SN1 BLM18AG61SN Signal Lines Type BLM18AG2SN Mar.28,211 53

56 BLM Series Signal Lines Type BLM21A BLM21ASeries (85 Size) 85 size for general signal lines. Signal Lines Type Dimensions.5±.2.85±.2 Equivalent Circuit (esistance element becomes dominant at high frequencies.) 2.± ±.2 Packaging Code Packaging Minimum Quantity EIA CODE : 85 : Electrode D 18mm eel Paper Tape 4 J 33mm eel Paper Tape (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM21AG121SN1p 12ohm±25% 2mA.15ohm max. 55 C to +125 C BLM21AG151SN1p 15ohm±25% 2mA.15ohm max. 55 C to +125 C BLM21AG221SN1p 22ohm±25% 2mA.2ohm max. 55 C to +125 C BLM21AG331SN1p 33ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21AG471SN1p 47ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21AG61SN1p 6ohm±25% 2mA.3ohm max. 55 C to +125 C BLM21AG2SN1p ohm±25% 2mA.45ohm max. 55 C to +125 C Number of Circuits: BLM21AG2SN1 BLM21AG61SN1 BLM21AG471SN1 BLM21AG331SN1 BLM21AG221SN1 BLM21AG151SN1 BLM21AG121SN1 1 3 ImpedanceFrequency Characteristics BLM21AG121SN1 BLM21AG151SN1 BLM21AG221SN Continued on the following page. Mar.28,211 54

57 BLM Series Signal Lines Type BLM21A Series (85 Size) BLM21A ImpedanceFrequency Characteristics BLM21AG331SN1 BLM21AG471SN1 BLM21AG61SN Signal Lines Type BLM21AG2SN Mar.28,211 55

58 BLM Series Signal Lines Type BLM18T BLM18TSeries (63 Size) Thin 63 size for general signal lines. Signal Lines Type Dimensions.4±.2 1.6±.15.8±.15.6±. Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging : Electrode (in mm) Code Packaging Minimum Quantity D 18mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM18TG121TN1p 12ohm±25% 2mA.25ohm max. 55 C to +125 C BLM18TG221TN1p 22ohm±25% 2mA.3ohm max. 55 C to +125 C BLM18TG61TN1p 6ohm±25% 2mA.45ohm max. 55 C to +125 C BLM18TG2TN1p ohm±25% ma.6ohm max. 55 C to +125 C Number of Circuits: 1 12 ImpedanceFrequency Characteristics 8 BLM18TG2TN1 BLM18TG61TN1 BLM18TG221TN1 6 BLM18TG121TN BLM18TG121TN BLM18TG221TN1 3 BLM18TG61TN1 8 BLM18TG2TN Mar.28,211 56

59 BLM Series Signal Lines Type BLM3B BLM3BSeries (21 Size) 21 size for high speed signal lines. Dimensions.6±.3.3±.3.15±.5.3±.3 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 15 J 33mm eel Paper Tape 5 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) BLM3BD Series Impedance (at MHz/2 C) ated Current BLM3BB Series DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM3BD75SN1p 75ohm±25% 3mA.4ohm max. 55 C to +125 C BLM3BD121SN1p 12ohm±25% 25mA.5ohm max. 55 C to +125 C BLM3BD241SN1p 24ohm±25% 2mA.8ohm max. 55 C to +125 C BLM3BD471SN1p 47ohm±25% 215mA 1.5ohm max. 55 C to +125 C BLM3BD61SN1p 6ohm±25% 2mA 1.7ohm max. 55 C to +125 C BLM3BBSN1p ohm±25% 3mA.4ohm max. 55 C to +125 C BLM3BB22SN1p 22ohm±25% 2mA.5ohm max. 55 C to +125 C BLM3BB47SN1p 47ohm±25% 2mA.7ohm max. 55 C to +125 C BLM3BB75SN1p 75ohm±25% 2mA 1.ohm max. 55 C to +125 C BLM3BB121SN1p 12ohm±25% ma 1.5ohm max. 55 C to +125 C BLM3BC33SN1p 33ohm±25% 15mA.85ohm max. 55 C to +125 C BLM3BC56SN1p 56ohm±25% ma 1.5ohm max. 55 C to +125 C BLM3BC8SN1p 8ohm±25% ma 1.4ohm max. 55 C to +125 C Number of Circuits: BLM3BD61SN1 BLM3BD471SN1 BLM3BD241SN1 BLM3BD121SN1 BLM3BD75SN BLM3BB121SN1 BLM3BB75SN1 4 BLM3BB47SN1 BLM3BB22SN1 2 BLM3BBSN1 1 3 Continued on the following page. Mar.28,211 57

60 BLM Series Signal Lines Type BLM3B Series (21 Size) BLM3B ImpedanceFrequency Characteristics (Main Items) ImpedanceFrequency Characteristics BLM3BC Series 15 Signal Lines Type BLM3BC8SN1 BLM3BC56SN1 BLM3BD75SN BLM3BC33SN BLM3BD121SN1 BLM3BD241SN1 BLM3BD471SN BLM3BD61SN1 BLM3BBSN1 BLM3BB22SN BLM3BB47SN BLM3BB75SN BLM3BB121SN BLM3BC33SN1 BLM3BC56SN1 BLM3BC8SN Mar.28,211 58

61 BLM Series Signal Lines Type BLM15B BLM15BSeries (42 Size) 42 size for high speed signal lines. Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Signal Lines Type 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Number of Circuits: 1 Impedance (at MHz/2 C) ated Current DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM15BD75SN1p 75ohm±25% 3mA.2ohm max. 55 C to +125 C BLM15BD121SN1p 12ohm±25% 3mA.3ohm max. 55 C to +125 C BLM15BD221SN1p 22ohm±25% 3mA.4ohm max. 55 C to +125 C BLM15BD471SN1p 47ohm±25% 2mA.6ohm max. 55 C to +125 C BLM15BD61SN1p 6ohm±25% 2mA.65ohm max. 55 C to +125 C BLM15BD2SN1p ohm±25% 2mA.9ohm max. 55 C to +125 C BLM15BD182SN1p 18ohm±25% ma 1.4ohm max. 55 C to +125 C BLM15BB5SN1p 5ohm±25% 5mA.8ohm max. 55 C to +125 C BLM15BBSN1p ohm±25% 3mA.ohm max. 55 C to +125 C BLM15BB22SN1p 22ohm±25% 3mA.2ohm max. 55 C to +125 C BLM15BB47SN1p 47ohm±25% 3mA.35ohm max. 55 C to +125 C BLM15BB75SN1p 75ohm±25% 3mA.4ohm max. 55 C to +125 C BLM15BB121SN1p 12ohm±25% 3mA.55ohm max. 55 C to +125 C BLM15BB221SN1p 22ohm±25% 2mA.8ohm max. 55 C to +125 C BLM15BC121SN1p 12ohm±25% 35mA.45ohm max. 55 C to +125 C BLM15BC241SN1p 24ohm±25% 25mA.7ohm max. 55 C to +125 C BLM15BA5SN1p 5ohm±25% 3mA.ohm max. 55 C to +125 C BLM15BASN1p ohm±25% 3mA.2ohm max. 55 C to +125 C BLM15BA22SN1p 22ohm±25% 3mA.3ohm max. 55 C to +125 C BLM15BA33SN1p 33ohm±25% 3mA.4ohm max. 55 C to +125 C BLM15BA47SN1p 47ohm±25% 2mA.6ohm max. 55 C to +125 C BLM15BA75SN1p 75ohm±25% 2mA.8ohm max. 55 C to +125 C Continued on the following page. Mar.28,211 59

62 BLM Series Signal Lines Type BLM15B Series (42 Size) BLM15B Signal Lines Type ImpedanceFrequency Characteristics (Main Items) BLM15BD Series BLM15BD182SN1 BLM15BD2SN1 BLM15BD61SN1 BLM15BD471SN1 BLM15BD221SN1 BLM15BD121SN1 BLM15BD75SN1 BLM15BB Series BLM15BB221SN1 BLM15BB121SN1 BLM15BB75SN1 BLM15BB47SN1 BLM15BB22SN1 BLM15BBSN1 BLM15BB5SN BLM15BC Series 4 3 BLM15BC241SN1 2 BLM15BC121SN1 BLM15BA Series BLM15BA75SN1 BLM15BA47SN1 BLM15BA33SN1 BLM15BA22SN1 BLM15BASN1 BLM15BA5SN ImpedanceFrequency Characteristics BLM15BD75SN1 BLM15BD121SN1 BLM15BD221SN BLM15BD471SN1 BLM15BD61SN1 BLM15BD2SN Mar.28,211 6 Continued on the following page.

63 BLM Series Signal Lines Type BLM15B Series (42 Size) BLM15B ImpedanceFrequency Characteristics BLM15BD182SN BLM15BB5SN BLM15BBSN Signal Lines Type BLM15BB22SN BLM15BB47SN BLM15BB75SN BLM15BB121SN1 5 BLM15BB221SN1 9 BLM15BC121SN BLM15BC241SN BLM15BA5SN BLM15BASN BLM15BA22SN BLM15BA33SN BLM15BA47SN Continued on the following page. Mar.28,211 61

64 BLM Series Signal Lines Type BLM15B Series (42 Size) BLM15B ImpedanceFrequency Characteristics Signal Lines Type BLM15BA75SN Mar.28,211 62

65 BLM Series Signal Lines Type BLM18B BLM18BSeries (63 Size) 63 size for high speed signal lines. *Please refer to BLM15B for downsizing. Dimensions.4±.2 1.6±.15.8±.15.8±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Signal Lines Type Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number efer to pages from p.91 to p.94 for mounting information. BLM18BD47SN1p 47ohm±25% 5mA.3ohm max. 55 C to +125 C BLM18BD121SN1p 12ohm±25% 2mA.4ohm max. 55 C to +125 C BLM18BD151SN1p 15ohm±25% 2mA.4ohm max. 55 C to +125 C BLM18BD221SN1p 22ohm±25% 2mA.45ohm max. 55 C to +125 C BLM18BD331SN1p 33ohm±25% 2mA.5ohm max. 55 C to +125 C BLM18BD421SN1p 42ohm±25% 2mA.55ohm max. 55 C to +125 C BLM18BD471SN1p 47ohm±25% 2mA.55ohm max. 55 C to +125 C BLM18BD61SN1p 6ohm±25% 2mA.65ohm max. 55 C to +125 C BLM18BD2SN1p ohm±25% ma.85ohm max. 55 C to +125 C BLM18BD152SN1p 15ohm±25% 5mA 1.2ohm max. 55 C to +125 C BLM18BD182SN1p 18ohm±25% 5mA 1.5ohm max. 55 C to +125 C BLM18BD222SN1p 22ohm±25% 5mA 1.5ohm max. 55 C to +125 C BLM18BD252SN1p 25ohm±25% 5mA 1.5ohm max. 55 C to +125 C BLM18BB5SN1p 5ohm±25% 7mA.5ohm max. 55 C to +125 C BLM18BBSN1p ohm±25% 7mA.ohm max. 55 C to +125 C BLM18BB22SN1p 22ohm±25% 6mA.2ohm max. 55 C to +125 C BLM18BB47SN1p 47ohm±25% 55mA.25ohm max. 55 C to +125 C BLM18BB6SN1p 6ohm±25% 55mA.25ohm max. 55 C to +125 C BLM18BB75SN1p 75ohm±25% 5mA.3ohm max. 55 C to +125 C BLM18BB121SN1p 12ohm±25% 5mA.3ohm max. 55 C to +125 C BLM18BB141SN1p 14ohm±25% 45mA.35ohm max. 55 C to +125 C BLM18BB151SN1p 15ohm±25% 45mA.37ohm max. 55 C to +125 C BLM18BB221SN1p 22ohm±25% 45mA.45ohm max. 55 C to +125 C BLM18BB331SN1p 33ohm±25% 4mA.58ohm max. 55 C to +125 C BLM18BB471SN1p 47ohm±25% 3mA.85ohm max. 55 C to +125 C BLM18BA5SN1p 5ohm±25% 5mA.2ohm max. 55 C to +125 C Number of Circuits: 1 Impedance (at MHz/2 C) ated Current DC esistance Operating Temperature ange BLM18BASN1p ohm±25% 5mA.25ohm max. 55 C to +125 C BLM18BA22SN1p 22ohm±25% 5mA.35ohm max. 55 C to +125 C BLM18BA47SN1p 47ohm±25% 3mA.55ohm max. 55 C to +125 C BLM18BA75SN1p 75ohm±25% 3mA.7ohm max. 55 C to +125 C BLM18BA121SN1p 12ohm±25% 2mA.9ohm max. 55 C to +125 C Continued on the following page. Mar.28,211 63

66 BLM Series Signal Lines Type BLM18B Series (63 Size) BLM18B ImpedanceFrequency Characteristics (Main Items) Signal Lines Type BLM18BD Series (47ohm to 42ohm) 75 5 BLM18BD421SN1 BLM18BD331SN1 BLM18BD221SN1 BLM18BD151SN1 BLM18BD121SN1 BLM18BD47SN1 BLM18BD Series (47ohm to 25ohm) BLM18BD252SN1 BLM18BD222SN1 BLM18BD182SN1 BLM18BD152SN1 BLM18BD2SN1 BLM18BD61SN1 BLM18BD471SN BLM18BB Series (5ohm to 75ohm) 1 3 BLM18BB Series (12ohm to 47ohm) 3 2 BLM18BB75SN1 BLM18BB6SN1 BLM18BB47SN1 BLM18BB22SN1 BLM18BBSN1 BLM18BB5SN BLM18BB471SN1 BLM18BB331SN1 BLM18BB221SN1 BLM18BB151SN1 BLM18BB141SN1 BLM18BB121SN BLM18BA Series (5ohm to 22ohm) BLM18BA22SN1 BLM18BASN1 BLM18BA5SN1 1 3 BLM18BA Series (47ohm to 12ohm) BLM18BA121SN1 BLM18BA75SN1 BLM18BA47SN1 1 3 ImpedanceFrequency Characteristics BLM18BD47SN1 BLM18BD121SN1 BLM18BD151SN Continued on the following page. Mar.28,211 64

67 BLM Series Signal Lines Type BLM18B Series (63 Size) BLM18B ImpedanceFrequency Characteristics BLM18BD221SN BLM18BD331SN BLM18BD421SN Signal Lines Type BLM18BD471SN1 BLM18BD61SN1 12 BLM18BD2SN BLM18BD152SN1 2 BLM18BD182SN1 24 BLM18BD222SN1 25 BLM18BD252SN1 BLM18BB5SN1 25 BLM18BBSN1 6 BLM18BB22SN1 BLM18BB47SN1 BLM18BB6SN Continued on the following page. Mar.28,211 65

68 BLM Series Signal Lines Type BLM18B Series (63 Size) BLM18B ImpedanceFrequency Characteristics Signal Lines Type BLM18BB75SN1 3 2 BLM18BB121SN BLM18BB141SN BLM18BB151SN1 75 BLM18BB221SN1 BLM18BB331SN BLM18BB471SN1 BLM18BA5SN1 BLM18BASN BLM18BA22SN BLM18BA121SN BLM18BA47SN BLM18BA75SN Mar.28,211 66

69 BLM Series Signal Lines Type BLM21B BLM21BSeries (85 Size) 85 size for high speed signal lines. Dimensions E 2.±.2 T 1.25±.2 Part Number T E BLM21B (exclude items below).85±.2.5±.2 BLM21BD222SN1 1.25±.2.5±.2 BLM21BD272SN1 1.25±.2.3±.2 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging All except BLM21BD222SN1/21BD272SN1 Minimum Code Packaging Quantity D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) Signal Lines Type BLM21BD222SN1/21BD272SN1 only Code Packaging Minimum Quantity L 18mm eel Plastic Tape 3 K 33mm eel Plastic Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM21BD121SN1p 12ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BD151SN1p 15ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BD221SN1p 22ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BD331SN1p 33ohm±25% 2mA.3ohm max. 55 C to +125 C BLM21BD421SN1p 42ohm±25% 2mA.3ohm max. 55 C to +125 C BLM21BD471SN1p 47ohm±25% 2mA.35ohm max. 55 C to +125 C BLM21BD61SN1p 6ohm±25% 2mA.35ohm max. 55 C to +125 C BLM21BD751SN1p 75ohm±25% 2mA.4ohm max. 55 C to +125 C BLM21BD2SN1p ohm±25% 2mA.4ohm max. 55 C to +125 C BLM21BD152SN1p 15ohm±25% 2mA.45ohm max. 55 C to +125 C BLM21BD182SN1p 18ohm±25% 2mA.5ohm max. 55 C to +125 C BLM21BD222TN1p 22ohm±25% 2mA.6ohm max. 55 C to +125 C BLM21BD222SN1p 225ohm(Typ.) 2mA.6ohm max. 55 C to +125 C BLM21BD272SN1p 27ohm±25% 2mA.8ohm max. 55 C to +125 C BLM21BB5SN1p 5ohm±25% 5mA.7ohm max. 55 C to +125 C BLM21BB6SN1p 6ohm±25% 2mA.2ohm max. 55 C to +125 C BLM21BB75SN1p 75ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BB121SN1p 12ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BB151SN1p 15ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21BB21SN1p 2ohm±25% 2mA.35ohm max. 55 C to +125 C BLM21BB221SN1p 22ohm±25% 2mA.35ohm max. 55 C to +125 C BLM21BB331SN1p 33ohm±25% 2mA.4ohm max. 55 C to +125 C BLM21BB471SN1p 47ohm±25% 2mA.45ohm max. 55 C to +125 C Number of Circuits: 1 Continued on the following page. Mar.28,211 67

70 BLM Series Signal Lines Type BLM21B Series (85 Size) BLM21B ImpedanceFrequency Characteristics (Main Items) Signal Lines Type BLM21BD Series BLM21BD152SN1 BLM21BD2SN1 BLM21BD751SN1 BLM21BD61SN1 BLM21BD471SN1 BLM21BD421SN1 BLM21BD331SN1 BLM21BD221SN1 BLM21BD151SN1 BLM21BD121SN1 BLM21BD272SN1 BLM21BD222SN1 BLM21BD222TN1 BLM21BD182SN1 BLM21BB Series BLM21BB471SN1 BLM21BB331SN1 BLM21BB221SN1 BLM21BB151SN1 BLM21BB121SN1 BLM21BB6SN1 BLM21BB5SN1 BLM21BB21SN1 BLM21BB75SN ImpedanceFrequency Characteristics BLM21BD121SN1 BLM21BD151SN1 BLM21BD221SN BLM21BD331SN1 BLM21BD421SN1 BLM21BD471SN BLM21BD61SN1 BLM21BD751SN1 BLM21BD2SN Continued on the following page. Mar.28,211 68

71 BLM Series Signal Lines Type BLM21B Series (85 Size) BLM21B ImpedanceFrequency Characteristics BLM21BD152SN1 BLM21BD182SN1 BLM21BD222TN Signal Lines Type BLM21BD222SN1 BLM21BD272SN1 BLM21BB5SN BLM21BB6SN1 BLM21BB75SN1 BLM21BB121SN BLM21BB151SN1 BLM21BB21SN1 BLM21BB221SN BLM21BB331SN BLM21BB471SN Mar.28,211 69

72 BLM Series Signal Lines Type BLM18 BLM18Series (63 Size) For digital I/F. educe the distortion of waveform created by resonance. Signal Lines Type Dimensions.4±.2 1.6±.15.8±.15.8±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) DC esistance efer to pages from p.91 to p.94 for mounting information. Operating Temperature ange BLM18K121SN1p 12ohm±25% 2mA.25ohm max. 55 C to +125 C BLM18K221SN1p 22ohm±25% 2mA.3ohm max. 55 C to +125 C BLM18K471SN1p 47ohm±25% 2mA.5ohm max. 55 C to +125 C BLM18K61SN1p 6ohm±25% 2mA.6ohm max. 55 C to +125 C BLM18K2SN1p ohm±25% 2mA.8ohm max. 55 C to +125 C Number of Circuits: BLM18K2SN1 BLM18K61SN1 BLM18K471SN1 BLM18K221SN1 BLM18K121SN1 1 3 ImpedanceFrequency Characteristics BLM18K121SN1 BLM18K221SN1 BLM18K471SN Mar.28,211 7 Continued on the following page.

73 BLM Series Signal Lines Type BLM18 Series (63 Size) BLM18 ImpedanceFrequency Characteristics BLM18K61SN BLM18K2SN Signal Lines Type 1 3 Mar.28,211 71

74 BLM Series Signal Lines Type BLM21 BLM21Series (85 Size) For digital I/F. educe the distortion of waveform created by resonance. Signal Lines Type Dimensions.5±.2 2.± ±.2.85±.2 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity EIA CODE : 85 : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM21K121SN1p 12ohm±25% 2mA.15ohm max. 55 C to +125 C BLM21K221SN1p 22ohm±25% 2mA.2ohm max. 55 C to +125 C BLM21K471SN1p 47ohm±25% 2mA.25ohm max. 55 C to +125 C BLM21K61SN1p 6ohm±25% 2mA.3ohm max. 55 C to +125 C BLM21K2SN1p ohm±25% 2mA.5ohm max. 55 C to +125 C Number of Circuits: 1 12 BLM21K61SN1 BLM21K2SN1 9 BLM21K471SN1 BLM21K221SN1 BLM21K121SN ImpedanceFrequency Characteristics BLM21K121SN1 BLM21K221SN1 BLM21K471SN Continued on the following page. Mar.28,211 72

75 BLM Series Signal Lines Type BLM21 Series (85 Size) BLM21 ImpedanceFrequency Characteristics BLM21K61SN BLM21K2SN Signal Lines Type Mar.28,211 73

76 EMI Suppression Effect BLMpp Series Signal Lines Type Waveform Distortion Suppressing Performance of BLMpp Series Measuring Circuits AC4 1MHz Filter Pattern2cm Measuring Point AC Type of Filter EMI Suppression Effect / Description Signal waveform (nsec/div, 2V/div) Expand (nsec/div, 2V/div) Spectrum Initial (No filter) Level (dbµv) inging is caused on the signal waveform. Such ringing contains several hundred MHz harmonic components and generates noise. Signal waveform (nsec/div, 2V/div) Expand (nsec/div, 2V/div) Spectrum esister (47Ω) is used Comparing initial waveform, ringing is suppressed a little. However there still remains high level waveform distortion. Level (dbµv) BLM18K221SN1 (22Ω at MHz) is used Signal waveform (nsec/div, 2V/div) Expand (nsec/div, 2V/div) Spectrum Level (dbµv) BLM18 has excellent performance for noise suppression and waveform distortion suppression. BLM18 suppresses drastically not only spectrum level in more than MHz range but waveform distortion. Mar.28,211 74

77 BLM Series Signal Lines Type BLM3H BLM3HSeries (21 Size) 21 size for GHz band noise. Dimensions.6±.3.3±.3.15±.5.3±.3 : Electrode (in mm) Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 15 J 33mm eel Paper Tape 5 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) BLM3HG Series Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ated Current BLM3HD Series efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM3HG61SN1p 6ohm±25% ohm±4% 15mA 1.6ohm max. 55 C to +125 C BLM3HG2SN1p ohm±25% 18ohm±4% 125mA 2.6ohm max. 55 C to +125 C BLM3HD331SN1p 33ohm±25% 75ohm±4% 2mA 1.ohm max. 55 C to +125 C BLM3HD471SN1p 47ohm±25% ohm±4% 175mA 1.3ohm max. 55 C to +125 C BLM3HD61SN1p 6ohm±25% 15ohm±4% 15mA 1.7ohm max. 55 C to +125 C BLM3HD2SN1p ohm±25% 23ohm±4% 12mA 2.9ohm max. 55 C to +125 C Number of Circuits: BLM3HG2SN1 BLM3HG61SN BLM3HD2SN1 BLM3HD61SN1 BLM3HD471SN1 BLM3HD331SN ImpedanceFrequency Characteristics BLM3HG61SN1 BLM3HG2SN1 BLM3HD331SN Continued on the following page. Mar.28,211 75

78 BLM Series Signal Lines Type BLM3H Series (21 Size) BLM3H ImpedanceFrequency Characteristics Signal Lines Type BLM3HD471SN1 BLM3HD61SN1 BLM3HD2SN Mar.28,211 76

79 BLM Series Signal Lines Type BLM15H BLM15HSeries (42 Size) 42 size for GHz band noise. Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Signal Lines Type 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ImpedanceFrequency Characteristics (Main Items) BLM15HG Series (For General Signal Lines) Impedance (at 1GHz/2 C) ated Current BLM15HD Series (For High Speed Signal Lines) efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM15HG61SN1p 6ohm±25% ohm±4% 3mA.7ohm max. 55 C to +125 C BLM15HG2SN1p ohm±25% 14ohm±4% 25mA 1.1ohm max. 55 C to +125 C BLM15HD61SN1p 6ohm±25% 14ohm±4% 3mA.85ohm max. 55 C to +125 C BLM15HD2SN1p ohm±25% 2ohm±4% 25mA 1.25ohm max. 55 C to +125 C BLM15HD182SN1p 18ohm±25% 27ohm±4% 2mA 2.2ohm max. 55 C to +125 C BLM15HB121SN1p 12ohm±25% 5ohm±4% 3mA.7ohm max. 55 C to +125 C BLM15HB221SN1p 22ohm±25% 9ohm±4% 25mA 1.ohm max. 55 C to +125 C Number of Circuits: BLM15HG61SN1 BLM15HG2SN BLM15HD182SN1 BLM15HD2SN1 BLM15HD61SN BLM15HB Series (For High Speed Signal Lines) BLM15HB221SN1 4 BLM15HB121SN Continued on the following page. Mar.28,211 77

80 BLM Series Signal Lines Type BLM15H Series (42 Size) BLM15H ImpedanceFrequency Characteristics Signal Lines Type BLM15HG61SN BLM15HG2SN BLM15HD61SN BLM15HD2SN1 25 BLM15HD182SN1 4 BLM15HB121SN BLM15HB221SN Mar.28,211 78

81 BLM Series Signal Lines Type BLM18H BLM18HSeries (63 Size) 63 size for GHz band noise. *Please refer to BLM15H for downsizing. Dimensions.4±.2 1.6±.15.8±.15.8±.15 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Signal Lines Type Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) BLM18HG Series (For General Signal Lines) BLM18HE Series (For High Speed Signal Lines) efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM18HG471SN1p 47ohm±25% 6ohm(Typ.) 2mA.85ohm max. 55 C to +125 C BLM18HG61SN1p 6ohm±25% 7ohm(Typ.) 2mA 1.ohm max. 55 C to +125 C BLM18HG2SN1p ohm±25% ohm(typ.) ma 1.6ohm max. 55 C to +125 C BLM18HE61SN1p 6ohm±25% 6ohm(Typ.) 8mA.25ohm max. 55 C to +125 C BLM18HE2SN1p ohm±25% ohm(typ.) 6mA.35ohm max. 55 C to +125 C BLM18HE152SN1p 15ohm±25% 15ohm(Typ.) 5mA.5ohm max. 55 C to +125 C BLM18HD471SN1p 47ohm±25% ohm(typ.) ma 1.2ohm max. 55 C to +125 C BLM18HD61SN1p 6ohm±25% 12ohm(Typ.) ma 1.5ohm max. 55 C to +125 C BLM18HD2SN1p ohm±25% 17ohm(Typ.) 5mA 1.8ohm max. 55 C to +125 C BLM18HB121SN1p 12ohm±25% 5ohm±4% 2mA.5ohm max. 55 C to +125 C BLM18HB221SN1p 22ohm±25% 1ohm±4% ma.8ohm max. 55 C to +125 C BLM18HB331SN1p 33ohm±25% 16ohm±4% 5mA 1.2ohm max. 55 C to +125 C BLM18HK331SN1p 33ohm±25% 4ohm±4% 2mA.5ohm max. 55 C to +125 C BLM18HK471SN1p 47ohm±25% 6ohm±4% 2mA.7ohm max. 55 C to +125 C BLM18HK61SN1p 6ohm±25% 7ohm±4% ma.9ohm max. 55 C to +125 C BLM18HK2SN1p ohm±25% 12ohm±4% 5mA 1.5ohm max. 55 C to +125 C Number of Circuits: BLM18HG2SN1 BLM18HG61SN1 BLM18HG471SN BLM18HE152SN1 BLM18HE2SN1 BLM18HE61SN Continued on the following page. Mar.28,211 79

82 BLM Series Signal Lines Type BLM18H Series (63 Size) BLM18H Signal Lines Type ImpedanceFrequency Characteristics (Main Items) BLM18HD Series (For High Speed Signal Lines) BLM18HB Series (For High Speed Signal Lines) 3 25 BLM18HD2SN1 BLM18HD61SN1 2 BLM18HD471SN BLM18HB331SN1 BLM18HB221SN1 BLM18HB121SN BLM18HK Series (For Digital Interface Lines) BLM18HK471SN1 BLM18HK331SN1 BLM18HK2SN1 BLM18HK61SN1 1 3 Notice (ating) In operating temperature exceeding +85 C, derating of current is necessary for BLM18HE series. Please apply the derating curve shown in chart according to the operating temperature. Derating Derated Current [ma] BLM18HE61SN1 BLM18HE2SN1 BLM18HE152SN1 ImpedanceFrequency Characteristics BLM18HG471SN1 BLM18HG61SN1 BLM18HG2SN Operating Temperature [ C] BLM18HE61SN1 BLM18HE2SN1 BLM18HE152SN Continued on the following page. Mar.28,211 8

83 BLM Series Signal Lines Type BLM18H Series (63 Size) BLM18H ImpedanceFrequency Characteristics BLM18HD471SN1 BLM18HD61SN1 BLM18HD2SN Signal Lines Type BLM18HB121SN1 BLM18HB221SN1 BLM18HB331SN BLM18HK331SN1 BLM18HK471SN1 BLM18HK61SN BLM18HK2SN Mar.28,211 81

84 EMI Suppression Effect BLM18H Series Signal Lines Type Noise Suppression of BLM18H in UHF ange Testing Circuit Measured radiation at 3m distance 74HCU4 74AC4 74HC BLM MHz Type of Filter EMI Suppression Effect / Description 7 6 Initial (No filter) Level (dbµv/m) Conventional Type BLM18AG2SN1 (Ω at MHz) Level (dbµv/m) Initial Current BLM18AG are effective in suppressing noise in the range between 3MHz and 7MHz. for GHz Noise Suppression BLM18HG2SN1 (Ω at MHz) Level (dbµv/m) Initial BLM18AG2SN1 In addition to the effectiveness of current BLM, BLM18HG suppresses noise in the range beyond 7MHz Comparison between BLM18HG2SN1 and BLM18AG2SN1 (Current Item) 2 15 BLM18HG2SN1 BLM18AG2SN1 5 Mar.28,

85 BLM Series Signal Lines Type BLM15G BLM15GSeries (42 Size) Available up to highghz band noise. Dimensions.25±.1.5±.5 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Signal Lines Type 1.±.5.5±.5 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM15GG221SN1p 22ohm±25% 6ohm±4% 3mA.7ohm max. 55 C to +125 C BLM15GG471SN1p 47ohm±25% 12ohm±4% 2mA 1.3ohm max. 55 C to +125 C BLM15GA75SN1p 75ohm±25% ohm±4% 2mA 1.3ohm max. 55 C to +125 C Number of Circuits: BLM15GG471SN1 BLM15GG221SN1 BLM15GA75SN1 1 3 ImpedanceFrequency Characteristics BLM15GG221SN1 15 BLM15GG471SN1 15 BLM15GA75SN Mar.28,211 83

86 BLM Series Signal Lines Type BLM18G BLM18GSeries (63 Size) Available up to highghz band noise. Signal Lines Type Dimensions.35± ±.1.8±.1.8±.1 Equivalent Circuit (esistance element becomes dominant at high frequencies.) Packaging Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) Impedance (at 1GHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLM18GG471SN1p 47ohm±25% 18ohm±3% 2mA 1.ohm ±.3ohm 55 C to +125 C Number of Circuits: ImpedanceFrequency Characteristics BLM18GG471SN1 2 BLM18GG471SN Mar.28,211 84

87 BLA Series Signal Lines Type BLA2AA/BLA2AB BLA2AA/BLA2ABSeries (84 Size) 4lines array, 84 size. Dimensions (1) (2) (3) (4).2±.15 1.±.2 Equivalent Circuit (1) (2) (3) (4) Signal Lines Type (5) (6) (7) (8) (5) (6) (7) (8) No polarity. 2.±.2 Packaging.5±.1 Code Packaging Minimum Quantity.25±.15.5±.1 D 18mm eel Paper Tape : Electrode J 33mm eel Paper Tape 5 (in mm) B Bulk(Bag) ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) BLA2AAG Series Impedance (at MHz/2 C) ated Current BLA2ABD Series efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLA2AAG121SN4p 12ohm±25% ma.5ohm max. 55 C to +125 C BLA2AAG221SN4p 22ohm±25% 5mA.7ohm max. 55 C to +125 C BLA2AAG61SN4p 6ohm±25% 5mA 1.ohm max. 55 C to +125 C BLA2AAG2SN4p ohm±25% 5mA 1.3ohm max. 55 C to +125 C BLA2ABD75SN4p 75ohm±25% 2mA.2ohm max. 55 C to +125 C BLA2ABD121SN4p 12ohm±25% 2mA.35ohm max. 55 C to +125 C BLA2ABD221SN4p 22ohm±25% ma.4ohm max. 55 C to +125 C BLA2ABD471SN4p 47ohm±25% ma.65ohm max. 55 C to +125 C BLA2ABD61SN4p 6ohm±25% ma.8ohm max. 55 C to +125 C BLA2ABD2SN4p ohm±25% 5mA 1.ohm max. 55 C to +125 C BLA2ABBSN4p ohm±25% 2mA.1ohm max. 55 C to +125 C BLA2ABB22SN4p 22ohm±25% 2mA.2ohm max. 55 C to +125 C BLA2ABB47SN4p 47ohm±25% 2mA.35ohm max. 55 C to +125 C BLA2ABB121SN4p 12ohm±25% 5mA.6ohm max. 55 C to +125 C BLA2ABB221SN4p 22ohm±25% 5mA.9ohm max. 55 C to +125 C Number of Circuits: BLA2ABD2SN BLA2AAG2SN4 BLA2AAG61SN BLA2AAG221SN4 BLA2AAG121SN BLA2ABD61SN4 BLA2ABD471SN4 BLA2ABD221SN4 BLA2ABD121SN4 BLA2ABD75SN Continued on the following page. Mar.28,211 85

88 BLA Series Signal Lines Type BLA2AA/BLA2AB Series (84 Size) BLA2AA/BLA2AB Signal Lines Type ImpedanceFrequency Characteristics (Main Items) BLA2ABB Series BLA2ABB221SN4 8 BLA2ABB121SN4 6 BLA2ABB47SN4 4 2 BLA2ABB22SN4 BLA2ABBSN4 1 3 ImpedanceFrequency Characteristics BLA2AAG121SN4 BLA2AAG221SN4 BLA2AAG61SN BLA2AAG2SN BLA2ABD75SN BLA2ABD121SN BLA2ABD221SN4 5 BLA2ABD471SN4 8 BLA2ABD61SN Continued on the following page. Mar.28,211 86

89 BLA Series Signal Lines Type BLA2AA/BLA2AB Series (84 Size) BLA2AA/BLA2AB ImpedanceFrequency Characteristics BLA2ABD2SN4 BLA2ABBSN4 BLA2ABB22SN Signal Lines Type BLA2ABB47SN4 BLA2ABB121SN4 BLA2ABB221SN Mar.28,211 87

90 BLA Series Signal Lines Type BLA31A/BLA31B BLA31A/BLA31BSeries (126 Size) 4lines array, 126 size. Signal Lines Type Dimensions (1) (2) (3) (4) (5) (6) (7) (8).4±.2.8±.1 3.2±.2.8±.2.3±.2 1.6±.2 : Electrode (in mm) Equivalent Circuit (1) (2) (3) (4) (5) (6) (7) (8) No polarity. Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 J 33mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Impedance (at MHz/2 C) ImpedanceFrequency Characteristics (Main Items) ated Current efer to pages from p.91 to p.94 for mounting information. DC esistance Operating Temperature ange BLA31AG3SN4p 3ohm±25% 2mA.ohm max. 55 C to +125 C BLA31AG6SN4p 6ohm±25% 2mA.15ohm max. 55 C to +125 C BLA31AG121SN4p 12ohm±25% 15mA.2ohm max. 55 C to +125 C BLA31AG221SN4p 22ohm±25% 15mA.25ohm max. 55 C to +125 C BLA31AG61SN4p 6ohm±25% ma.35ohm max. 55 C to +125 C BLA31AG2SN4p ohm±25% 5mA.45ohm max. 55 C to +125 C BLA31BD121SN4p 12ohm±25% 15mA.3ohm max. 55 C to +125 C BLA31BD221SN4p 22ohm±25% 15mA.35ohm max. 55 C to +125 C BLA31BD471SN4p 47ohm±25% ma.4ohm max. 55 C to +125 C BLA31BD61SN4p 6ohm±25% ma.45ohm max. 55 C to +125 C BLA31BD2SN4p ohm±25% 5mA.55ohm max. 55 C to +125 C Number of Circuits: 4 BLA31AG Series BLA31AG2SN4 BLA31AG61SN4 BLA31AG221SN4 BLA31AG121SN4 BLA31AG6SN4 BLA31AG3SN4 1 3 BLA31BD Series BLA31BD2SN4 BLA31BD61SN4 BLA31BD471SN4 BLA31BD221SN4 BLA31BD121SN4 1 3 Continued on the following page. Mar.28,211 88

91 BLA Series Signal Lines Type BLA31A/BLA31B Series (126 Size) BLA31A/BLA31B ImpedanceFrequency Characteristics BLA31AG3SN4 BLA31AG6SN4 BLA31AG121SN Signal Lines Type BLA31AG221SN4 BLA31AG61SN4 BLA31AG2SN BLA31BD121SN4 BLA31BD221SN4 BLA31BD471SN BLA31BD61SN BLA31BD2SN Mar.28,211 89

92 !Caution/Notice!Caution!Caution/ Notice ating 1. About the ated Current Do not use products beyond the rated current as this may create excessive heat and deteriorate the insulation resistance. 2. About the Excessive Surge Current Excessive surge current ( pulse current or rush current) than specified rated current applied to the product may cause a critical failure, such as an open circuit, burnout caused by excessive temperature rise. Please contact us in advance in case of applying the surge current. Storage and Operating Conditions <Operating Environment> Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Do not use products in the environment close to the organic solvent. <Storage and Handling equirements> 1. Storage Period BLM15E/15H/15G series should be used within 12 months, the other series should be used within 6 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Failure and degradation of a product are caused by the cleaning method. When you clean in conditions that are not in mounting information, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters EMIFILr may vary, depending on the circuits and ICs used, type of noise, mounting pattern, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design. Notice Soldering and Mounting Selfheating Please provide special attention when mounting chip ferrite beads BLM_A/P/K/S series in close proximity to other products that radiate heat. The heat generated by other products may deteriorate the insulation resistance and cause excessive heat in this component. Handling 1. esin Coating Using resin for coating/molding products may affect the products performance. So please pay careful attention in selecting resin. Prior to use, please make the reliability evaluation with the product mounted in your application set. 2. 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 Mar.28,211 9

93 BLp Soldering and Mounting 1. Standard Land Pattern Dimensions BLM2 BLM3 BLM15 (Except BLM 15_AN1 series) BLM18 BLM21 BLM31 BLM41 oeflow and Flow BLM Series c Type Soldering a b c BLM2 eflow BLM3 BLM15 eflow eflow Flow BLM18 (except 18G).7.7 BLM21 eflow Flow/ eflow Except BLM3PG/15A PD PG/18PG KG SG/21PG. And BLM2/3/15/18G is specially adapted for reflow soldering. BLMppA/P/K/S a b c a b Land Pattern + Solder esist Land Pattern Solder esist d (pattern) (in mm) ated Land Pad Thickness Type Current Soldering a b c and Dimension d (A) 18µm 35µm 7µm BLM3A 1max. eflow BLM3PG BLM15A 1.5max eflow BLM15Pp 2.2max BLM18PG Flow BLM18KG eflow BLM18SG BLM21PG Flow/ eflow Soldering and Mounting BLM31PG BLM41PG 1.5/ / Do not apply narrower pattern than listed above to BLMppA/P/K/S. Narrow pattern can cause excessive heat or open circuit. BLA2A BLA31 oeflow Soldering BLA2A 1.75 oeflow and Flow BLA Pitch.25.8 Pitch.4 If there are high amounts of selfheating on pattern, the contact points of PCB and part may become damaged. Mar.28,211 91

94 BLp Soldering and Mounting o PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. Products should be located in the sideways direction (Length: a<b) to the mechanical stress. Poor example b a Good example 2. Solder Paste Printing and Adhesive Application Soldering and Mounting When reflow soldering the chip ferrite beads, the printing must be conducted in accordance with the following cream solder printing conditions. If too much solder is applied, the chip will be prone to damage by mechanical and thermal stress from the PCB and may crack. Standard land dimensions should be used for resist and copper foil patterns. BLM (Except BLM 15_AN1 series) BLA oensure that solder is applied smoothly to a minimum height of.2mm to.3mm at the end surface of the part. oguideline of solder paste thickness: 58µm: BLM2 15µm: BLM3 2µm: BLM15/18/21/31/41.2.3mm min. When flow soldering the chip ferrite beads, apply the adhesive in accordance with the following conditions. 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 process. Series Solder Paste Printing Adhesive Application oguideline of solder paste thickness: 15µm: BLA2A 152µm: BLA31 BLA BLA2A BLM18/21/31/41 Series (Except BLM18G Series) Coating amount is illustrated in the following diagram. PCB Chip Solid Inductor Bonding agent Land BLA31 Series Coating amount is illustrated in the following diagram. PCB Chip Solid Inductor Bonding Agent Land a: 2 7µm b: 3 35µm c: 5 5µm a b a: 2 7µm b: 3 35µm c: 5 5µm a b (in mm) c c Mar.28,211 92

95 BLp Soldering and Mounting 3. Standard Soldering Conditions (1) Soldering Methods Use flow and reflow soldering methods only. Use standard soldering conditions when soldering chip ferrite beads. In cases where several different parts are soldered, each having different soldering conditions, use those conditions requiring the least heat and minimum time. Solder: Use Sn3.Ag.5Cu solder. Use of Snn based solder will deteriorate performance of products. If using BLA series with Snn based solder, please contact Murata in advance. (2) Soldering Profile oflow Soldering profile ( Sn3.Ag.5Cu Solder) Flux: o Use osinbased flux. In case of using A type solder, products should be cleaned completely with no residual flux. o Do not use strong acidic flux (with chlorine content exceeding.2wt%) o Do not use watersoluble flux. For additional mounting methods, please contact Murata. Soldering and Mounting Temperature ( C) T1 T3 T2 t2 Heating Limit Profile Standard Profile Preheating t1 Time (s) Series BLM (Except BLM2/3/15/18G) BLA31 oeflow Soldering Profile (Sn3.Ag.5Cu Solder) Series Temp. (T1) Preheating Time. (t1) Standard Profile Heating Temp. (T2) Time. (t2) 15 C 6s min. 25 C 4 to 6s Temperature ( C) T2 T1 Preheating 9s±3s Standard Profile t1 t2 2 times max. 265±3 C Limit Profile Cycle Heating of Flow Temp. (T3) Time. (t2) Heating Peak Cycle Heating Temperature Temp. (T1) Time. (t1) (T2) of eflow Temp. (T3) Time. (t2) T4 T3 Time (s) Limit Profile Standard Profile Limit Profile 5s max. Peak Temperature (T4) Cycle of Flow 2 times max. Cycle of eflow BLM BLA 22 C min. 3 to 6s 245±3 C 2 times max. 23 C min. 6s max. 26 C/s 2 times max. Mar.28,211 93

96 BLp Soldering and Mounting (3) eworking with Solder Iron The following conditions must be strictly followed when using a soldering iron.(except BLM2 Series) Preheating: 15 C 6s min. Soldering iron power output / Tip diameter: 8W max. / ø3mm max. Temperature of soldering iron tip / Soldering time / Times: 35 C max. / 34s / 2 times Do not allow the tip of the soldering iron to directly contact the chip. For additional methods of reworking with a soldering iron, please contact Murata engineering. 4. Cleaning Soldering and Mounting Following conditions should be observed when cleaning chip ferrite beads. (1) Cleaning Temperature: 6 C max. (4 C max. for alcohol type cleaner) (2) Ultrasonic Output: 2W/liter max. Duration: 5 minutes max. Frequency: 28 to 4kHz (3) Cleaning Agent The following list of cleaning agents have been tested on the individual components. Evaluation of final assembly should be completed prior to production. 5. Mounting of BLM15_AN1 Series BLM15_AN1 is series for wire bonding mounting. (1) Die Bonding Mounting (a) Dimension of Standard Metal Mask Metal thickness: 5µm (in mm) (a) Alcohol cleaning agent Isopropyl alcohol (IPA) (b) Aqueous cleaning agent Pine Alpha STS (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agent has been removed with deionized water. (5) BLM_G type is processed with resin. On rinsing the product, using water for ultrasonic cleaning may affect the resin quality used for the product by water element. In case of set cleaning conditions, please make sure the reliability according to the cleaning conditions. (b) Die Bonding Agent o Use adhesive for die bonding for which the curing temperature is 2 C or less. (c) Notice o Use a flat surface of substrate for bonding mounting. Slant mounting of product may affect the wire bonding. o Adhesive for die bonding may affect the mounting reliability in wire bonding. Make sure of the mounting reliability with the adhesive to be used in advance. Mar.28,211 94

97 BL p Packaging Minimum Quantity and Dimensions of 8mm Width Paper / Embossed Tape 2.± ±.1 4.±.1 a +.1 ø ±.1 3.5±.5 8.±.3 <Embossed> d c <Paper> BLM2/3 Part Number BLM2 BLM3 BLM15 BLM18 BLM18EG/KG_TN BLM18EG/KG_SN BLM18S BLM18T BLM21 BLM31 BLM21BD222SN1/272SN1 BLA2A BLA31 Direction of Feed Cavity Size (mm) Dimension of the cavity is measured at the bottom side. b There are holes in the cavities of the BLM21BD222SN1/ BD272SN1 and BLM31 only. ø BLM2/3/15/18S/18T: 2.±.5 BLA2A: 2.±.1 a c: Depth of Cavity (Embossed Tape) Dimension of the cavity of embossed tape is measured at the bottom side. b c.4 max..55 max..8 max. 1.1 max..85 max. 1.1 max..9 max..9 max. 1.1 max max. 1.1 max. d.2.2 Minimum Qty. (pcs.) c c: Total Thickness of Tape (Paper Tape) ø18mm eel ø33mm eel Paper Tape Embossed Tape Paper Tape Embossed Tape Bulk Minimum Quantity and Dimensions of 12mm Width Embossed Tape ø ±.5 4.±.1 4.±.1 a b +.1 ø ±.1.3±.1 5.5±.5 12.±.3 Direction of Feed c c: Depth of Cavity Part Number BLM41 a 3 3 Cavity Size b c 3 5 c Minimum Qty. (pcs.) ø18mm eel ø33mm eel Bulk (in mm) (in mm) Packaging "Minimum Quantity" means the number of units of each delivery or order. The quantity should be an integral multiple of the "Minimum Quantity". Mar.28,211 95

98 BLp Design Kits oekembl3g (s 5 Size / 21 Size) No. Part Number Quantity (pcs.) Impedance typ. (at MHz, 2 degrees C) ated Current (ma) DC esistance (Ω) max. Design Kits BLM2AGSN1 BLM2AG7SN1 BLM2AG121SN1 BLM3AGSN1 BLM3AG7SN1 BLM3AG8SN1 BLM3AG121SN1 BLM3AG241SN1 BLM3AG61SN1 BLM3AG2SN1 BLM3ASN1 BLM3A8SN1 BLM3A121SN1 BLM3A241SN1 BLM3A61SN1 BLM3A2SN1 BLM3BBSN1 BLM3BB22SN1 BLM3BB47SN1 BLM3BB75SN1 BLM3BB121SN1 BLM3BD75SN1 BLM3BD121SN1 BLM3BD241SN1 BLM3BD471SN1 BLM3BD61SN1 BLM3BC33SN1 BLM3BC56SN1 BLM3BC8SN1 BLM3HG61SN1 BLM3HG2SN1 BLM3HD331SN1 BLM3HD471SN1 BLM3HD61SN1 BLM3HD2SN1 BLM3PG22SN1 BLM3PG33SN1 BLM15AGSN1 BLM15AG7SN1 BLM15AG121SN1 BLM15AG221SN1 BLM15AG61SN1 BLM15AG2SN1 BLM15ASN1 BLM15A3SN1 BLM15A7SN1 BLM15A121SN1 BLM15A221SN1 BLM15A61SN1 BLM15A2SN1 BLM15BA5SN1 oekembl15n (s 42 Size) No. Part Number Quantity (pcs.) Ω (Typ.) 7Ω±25% 12Ω±25% Ω (Typ.) 7Ω (Typ.) 8Ω±25% 12Ω±25% 24Ω±25% 6Ω±25% Ω±25% Ω (Typ.) 8Ω±25% 12Ω±25% 24Ω±25% 6Ω±25% Ω±25% Ω±25% 22Ω±25% 47Ω±25% 75Ω±25% 12Ω±25% 75Ω±25% 12Ω±25% 24Ω±25% 47Ω±25% 6Ω±25% 33Ω±25% 56Ω±25% 8Ω±25% 6Ω±25% Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% Ω±25% 22Ω±25% 33Ω±25% Impedance typ. (at MHz, 2 degrees C) Ω (Typ.) 7Ω (Typ.) 12Ω±25% 22Ω±25% 6Ω±25% Ω±25% Ω (Typ.) 3Ω±25% 7Ω±25% 12Ω±25% 22Ω±25% 6Ω±25% Ω±25% 5Ω±25% ated Current (ma) DC esistance (Ω) max Mar.28, Continued on the following page.

99 BLp Design Kits No No. Part Number oekembl18h (s 63 Size) Continued from the preceding page. BLM15BASN1 BLM15BA22SN1 BLM15BA33SN1 BLM15BA47SN1 BLM15BA75SN1 BLM15BB5SN1 BLM15BBSN1 BLM15BB22SN1 BLM15BB47SN1 BLM15BB75SN1 BLM15BB121SN1 BLM15BB221SN1 BLM15BC121SN1 BLM15BC241SN1 BLM15BD75SN1 BLM15BD121SN1 BLM15BD221SN1 BLM15BD471SN1 BLM15BD61SN1 BLM15BD2SN1 BLM15BD182SN1 BLM15HD61SN1 BLM15HD2SN1 BLM15HD182SN1 BLM15HG61SN1 BLM15HG2SN1 BLM15HB121SN1 BLM15HB221SN1 BLM15EG121SN1 BLM15EG221SN1 BLM15GG221SN1 BLM15GG471SN1 BLM15GA75SN1 BLM15PGSN1 BLM15PD3SN1 BLM15PD6SN1 BLM15PD8SN1 BLM15PD121SN1 BLM15P121SN1 Part Number BLM18AG121SN1 BLM18AG151SN1 BLM18AG221SN1 BLM18AG331SN1 BLM18AG471SN1 BLM18AG61SN1 BLM18AG2SN1 BLM18BA5SN1 BLM18BASN1 BLM18BA47SN1 BLM18BA75SN1 BLM18BA121SN1 BLM18BB5SN1 BLM18BBSN1 BLM18BB22SN1 BLM18BB47SN1 BLM18BB6SN1 BLM18BB75SN1 BLM18BB121SN1 BLM18BB151SN1 BLM18BB221SN1 BLM18BB331SN1 Quantity (pcs.) Quantity (pcs.) Impedance typ. (at MHz, 2 degrees C) Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 75Ω±25% 5Ω±25% Ω±25% 22Ω±25% 47Ω±25% 75Ω±25% 12Ω±25% 22Ω±25% 12Ω±25% 24Ω±25% 75Ω±25% 12Ω±25% 22Ω±25% 47Ω±25% 6Ω±25% Ω±25% 18Ω±25% 6Ω±25% Ω±25% 18Ω±25% 6Ω±25% Ω±25% 12Ω±25% 22Ω±25% 12Ω±25% 22Ω±25% 22Ω±25% 47Ω±25% 75Ω±25% Ω (Typ.) 3Ω±25% 6Ω±25% 8Ω±25% 12Ω±25% 12Ω±25% Impedance typ. (at MHz, 2 degrees C) 12Ω±25% 15Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% Ω±25% 5Ω±25% Ω±25% 47Ω±25% 75Ω±25% 12Ω±25% 5Ω±25% Ω±25% 22Ω±25% 47Ω±25% 6Ω±25% 75Ω±25% 12Ω±25% 15Ω±25% 22Ω±25% 33Ω±25% ated Current (ma) ated Current (ma) DC esistance (Ω) max. Mar.28, DC esistance (Ω) max Continued on the following page. 97 Design Kits

100 BLp Design Kits Continued from the preceding page. Design Kits No oekembl8ga (s 63 Size / for High Frequency Type) No Part Number BLM18BB471SN1 BLM18BD47SN1 BLM18BD121SN1 BLM18BD151SN1 BLM18BD221SN1 BLM18BD331SN1 BLM18BD421SN1 BLM18BD471SN1 BLM18BD61SN1 BLM18BD2SN1 BLM18BD152SN1 BLM18BD182SN1 BLM18BD222SN1 BLM18BD252SN1 BLM18PG3SN1 BLM18PG33SN1 BLM18PG6SN1 BLM18PG121SN1 BLM18PG181SN1 BLM18PG221SN1 BLM18PG331SN1 BLM18PG471SN1 BLM18KG26TN1 BLM18KG3TN1 BLM18KG7TN1 BLM18KG1TN1 BLM18KG121TN1 BLM18KG221SN1 BLM18KG331SN1 BLM18KG471SN1 BLM18KG61SN1 BLM18SG26TN1 BLM18SG7TN1 BLM18SG121TN1 BLM18SG221TN1 BLM18SG331TN1 Part Number BLM18HG471SN1 BLM18HG61SN1 BLM18HG2SN1 BLM18HB121SN1 BLM18HB221SN1 BLM18HB331SN1 BLM18HD471SN1 BLM18HD61SN1 BLM18HD2SN1 BLM18HE61SN1 BLM18HE2SN1 BLM18HE152SN1 BLM18HK331SN1 BLM18HK471SN1 BLM18HK61SN1 BLM18HK2SN1 BLM18EG1TN1 BLM18EG121SN1 BLM18EG221TN1 BLM18EG221SN1 BLM18EG331TN1 BLM18EG391TN1 BLM18EG471SN1 BLM18EG61SN1 BLM18GG471SN1 Quantity (pcs.) Quantity (pcs.) Impedance typ. (at MHz, 2 degrees C) Impedance (at MHz, 2 degrees C) 47Ω±25% 6Ω±25% Ω±25% 12Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% Ω±25% 6Ω±25% Ω±25% 15Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% Ω±25% Ω±25% 12Ω±25% 22Ω±25% 22Ω±25% 33Ω±25% 39Ω±25% 47Ω±25% 6Ω±25% 47Ω±25% 47Ω±25% 47Ω±25% 12Ω±25% 15Ω±25% 22Ω±25% 33Ω±25% 42Ω±25% 47Ω±25% 6Ω±25% Ω±25% 15Ω±25% 18Ω±25% 22Ω±25% 25Ω±25% 3Ω (Typ.) 33Ω±25% 6Ω (Typ.) 12Ω±25% 18Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 26Ω±25% 3Ω±25% 7Ω±25% Ω±25% 12Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% 26Ω±25% 7Ω±25% 12Ω±25% 22Ω±25% 33Ω±25% Impedance (at 1GHz, 2 degrees C) 6Ω (Typ.) 7Ω (Typ.) Ω (Typ.) 5Ω±4% 1Ω±4% 16Ω±4% Ω (Typ.) 12Ω (Typ.) 17Ω (Typ.) 6Ω (Typ.) Ω (Typ.) 15Ω (Typ.) 4Ω (Typ.) 6Ω (Typ.) 7Ω (Typ.) 12Ω (Typ.) 14Ω (Typ.) 145Ω (Typ.) 3Ω (Typ.) 26Ω (Typ.) 45Ω (Typ.) 52Ω (Typ.) 55Ω (Typ.) 7Ω ( Typ.) 18Ω±3% ated Current (ma) ated Current (ma) DC esistance (Ω) max DC esistance (Ω) max Mar.28,211 98

101 BLp Design Kits oekembl21e (s 85 Size / for Largecurrent P Type) No Part Number BLM21AG121SN1 BLM21AG151SN1 BLM21AG221SN1 BLM21AG331SN1 BLM21AG471SN1 BLM21AG61SN1 BLM21AG2SN1 BLM21BB5SN1 BLM21BB6SN1 BLM21BB75SN1 BLM21BB121SN1 BLM21BB221SN1 BLM21BB331SN1 BLM21BB471SN1 BLM21BD121SN1 BLM21BD221SN1 BLM21BD421SN1 BLM21BD471SN1 BLM21BD61SN1 BLM21BD2SN1 BLM21BD152SN1 BLM21BD182SN1 BLM21BD222SN1 BLM21BD222TN1 BLM21BD272SN1 BLM21PG22SN1 BLM21PG3SN1 BLM21PG6SN1 BLM21PG121SN1 BLM21PG221SN1 BLM21PG331SN1 BLM31PG33SN1 BLM31PG5SN1 BLM31PG121SN1 BLM31PG391SN1 BLM31PG61SN1 BLM41PG6SN1 BLM41PG75SN1 BLM41PG181SN1 BLM41PG471SN1 BLM41PG2SN1 Quantity (pcs.) Impedance typ. (at MHz, 2 degrees C) 12Ω±25% 15Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 6Ω±25% Ω±25% 5Ω±25% 6Ω±25% 75Ω±25% 12Ω±25% 22Ω±25% 33Ω±25% 47Ω±25% 12Ω±25% 22Ω±25% 42Ω±25% 47Ω±25% 6Ω±25% Ω±25% 15Ω±25% 18Ω±25% 225Ω (Typ.) 22Ω±25% 27Ω±25% 22Ω±25% 3Ω (Typ.) 6Ω±25% 12Ω±25% 22Ω±25% 33Ω±25% 33Ω±25% 5Ω (Typ.) 12Ω±25% 39Ω (Typ.) 6Ω (Typ.) 6Ω (Typ.) 75Ω (Typ.) 18Ω (Typ.) 47Ω (Typ.) Ω (Typ.) ated Current (ma) DC esistance (Ω) max Design Kits Mar.28,211 99

102 Memo Design Kits Mar.28,211

103 NFp Series Introduction Part Numbering Series Line Up Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits Mar.28,211

104 NFp Series Introduction Ground Terminal Output (Input) Terminal Example of 3 Terminal Capacitor Structure Chip 3 terminal capacitor is chip shaped 3 terminal capacitor designed for noise suppression. Its inner structure like feed through capacitor makes its ground impedance quite low. Owing to this structure, 3 terminal capacitor has good noise suppression effect at high frequency range up to several hundred MHz. Ground Terminal Input (Output) Terminal Ground Terminal Inner Feed Through Electrode Series Equivalent Circuit Cross Section Part Number NFM Series (3 terminal capacitor) NFM18CC NFM21CC NFM18PC NFM18PS NFM21PC NFL / NFW Series (LC filter) NFL18ST NFL18SP NFL21SP NFW31SP NFA21S NFA18S NF Series (C filter) NF21GD NFA31GD NFE Series Feed through capacitor with ferrite cores NFE31PT NFE61PT Mar.28,211 2

105 NFp Series Introduction Insertion Loss (db) 2 3 Multilayer Capacitor 168 Size 1µF Terminal Capacitor 168 Size 1µF 8 NFM18PS Insertion Loss Sample Features Classification Applications Example Standard of 3 terminal capacitor NFM_CC NFM_PC Standard type with varied capacitance Meet large current, high capacitance available, for power lines Noise suppression in low speed signal lines Noise suppression in power lines Low speed interface lines, sensor Individual IC power lines Sharp insertion loss curve enables low damage to signal waveform NFL_ST NFL_SP NFW_SP Ttype filter, effective in low impedance circuits πtype filter, effective in high impedance circuits πtype filter, designed for low impedance circuits Noise suppression in high speed signal lines High speed interface lines Bus lines LCD lines Camera I/Fs High speed analog lines GB / D terminal NFA_SL 4line array, suitable for bus lines or flat cables Limit noise using resistor, also loop back to ground Noise suppression in signal line with unstable ground Interface lines Clock lines Meet large current, good high frequency performance because of its feed through structure Noise suppression in power lines / low impedance lines Various power lines sensor Mar.28,211 3

106 NFp Capacitor Part Numbering (Part Number) NF q M w qproduct ID Product ID NF wstructure Code M A edimensions (LgW) Code D rfeatures Code CC PC PS Structure Capacitor Type Capacitor Array Type Dimensions (LgW) 1.6g.8mm 2.g1.25mm 3.2g1.25mm 3.2g1.6mm 4.5g1.6mm 5.7g5.mm EIA Features Capacitor Type for Signal Lines Capacitor Type for Large Current High Loss Type for Large Current tcapacitance Expressed by three figures. The unit is in picofarad (pf). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. opackaging L B D 3D e CC r 2 t y 1H u 3 i Embossed Taping (ø18mm eel) Bulk Paper Taping (ø18mm eel) ycharacteristics Code Code Packaging Series L o B F U S uated Voltage Code J 1A 1C 1E 1H 2A ielectrode/others (NFM Series) Code 3 4 Code NFM3D/NFM31/NFM41/NFM55 All series NFM18/NFM21/NFAppCC Capacitance Change (Temperature Characteristics) ±%, ±12.5%, +/13% +3/8%, +3/84% ±15%, +15/18% 75 ±12ppm/ C +35 to ppm/ C Electrode Sn Plating Solder Coating inumber of Circuits (NFAppCC Series) ated Voltage 6.3V V 16V 25V 5V V Number of Circuits 4 4 Circuits Series NFM (Except NFM55) NFM55 Mar.28,211 4

107 NFp Part Numbering LC Combined (1) (Part Number) NF L q w qproduct ID Product ID NF 18 ST 7 1C 3 L e r t y u i o ycharacteristics (NFL/NFW Series) Code Characteristics Cutoff Frequency wstructure Code L W E edimensions (LgW) Code rfeatures Code SP ST PT Structure Maltilayer, LC Combined Type Wire Wound, LC Combined Type Block, LC Combined Type Dimensions (LgW) 1.6g.8mm 2.g1.25mm 3.2g1.6mm 6.8g1.6mm Features π Circuit for Signal Lines T Circuit for Signal Lines T Circuit for Large Current EIA tcutoff Frequency (NFL/NFW Series) Expressed by three figures. The unit is in hertz (Hz). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. tcapacitance (NFE Series) Expressed by three figures. The unit is in picofarad (pf). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. ycharacteristics (NFE Series) Code Capacitance Change (Temperature Characteristics) B ±% C ±2%, ±22% D +2/3%, +22/33% E +2/55%, +22/56% F +3/8%, +22/82% ±15% U 75 ±12ppm/ C Other uated Voltage Code ated Voltage 1A 1C 1E 1H 2A V 16V 25V 5V V ielectrode Code Electrode Series 3/7 4 9 Sn Plating Lead Free Solder Coating Others NFL NFW NFE opackaging Code Packaging Series K L B D Embossed Taping (ø33mm eel) Embossed Taping (ø18mm eel) Bulk Paper Taping (ø18mm eel) NFW31/NFE NFW31/NFE NFL18/NFL21/NFE NFL18/NFL21 Mar.28,211 5

108 NFp Part Numbering LC Combined (2) (Part Number) NF q A 21 w e qproduct ID Product ID NF wstructure SL r 27 1A t y u 4 i 5 o L! yfeatures (2) Code V Features Expressed by a letter Code A Structure Array Type uated Voltage Code ated Voltage edimensions (LgW) 1A V Code Dimensions (LgW) EIA inumber of Circuits g.8mm 63 Code Number of Circuits 21 rfeatures (1) Code SL 2.g1.25mm 85 Features L Circuit for Signal Lines 4 4 Circuits odimensions (T) Code Dimensions (T) 5 Low Profile SD L Circuit for Differential Signal 8 Standard tcutoff Frequency Expressed by three figures. The unit is in hertz (Hz). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures.!packaging Code B L Packaging Bulk Embossed Taping (ø18mm eel) C Combined (Part Number) NF 21 GD L q w e r t y u i qproduct ID Product ID NF wstructure Code Structure A C Combined Type C Combined Array Type edimensions (LgW) Code Dimensions (LgW) EIA g1.25mm 3.2g1.6mm rfeatures Code Features GD C Combined Type for Signal Lines tcapacitance Expressed by three figures. The unit is in picofarad (pf). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. yesistance Expressed by threedigit alphanumerics. The unit is in ohm (Ω). 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 "". In this case, all figures are significant digits. uelectrode/others (NF Series) Code Electrode 2 Sn Plating unumber of Circuits (NFAppGD Series) Code Number of Circuits 4 4 Circuits ipackaging Code Packaging Series L Embossed Taping (ø18mm eel) NF B Bulk All Series D Paper Taping (ø18mm eel) NFAppGD Mar.28,211 6

109 NFp Series Line Up Type Capacitor Type for Signal Lines Capacitor Array Type for Signal Lines Capacitor Type for Power Lines Size Code (Inch) p12 p121 p122 p123 p124 p112 p113 p115 p116 p117 p p119 Thickness (mm) Part Number ated Nominal ated Capacitance Cutoff Voltage Frequency Current NFM18CC22U1C3 16Vdc 22pF+2%2% 4mA NFM18CC47U1C3 16Vdc 47pF+2%2% 4mA NFM18CC11C3 16Vdc pf+2%2% 5mA NFM18CC2211C3 16Vdc 22pF+2%2% 5mA NFM18CC4711C3 16Vdc 47pF+2%2% 5mA NFM18CC21C3 16Vdc pf+2%2% 6mA NFM18CC2221C3 16Vdc 22pF+2%2% 7mA NFM18CC2231C3 16Vdc 22pF+2%2% ma NFM21CC22U1H3 5Vdc 22pF+2%2% 7mA NFM21CC47U1H3 5Vdc 47pF+2%2% 7mA NFM21CC1U1H3 5Vdc pf+2%2% 7mA NFM21CC2211H3 5Vdc 22pF+2%2% 7mA NFM21CC4711H3 5Vdc 47pF+2%2% ma NFM21CC21H3 5Vdc pf+2%2% ma NFM21CC2221H3 5Vdc 22pF+2%2% ma NFM21CC2231H3 5Vdc 22pF+2%2% 2mA NFM3DCC22U1H3 5Vdc 22pF+5%2% 3mA NFM3DCC47U1H3 5Vdc 47pF+5%2% 3mA NFM3DCC1U1H3 5Vdc pf+5%2% 3mA NFM3DCC2211H3 5Vdc 22pF+5%2% 3mA NFM3DCC4711H3 5Vdc 47pF+5%2% 3mA NFM3DCC21H3 5Vdc pf+5%2% 3mA NFM3DCC2221H3 5Vdc 22pF+5%2% 3mA NFM3DCC2231H3 5Vdc 22pF+5%2% 3mA NFM41CC22U2A3 Vdc 22pF+5%2% 3mA NFM41CC47U2A3 Vdc 47pF+5%2% 3mA NFM41CC1U2A3 Vdc pf+5%2% 3mA NFM41CC221U2A3 Vdc 22pF+5%2% 3mA NFM41CC4712A3 Vdc 47pF+5%2% 3mA NFM41CC22A3 Vdc pf+5%2% 3mA NFM41CC2222A3 Vdc 22pF+5%2% 3mA NFM41CC2232A3 Vdc 22pF+5%2% 3mA NFA31CC22S1E4 25Vdc 22pF+2%2% 2mA NFA31CC47S1E4 25Vdc 47pF+2%2% 2mA NFA31CC1S1E4 25Vdc pf+2%2% 2mA NFA31CC221S1E4 25Vdc 22pF+2%2% 2mA NFA31CC4711E4 25Vdc 47pF+2%2% 2mA NFA31CC21E4 25Vdc pf+2%2% 2mA NFA31CC2221E4 25Vdc 22pF+2%2% 2mA NFA31CC2231C4 16Vdc 22pF+2%2% 2mA NFM18PS474J3 6.3Vdc.47µF+2%2% 2A NFM18PS5J3 6.3Vdc 1.µF+2%2% 2A NFM18PC41C3 16Vdc.1µF+2%2% 2A NFM18PC224J3 6.3Vdc.22µF+2%2% 2A NFM18PC474J3 6.3Vdc.47µF+2%2% 2A NFM18PC5J3 6.3Vdc 1.µF+2%2% 4A NFM18PC225BJ3 6.3Vdc 2.2µF+2%2% 2A NFM18PC225B1A3 Vdc 2.2µF+2%2% 4A NFM21PC41E3 25Vdc.1µF+2%2% 2A NFM21PC2241C3 16Vdc.22µF+2%2% 2A NFM21PC4741C3 16Vdc.47µF+2%2% 2A NFM21PC5B1A3 Vdc 1.µF+2%2% 4A NFM21PC5B1C3 16Vdc 1.µF+2%2% 4A NFM21PC225BJ3 6.3Vdc 2.2µF+2%2% 4A NFM21PC475B1A3 Vdc 4.7µF+2%2% 6A NFM3DPC2231H3 5Vdc.22µF+2%2% 2A NFM31PC276BJ3 6.3Vdc 27µF+2%2% 6A NFM41PC24F1H3 5Vdc.2µF+8%2% 2A NFM41PC155B1E3 25Vdc 1.5µF+2%2% 6A NFM55PC155F1H4 5Vdc 1.5µF+8%2% 6A Continued on the following page. Mar.28,211 7

110 NFp Series Line Up Type LC Combined Type for Power Lines and Signal Lines LC Combined Multilayer Type for Signal Lines LC Combined Array Type for Signal Lines Size Code Thickness (Inch) (mm) p p p p p p p p13.6 p p p Part Number ated Nominal ated Capacitance Cutoff Voltage Frequency Current NFE31PT221E9 25Vdc 22pF+3%3% 6A NFE31PT47C1E9 25Vdc 47pF+5%2% 6A NFE31PT1C1E9 25Vdc pf+8%2% 6A NFE31PT221D1E9 25Vdc 22pF+5%2% 6A NFE31PT471F1E9 25Vdc 47pF+5%2% 6A NFE31PT1521E9 25Vdc 15pF+5%2% 6A NFE31PT2221E9 25Vdc 22pF+5%5% 6A NFE61PT33B1H9 5Vdc 33pF+3%3% 2A NFE61PT68B1H9 5Vdc 68pF+3%3% 2A NFE61PT11H9 5Vdc pf+3%3% 2A NFE61PT181B1H9 5Vdc 18pF+3%3% 2A NFE61PT361B1H9 5Vdc 36pF+2%2% 2A NFE61PT681B1H9 5Vdc 68pF+3%3% 2A NFE61PT2E1H9 5Vdc pf+8%2% 2A NFE61PT472C1H9 5Vdc 47pF+8%2% 2A NFL18ST56H1A3 Vdc 1pF (Typ.) 5MHz 75mA NFL18ST76H1A3 Vdc 7pF (Typ.) 7MHz 75mA NFL18ST7H1A3 Vdc 5pF (Typ.) MHz 75mA NFL18ST271C3 16Vdc 25pF+2%2% 2MHz 15mA NFL18ST371C3 16Vdc 18pF+2%2% 3MHz 2mA NFL18ST571C3 16Vdc pf+2%2% 5MHz 2mA NFL18SP1571A3 Vdc 34pF+2%2% 15MHz ma NFL18SP271A3 Vdc 24pF+2%2% 2MHz ma NFL18SP371A3 Vdc 19pF+2%2% 3MHz ma NFL18SP571A3 Vdc 11pF+2%2% 5MHz ma NFL21SP61C3 16Vdc 67pF+2%2% MHz ma NFL21SP261C7 16Vdc 24pF+2%2% 2MHz ma NFL21SP561C3 16Vdc 84pF+2%2% 5MHz 15mA NFL21SP761C3 16Vdc 76pF+2%2% 7MHz 15mA NFL21SP71C3 16Vdc 44pF+2%2% MHz 2mA NFL21SP1571C3 16Vdc 28pF+2%2% 15MHz 2mA NFL21SP271C3 16Vdc 22pF+2%2% 2MHz 25mA NFL21SP371C3 16Vdc 19pF+%% 3MHz 3mA NFL21SP471C3 16Vdc 16pF+%% 4MHz 3mA NFL21SP571C3 16Vdc 12pF+%% 5MHz 3mA NFA18SL137V1A45 Vdc 13MHz 5mA NFA18SL187V1A45 Vdc 18MHz 5mA NFA18SL27V1A45 NFA18SL227V1A45 Vdc Vdc 2MHz 22MHz 5mA 25mA NFA18SL37V1A45 Vdc 3MHz ma NFA18SL357V1A45 Vdc 35MHz 35mA NFA18SL47V1A45 Vdc 4MHz ma NFA18SL487V1A45 Vdc 48MHz ma NFA18SL561A45 Vdc 5MHz 25mA NFA18SD1871A45 NFA18SD271A45 Vdc Vdc 18MHz 2MHz 25mA 25mA NFA21SL287V1A45 Vdc 28MHz ma NFA21SL317V1A45 Vdc 3MHz ma NFA21SL337V1A45 Vdc 33MHz ma NFA21SL287V1A48 Vdc 28MHz ma NFA21SL317V1A48 Vdc 3MHz ma NFA21SL337V1A48 Vdc 33MHz ma NFA21SL271A45 Vdc 2MHz ma NFA21SL371A45 Vdc 3MHz ma NFA21SL561A48 Vdc 5MHz 2mA NFA21SL861A48 Vdc 8MHz 2mA NFA21SL271A48 Vdc 2MHz ma NFA21SL371A48 Vdc 3MHz ma Continued on the following page. Mar.28,211 8

111 NFp Series Line Up Type LC Combined Wire Wound Type for Signal Lines C Combined Type for Signal Lines C Combined Array Type for Signal Lines Size Code Thickness (Inch) (mm) p134 p136 p Part Number ated Nominal ated Capacitance Cutoff Voltage Frequency Current NFW31SP61E4 MHz NFW31SP261E4 2MHz NFW31SP561E4 5MHz NFW31SP71E4 MHz NFW31SP1571E4 15MHz NFW31SP271E4 2MHz NFW31SP371E4 3MHz NFW31SP471E4 4MHz NFW31SP571E4 5MHz NF21GD222 NF21GD472 NF21GD47222 NF21GD47472 NF21GD47682 NF21GD4712 NF21GD1222 5Vdc 5Vdc 5Vdc 5Vdc 5Vdc 5Vdc 5Vdc pf+2%2% pf+2%2% 47pF+2%2% 47pF+2%2% 47pF+2%2% 47pF+2%2% pf+2%2% 5mA 35mA 5mA 35mA 3mA 25mA 5mA NF21GD1472 5Vdc pf+2%2% 35mA NF21GD1682 5Vdc pf+2%2% 3mA NF21GD112 NFA31GD684 NFA31GD474 NFA31GD14 NFA31GD47684 NFA31GD47334 NFA31GD47474 NFA31GD4714 NFA31GD1684 NFA31GD1474 NFA31GD114 5Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc 6Vdc pf+2%2% pf+2%2% pf+2%2% pf+2%2% 47pF+2%2% 47pF+2%2% 47pF+2%2% 47pF+2%2% pf+2%2% pf+2%2% pf+2%2% 25mA 5mA 2mA 15mA 5mA 2mA 2mA 15mA 5mA 2mA 15mA Mar.28,211 9

112 NFE Series Universal Type [Power Lines/Signal Lines] NFE31P NFE31PSeries (126 Size) Meet 6A, Ttype filter with builtin ferrite bead. Dimensions.7±.2 1.±.2.7±.2 (1) (2) (3) 1.6± ± ±.15 : Electrode (in mm) Equivalent Circuit Input Output (1) (3) Packaging GND (2) No polarity. Code Packaging Minimum Quantity L 18mm eel Embossed Tape 2 K 33mm eel Embossed Tape 8 B Bulk(Bag) 5 Universal Type [Power Lines/Signal Lines] ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFE31PT221E9p 22pF+3%3% 6A 25Vdc M ohm 4 C to +85 C NFE31PT47C1E9p 47pF+5%2% 6A 25Vdc M ohm 4 C to +85 C NFE31PT1C1E9p pf+8%2% 6A 25Vdc M ohm 4 C to +85 C NFE31PT221D1E9p 22pF+5%2% 6A 25Vdc M ohm 4 C to +85 C NFE31PT471F1E9p 47pF+5%2% 6A 25Vdc M ohm 4 C to +85 C NFE31PT1521E9p 15pF+5%2% 6A 25Vdc M ohm 4 C to +85 C NFE31PT2221E9p 22pF+5%5% 6A 25Vdc M ohm 4 C to +85 C Number of Circuit: 1 Insertion Loss (db) NFE31PT1C1E9 NFE31PT221D1E9 NFE31PT471F1E9 NFE31PT1521E9 NFE31PT2221E9 (5Ω 5Ω) NFE31PT221E9 NFE31PT47C1E Mar.28,211 1

113 NFE Series Universal Type [Power Lines/Signal Lines] NFE61P NFE61PSeries (276 Size) Ttype filter with builtin ferrite bead. Dimensions.7±.2 2.6±.3.7±.2 (1) (2) (3) 6.8±.5 1.6±.3 1.6±.3 Equivalent Circuit Input Output (1) (3) Packaging GND (2) No polarity. : Electrode (in mm) Code Packaging Minimum Quantity L 18mm eel Embossed Tape 25 K 33mm eel Embossed Tape 8 B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFE61PT33B1H9p 33pF+3%3% 2A 5Vdc M ohm 25 C to +85 C NFE61PT68B1H9p 68pF+3%3% 2A 5Vdc M ohm 25 C to +85 C NFE61PT11H9p pf+3%3% 2A 5Vdc M ohm 25 C to +85 C NFE61PT181B1H9p 18pF+3%3% 2A 5Vdc M ohm 25 C to +85 C NFE61PT361B1H9p 36pF+2%2% 2A 5Vdc M ohm 25 C to +85 C NFE61PT681B1H9p 68pF+3%3% 2A 5Vdc M ohm 25 C to +85 C NFE61PT2E1H9p pf+8%2% 2A 5Vdc M ohm 25 C to +85 C NFE61PT472C1H9p 47pF+8%2% 2A 5Vdc M ohm 25 C to +85 C Number of Circuit: 1 Insertion Loss (db) Universal Type [Power Lines/Signal Lines] NFE61PT181B1H9 NFE61PT361B1H9 NFE61PT681B1H9 NFE61PT2E1H9 NFE61PT472C1H9 (5Ω 5Ω) NFE61PT33B1H9 NFE61PT68B1H9 NFE61PT11H Mar.28,

114 NFM Series Power Lines Type NFM18PS NFM18PSSeries (63 Size) 3terminal capacitor for power lines whose ground impedance has reduced. *Please refer to the products which are designed for both power lines and signal lines. Dimensions.8±.1 (1) (2) (2) ±.1.2 min (3) Equivalent Circuit (1) Input Output (3) GND (2) No polarity ±.1.4±.1 Packaging Code Packaging Minimum Quantity : Electrode (in mm) D 18mm eel Paper Tape 4 B Bulk(Bag) 5 Power Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM18PS474J3p.47µF+2%2% 2A 6.3Vdc M ohm 55 C to +125 C NFM18PS5J3p 1.µF+2%2% 2A 6.3Vdc 5M ohm 55 C to +5 C Number of Circuit: 1 (5Ω 5Ω) 2 NFM18PS474J3 Insertion Loss (db) NFM18PS5J Mar.28,

115 NFM Series Power Lines Type NFM18PC NFM18PCSeries (63 Size) 4A max, 63 size chip 3terminal capacitor for power lines. *Please refer to the products which are designed for both power lines and signal lines. NFM18PC (.1 to.47µf, 2.2µF6.3V) Dimensions.25±.1.4±.1.8±.1.6±.1 Equivalent Circuit (1) Input Output (3) GND No polarity. (2).2 min. 1.6±.1 (2) Packaging (1) (3).8±.1 Code Packaging Minimum Quantity (2).2±.1 : Electrode (in mm) D 18mm eel Paper Tape 4 B Bulk(Bag) 5 NFM18PC (1µF, 2.2µFV) Dimensions.2 min..2 min. (2) (1) (3) (2).25±.1.25±.1.8±.1.8±.1 Equivalent Circuit (1) Input Output (3) GND (2) No polarity. Power Lines Type.4±.1 1.6±.1 Packaging Code Packaging Minimum Quantity : Electrode D 18mm eel Paper Tape 4 (in mm) B Bulk(Bag) 5 ated Value (p: packaging code) Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. NFM18PC41C3p.1µF±2% 2A 16Vdc M ohm 55 C to +125 C NFM18PC224J3p.22µF±2% 2A 6.3Vdc M ohm 55 C to +125 C NFM18PC474J3p.47µF±2% 2A 6.3Vdc M ohm 55 C to +125 C NFM18PC5J3p 1.µF±2% 4A 6.3Vdc 5M ohm 55 C to +5 C NFM18PC225BJ3p 2.2µF±2% 2A 6.3Vdc 2M ohm 4 C to +85 C NFM18PC225B1A3p 2.2µF±2% 4A Vdc 2M ohm 4 C to +85 C Number of Circuit: 1 Insertion Loss (db) Part Number Capacitance ated Current ated Voltage NFM18PC41C3 NFM18PC5J3 NFM18PC225BJ3 (6.3V) NFM18PC225B1A3 (V) NFM18PC224J3 NFM18PC474J3 (5Ω 5Ω) Insulation esistance (min.) Operating Temperature ange Mar.28,

116 EMI Suppression Effect NFM18P Series Power Lines Type High frequency performance of NFM18PS series I.L. (db) Chip 3 terminal capacitor (5 ohm 5 ohm) 2 2 terminal MLCC: 212 size (.1µFxpcs parallel) NFM18PC5J3 1pc : 168 size (1.µF) NFM18PS5J3 1pc : 168 size (1.µF).1 1 NFM18PS series has better high frequency performance compared to normal chip 3 terminal capacitors. Optimize of bypass capacitors using chip 3 terminal capacitor Bypass capacitor IC chip 3 terminal capacitor IC Amount of parts can be reduced. educe PCB space educe mount cost Memory Memory Comparison of performance as bypass capacitor Without capacitor With MLCC.22µFx4 With chip 3 terminal capacitor (NFM) 1µFx1 Micro computer Micro computer Micro computer Inner layer power pattern Noise Level (dbµv/m) Noise Level (dbµv/m) GND Power line MLCC MLCC NFM Noise Level (dbµv/m) Noise suppression effect of NFM series is better than MLCCs. (1 NFM is better than 4 MLCCs) Mar.28,

117 NFM Series Power Lines Type NFM21P NFM21PSeries (85 Size) 6A max, 85 size chip 3terminal capacitor for power lines. *Please refer to the products which are designed for both power lines and signal lines. Dimensions.3±.2.4±.2.6±.2 2.±.2.85± ±.1 Equivalent Circuit (1) Input Output (3) GND (2) No polarity. (2) (1) (3) (2).25±.2 : Electrode (in mm) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM21PC41E3p.1µF+2%2% 2A 25Vdc M ohm 55 C to +125 C NFM21PC2241C3p.22µF+2%2% 2A 16Vdc M ohm 55 C to +125 C NFM21PC4741C3p.47µF+2%2% 2A 16Vdc M ohm 55 C to +125 C NFM21PC5B1A3p 1.µF+2%2% 4A Vdc 5M ohm 4 C to +85 C NFM21PC5B1C3p 1.µF+2%2% 4A 16Vdc 5M ohm 4 C to +85 C NFM21PC225BJ3p 2.2µF+2%2% 4A 6.3Vdc 2M ohm 4 C to +85 C NFM21PC475B1A3p 4.7µF+2%2% 6A Vdc M ohm 4 C to +85 C Number of Circuit: 1 Insertion Loss (db) 2 4 Power Lines Type 6 8 NFM21PC225BJ3 NFM21PC475B1A3 NFM21PC41E3 NFM21PC2241C3 NFM21PC4741C3 NFM21PC5B1A3 (V) NFM21PC5B1C3 (16V) (5Ω 5Ω) Mar.28,

118 NFM Series Power Lines Type NFM3DP NFM3DPSeries (125 Size) 125 size 3terminal capacitor for power lines. *Please refer to the products which are designed for both power lines and signal lines. Dimensions 1.1±.3 3.2±.2.7± ±.2 Equivalent Circuit (1) Input Output (3) GND No polarity. (2) (2) (1) (3) Packaging.25±.2 (2).3±.2 : Electrode (in mm) Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) 5 Power Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) Notice (ating) When NFM3DP series is used in operating temperatures exceeding +85 C, derating of current is necessary. Please apply the derating curve shown in chart according to the operating temperature. efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM3DPC2231H3p.22µF+2%2% 2A 5Vdc M ohm 55 C to +125 C Number of Circuit: 1 Insertion Loss (db) NFM3DPC2231H3 (5Ω 5Ω) ated Current (A) Operating Temperature ( C) Mar.28,

119 NFM Series Power Lines Type NFM31P NFM31PSeries (126 Size) 6A/27microF, 126 size chip 3terminal capacitor for power lines. *Please refer to the products which are designed for both power lines and signal lines. Dimensions.4±.3 1.1±.3.4±.3 1.6±.2 3.2±.2 1.3±.2 Equivalent Circuit (1) Input Output (3) GND (2) No polarity. (1) (2) (2) (3).3±.2 1.6±.2 Packaging Code Packaging Minimum Quantity : Electrode L 18mm eel Embossed Tape 3 (in mm) B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM31PC276BJ3p 27µF+2%2% 6A 6.3Vdc 2M ohm 4 C to +85 C Number of Circuit: 1 (5Ω 5Ω) Power Lines Type 2 Insertion Loss (db) NFM31PC276BJ Mar.28,

120 NFM Series Power Lines Type NFM41P NFM41PSeries (186 Size) 6A max, 186 size chip 3terminal capacitor for power lines. *Please refer to the products which are designed for both power lines and signal lines. Dimensions.4±.3 1.5±.3.7 min. 4.5±.3 1.6±.3 1.±.2 Equivalent Circuit (1) Input Output (3) GND (2) No polarity. (2) (1) (3) (2) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) 5 Power Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM41PC24F1H3p.2µF+8%2% 2A 5Vdc M ohm 55 C to +85 C NFM41PC155B1E3p 1.5µF+2%2% 6A 25Vdc 3M ohm 55 C to +85 C Number of Circuit: 1 1.6±.3 : Electrode (in mm) (5Ω 5Ω) 2 Insertion Loss (db) NFM41PC24F1H3 NFM41PC155B1E3 1 3 Mar.28,

121 NFM Series Power Lines Type NFM55P NFM55PSeries (222 Size) 5V/6A/1.5microF, large capacitance chip 3terminal capacitor. *Please refer to the products which are designed for both power lines and signal lines. Dimensions ±.3 2.2± ±.3 Equivalent Circuit (1) Input Output (3) GND No polarity. (2) (2) (1) (2) (3) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 5 B Bulk(Bag) ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM55PC155F1H4p 1.5µF+8%2% 6A 5Vdc M ohm 55 C to +85 C Number of Circuit: 1 Power Lines Type : Electrode (in mm) (5Ω 5Ω) 2 Insertion Loss (db) NFM55PC155F1H Mar.28,

122 NFM Series Signal Lines Type NFM18C NFM18CSeries (63 Size) 63 size general 3terminal capacitor. Dimensions.25±.1.4±.1.8±.1.6±.1 Equivalent Circuit (1) Input Output (3) GND No polarity..2 min. 1.6±.1 (2) (2) (1) (3) (2).2±.1.8±.1 : Electrode (in mm) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM18CC22U1C3p 22pF+2%2% 4mA 16Vdc M ohm 55 C to +125 C NFM18CC47U1C3p 47pF+2%2% 4mA 16Vdc M ohm 55 C to +125 C NFM18CC11C3p pf+2%2% 5mA 16Vdc M ohm 55 C to +125 C NFM18CC2211C3p 22pF+2%2% 5mA 16Vdc M ohm 55 C to +125 C NFM18CC4711C3p 47pF+2%2% 5mA 16Vdc M ohm 55 C to +125 C NFM18CC21C3p pf+2%2% 6mA 16Vdc M ohm 55 C to +125 C NFM18CC2221C3p 22pF+2%2% 7mA 16Vdc M ohm 55 C to +125 C NFM18CC2231C3p 22pF+2%2% ma 16Vdc M ohm 55 C to +125 C Number of Circuit: 1 Insertion Loss (db) NFM18CC2231C3 NFM18CC2221C3 NFM18CC21C3 NFM18CC4711C3 NFM18CC2211C3 NFM18CC11C3 NFM18CC47U1C3 NFM18CC22U1C3 (5Ω 5Ω) Mar.28,211 12

123 NFM Series Signal Lines Type NFM21C NFM21CSeries (85 Size) 85 size general 3terminal capacitor. Dimensions.3±.2.6±.2 2.±.2.85± ±.1 Equivalent Circuit (1) Input Output (3) GND (2) No polarity. (1) (3) (2) (2) : Electrode (in mm) Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM21CC22U1H3p 22pF+2%2% 7mA 5Vdc M ohm 55 C to +125 C NFM21CC47U1H3p 47pF+2%2% 7mA 5Vdc M ohm 55 C to +125 C NFM21CC1U1H3p pf+2%2% 7mA 5Vdc M ohm 55 C to +125 C NFM21CC2211H3p 22pF+2%2% 7mA 5Vdc M ohm 55 C to +125 C NFM21CC4711H3p 47pF+2%2% ma 5Vdc M ohm 55 C to +125 C NFM21CC21H3p pf+2%2% ma 5Vdc M ohm 55 C to +125 C NFM21CC2221H3p 22pF+2%2% ma 5Vdc M ohm 55 C to +125 C NFM21CC2231H3p 22pF+2%2% 2mA 5Vdc M ohm 55 C to +125 C Number of Circuit: 1 Insertion Loss (db) NFM21CC22U1H3 NFM21CC47U1H3 NFM21CC1U1H3 NFM21CC2211H3 Signal Lines Type NFM21CC4711H3 NFM21CC2231H3 NFM21CC2221H3 (5Ω 5Ω) NFM21CC21H3 1 2 Mar.28,

124 NFM Series Signal Lines Type NFM3DC NFM3DCSeries (125 Size) 125 size general 3terminal capacitor. Dimensions 1.1±.3 3.2±.2.7± ±.2 Equivalent Circuit (1) Input Output (3) GND No polarity. (2) (2) (1) (3) Packaging.25±.2 (2).3±.2 : Electrode (in mm) Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM3DCC22U1H3p 22pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC47U1H3p 47pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC1U1H3p pf+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC2211H3p 22pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC4711H3p 47pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC21H3p pf+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC2221H3p 22pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C NFM3DCC2231H3p 22pF+5%2% 3mA 5Vdc M ohm 55 C to +125 C Number of Circuit: 1 Insertion Loss (db) 2 NFM3DCC2231H3 4 NFM3DCC2221H3 6 8 NFM3DCC21H3 NFM3DCC4711H3 NFM3DCC2211H3 NFM3DCC1UH3 NFM3DCC47U1H3 NFM3DCC22U1H3 (5Ω 5Ω) 1 2 Mar.28,

125 NFM Series Signal Lines Type NFM41C NFM41CSeries (186 Size) 186 size general 3terminal capacitor. Dimensions 1.5±.3 4.5±.3 1.±.2 1.6±.3 Equivalent Circuit (1) Input Output (3) GND No polarity. (2) (2) (1) (3) Packaging (2).4±.3 : Electrode Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 (in mm) B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFM41CC22U2A3p 22pF+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC47U2A3p 47pF+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC1U2A3p pf+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC221U2A3p 22pF+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC4712A3p 47pF+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC22A3p pf+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC2222A3p 22pF+5%2% 3mA Vdc M ohm 55 C to +125 C NFM41CC2232A3p 22pF+5%2% 3mA Vdc M ohm 55 C to +125 C Number of Circuit: 1 Insertion Loss (db) NFM41CC2232A3 NFM41CC2222A3 NFM41CC22A3 NFM41CC4712A3 Signal Lines Type NFM41CC221U2A3 NFM41CC1U2A3 NFM41CC47U2A3 (5Ω 5Ω) NFM41CC22U2A3 1 2 Mar.28,

126 NFA Series Signal Lines Type NFA31C NFA31CSeries (126 Size) 4lines chip 3terminal capacitor array, 126 size. Dimensions 3.2±.2.8±.1 1.6±.2.4±.2 1.1±.5 (7) (8) (9) () (2) (1).5 min..8±.2 Equivalent Circuit GND (1) Packaging Code Input (7) (8) (9) () (3) (4) (5) (6) Output No polarity. Packaging (2) GND Minimum Quantity (3) (4) (5) (6).5 min. : Electrode (in mm) D 18mm eel Paper Tape 4 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number Capacitance ated Current ated Voltage Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Operating Temperature ange NFA31CC22S1E4p 22pF+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC47S1E4p 47pF+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC1S1E4p pf+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC221S1E4p 22pF+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC4711E4p 47pF+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC21E4p pf+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC2221E4p 22pF+2%2% 2mA 25Vdc M ohm 4 C to +85 C NFA31CC2231C4p 22pF+2%2% 2mA 16Vdc M ohm 4 C to +85 C Number of Circuit: 4 Insertion Loss (db) NFA31CC2231C4 NFA31CC2221E4 NFA31CC21E4 NFA31CC4711E4 NFA31CC221S1E4 (5Ω 5Ω) NFA31CC47S1E4 NFA31CC22S1E4 NFA31CC1S1E4 1 2 Mar.28,

127 NFL Series Signal Lines Type NFL18ST NFL18STSeries (63 Size) Ttype LC filter. educe waveform distortion of high speed signal. NFL18ST_H Dimensions (Top View) 1.6±.1 (2) (1) (3).8±.1 Equivalent Circuit Input (1) Output (3) (Side View) (2) Folarity Marking.2±.1.3±.1.2±.1 GND (2) No Polarity..6±.1 Packaging (Bottom View).2 min. Code Packaging Minimum Quantity D 18mm eel Paper Tape 4.15±.1 : Electrode (in mm) B Bulk(Bag) NFL18ST_ Dimensions.2 min..2 min. (2) (1) (3).8±.1 Equivalent Circuit Input (1) Output (3) Signal Lines Type (2).25±.1.25±.1.4±.1 1.6±.1.8±.1 : Electrode (in mm) Packaging GND (2) No Polarity. Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 B Bulk(Bag) ated Value (p: packaging code) Part Number Insertion Loss Characteristics (Main Items) NFL18ST_H Series Nominal Cutoff Frequency Capacitance Inductance Insertion Loss (Cutoff Frequency) Insertion Loss (2MHz) (min.) efer to pages from p.139 to p.144 for mounting information. Insertion Loss (3MHz) (min.) Insertion Loss (4MHz) (min.) ated Current ated Voltage NFL18ST56H1A3p 5MHz 1pF (Typ.) 35nH (Typ.) 6dB max. 3dB 3dB 3dB 75mA Vdc NFL18ST76H1A3p 7MHz 7pF (Typ.) 23nH (Typ.) 6dB max. 3dB 3dB 75mA Vdc NFL18ST7H1A3p MHz 5pF (Typ.) 15nH (Typ.) 6dB max. 3dB 75mA Vdc Insulation esistance (min.): M ohm Withstand Voltage: 3Vdc Operating Temperature ange: 55 C to +125 C Number of Circuits: 1 Insertion Loss (db) NFL18ST56H1A3 NFL18ST76H1A3 NFL18ST7H1A3 8 1 Continued on the following page. Mar.28,

128 NFL Series Signal Lines Type NFL18ST Series (63 Size) NFL18ST ated Value (p: packaging code) Part Number Nominal Cutoff Frequency Capacitance Inductance ated Current ated Voltage Insulation esistance (min.) Withstand Voltage Operating Temperature ange NFL18ST271C3p 2MHz 25pF±2% 1nH±2% 15mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL18ST371C3p 3MHz 18pF±2% 62nH±2% 2mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL18ST571C3p 5MHz pf±2% 43nH±2% 2mA 16Vdc M ohm 5Vdc 55 C to +125 C Number of Circuits: 1 Insertion Loss Characteristics (Main Items) NFL18ST_ Series (5Ω 5Ω) Signal Lines Type Insertion Loss (db) 2 4 NFL18ST571C3 NFL18ST371C3 NFL18ST271C Mar.28,

129 NFL Series Signal Lines Type NFL18SP NFL18SPSeries (63 Size) PItype LC filter. educe waveform distortion of high speed signal. Dimensions (1) (1).2 min. (2) (2) 1.6±.1.15±.1 (3) (3).8±.1 Equivalent Circuit (1) Input Output (3) GND (2) No polarity..6±.1 Packaging Code Packaging Minimum Quantity.3±.1.4±.1.3±.1.15±.1.15±.1 : Electrode (in mm) D 18mm eel Paper Tape 4 B Bulk(Bag) ated Value (p: packaging code) Part Number Nominal Cutoff Frequency Insertion Loss Characteristics (Main Items) Capacitance Inductance ated Current ated Voltage efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Withstand Voltage Operating Temperature ange NFL18SP1571A3p 15MHz 34pF±2% nh±2% ma Vdc M ohm 3Vdc 55 C to +125 C NFL18SP271A3p 2MHz 24pF±2% 8nH±2% ma Vdc M ohm 3Vdc 55 C to +125 C NFL18SP371A3p 3MHz 19pF±2% 6nH±2% ma Vdc M ohm 3Vdc 55 C to +125 C NFL18SP571A3p 5MHz 11pF±2% 38nH±2% ma Vdc M ohm 3Vdc 55 C to +125 C Number of Circuits: 1 (5Ω 5Ω) Signal Lines Type NFL18SP1571A3 Insertion Loss (db) NFL18SP271A3 NFL18SP371A3 NFL18SP571A Mar.28,

130 NFL Series Signal Lines Type NFL21SP NFL21SPSeries (85 Size) PItype LC filter. educe waveform distortion of high speed signal. Dimensions.3±.2.4±.2.85±.1 Equivalent Circuit (1) Input Output (3) (1).6±.2 2.±.2 (2) (3) 1.25±.1 Packaging Code GND (2) No polarity. Packaging Minimum Quantity (2).25±.2 : Electrode (in mm) D 18mm eel Paper Tape 4 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number Nominal Cutoff Frequency Capacitance Insertion Loss Characteristics (Main Items) Inductance ated Current ated Voltage efer to pages from p.139 to p.144 for mounting information. Insulation esistance (min.) Withstand Voltage Operating Temperature ange NFL21SP61C3p MHz 67pF±2% 68nH±2% ma 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP261C7p 2MHz 24pF±2% 7nH±2% ma 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP561C3p 5MHz 84pF±2% 35nH±2% 15mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP761C3p 7MHz 76pF±2% 185nH±2% 15mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP71C3p MHz 44pF±2% 135nH±2% 2mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP1571C3p 15MHz 28pF±2% 128nH±2% 2mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP271C3p 2MHz 22pF±2% 72nH±2% 25mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP371C3p 3MHz 19pF±% 45nH±% 3mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP471C3p 4MHz 16pF±% 34nH±% 3mA 16Vdc M ohm 5Vdc 55 C to +125 C NFL21SP571C3p 5MHz 12pF±% 31nH±% 3mA 16Vdc M ohm 5Vdc 55 C to +125 C Number of Circuits: 1 Insertion Loss (db) NFL21SP61C3 NFL21SP261C7 NFL21SP561C3 NFL21SP761C3 NFL21SP71C3 NFL21SP1571C3 NFL21SP271C3 NFL21SP371C3 NFL21SP471C3 NFL21SP571C3 (5Ω 5Ω) Mar.28,

131 NFA Series Signal Lines Type NFA18SL NFA18SL Series (63 Size) LC filter 4lines array for mobile phones. NFA18SL 137/187/27/357 V1A45 NFA18SL561A45 Dimensions (Top View) (1) GND.15±.1 (Side View) 1.6±.1 (3) (4) (5) (6) (7) (8) (9) ().2±.1 Polarity Marking.4±.5 GND (2).8±.1 (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN).25±.1 : Electrode Equivalent Circuit GND (1) (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN) (3) (4) (5) (6) (2) GND (7) (8) (9) () *Please change IN/OUT according to the circuit condition. T Packaging.2±.1 (Bottom View) Part Number T NFA18SL357V1A45.5±.1 NFA18SL137V1A45 NFA18SL187V1A45 NFA18SL27V1A NFA18SL561A45 (in mm) Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) NFA18SL227V1A45 Dimensions (Top View) (1) GND.15±.1 (Side View) 1.6±.1 (3) (4) (5) (6) (7) (8) (9) ().2±.1 Polarity Marking.4±.5 GND (2).8±.1 (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN).25±.1 Equivalent Circuit (3) (4) (5) (6) GND (1) (7) (8) (9) () (2) GND Signal Lines Type.2±.1 (Bottom View) : Electrode (in mm) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) NFA18SL 37/47/487 V1A45 Dimensions (Top View) GND (1) (Side View) (Bottom View).2±.1 1.6±.1 (3) (4) (5) (6) (2) GND (7) (8) (9) () Polarity Marking.15±.1 (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN).8±.1.2±.1.4±.5.25±.1.5±.1 : Electrode (in mm) Equivalent Circuit GND (1) (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN) (3) (4) (5) (6) Packaging (2) GND (7) (8) (9) () *Please change IN/OUT according to the circuit condition. Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) ated Value (p: packaging code) Part Number Nominal Cutoff Frequency Insertion Loss (Cutoff Frequency) Insertion Loss (47MHz) (min.) Insertion Loss (8MHz) (min.) Insertion Loss (9MHz) (min.) Insertion Loss (2MHz) (min.) efer to pages from p.139 to p.144 for mounting information. Continued on the following page. Mar.28,211 ated Current ated Voltage Insulation esistance (min.) Withstand Voltage NFA18SL137V1A45p 13MHz 6dBmax 25dB 25dB 5mA Vdc M ohm 3Vdc NFA18SL187V1A45p 18MHz 6dBmax 2dB 2dB 5mA Vdc M ohm 3Vdc NFA18SL27V1A45p 2MHz 6dBmax 15dB 15dB 5mA Vdc M ohm 3Vdc NFA18SL227V1A45p 22MHz 6dBmax 3dB 3dB 25mA Vdc M ohm 3Vdc NFA18SL37V1A45p 3MHz 6dBmax 2dB 2dB ma Vdc M ohm 3Vdc NFA18SL357V1A45p 35MHz 6dBmax 15dB 13dB 35mA Vdc M ohm 3Vdc NFA18SL47V1A45p 4MHz 6dBmax 18dB 18dB ma Vdc M ohm 3Vdc NFA18SL487V1A45p 48MHz 6dBmax 15dB 15dB ma Vdc M ohm 3Vdc Operating Temperature ange: 4 C to +85 C (NFA18SL 137/187/27/227/357 V1A45), 55 C to +125 C (NFA18SL 37/47/487 V1A45) Number of Circuits: 4 129

132 NFA Series Signal Lines Type NFA18SL Series (63 Size) NFA18SL Insertion Loss Characteristics (Main Items) NFA18SL 137/187/27 V1A45 Insertion Loss (db) NFA18SL137V1A45 2 NFA18SL187V1A45 4 (5Ω 5Ω) NFA18SL27V1A45 NFA18SL227V1A45 Insertion Loss (db) 2 4 NFA18SL227V1A Signal Lines Type NFA18SL 37/47/487 V1A45 Insertion Loss (db) 2 4 NFA18SL37V1A45 NFA18SL47V1A45 NFA18SL487V1A45 (5Ω 5Ω) NFA18SL357V1A45 Insertion Loss (db) NFA18SL357V1A ated Value (p: packaging code) Insertion Loss Characteristics (Main Items) NFA18SL_ Part Number Nominal Cutoff Frequency Insertion Loss (Cutoff Frequency) Insertion Loss at 5MHz (min.) Insertion Loss at MHz (min.) ated Voltage ated Current Insulation esistance (min.) Withstand Voltage NFA18SL561A45p 5MHz 6dBmax 3dB 25dB Vdc 25mA M ohm 3Vdc Operating Temperature ange: 4 C to +85 C Number of Circuits: 4 (5Ω 5Ω) NFA18SL561A45 2 Insertion Loss (db) Mar.28,211 13

133 NFA Series Signal Lines Type NFA18SD NFA18SDSeries (63 Size) For differential signal I/F of LCD or camera in mobile phones. Dimensions (Top View) (1) GND.15±.1 (Side View).2±.1 (Bottom View) 1.6±.1 (3) (4) (5) (6) (7) (8) (9) ().2±.1 Polarity Marking.4±.5 GND (2).8±.1 (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN).25± : Electrode (in mm) Equivalent Circuit GND (1) (3) (4) (5) (6) (7) (8) (9) Packaging () (2) GND Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) ated Value (p: packaging code) Part Number Nominal Cutoff Frequency Insertion Loss (Cutoff Frequency) Operating Temperature ange: 4 C to +85 C Number of Circuits: 4 Insertion Loss (5MHz) (min.) Insertion Loss Characteristics (Main Items) Insertion Loss (9MHz) (min.) Insertion Loss (15MHz) (min.) Insertion Loss (2MHz) (min.) efer to pages from p.139 to p.144 for mounting information. ated Voltage ated Current Insulation esistance (min.) NFA18SD1871A45p 18MHz 6dBmax 15dB 2dB 2dB 2dB Vdc 25mA M ohm 3Vdc NFA18SD271A45p 2MHz 6dBmax 13dB 2dB 2dB 2dB Vdc 25mA M ohm 3Vdc (5Ω 5Ω) Withstand Voltage Signal Lines Type Insertion Loss (db) NFA18SD271A45 NFA18SD1871A Mar.28,

134 NFA Series Signal Lines Type NFA21SL NFA21SL Series (85 Size) Ltype LC filter 4lines array for mobile phones. Dimensions (Top View) 2.±.1 (3) (4) (5) (6) (1) GND GND (2).2±.15 (7) (8) (9) ().2±.15.25±.1.15 min. Polarity Marking.25± ±.1.25±.1 (3)(4)(5)(6): IN (OUT) (7)(8)(9)(): OUT (IN) Equivalent Circuit (3) (4) (5) (6) (1) GND GND (2) (7) (8) (9) () (Bottom View).5±.5 T Part Number NFA21SLppp1A45p.5±.1 NFA21SLpppV1A45p NFA21SLppp1A48p.85±.1 NFA21SLpppV1A48p : Electrode T (in mm) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) Signal Lines Type ated Value (p: packaging code) Part Number Insertion Loss Characteristics (Main Items) NFA21SL_V1A45 Nominal Cutoff Frequency Insertion Loss (Cutoff Frequency) Insertion Loss at 8MHz (min.) Insertion Loss at 9MHz (min.) NFA21SL_V1A48 efer to pages from p.139 to p.144 for mounting information. ated Voltage ated Current Insulation esistance (min.) Withstand Voltage NFA21SL287V1A45p 28MHz 6dBmax 25dB 25dB Vdc ma M ohm 3Vdc NFA21SL317V1A45p 3MHz 6dBmax 2dB 2dB Vdc ma M ohm 3Vdc NFA21SL337V1A45p 33MHz 6dBmax 15dB 15dB Vdc ma M ohm 3Vdc NFA21SL287V1A48p 28MHz 6dBmax 25dB 25dB Vdc ma M ohm 3Vdc NFA21SL317V1A48p 3MHz 6dBmax 2dB 2dB Vdc ma M ohm 3Vdc NFA21SL337V1A48p 33MHz 6dBmax 2dB 2dB Vdc ma M ohm 3Vdc Operating Temperature ange: 55 C to +125 C Number of Circuits: 4 Insertion Loss (db) NFA21SL287V1A45 NFA21SL317V1A45 NFA21SL337V1A45 (5Ω 5Ω) Insertion Loss (db) NFA21SL287V1A48 NFA21SL317V1A48 (5Ω 5Ω) NFA21SL337V1A Continued on the following page. Mar.28,

135 NFA Series Signal Lines Type NFA21SL Series (85 Size) NFA21SL ated Value (p: packaging code) Insertion Loss Characteristics (Main Items) NFA21SL_ Part Number Nominal Cutoff Frequency Insertion Loss (Cutoff Frequency) Insertion Loss at 5MHz (min.) Insertion Loss at 8MHz (min.) Insertion Loss at MHz (min.) ated Voltage ated Current Insulation esistance (min.) NFA21SL271A45p 2MHz 2 to 7 13dB 25dB 25dB Vdc ma M ohm 3Vdc NFA21SL371A45p 3MHz 2 to 7 7dB 2dB 25dB Vdc ma M ohm 3Vdc NFA21SL561A48p 5MHz to 6 3dB 2dB Vdc 2mA M ohm 3Vdc NFA21SL861A48p 8MHz 2 to 7 25dB 25dB Vdc 2mA M ohm 3Vdc NFA21SL271A48p 2MHz 2 to 7 13dB 25dB 25dB Vdc ma M ohm 3Vdc NFA21SL371A48p 3MHz 2 to 7 7dB 2dB 25dB Vdc ma M ohm 3Vdc Operating Temperature ange: 55 C to +125 C Number of Circuits: 4 (5Ω 5Ω) Withstand Voltage Insertion Loss (db) 2 4 NFA21SL561A48 Signal Lines Type NFA21SL861A48 NFA21SL271A45(48) NFA21SL371A45(48) 6 Mar.28,

136 NFW Series Signal Lines Type NFW31S NFW31SSeries (126 Size) Wirewound PItype LC filter. Dimensions 2.3±.2 1.8±.2 Equivalent Circuit (1) Input Output (3) 3.2±.3 1.6±.2 GND (2) (1) (2) (3) (1): Input electrode (2): Ground electrode (3): Output electrode * No polarity. Packaging Code No polarity. Packaging Minimum Quantity.7±.3.7±.3.65±.2 : Electrode (in mm) L 18mm eel Embossed Tape 2 K 33mm eel Embossed Tape 75 Signal Lines Type ated Value (p: packaging code) Part Number Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. Nominal Insertion Loss Insertion Loss Insertion Loss Insertion Loss Insertion Loss Insertion Loss Insertion Loss Insertion Loss Cutoff Frequency at MHz at 2MHz at 5MHz at MHz at 15MHz at 2MHz at 3MHz at 4MHz Insertion Loss Insertion Loss at 5MHz at MHz NFW31SP61E4p MHz 6dBmax. 5dBmin. 25dBmin. 25dBmin. 25dBmin. 3dBmin. 3dBmin. NFW31SP261E4p 2MHz 6dBmax. 5dBmin. 25dBmin. 25dBmin. 3dBmin. 3dBmin. NFW31SP561E4p 5MHz 6dBmax. dbmin. 3dBmin. 3dBmin. 3dBmin. NFW31SP71E4p MHz 6dBmax. 5dBmin. 2dBmin. 3dBmin. NFW31SP1571E4p 15MHz 6dBmax. dbmin. 2dBmin 3dBmin. 3dBmin. NFW31SP271E4p 2MHz 6dBmax. dbmin. 3dBmin. NFW31SP371E4p 3MHz 6dBmax. 5dBmin. 15dBmin. NFW31SP471E4p 4MHz 6dBmax. dbmin. NFW31SP571E4p 5MHz 6dBmax. dbmin. ated Current: 2mA ated Voltage: 25Vdc Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 Insertion Loss (db) NFW31SP1571E4 NFW31SP271E4 NFW31SP371E4 NFW31SP471E4 NFW31SP571E4 NFW31SP61E4 NFW31SP261E4 NFW31SP561E4 NFW31SP71E4 (5Ω 5Ω) Mar.28,

137 EMI Suppression Effect NFW31 Series Example of EMI Suppression in an Actual Circuit Measuring Circuit 74ALS4 MHz EMI Suppression Filter Measuring Point 74ALS Type of Filter ( ) 2ns/div Signal Wave Form 1V/div / EMI Suppression Effect / Description Signal Waveform and Noise Spectrum before Filter Mounting Signal Waveform 2ns/div ( 1V/div) Noise Spectrum (:1 Active Probe) Noise Level (dbµv/m) Signal Lines Type NFW31S Series (Cutoff frequency 5MHz) Conventional Chip Solid Type EMI Filter (NFM41CC 47pF) Noise Level (dbµv/m) Noise Level (dbµv/m) Level before filter mounting Level before filter mounting NFW31S's steep attenuation characteristic means excellent EMI suppression without waveform cornering. 3terminal capacitors suppress signal frequencies as EMI frequencies so the signal waveform is distorted Filter Combined with Conventional LCs L L C L: Chip Inductor C: Chip Capacitor (27pF) Noise Level (dbµv/m) Level before filter mounting Combinations of inductors and capacitors can yield a steep attenuation characteristic, but they require a great deal more mounting space. Moreover, at high frequencies the EMI suppression is less than that obtained by NFW31S. Mar.28,

138 NF Series Signal Lines Type NF21G NF21GSeries (85 Size) 3terminal C filter, damp the noise current and return back to ground. Dimensions (Top View) 1. max..5±.2 Equivalent Circuit (1) Input Output (3) GND (2) 1.±.35.95±.35 No polarity (Bottom View) 2.±.2 (2) 1.25±.2 Packaging (1) (2) (3) : Electrode (in mm) Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Insertion Loss Characteristics (Main Items) efer to pages from p.139 to p.144 for mounting information. NF21GD222p pf±2% 22ohm±3% 5mA 5Vdc M ohm 4 C to +85 C NF21GD472p pf±2% 47ohm±3% 35mA 5Vdc M ohm 4 C to +85 C NF21GD47222p 47pF±2% 22ohm±3% 5mA 5Vdc M ohm 4 C to +85 C NF21GD47472p 47pF±2% 47ohm±3% 35mA 5Vdc M ohm 4 C to +85 C NF21GD47682p 47pF±2% 68ohm±3% 3mA 5Vdc M ohm 4 C to +85 C NF21GD4712p 47pF±2% ohm±3% 25mA 5Vdc M ohm 4 C to +85 C NF21GD1222p pf±2% 22ohm±3% 5mA 5Vdc M ohm 4 C to +85 C NF21GD1472p pf±2% 47ohm±3% 35mA 5Vdc M ohm 4 C to +85 C NF21GD1682p pf±2% 68ohm±3% 3mA 5Vdc M ohm 4 C to +85 C NF21GD112p pf±2% ohm±3% 25mA 5Vdc M ohm 4 C to +85 C Number of Circuit: 1 Insertion Loss (db) Part Number Capacitance DC esistance ated Current ated Voltage NF21GD222 NF21GD472 NF21GD47222 NF21GD47472 NF21GD47682 NF21GD1222 NF21GD1472 NF21GD1682 (5Ω 5Ω) Insertion Loss (db) NF21GD112 Insulation esistance (min.) NF21GD4712 (5Ω 5Ω) Operating Temperature ange Mar.28,

139 NFA Series Signal Lines Type NFA31G NFA31GSeries (126 Size) 3terminal C filter array. Dimensions (Top View) (7) (8) (9) () (1) (2) (3) (4) (5) (6).4±.15.8±.1 3.2±.2 (Bottom View).5 min. 1.1±.5 1.6±.2 : Electrode.5 min. (in mm).8±.2 Equivalent Circuit (1)GND Packaging Input (7) (8) (9) () (3) (4) (5) (6) Output No polarity. (2)GND Code Packaging Minimum Quantity D 18mm eel Paper Tape 4 B Bulk(Bag) ated Value (p: packaging code) Part Number Capacitance DC esistance Insertion Loss Characteristics (Main Items) ated Current efer to pages from p.139 to p.144 for mounting information. ated Voltage Insulation esistance (min.) Operating Temperature ange NFA31GD684p pf±2% 6.8ohm±4% 5mA 6Vdc M ohm 4 C to +85 C NFA31GD474p pf±2% 47ohm±3% 2mA 6Vdc M ohm 4 C to +85 C NFA31GD14p pf±2% ohm±3% 15mA 6Vdc M ohm 4 C to +85 C NFA31GD47684p 47pF±2% 6.8ohm±4% 5mA 6Vdc M ohm 4 C to +85 C NFA31GD47334p 47pF±2% 33ohm±3% 2mA 6Vdc M ohm 4 C to +85 C NFA31GD47474p 47pF±2% 47ohm±3% 2mA 6Vdc M ohm 4 C to +85 C NFA31GD4714p 47pF±2% ohm±3% 15mA 6Vdc M ohm 4 C to +85 C NFA31GD1684p pf±2% 6.8ohm±4% 5mA 6Vdc M ohm 4 C to +85 C NFA31GD1474p pf±2% 47ohm±3% 2mA 6Vdc M ohm 4 C to +85 C NFA31GD114p pf±2% ohm±3% 15mA 6Vdc M ohm 4 C to +85 C Number of Circuit: 4 Insertion Loss (db) 2 3 NFA31GD684 NFA31GD47684 NFA31GD1684 (5Ω 5Ω) Insertion Loss (db) 2 3 NFA31GD474 NFA31GD47474 NFA31GD1474 (5Ω 5Ω) Signal Lines Type 4 4 Insertion Loss (db) (5Ω 5Ω) NFA31GD14 2 NFA31GD4714 NFA31GD114 3 Insertion Loss (db) (5Ω 5Ω) NFA31GD Mar.28,

140 !Caution/Notice!Caution ating Do not use products beyond the rated current and rated voltage as this may create excessive heat and deteriorate the insulation resistance. Soldering and Mounting Selfheating Please provide special attention when mounting chip EMIFILr NFM_P series in close proximity to other products that radiate heat. The heat generated by other products may deteriorate the insulation resistance and cause excessive heat in this component. Notice!Caution/ Notice Storage and Operating Conditions <Operating Environment> Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Do not use products in the environment close to the organic solvent. <Storage and Handling equirements> 1. Storage Period NFM55P series should be used within 6 months, the other series should be used within 12 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Failure and degradation of a product are caused by the cleaning method. When you clean in conditions that are not in mounting information, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters EMIFILr may vary, depending on the circuits and ICs used, type of noise, mounting pattern, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design. Handling 1. esin Coating Using resin for coating/molding products may affect the products performance. So please pay careful attention in selecting resin. Prior to use, please make the reliability evaluation with the product mounted in your application set. 2. Caution for Use (NFW Series) When you hold products with a tweezer, please hold by the sides. Sharp materials, such as a pair of tweezers or other material such as bristles of cleaning brush, should not touch the winding portion of this product to prevent breaking the wire. Mechanical shock should not be applied to the products mounted on the board to prevent breaking the core. 3. 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 Mar.28,

141 NFp Soldering and Mounting 1. Standard Land Pattern Dimensions NFp series suppress noise by conducting the highfrequency noise element to ground. Therefore, to obtain maximum performance from these filters, the ground pattern should be made as large as possible during the PCB design stage. As shown below, one side of the PCB is used for chip mounting, and the other is used for grounding. Small diameter feedthrough holes are then used to connect the grounds on each side of the PCB. This reduces the highfrequency impedance of the grounding and maximizes the filter's performance. NFM18 NFL18 NFM55P Land Pattern + Solder esist Land Pattern Solder esist (in mm) NFM21C NFM21P NFM3D NFM31P NFM41 NF21G NFL21S NFp18, NFM55P are specially adapted for reflow soldering. o eflow Soldering NFM21C/NF21G NFM21PC/NFL21S Small diameter thru hole ø.4 Chip mounting side NFM3DC/NFM3DP/ NFM31P NFM41C/NFM41P Small diameter thru hole ø.4 o Flow Soldering Chip mounting side Small diameter thru hole ø.4.6 e.6 e g.6 e f g f f eflow Soldering NFM18C/NFM18PC/NFL18ST Small diameter thru hole ø.2ø.3 NFM18PS Small diameter thru hole ø g NFL18SP Small diameter thru hole ø.2ø Chip NFM55P Small diameter thru hole ø1.ø Please contact us if using thinner land pad than 18µm. Soldering and Mounting a c d Part Number NFM21C/NF21G NFM21P/NFL21S a.6 b Size (mm) c d e 1.4 a b c d f 1.9 g 2.3 Part Number NFM3DC NFM3DP a 1. b 1.4 Size (mm) c d e 2.5 a b c d f 2. g 2.4 NFM3DC/NFM3DP NFM31P NFM31P NFM41C/NFM41P NFM41C NFM41P NFp21 is specially adapted for reflow soldering. Continued on the following page. Mar.28,

142 NFp Soldering and Mounting NFA18S NFA21S eflow Soldering NFA18S Small diameter thru hole ø.2 NFA21S Land Pattern + Solder esist Land Pattern Solder esist (in mm) Filled via ø NFA31G NFA31C NFW31S NFE31P o eflow Soldering NFA31G/31C 2.6 ø o eflow and Flow NFW31S o eflow Soldering NFE31P Small diameter thru hole ø.4.1 to.2 is preferred to obtain high voltage withstanding Soldering and Mounting NFE61P o eflow Soldering o Flow Soldering Small diameter thru hole ø Pitch 3.8 o PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. 4.2 Small diameter thru hole ø Products should be located in the sideways direction (Length: a<b) to the mechanical stress. Poor example b a Good example Mar.28,211 14

143 NFp Soldering and Mounting 2. Solder Paste Printing and Adhesive Application When reflow soldering the chip EMI suppression filter, the printing must be conducted in accordance with the following cream solder printing conditions. If too much solder is applied, the chip will be prone to damage by mechanical and thermal stress from the PCB and may crack. Standard land dimensions should be used for resist and copper foil patterns. When flow soldering the EMI suppression filter, apply the adhesive in accordance with the following conditions. 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 process. (in mm) Series Solder Paste Printing Adhesive Application NFM NF NFL oguideline of solder paste thickness: 15µm: NFM18/21/3D/31P, NF, NFL 152µm: NFM55P 2µm: NFM41 NFM18C/18PC NFL18ST NFL18SP NFM3D/31P/41 Series Apply.1mg for NFM41C/41 and.6mg for NFM3D/NFM31P of bonding agent at each chip. Do not cover electrodes Bonding agent Coating position of bonding agent NFM18PS.5 NFM3DC/3DP NFM21C/21PC NF21G/NFL21S NFM31P Soldering and Mounting NFM41C/41P NFM55P Continued on the following page. Mar.28,

144 NFp Soldering and Mounting (in mm) Series Solder Paste Printing Adhesive Application NFA oguideline of solder paste thickness: 2µm: NFA31G/31C 15µm: NFA18S/21S NFA31G/31C Pitch NFA21S NFA18S Soldering and Mounting NFW31S NFE31P NFE61P oguideline of solder paste thickness: 152µm 1. oguideline of solder paste thickness: 152µm NFW31S Series Apply.2mg of bonding agent at each chip. Bonding agent Apply 1.mg of bonding agent at each chip. Bonding agent Bonding agent Coating positon of bonding agent Mar.28,

145 NFp Soldering and Mounting 3. Standard Soldering Conditions (1) Soldering Methods Use flow and reflow soldering methods only. Use standard soldering conditions when soldering chip EMI suppression filters. In cases where several different parts are soldered, each having different soldering conditions, use those conditions requiring the least heat and minimum time. Flux: o Use osinbased flux. In case of using A type solder, products should be cleaned completely with no residual flux. o Do not use strong acidic flux (with chlorine content exceeding.2wt%) o Do not use watersoluble flux. Solder: Use Sn3.Ag.5Cu solder. Use of Snn based solder will deteriorate performance of products. If using NFM series with Snn based solder, please contact Murata in advance. For additional mounting methods, please contact Murata. (2) Soldering Profile oflow Soldering Profile (Sn3.Ag.5Cu Solder) Temperature ( C) T1 T3 T2 t2 Heating Limit Profile Standard Profile Series NFM3DC/3DP/31PC NFM41C/41P NFE61P NFW31S oeflow Soldering Profile (Sn3.Ag.5Cu Solder) Series NFA, NFE NFL, NFM (Except NFM55P) NF NFW31S, NFM55P Temp. (T1) Preheating Preheating t1 Time. (t1) Time (s) Standard Profile Heating Temp. (T2) Time. (t2) 15 C 6s min. 25 C 4 to 6s 15 C 6s min. 25 C 4 to 6s Temperature ( C) T2 T1 Preheating 9s±3s Standard Profile 22 C min. 3 to 6s 245±3 C 22 C min. 3 to 6s 245±3 C t1 t2 2 times max. 2 times max. 265±3 C Limit Profile Cycle Heating of Flow Temp. (T3) Time. (t2) Heating Peak Cycle Heating Temperature Temp. (T1) Time. (t1) (T2) of eflow Temp. (T3) Time. (t2) T4 T3 Time (s) Limit Profile Standard Profile 5s max. Cycle of Flow 2 times max. 2 times max. 265±3 C 5s max. 1 time Limit Profile Peak Temperature (T4) 23 C min. 6s max. 26 C/s Cycle of eflow 2 times max. 2 times max. 23 C min. 6s max. 26 C/s 1 time Soldering and Mounting Mar.28,

146 NFp Soldering and Mounting (3) eworking with Solder Iron The following conditions must be strictly followed when using a soldering iron. Preheating: 15 C 6s min.* 1 * 1 NFM55P: C/6s+2 C/6s Soldering iron power output / Tip diameter: 3W max. / ø3mm max. Temperature of soldering iron tip / Soldering time / Times: 35 C max. / 34s / 2 times* 2 * 2 NFE31PT1521E9: 28 C max. / s max. / 2 times Do not allow the tip of the soldering iron to directly contact the chip. For additional methods of reworking with a soldering iron, please contact Murata engineering. 4. Cleaning Soldering and Mounting Following conditions should be observed when cleaning chip EMI filter. (1) Cleaning Temperature: 6 C max. (4 C max. for alcohol type cleaner) (2) Ultrasonic Output: 2W/liter max. Duration: 5 minutes max. Frequency: 28 to 4kHz (3) Cleaning Agent The following list of cleaning agents have been tested on the individual components. Evaluation of final assembly should be completed prior to production. (a) Alcohol cleaning agent Isopropyl alcohol (IPA) (b) Aqueous cleaning agent Pine Alpha STS (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agent has been removed with deionized water. Mar.28,

147 NFp Packaging Minimum Quantity and Dimensions of 8mm Width Paper / Embossed Tape 2.±.5 4.±.1 4.±.1 a +.1 ø ±.1 3.5±.5 8. <Embossed> c d <Paper> b Direction of Feed NFA18S, NFA21S_48 only. NFA18S: ø.8±.1, NFA21S_48: ø c: Depth of Cavity (Embossed Tape) Dimension of the cavity of embossed tape is measured at the bottom side. c c: Total Thickness of Tape (Paper Tape) Part Number NFM18C/ NFM18PC (Except 5/225B1A)/ NFM18PS NFM18PC5/225B1A NFL18SP NFL18ST NFL21SP NFM21 NFM3DC/3DP NFM31P NFA18S NFA21S_45 NFA21S_48 NFA31G/31C NFE31P NF21G NFW31S a b Cavity Size c.9 max. 1.1 max..9 max. 1.1 max. 1.1 max. 1.1 max max d Minimum Qty. (pcs.) ø18mm eel ø33mm eel Bulk Paper Tape Embossed Tape Paper Tape Embossed Tape Minimum Quantity and Dimensions of 12mm Width Embossed Tape 2.±.5 4.±.1 4.±.1 a b 8.±.1 2.±.5 4.±.1 a +.1 ø1.5 ø ±.1 Direction of Feed 1.75±.1 5.5± ± c c: Depth of Cavity.3 c Part Number NFM41 NFE61 Part Number NFM55P a a Cavity Size b Cavity Size b c c Minimum Qty. (pcs.) ø18mm eel ø33mm eel 8 Minimum Qty. (pcs.) ø18mm eel ø33mm eel Bulk 5 5 Bulk (in mm) Packaging b Direction of Feed ø1.7±.1 c: Depth of Cavity Dimension of the cavity is measured at the bottom side. (in mm) "Minimum Quantity" means the number of units of each delivery or order. The quantity should be an integral multiple of the "Minimum Quantity". Mar.28,

148 NFp Design Kits oekemnfmcb ( Capacitor Type for Signal Lines) No Part Number NFM18CC22U1C3 NFM18CC47U1C3 NFM18CC11C3 NFM18CC2211C3 NFM18CC4711C3 NFM18CC21C3 NFM18CC2221C3 NFM18CC2231C3 NFM21CC22U1H3 NFM21CC47U1H3 NFM21CC1U1H3 NFM21CC2211H3 NFM21CC4711H3 NFM21CC21H3 NFM21CC2221H3 NFM21CC2231H3 Quantity (pcs.) Capacitance 22pF±2% 47pF±2% 47pF±2% pf±2% 22pF±2% 47pF±2% pf±2% 22pF±2% 22pF±2% 22pF±2% pf±2% 22pF±2% 47pF±2% pf±2% 22pF±2% 22pF±2% ated Voltage (Vdc) ated Current (ma) Design Kits oekemfa31e ( Capacitor Array Type/ C Combined Array Type) No No. Part Number NFA31CC22S1E4 NFA31CC47S1E4 NFA31CC1S1E4 NFA31CC221S1E4 NFA31CC4711E4 NFA31CC21E4 NFA31CC2221E4 NFA31CC2231C4 Part Number Quantity (pcs.) Quantity (pcs.) Capacitance 22pF±2% 47pF±2% pf±2% 22pF±2% 47pF±2% pf±2% 22pF±2% 22pF±2% oekemfl18f ( LC Combined Type) NFL18ST56H1A3 NFL18ST76H1A3 NFL18ST7H1A3 NFL18ST271C3 NFL18ST371C3 NFL18ST571C3 NFL18SP1571A3 NFL18SP271A3 NFL18SP371A3 NFL18SP571A3 NFL21SP61C3 NFL21SP261C7 NFL21SP561C3 NFL21SP761C3 NFL21SP71C3 NFL21SP1571C3 NFL21SP271C3 NFL21SP371C3 NFL21SP471C3 NFL21SP571C3 Cutoff Frequency 5MHz 7MHz MHz 2MHz 3MHz 5MHz 15MHz 2MHz 3MHz 5MHz MHz 2MHz 5MHz 7MHz MHz 15MHz 2MHz 3MHz 4MHz 5MHz ated Voltage (Vdc) ated Voltage (Vdc) ated Current (ma) ated Current (ma) DC esistance (Ω) max Continued on the following page. Mar.28,

149 NFp Design Kits Continued from the preceding page. No Part Number NFW31SP61E4 NFW31SP261E4 NFW31SP561E4 NFW31SP71E4 NFW31SP1571E4 NFW31SP271E4 NFW31SP371E4 NFW31SP471E4 NFW31SP571E4 Quantity (pcs.) Cutoff Frequency MHz 2MHz 5MHz MHz 15MHz 2MHz 3MHz 4MHz 5MHz Attenuation (db min.) MHz 2MHz 5MHz MHz 15MHz 2MHz 3MHz 4MHz 5MHz 1GHz 6dB max dB max dB max dB max dB max dB max. 3 6dB max dB max. 6dB max. ated Current 2mA 2mA 2mA 2mA 2mA 2mA 2mA 2mA 2mA ated Voltage 25V 25V 25V 25V 25V 25V 25V 25V 25V oekemfa2h ( LC Combined Array Type) No No. Part Number NFA18SL561A45 NFA18SL137V1A45 NFA18SL187V1A45 NFA18SL27V1A45 NFA18SL227V1A45 NFA18SL37V1A45 NFA18SL357V1A45 NFA18SL47V1A45 NFA18SL487V1A45 NFA18SD1871A45 NFA18SD271A45 NFA21SL561A48 NFA21SL861A48 NFA21SL271A45 NFA21SL271A48 NFA21SL371A45 NFA21SL371A48 NFA21SL287V1A45 NFA21SL287V1A48 NFA21SL317V1A45 NFA21SL317V1A48 NFA21SL337V1A45 NFA21SL337V1A48 Part Number Quantity (pcs.) oekemnfmph ( for Large Current) NFM18PC41C3 NFM18PC224J3 NFM18PC474J3 NFM18PC5J3 NFM18PC225BJ3 NFM18PC225B1A3 NFM18PS474J3 NFM18PS5J3 NFM21PC41E3 NFM21PC2241C3 NFM21PC4741C3 NFM21PC5B1A3 NFM21PC5B1C3 NFM21PC225BJ3 NFM21PC475B1A3 NFM31PC276BJ3 NFM41PC24F1H3 NFM41PC155B1E3 NFE31PT1521E9 NFE31PT2221E9 NFE61PT2E1H9 NFE61PT472C1H9 Quantity (pcs.) Cutoff Frequency 5MHz 13MHz 18MHz 2MHz 22MHz 3MHz 35MHz 4MHz 48MHz 18MHz 2MHz 2MHz 8MHz 2MHz 2MHz 3MHz 3MHz 28MHz 28MHz 3MHz 3MHz 33MHz 33MHz Capacitance.1µF±2%.22µF±2%.47µF±2% 1µF±2% 2.2µF±2% 2.2µF±2%.47µF±2% 1µF±2%.1µF±2%.22µF±2%.47µF±2% 1µF±2% 1µF±2% 2.2µF±2% 4.7µF±2% 27µF±2%.2µF +8/2% 1.5µF±2% 15pF +5/2% 22pF±5% pf +8/2% 47pF +8/2% ated Voltage (Vdc) ated Voltage (Vdc) ated Current (ma) ated Current (A) Design Kits Mar.28,

150 Memo Design Kits Mar.28,

151 DLp/PLp Large Current Common Mode Choke Coil for Automotive Available Series Introduction Part Numbering Series Line Up Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits Mar.28,211

152 DLp Series Introduction Common Mode Current Differential Mode Current Magnetic flux by common mode current is added each other and works as an inductor Magnetic flux by differential mode current is canceled each other and do not works as an inductor Category Features, Classification Structure Part Number Comments High cutoff frequency High Coupling For high speed ( differential signal lines) Ultra high cutoff frequency for high speed differential signal lines High cutoff frequency for high speed differential signal lines for general differential signal lines Film type Wound type Film type Wound type Film type DLP11SA DLW21SN_HQ2 DLPNS DLP11SN DLP2AD DLW21SN_SQ2 DLW31S DLW21H DLP31S DLP31D Low profile, small size, suitable for mobile equipments. Tight terminal pitch enables high density layout. Ultra high cutoff frequency and its matching to line impedance enables good transmission of high speed signal. Ultra high self resonance frequency enables high cutoff frequency. Its matching to line impedance enables good transmission of high speed signal. Low profile, small size, suitable for mobile equipments. Tight terminal pitch enables high density layout. High cutoff frequency enables good transmission of high speed signal. Ultra high self resonance frequency enables high cutoff frequency. DLW21H is designed as low profile. Low profile,small size, suitable for mobile equipments. Tight terminal pitch enables high density layout. Large current High coupling (For power lines) elative high differential mode impedance Low coupling (For audio lines) Wound type Multilayer type DLW5AH DLW5BS DLW5BT DLM11G DLM2HG Large current (6A max.), suitable for input connector from an AC adaptor. DLW5BT is designed as low profile. Modified its differential mode impedance higher than other common mode choke coils, this feature makes possible to suppress both common mode and differential mode noise. DLM11GN61SD2 is ideal to keep low distortion audio signal. DLM2HG can meet stereo 3 lines which contain a ground line. Large current Automotive Available (For power lines) Available up to A Winding type Cased structure PLTHH Large current, high reliability, suitable for mortors in automobile. Mar.28,211 15

153 Noise Suppression Example DLP/DLW Series Skew Improve Effect of Common Mode Choke Coil Example of Skew Improvement by Common Mode Choke Coil (Test using pulse generator waveform) Waveform is equivalent to Mbps signal Mechanism of Skew Improvement Waveform rises (or falls) Current change generates magnetic flux on a ferrite core Waveform with intentionally made skew (skew: ps) Skew is improved by common mode choke coil Electromotive force is generated on another line This electromotive force works to decrease the delay of waveform Noise Suppression of Common Mode Choke Coil in HDMI Line Device under test / Transmitter : game machine eceiver : projector Cable / HDMI categoly2 3m cable Test resolution / 8p Deep color 12bit (Data 1.11GHz) DVD play mode Noise Level (dbµv/m) Without filter DLW21SN9HQ Test Example of HDMI1.3 Waveform Transmission ~Using ESD protection device.5pf~ Signal frequency : 1.11GHz (Deep color 12bit) Video signal generator CLOCK DATA Noise Level (dbµv/m) ESD protection device only Without filter DLP11SA9HL Wound Type DLW21SN9HQ2 Film Type DLP11SN9HL2 (Cutoff frequency is most low in the table below) Film Type DLP11SA9HL2 Specification satisfied Film Type Array DLP2ADN9HL4 common mode choke coil ESD protection device.5pf Cutoff Frequency Over GHz Around 6GHz Around 4GHz Judge Specification satisfied Specification satisfied Specification satisfied Transition Time ise time: 83.4ps Fall time: 77.4ps ise time: 9.4ps Fall time: 85.5ps ise time: ps Fall time: 97.4ps Each of common mode choke coil can keep waveform, satisfy the specification. Mar.28,

154 DLp Part Numbering (Part Number) DL W 21 S N 371 S Q 2 L q w e r t y u i o! qproduct ID Product ID DL s wstructure Code Structure W M P Wire Wound Type Multilayer Type Film Type edimensions (LgW) Code Dimensions (LgW) EIA N 11 1N A 2H 5A 5B.85g.65mm 1.25g1.mm 1.5g.65mm 2.g1.2mm 3.2g1.6mm 2.g1.mm 2.5g2.mm 5.g3.6mm 5.g5.mm rfeatures (1) Code Type S Magnetically Shielded One Circuit Type D Magnetically Shielded Two Circuit Type H Open Magnetic One Circuit Type G Magnetically Monolithic Type (sectional winding) T Magnetically Shielded One Circuit Low Profile Type tcategory Code A B C N D L Q Code Category Expressed by a letter. yimpedance Typical impedance at MHz is expressed by three figures. The unit is in ohm (Ω). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. ucircuit Code S M H U ifeatures (2) Code onumber of Signal Lines Circuit Expressed by a letter. Features Expressed by a letter. Number of Signal Lines Two Lines Three Lines Four Lines!Packaging Code Packaging Series K L B Embossed Taping (ø33mm eel) Embossed Taping (ø18mm eel) Bulk DLW5AH/DLW5BS/DLW5BT All Series All Series Mar.28,

155 PL p Common Mode Choke Coils Part Numbering (Part Number) PL T H q w e qproduct ID Product ID PL H r 2 6 t y P N u i Common Mode Choke Coils B o timpedance Expressed by three figures. The unit is ohm (Ω). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. wtype Code T eapplications Code H rfeatures Type DC Type Applications for DC Line Highfrequency Type yated Current Expressed by three figures. The unit is ampere (A). The first and second figures are significant digits, and the third figure expresses the number of zeros which follow the two figures. A decimal point is expressed by the capital letter "". In this case, all figures are significant digits. uwinding Mode Code P Winding Mode Aligned Winding Type Code Features H for Automotive ilead Dimensions Code Lead Dimensions N No Lead Terminal (SMD) opackaging Code Packaging Series B L K Bulk Embossed Taping (ø178mm/ø18mm eel) Embossed Taping (ø33mm eel) PLTH PLTH PLTH Mar.28,

156 DLp Series Line Up Type Multilayer Type for Audio Lines Film Type for Differential Signal Lines Film Array Type for Differential Signal Lines Wire Wound Type for Differential Signal Lines Size Code (Inch) p158 p159 p16 p162 p163 p164 p165 p166 p168 p169 p171 p172 Thickness Common Mode Impedance Part Number (mm) (at MHz/2 C) ated Current.5 DLM11GN61SD2 6ohm±25% ma 1.2 DLM2HGN61S3 6ohm±25% ma.45 DLPNSN67HL2 67ohm±2% 1mA.45 DLPNSN9HL2 9ohm±2% ma.45 DLPNSN121HL2 12ohm±2% 9mA.45 DLPNSA15HL2 15ohm±5ohm ma.45 DLPNSC28HL2 28ohm±2% ma DLP11TB8UL2 8ohm±25% ma DLP31SN121ML2 DLP31SN221ML2 DLP31SN551ML2 12ohm±2% 22ohm±2% 55ohm±2% ma ma ma.45 DLP1NDN35HL4 35ohm±2% ma.45 DLP1NDN67HL4 67ohm±2% 8mA.45 DLP1NDN9HL4 9ohm±2% 6mA DLP11SN67SL2 67ohm±2% 18mA DLP11SN121SL2 12ohm±2% 14mA DLP11SN161SL2 16ohm±2% 12mA DLP11SN9HL2 9ohm±2% 15mA DLP11SN21HL2 2ohm±2% 1mA DLP11SN241HL2 24ohm±2% ma DLP11SN281HL2 28ohm±2% 9mA DLP11SN331HL2 33ohm±2% 8mA DLP11SA35HL2 35ohm±2% 17mA DLP11SA67HL2 67ohm±2% 15mA DLP11SA9HL2 9ohm±2% 15mA DLP2ADA35HL4 35ohm±2% 15mA DLP2ADA67HL4 67ohm±2% 13mA DLP2ADA9HL4 9ohm±2% 12mA DLP2ADN67HL4 67ohm±2% 14mA DLP2ADN9HL4 9ohm±2% 13mA DLP2ADN121HL4 12ohm±2% 12mA DLP2ADN161HL4 16ohm±2% ma DLP2ADN21HL4 2ohm±2% 9mA DLP2ADN241HL4 24ohm±2% 8mA DLP2ADN281HL4 28ohm±2% 8mA DLP31DN9ML4 9ohm±2% 16mA DLP31DN131ML4 13ohm±2% 12mA DLP31DN21ML4 2ohm±2% ma DLP31DN321ML4 32ohm±2% 8mA DLP31DN441ML4 44ohm±2% 7mA DLW21SN67SQ2 67ohm±25% 4mA DLW21SN9SQ2 9ohm±25% 33mA DLW21SN121SQ2 12ohm±25% 37mA DLW21SN181SQ2 18ohm±25% 33mA DLW21SN261SQ2 26ohm±25% 3mA DLW21SN371SQ2 37ohm±25% 28mA DLW21SN67HQ2 67ohm±25% 32mA DLW21SN9HQ2 9ohm±25% 28mA DLW21SN121HQ2 12ohm±25% 28mA DLW21S67HQ2 67ohm±25% 4mA DLW21HN67SQ2 67ohm±25% 33mA DLW21HN9SQ2 9ohm±25% 33mA DLW21HN121SQ2 12ohm±25% 28mA DLW21HN181SQ2 18ohm±25% 25mA DLW31SN9SQ2 9ohm±25% 37mA DLW31SN161SQ2 16ohm±25% 34mA DLW31SN261SQ2 26ohm±25% 3mA DLW31SN61SQ2 6ohm±25% 26mA DLW31SN2SQ2 ohm±25% 23mA DLW31SN222SQ2 22ohm±25% 2mA Continued on the following page. Mar.28,

157 DLp Series Line Up Type Wire Wound Type for Power Lines and Signal Lines Size Code (Inch) p156 p156 p157 Thickness (mm) Part Number Common Mode Impedance (at MHz/2 C) ated Current DLW5AHN42SQ2 4ohm(Typ.) 2mA DLW5BSN191SQ2 19ohm(Typ.) 5mA DLW5BSN351SQ2 35ohm(Typ.) 2mA DLW5BSN2SQ2 ohm(typ.) 15mA DLW5BSN152SQ2 15ohm(Typ.) ma DLW5BSN32SQ2 3ohm(Typ.) 5mA DLW5BTN1SQ2 ohm(typ.) 6mA DLW5BTN251SQ2 25ohm(Typ.) 5mA DLW5BTN51SQ2 5ohm(Typ.) 4mA DLW5BTN2SQ2 ohm(typ.) 2mA DLW5BTN142SQ2 14ohm(Typ.) 15mA PLp Large Current Common Mode Choke Coil for Automotive Available Series Line Up Thickness Common Mode Impedance Type Size Part Number ated Current (mm) (at MHz/2 C) p PLTHH41PN 4ohm A Large Current 9.4 PLTHH51PN 5ohm A Common Mode Choke Coil 12.9x PLTHH916PN 9ohm 6A for Automotive Available (mm) 9.4 PLTHH26PN ohm 6A Mar.28,

158 DLW Series Universal Type [Power Lines/Signal Lines] DLW5AH/DLW5BS DLW5AH/DLW5BSSeries (214/22 Size) 5A max, common mode choke coil for power lines. DLW5AH Dimensions * *.45 min. (T) 4.3 max. Equivalent Circuit (1) (2) (W) 3.6±.3 (L) 5.±.3.5 min. (4) No polarity. (3) 1.7 ± ±.3 (1) (2) Starting position of wiring should * be covered with resin. Packaging Code Packaging Minimum Quantity 1.7 ±.3 (4) (3) ±.3.9 ±.3 ±.3 : Electrode (in mm) L 18mm eel Embossed Tape 4 K 33mm eel Embossed Tape 15 B Bulk(Bag) DLW5BS Dimensions Polarity Marking * The marking to indicate the product direction can be applicable. (Optional) Equivalent Circuit (1) (2) (4) No polarity. (3) 1.7±.3 3.6±.3 (W) 5.±.3 (1) (2) 1.3±.3.5 min. (L) 5.±.3.45 min. (T) 4.5 max. Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 1.7±.3 (4) (3) 1.3±.3.9±.3 : Electrode (in mm) K 33mm eel Embossed Tape 15 B Bulk(Bag) Universal Type [Power Lines/Signal Lines] ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) ated Voltage Derating of ated Current DLW5BSN191 efer to pages from p.176 to p.179 for mounting information. DLW5AHN42SQ2p 4ohm(Typ.) 2mA 5Vdc M ohm 125Vdc 3.ohm max. DLW5BSN191SQ2p 19ohm(Typ.) 5mA 5Vdc M ohm 125Vdc.2ohm max. DLW5BSN351SQ2p 35ohm(Typ.) 2mA 5Vdc M ohm 125Vdc.4ohm max. DLW5BSN2SQ2p ohm(typ.) 15mA 5Vdc M ohm 125Vdc.6ohm max. DLW5BSN152SQ2p 15ohm(Typ.) ma 5Vdc M ohm 125Vdc.1ohm max. DLW5BSN32SQ2p 3ohm(Typ.) 5mA 5Vdc M ohm 125Vdc.3ohm max. Operating Temperature ange: 25 C to +85 C (DLW5AH), 4 C to +85 C (DLW5BS) Number of Circuit: 1 Common mode DLW5AHN42SQ2 DLW5BSN32SQ2 DLW5BSN152SQ2 DLW5BSN2SQ2 DLW5BSN351SQ2 DLW5BSN191SQ2 DLW5AHN42SQ2 DLW5BSN32SQ2 DLW5BSN2SQ2 DLW5BSN152SQ2 DLW5BSN351SQ2 Differential mode DLW5BSN191SQ2 1 ated Current (A) Insulation esistance (min.) Withstand Voltage DC esistance DLW5BSN191SQ2 Temperature Derating C 85 C Operating Temperature ( C) Mar.28,

159 DLW Series Universal Type [Power Lines/Signal Lines] DLW5BT DLW5BTSeries (22 Size) Low profile wirewound common choke coil for power lines. Dimensions Polarity Marking * The marking to indicate the product direction can be applicable. (Optional) Equivalent Circuit (1) (2) (4) No polarity. (3) 1.7±.3 3.6±.3 (W) 5.±.3 (1) (2) 1.3±.3.5 min. (L) 5.±.3.45 min. (T) 2.35±.15 Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 7 1.7±.3 (4) (3) 1.3±.3.9±.3 : Electrode (in mm) K 33mm eel Embossed Tape 25 B Bulk(Bag) ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) ated Voltage Insulation esistance (min.) Derating of ated Current DLW5BTN1/251/51 efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLW5BTN1SQ2p ohm(typ.) 6mA 5Vdc M ohm 125Vdc.9ohm±4% DLW5BTN251SQ2p 25ohm(Typ.) 5mA 5Vdc M ohm 125Vdc.14ohm±4% DLW5BTN51SQ2p 5ohm(Typ.) 4mA 5Vdc M ohm 125Vdc.19ohm±4% DLW5BTN2SQ2p ohm(typ.) 2mA 5Vdc M ohm 125Vdc.24ohm±4% DLW5BTN142SQ2p 14ohm(Typ.) 15mA 5Vdc M ohm 125Vdc.4ohm±4% Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 Universal Type [Power Lines/Signal Lines] Common mode DLW5BTN251SQ2 DLW5BTN1SQ2 DLW5BTN2SQ2 DLW5BTN51SQ2 DLW5BTN142SQ2 DLW5BTN1SQ2 DLW5BTN251SQ2 DLW5BTN51SQ2 DLW5BTN2SQ2 DLW5BTN142SQ2 Differential mode 1 1 Current (ma) Temperature ( C) Mar.28,

160 DLM Series Signal Lines Type DLM11G DLM11GSeries (54 Size) Audio line common choke also effective to differential mode. Dimensions 1.25±.15 (1) (2) (4) (3).65±.1.35±.15 Equivalent Circuit (1) (4) No polarity. (2) (3).2±.15 Packaging Code Packaging Minimum Quantity D 18mm eel Paper Tape B Bulk(Bag) ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) efer to pages from p.176 to p.179 for mounting information. ated Current ated Voltage Insulation esistance (min.) Withstand Voltage DC esistance DLM11GN61SD2p 6ohm±25% ma 5Vdc M ohm 25Vdc.8ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 ImpedanceFrequency Characteristics (Main Items) Signal Lines Type.5±.1 1.±.15 : Electrode (in mm) DLM11GN61SD2 Differential Mode Common Mode DLM11GN61SD2 1 1 Mar.28,

161 DLM Series Signal Lines Type DLM2HG DLM2HGSeries (8 Size) 3 line audio common mode choke coil. Dimensions (1) (3) (5).3±.2 2.5±.2 Equivalent Circuit (1) (3) (5) (2) (4) (6) 2.±.2 (2) (4) Packaging (6) No polarity. 1.2±.2 Code Packaging Minimum Quantity.4±.2.8±.1 : Electrode (in mm) L 18mm eel Embossed Tape 3 B Bulk(Bag) ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) ated Voltage efer to pages from p.176 to p.179 for mounting information. Insulation esistance (min.) Withstand Voltage DC esistance DLM2HGN61S3p 6ohm±25% ma 16Vdc M ohm Vdc.4ohm max. Operating Temperature ange: 55 C to +85 C Number of Circuit: 1 DLM2HGN61S3 Signal Lines Type Differential Mode DLM2HGN61S3 Common Mode 1 1 Mar.28,

162 DLP Series Signal Lines Type DLPNS DLPNSSeries (325 Size) 325 size, very small chip common mode choke coil, Cutoff frequency 3GHz max. Dimensions.45±.5.27±.1 Equivalent Circuit (1) (2).5±.1 (1) (4).65±.5 (2) (3).85± : Electrode (in mm) (4) Packaging No polarity. Code Packaging Minimum Quantity L 18mm eel Embossed Tape 5 B Bulk(Bag) 5 (3) Signal Lines Type ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) DLPNSN 67/9/121 HL2 Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DLPNSN67HL2p 67ohm±2% 1mA 5Vdc M ohm 12.5Vdc 2.4ohm±25% DLPNSN9HL2p 9ohm±2% ma 5Vdc M ohm 12.5Vdc 3.ohm±25% DLPNSN121HL2p 12ohm±2% 9mA 5Vdc M ohm 12.5Vdc 3.8ohm±25% DLPNSA15HL2p 15ohm±5ohm ma 5Vdc M ohm 12.5Vdc.95ohm±25% DLPNSC28HL2p 28ohm±2% ma 5Vdc M ohm 12.5Vdc 1.3ohm±25% Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Common Mode DLPNSN121HL2 DLPNSN9HL2 DLPNSN67HL2 DLPNSN121HL2 DLPNSN9HL2 DLPNSN67HL2 Differential Mode 1 1 DLPNSA15HL2/DLPNSC28HL2 Common Mode DLPNSC28HL2 DLPNSA15HL2 DC esistance DLPNSC28HL2 DLPNSA15HL2 Differential Mode 1 1 Differential Mode Transmission Characteristics (Typ.) DLPNSN9HL2 Insertion Loss (db) DLPNSN9HL2 DLPNSA15HL2 Insertion Loss (db) DLPNSA15HL Mar.28,211 16

163 DLP Series Signal Lines Type DLPNS Series (325 Size) DLPNS Differential Mode Transmission Characteristics (Typ.) DLPNSC28HL2 Insertion Loss (db) 1 Signal Lines Type 2 DLPNSC28HL Mar.28,

164 DLP Series Signal Lines Type DLP11S/11T DLP11S/DLP11TSeries (54 Size) 6GHz cutoff frequency (for HDMI) is available. Dimensions T.3±.1 Equivalent Circuit (1) (2) (4) No polarity. (3).55±.1 (1) (4) ±.1 (2) (3) 1.±.1 Part Number T DLP11S.82±.1 DLP11T.3±.5 : Electrode (in mm) Packaging Code L Packaging 18mm eel Embossed Tape Minimum Quantity 3 (DLP11S) 5 (DLP11T) B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics DLP11SN Series Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) DLP11SA Series efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLP11SN67SL2p 67ohm±2% 18mA 5Vdc M ohm 12.5Vdc 1.3ohm±25% DLP11SN121SL2p 12ohm±2% 14mA 5Vdc M ohm 12.5Vdc 2.ohm±25% DLP11SN161SL2p 16ohm±2% 12mA 5Vdc M ohm 12.5Vdc 2.7ohm±25% DLP11SN9HL2p 9ohm±2% 15mA 5Vdc M ohm 12.5Vdc 1.5ohm±25% DLP11SN21HL2p 2ohm±2% 1mA 5Vdc M ohm 12.5Vdc 3.1ohm±25% DLP11SN241HL2p 24ohm±2% ma 5Vdc M ohm 12.5Vdc 3.5ohm±25% DLP11SN281HL2p 28ohm±2% 9mA 5Vdc M ohm 12.5Vdc 4.2ohm±25% DLP11SN331HL2p 33ohm±2% 8mA 5Vdc M ohm 12.5Vdc 4.9ohm±25% DLP11SA35HL2p 35ohm±2% 17mA 5Vdc M ohm 12.5Vdc.9ohm±25% DLP11SA67HL2p 67ohm±2% 15mA 5Vdc M ohm 12.5Vdc 1.2ohm±25% DLP11SA9HL2p 9ohm±2% 15mA 5Vdc M ohm 12.5Vdc 1.4ohm±25% Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Common mode DLP11SN331HL2 DLP11SN281HL2 DLP11SN241HL2 DLP11SN21HL2 DLP11SN161SL2 DLP11SN121SL2 DLP11SN9HL2 DLP11SN67SL2 DLP11SN331HL2 DLP11SN281HL2 DLP11SN241HL2 DLP11SN21HL2 DLP11SN161SL2 DLP11SN121SL2 DLP11SN9HL2 DLP11SN67SL2 Differential mode 1 1 Common mode DLP11SA9HL2 DLP11SA67HL2 DLP11SA35HL2 DLP11SA9HL2 DLP11SA67HL2 DLP11SA35HL2 Differential mode 1 1 Continued on the following page. Mar.28,

165 DLP Series Signal Lines Type DLP11S/11T Series (54 Size) DLP11S/11T Differential Mode Transmission Characteristics (Typ.) DLP11SN Series DLP11SA Series Insertion Loss (db) 2 DLP11SN9HL2 4 6 Insertion Loss (db) DLP11SA9HL2 8 1 ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) Withstand Voltage HD: for high speed differential signal lines DC esistance DLP11TB8UL2p 8ohm±25% ma 5Vdc M ohm 12.5Vdc 1.5ohm±25% Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 Differential mode to common mode conversion characteristic (Scd21) at 2.5GHz: 4dB (typ.) Impedance Characteristics between signal lines (TD at 5ps): 9ohm±15ohm UD: for ultra high speed differential signal lines ImpedanceFrequency Characteristics DLP11TB Series Differential Mode Transmission Characteristics DLP11TB Series Signal Lines Type 8 1 Common Mode 2 DLP11TB8UL2 DLP11TB8UL2 DLP11TB8UL2 Differential Mode 1 1 Insertion Loss (db) Mar.28,

166 DLP Series Signal Lines Type DLP31S DLP31SSeries (126 Size) 126 size film type chip common mode choke coil. Dimensions 1.6± ±.15 (2.1) 3.2±.15.7±.2 Equivalent Circuit (1) (4) No polarity. (2) (3) (1) (2) Packaging (4) (3) : Electrode Code Packaging Minimum Quantity L 18mm eel Embossed Tape 3.3±.2 (in mm) B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLP31SN121ML2p 12ohm±2% ma 16Vdc M ohm 4Vdc 2.ohm max. DLP31SN221ML2p 22ohm±2% ma 16Vdc M ohm 4Vdc 2.5ohm max. DLP31SN551ML2p 55ohm±2% ma 16Vdc M ohm 4Vdc 3.6ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines ImpedanceFrequency Characteristics (Main Items) Signal Lines Type 1 1 Common mode DLP31SN551ML2 DLP31SN221ML2 DLP31SN121ML2 DLP31SN121ML2 DLP31SN221ML2 Differential mode DLP31SN551ML2 Mar.28,

167 DLP Series Signal Lines Type DLP1ND DLP1NDSeries (52 Size) 2 circuits in 525 size, adapt to HDMI line. Dimensions.2±.1.4±.1 Equivalent Circuit (1) (2) (3) (4).2±.1 (1) (2) (3) (4) (5) (6) (7) (8) 1.5±.1.1 min..65±.1.45±.5 (5) (6) (7) (8) No polarity. Packaging Code Packaging Minimum Quantity : Electrode (in mm) L 18mm eel Embossed Tape 5 B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ImpedanceFrequency Characteristics ated Current ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLP1NDN35HL4p 35ohm±2% ma 5Vdc M ohm 12.5Vdc 1.8ohm±25% DLP1NDN67HL4p 67ohm±2% 8mA 5Vdc M ohm 12.5Vdc 2.9ohm±25% DLP1NDN9HL4p 9ohm±2% 6mA 5Vdc M ohm 12.5Vdc 3.7ohm±25% Operating Temperature ange: 4 C to +85 C Number of Circuit: 2 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Differential Mode Transmission Characteristics Common mode DLP1NDN9HL4 2 DLP1NDN9HL4 DLP1NDN67HL4 DLP1NDN35HL4 DLP1NDN35HL4 DLP1NDN67HL4 Signal Lines Type DLP1NDN9HL4 Differential mode 1 1 Insertion Loss (db) Mar.28,

168 DLP Series Signal Lines Type DLP2AD DLP2ADSeries (84 Size) 2 circuit builtin, 84 size, HDMI adapted type available, cutoff frequency 6GHz max. Dimensions.25±.1.5±.1.82±.1 Equivalent Circuit (1) (2) (3) (4).25±.15 (1) (2) (3) (4) 1.±.1 (5) (6) (7) (8) No polarity. Packaging (5) (6) (7) (8) 2.±.1 Code Packaging Minimum Quantity : Electrode (in mm) L 18mm eel Embossed Tape 3 B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) DLP2ADA Series Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) DLP2ADN Series efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLP2ADA35HL4p 35ohm±2% 15mA 5Vdc M ohm 12.5Vdc.8ohm±25% DLP2ADA67HL4p 67ohm±2% 13mA 5Vdc M ohm 12.5Vdc 1.ohm±25% DLP2ADA9HL4p 9ohm±2% 12mA 5Vdc M ohm 12.5Vdc 1.4ohm±25% DLP2ADN67HL4p 67ohm±2% 14mA 5Vdc M ohm 12.5Vdc 1.3ohm±25% DLP2ADN9HL4p 9ohm±2% 13mA 5Vdc M ohm 12.5Vdc 1.7ohm±25% DLP2ADN121HL4p 12ohm±2% 12mA 5Vdc M ohm 12.5Vdc 2.ohm±25% DLP2ADN161HL4p 16ohm±2% ma 5Vdc M ohm 12.5Vdc 2.5ohm±25% DLP2ADN21HL4p 2ohm±2% 9mA 5Vdc M ohm 12.5Vdc 3.2ohm±25% DLP2ADN241HL4p 24ohm±2% 8mA 5Vdc M ohm 12.5Vdc 3.8ohm±25% DLP2ADN281HL4p 28ohm±2% 8mA 5Vdc M ohm 12.5Vdc 4.6ohm±25% Operating Temperature ange: 4 C to +85 C Number of Circuit: 2 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Common Mode DLP2ADA9HL4 DLP2ADA67HL4 DLP2ADA35HL4 DLP2ADA35HL4 DLP2ADA67HL4 DLP2ADA9HL4 Differential Mode 1 1 Common mode DLP2ADN281HL4 DLP2ADN241HL4 DLP2ADN21HL4 DLP2ADN161HL4 DLP2ADN121HL4 DLP2ADN9HL4 DLP2ADN67HL4 1 DLP2ADN67HL4 DLP2ADN281HL4 DLP2ADN241HL4 DLP2ADN21HL4 DLP2ADN161HL4 DLP2ADN121HL4 Differential mode DLP2ADN9HL4 1 Continued on the following page. Mar.28,

169 DLP Series Signal Lines Type DLP2AD Series (54 Size) DLP2AD Differential Mode Transmission Characteristics (Typ.) DLP2ADA Series DLP2ADN Series Insertion Loss (db) 2 DLP2ADA9HL4 DLP2ADA67HL4 4 DLP2ADA35HL4 6 1 Signal Lines Type Insertion Loss (db) DLP2ADN9HL4 8 8 Mar.28,

170 DLP Series Signal Lines Type DLP31D DLP31DSeries (126 Size) 2 circuit builtin, 126 size, meet IEEE1394,USB,LVDS. Dimensions 1.15±.15 Equivalent Circuit (1) (2) (3) (4).4±.2.8±.1 (1) (2) (3) (4).3±.2 (5) (6) (7) (8) No polarity. (5) (6) (7) (8) 3.2± ±.15 : Electrode Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 3 (in mm) B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLP31DN9ML4p 9ohm±2% 16mA Vdc M ohm 25Vdc 1.1ohm max. DLP31DN131ML4p 13ohm±2% 12mA Vdc M ohm 25Vdc 1.1ohm max. DLP31DN21ML4p 2ohm±2% ma Vdc M ohm 25Vdc 2.2ohm max. DLP31DN321ML4p 32ohm±2% 8mA Vdc M ohm 25Vdc 3.5ohm max. DLP31DN441ML4p 44ohm±2% 7mA Vdc M ohm 25Vdc 4.3ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 2 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Common mode DLP31DN441ML4 DLP31DN321ML4 DLP31DN21ML4 DLP31DN131ML4 DLP31DN9ML4 DLP31DN321ML4 DLP31DN441ML4 DLP31DN9ML4 DLP31DN131ML4 DLP31DN21ML4 Differential mode 1 1 Mar.28,

171 DLW Series Signal Lines Type DLW21S DLW21SSeries (85 Size) Wirewound common choke, HDMI available type prepaird. Dimensions 2.±.2 (1) (2) (4) (3) (.4) (.4) 1.2±.2 (.17) 1.2±.2 : Electrode Equivalent Circuit (1) (4) Packaging No polarity. Code Packaging Minimum Quantity L 18mm eel Embossed Tape 2 (2) (3) (.45) (.45) (in mm) B Bulk(Bag) 5 ated Value (p: packaging code) Part Number ImpedanceFrequency Characteristics (Main Items) DLW21SN_SQ2 Series Common Mode Impedance (at MHz/2 C) ated Current ated Voltage Insulation esistance (min.) DLW21SN_HQ2 Series efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLW21SN67SQ2p 67ohm±25% 4mA 5Vdc M ohm 125Vdc.25ohm max. DLW21SN9SQ2p 9ohm±25% 33mA 5Vdc M ohm 125Vdc.35ohm max. DLW21SN121SQ2p 12ohm±25% 37mA 5Vdc M ohm 125Vdc.45ohm max. DLW21SN181SQ2p 18ohm±25% 33mA 5Vdc M ohm 125Vdc.35ohm max. DLW21SN261SQ2p 26ohm±25% 3mA 5Vdc M ohm 125Vdc.4ohm max. DLW21SN371SQ2p 37ohm±25% 28mA 5Vdc M ohm 125Vdc.45ohm max. DLW21SN67HQ2p 67ohm±25% 32mA 2Vdc M ohm 5Vdc.31ohm max. DLW21SN9HQ2p 9ohm±25% 28mA 2Vdc M ohm 5Vdc.41ohm max. DLW21SN121HQ2p 12ohm±25% 28mA 2Vdc M ohm 5Vdc.41ohm max. DLW21S67HQ2p 67ohm±25% 4mA 2Vdc M ohm 5Vdc.25ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines DLW21S67HQ2 is designed to correct line impedance when ESD protection device is also used. DLW21SN371SQ2 DLW21SN261SQ2 DLW21SN181SQ2 DLW21SN121SQ2 DLW21SN9SQ2 DLW21SN67SQ2 Common mode Common mode DLW21SN121HQ2 DLW21SN9HQ2 DLW21SN67HQ2 Signal Lines Type DLW21SN371SQ2 DLW21SN261SQ2 1 DLW21SN181SQ2 DLW21SN121SQ2 DLW21SN9SQ2 Differential mode DLW21SN67SQ DLW21SN121HQ2 DLW21SN9HQ2 DLW21SN67HQ2 Differential mode.1 Continued on the following page. Mar.28,

172 DLW Series Signal Lines Type DLW21S Series (85 Size) DLW21S ImpedanceFrequency Characteristics (Main Items) DLW21S_HQ2 Series DLW21S67HQ2 Common mode Differential mode 1 DLW21S67HQ2.1 1 Differential Mode Transmission Characteristics (Typ.) DLW21SN_HQ2 Series DLW21SN9HQ2 2 Signal Lines Type Insertion Loss (db) Mar.28,211 17

173 DLW Series Signal Lines Type DLW21H DLW21HSeries (85 Size) Low profile wirewound common choke coil. Dimensions 2.±.2.9±.1 (.17) 1.2±.2 Equivalent Circuit (1) (4) No polarity. (2) (3) (.45) (.45) (1) (2) (4) (3) (.4) (.4) : Electrode (in mm) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 3 B Bulk(Bag) 5 ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics (Main Items) ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLW21HN67SQ2p 67ohm±25% 33mA 5Vdc M ohm 125Vdc.35ohm max. DLW21HN9SQ2p 9ohm±25% 33mA 5Vdc M ohm 125Vdc.35ohm max. DLW21HN121SQ2p 12ohm±25% 28mA 5Vdc M ohm 125Vdc.45ohm max. DLW21HN181SQ2p 18ohm±25% 25mA 5Vdc M ohm 125Vdc.5ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines Signal Lines Type 1 DLW21HN67SQ2 DLW21HN121SQ2 DLW21HN9SQ2 DLW21HN181SQ2 Common mode DLW21HN181SQ2 DLW21HN121SQ2 DLW21HN9SQ2 Differential mode DLW21HN67SQ2.1 1 Mar.28,

174 DLW Series Signal Lines Type DLW31S DLW31SSeries (126 Size) 126 size wirewound common mode choke coil. Dimensions (.25) 1.9±.2 Equivalent Circuit (1) (2) 3.2±.2 1.6±.2 (4) No polarity. (3) (1) (2) (.6) Packaging Code Packaging Minimum Quantity L 18mm eel Embossed Tape 2 B Bulk(Bag) 5 Signal Lines Type ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ImpedanceFrequency Characteristics ated Current ated Voltage Insulation esistance (min.) efer to pages from p.176 to p.179 for mounting information. Withstand Voltage DC esistance DLW31SN9SQ2p 9ohm±25% 37mA 5Vdc M ohm 125Vdc.3ohm max. DLW31SN161SQ2p 16ohm±25% 34mA 5Vdc M ohm 125Vdc.4ohm max. DLW31SN261SQ2p 26ohm±25% 3mA 5Vdc M ohm 125Vdc.5ohm max. DLW31SN61SQ2p 6ohm±25% 26mA 5Vdc M ohm 125Vdc.8ohm max. DLW31SN2SQ2p ohm±25% 23mA 5Vdc M ohm 125Vdc 1.ohm max. DLW31SN222SQ2p 22ohm±25% 2mA 5Vdc M ohm 125Vdc 1.2ohm max. Operating Temperature ange: 4 C to +85 C Number of Circuit: 1 HD: for high speed differential signal lines UD: for ultra high speed differential signal lines (.6) (4) (3) : Electrode (.6) (.6) (in mm) Common mode DLW31SN222SQ2 DLW31SN2SQ2 DLW31SN61SQ2 DLW31SN261SQ2 DLW31SN161SQ2 DLW31SN9SQ2 DLW31SN222SQ2 DLW31SN2SQ2 DLW31SN61SQ2 1 DLW31SN261SQ2 DLW31SN161SQ2 DLW31SN9SQ2 Differential mode.1 1 Mar.28,

175 PLT Series Power Lines Type Large Current Common Mode Choke Coil for Automotive Available PLTH PLTHSeries (12.9x6.6 mm) Automotive available, up to A. Dimensions (1) (2) 2 (4) (3) 6.6± ±.2 Equivalent Circuit (1) (4) No polarity. (2) (3) ated Value (p: packaging code) Part Number Common Mode Impedance (at MHz/2 C) ated Current ImpedanceFrequency Characteristics 1.±.2 1.±.2 3.2±.3 ated Voltage Insulation esistance (min.) Withstand Voltage Packaging Notice (ating) In operating temperature exceeding +65 C, derating of current is necessary for PLTH Series. Please apply the derating curve shown in chart according to the operating temperature. Code Packaging Minimum Quantity L 18mm eel Embossed Tape 125 K 33mm eel Embossed Tape 5 B Bulk(Bag) 5 efer to pages from p.18 to p.181 for mounting information. DC esistance Common Mode Inductance PLTHH41PNp 4ohm A Vdc M ohm 25Vdc 3.6m ohm±.5m ohm 6µH min. PLTHH51PNp 5ohm A Vdc M ohm 25Vdc 3.6m ohm±.5m ohm 9µH min. PLTHH916PNp 9ohm 6A Vdc M ohm 25Vdc 8.m ohm±.5m ohm 14µH min. PLTHH26PNp ohm 6A Vdc M ohm 25Vdc 8.m ohm±.5m ohm 2µH min. Operating Temperature ange (Selftemperature rise is included): 55 C to +5 C (PLTHH 26/51 PN), 55 C to +5 C (PLTHH 41/916 PN) Number of Circuit: 1 Imredance (Ω) PLTHH26PN PLTHH916PN PLTHH51PN PLTHH41PN max max. 2.±.3 2.1±.3 2.1±.3 Derating Current [A] 12 Power Lines Type ±.2 PLTHH51 : Electrode (in mm) PLTHH41 PLTHH91 2 PLTHH Operating Temperature [ C] Mar.28,

176 !Caution/Notice!Caution ating Do not use products beyond the rated current and rated voltage as this may create excessive heat and deteriorate the insulation resistance. Soldering and Mounting 1. Selfheating Please provide special attention when mounting chip common mode choke coils DLW5 series in close proximity to other products that radiate heat. The heat generated by other products may deteriorate the insulation resistance and cause excessive heat in this component. 2. Mounting Direction Mount s in right direction. Wrong direction, which is 9 degrees rotated from right direction, causes not only open or short circuit but also flames or other serious trouble. right direction wrong direction!caution/ Notice Storage and Operating Conditions <Operating Environment> Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Do not use products in the environment close to the organic solvent. <Storage and Handling equirements> 1. Storage Period DLW11G/DLM2HG series should be used within 6 months, the other series should be used within 12 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Failure and degradation of a product are caused by the cleaning method. When you clean in conditions that are not in mounting information, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters EMIFILr may vary, depending on the circuits and ICs used, type of noise, mounting pattern, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design. Notice Handling 1. esin Coating (Except DLW Series.) Using resin for coating/molding products may affect the products performance. So please pay careful attention in selecting resin. Prior to use, please make the reliability evaluation with the product mounted in your application set. 2. esin Coating (DLW Series) The impedance value may change due to high curestress of resin to be used for coating/molding products. An open circuit issue may occur by mechanical stress caused by the resin, amount/cured shape of resin, or operating condition etc. Some resin contains some impurities or chloride possible to generate chlorine by hydrolysis under some operating condition may cause corrosion of wire of coil, leading to open circuit. So, please pay your careful attention in selecting resin in case of coating/molding the products with the resin. Prior to use the coating resin, please make sure no reliability issue is observed by evaluating products mounted on your board. 3. Caution for Use (DLW Series) When you hold products with a tweezer, please hold by the sides. Sharp materials, such as a pair of tweezers, should not touch the winding portion to prevent breaking the wire. Mechanical shock should not be applied to the products mounted on the board to prevent breaking the core. 4. Brushing When you clean the neighborhood of products such as connector pins, bristles of cleaning brush shall not be touched to the winding portion of this product to prevent the breaking of wire. 5. 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 Mar.28,

177 !Caution/Notice!Caution ating 1. Do not use products beyond the rated current and rated voltage as this may create excessive heat and deteriorate the insulation resistance. 2. Be sure to provide an appropriate failsafe function on your product to prevent a second damage that may be caused by the abnormal function or the failure our product. Soldering and Mounting 1. Selfheating Please provide special attention when mounting chip common mode choke coils in close proximity to other products that radiate heat. The heat generated by other products may deteriorate the insulation resistance and cause excessive heat in this component. Notice 2. Mounting Direction Mount s in right direction. Wrong direction, which is 9 degrees rotated from right direction, causes not only open or short circuit but also flames or other serious trouble. right direction wrong direction Storage and Operating Conditions <Operating Environment> Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Do not use products in the environment close to the organic solvent. <Storage and Handling equirements> 1. Storage Period PLTH series should be used within 12 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Failure and degradation of a product are caused by the cleaning method. When you clean in conditions that are not in mounting information, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters EMIFILr may vary, depending on the circuits and ICs used, type of noise, mounting pattern, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design. Handling 1. 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!Caution/ Notice Mar.28,

178 DLp Soldering and Mounting 1. Standard Land Pattern Dimensions DLM11G DLM2HG DLPNS DLP11S DLP11T DLP1ND DLP2AD DLP31S DLP31D DLW21S DLW21H DLW31SN DLW5AH DLW5B oeflow and Flow DLM2HG oeflow Soldering DLPNS.3 DLP31S 2.1 DLP11S DLP11T.7.7 DLP31D Land Pattern + Solder esist Land Pattern Solder esist Pitch.4 DLP1ND (in mm) DLP2AD DLM11G DLW21S/21H/31SN c DLW5AH/5B a b Series DLW21S/H DLW31SN a d b c.4.4 d Soldering and Mounting o PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board : If the pattern is made with wider than 1.2mm (DLW21) / 1.6mm (DLW31S) it may result in components turning around, because melting speed is different. In the worst case, short circuit between lines may occur. 2: If the pattern is made with less than.4mm, in the worst case, short circuit between lines may occur due to spread of soldering paste or mount placing accuracy. 3: If the pattern is made with wider than.8mm (DLW21) / 1.6mm (DLW31SN), the bending strength will be reduced. Do not use gild pattern; excess soldering heat may dissolve metal of a copper wire. Products should be located in the sideways direction (Length: a<b) to the mechanical stress. b a Poor example Good example Mar.28,

179 DLp Soldering and Mounting 2. Solder Paste Printing and Adhesive Application When reflow soldering the chip common mode choke coils, the printing must be conducted in accordance with the following cream solder printing conditions. If too much solder is applied, the chip will be prone to damage by mechanical and thermal stress from the PCB and may crack. Standard land dimensions should be used for resist and copper foil patterns. When flow soldering the chip common mode choke coils, apply the adhesive in accordance with the following conditions. 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 process. (in mm) Series Solder Paste Printing Adhesive Application DLP DLW DLM oguideline of solder paste thickness: 15µm: DLW21S/21H/31S, DLPNS/11S/11T/1ND/2AD/DLM11G 152µm: DLP31D/31S, DLM2HG, DLW5AH/5BS/5BT *Solderability is subject to reflow conditions and thermal conductivity. Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product. DLP31S/DLM2HG/DLP31D Apply.3mg of bonding agent at each chip. DLP31D DLP31S DLPNS/11S/11T/31S/DLM11G a b a d c c DLW21S/21H/31S a b c d Coating Position of Bonding Agent Coating Position of Bonding Agent Coating Position of Bonding Agent DLM2HG Series DLPNS DLP11S DLP11T DLP31S DLM11G DLP2AD/31D c d a b a b a DLW5AH/5BS/5BT c 1.3 d Series a b c d DLW21S/H DLW31S Series a b c d DLP1ND DLP2AD DLP31D DLM2HG Soldering and Mounting Mar.28,

180 DLp Soldering and Mounting 3. Standard Soldering Conditions (1) Soldering Methods Use flow and reflow soldering methods only. Use standard soldering conditions when soldering chip common mode choke coils. In cases where several different parts are soldered, each having different soldering conditions, use those conditions requiring the least heat and minimum time. Solder: Use Sn3.Ag.5Cu solder. Use of Snn based solder will deteriorate performance of products. If using DLP/DLM series with Snn based solder, please contact Murata in advance. Flux: o Use osinbased flux. In case of DLW21/31 series, use osinbased flux with converting chlorine content of.6 to.1wt%. In case of using A type solder, products should be cleaned completely with no residual flux. o Do not use strong acidic flux (with chlorine content exceeding.2wt%) o Do not use watersoluble flux. For additional mounting methods, please contact Murata. (2) Soldering Profile oflow Soldering Profile (Sn3.Ag.5Cu Solder) Temperature ( C) T1 T3 T2 t2 Heating Limit Profile Standard Profile Preheating t1 Time (s) Soldering and Mounting DLM2HG DLP31D/31S Series oeflow Soldering Profile (Sn3.Ag.5Cu Solder) DLM/DLP DLW21/31 Series Temp. (T1) Preheating Time. (t1) Standard Profile Heating Temp. (T2) Time. (t2) 15 C 6s min. 25 C 4 to 6s Temperature ( C) T2 T1 Preheating 9s±3s Standard Profile 22 C min. 3 to 6s 245±3 C t1 t2 2 times max. 2 times max. 265±3 C Limit Profile Cycle Heating of Flow Temp. (T3) Time. (t2) Heating Peak Cycle Heating Temperature Temp. (T1) Time. (t1) (T2) of eflow Temp. (T3) Time. (t2) T4 T3 time (s) Limit Profile Standard Profile Limit Profile 5s max. Peak Temperature (T4) 23 C min. 6s max. 26 C/s Cycle of Flow 2 times max. Cycle of eflow 2 times max. DLW5A/5B 22 C min. 3 to 6s 25±3 C 2 times max. 23 C min. 6s max. 26 C/s 2 times max. Mar.28,

181 DLp Soldering and Mounting (3) eworking with Solder Iron The following conditions must be strictly followed when using a soldering iron. Preheating: 15 C 6s min. Soldering iron power output / Tip diameter: 3W max. / ø3mm max. Temperature of soldering iron tip / Soldering time / Times: 35 C max. / 34s / 2 times* 1 * 1 DLPNS, DLP11S, DLP11T, DLP1ND, DLP2AD: 38 C max. / 34s / 2 times Do not allow the tip of the soldering iron to directly contact the chip. For additional methods of reworking with a soldering iron, please contact Murata engineering. 4. Cleaning Following conditions should be observed when cleaning chip EMI filter. (1) Cleaning Temperature: 6 C max. (4 C max. for alcohol type cleaner) (2) Ultrasonic Output: 2W/liter max. Duration: 5 minutes max. Frequency: 28 to 4kHz (3) Cleaning agent The following list of cleaning agents have been tested on the individual components. Evaluation of final assembly should be completed prior to production. Do not clean DLW (except DLW21H) series. Before cleaning, please contact Murata engineering. (a) Alcohol cleaning agent Isopropyl alcohol (IPA) (b) Aqueous cleaning agent Pine Alpha STS (4) Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agent has been removed with deionized water. Soldering and Mounting Mar.28,

182 PL p Soldering and Mounting 1. Standard Land Pattern Dimensions (in mm) PLTH oeflow Soldering PLTH Copper Foil Pattern Copper Foil Pattern + esist esist o PCB Warping PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. Products should be located in the sideways direction (Length: a<b) to the mechanical stress. a b Poor example Good example 2. Solder Paste Printing and Adhesive Application Soldering and Mounting When reflow soldering the chip common mode choke coils, the printing must be conducted in accordance with the following cream solder printing conditions. If too much solder is applied, the chip will be prone to damage by mechanical and thermal stress from the PCB and may crack. Standard land dimensions should be used for resist and copper foil patterns. Series PLTH oguideline of solder paste thickness: 152µm: PLTH For the solder paste printing pattern, use standard land dimensions. When flow soldering the chip common mode choke coils, apply the adhesive in accordance with the following conditions. 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 process. Solder Paste Printing *Solderability is subject to reflow conditions and thermal conductivity. Please make sure that your product has been evaluated in view of your specifications with our product being mounted to your product. Mar.28,211 18

183 PLp Soldering and Mounting 3. Standard Soldering Conditions (1) Soldering Methods Use reflow soldering methods only. Use standard soldering conditions when soldering chip common mode choke coils. In cases where several different parts are soldered, each having different soldering conditions, use those conditions requiring the least heat and minimum time. Solder: Use Sn3.Ag.5Cu solder. Use of Snn based solder will deteriorate performance of products. Flux: o Use osinbased flux. use osinbased flux. o Do not use strong acidic flux (with chlorine content exceeding.2wt%) o Do not use watersoluble flux. For additional mounting methods, please contact Murata. (2) Soldering Profile oeflow Soldering Profile (Sn3.Ag.5Cu Solder) Temperature ( C) T2 T1 Preheating t1 t2 T4 T3 Limit Profile Standard Profile 9s±3s time (s) PLTH Series Standard Profile Heating Peak Cycle Heating Temperature Temp. (T1) Time. (t1) (T2) of eflow Temp. (T3) Time. (t2) 22 C min. 3 to 6s 25±3 C (3) eworking with Solder Iron The following conditions must be strictly followed when using a soldering iron. Preheating: 15 C 6s min. Soldering iron power output / Tip diameter: 8W max. / ø3mm max. Temperature of soldering iron tip / Soldering time / Times: 4 C max. / 5s / 2 times 4. Cleaning Do not clean after soldering. If cleaning, please contact us. 2 times max. Limit Profile Peak Temperature (T4) 23 C min. 6s max. 26 C/s Cycle of eflow 2 times max. Do not allow the tip of the soldering iron to directly contact the chip. For additional methods of reworking with a soldering iron, please contact Murata engineering. Soldering and Mounting Mar.28,

184 DLp Packaging Minimum Quantity and Dimensions of 8mm Width Paper / Embossed Tape 2.± ±.1 4.±.1 a +.1 ø ±.1 3.5±.5 8. <Embossed> d c <Paper> Direction of Feed b c: Depth of Cavity 1 DLM11G: 2.±.5 (Embossed Tape) Dimension of the cavity of embossed tape is measured at the bottom side. c c: Total Thickness of Tape (Paper Tape) Part Number DLM11G DLM2HG DLPNS DLP11S a Cavity Size b c max d Minimum Qty. (pcs.) ø18mm eel ø33mm eel Paper Tape Embossed Tape Paper Tape Embossed Tape Bulk 5 5 DLP11T DLP1ND DLP2AD DLP31D/31S DLW21S DLW21H DLW31S (in mm) Minimum Quantity and Dimensions of 12mm Width Embossed Tape 8.±.1 2.±.5 4.±.1 a ø ±.1 5.5± c Part Number DLW5AH DLW5BS DLW5BT a Cavity Size b c Minimum Qty. (pcs.) ø18mm eel ø33mm eel Bulk Packaging b Direction of feed Dimension of the cavity is measured at the bottom side. c: Depth of Cavity (in mm) "Minimum Quantity" means the number of units of each delivery or order. The quantity should be an integral multiple of the "Minimum Quantity". Mar.28,

185 PL p Packaging Minimum Quantity and Dimensions of 24mm Width Embossed Tape a 4.±.1 2.±.1 ø ± ±.1 24.±.2 12.±.1 Direction of Feed Dimension of the cavity is measured at the bottom side. (in mm) PLTH Part Number Cavity Size (mm) Minimum Qty. (pcs.) a b c d ø178mm eel ø33mm eel Bulk Packaging d b c Mar.28,

186 DLp Design Kits oekemdl21l (s) No. Part Number Quantity (pcs.) Common Mode Impedance (at MHz, 2 degrees C) ated Voltage (Vdc) ated Current (ma) DLW21HN67SQ2 DLW21HN9SQ2 DLW21HN121SQ2 DLW21HN181SQ2 DLW21SN67SQ2 DLW21SN9SQ2 DLW21SN121SQ2 DLW21SN181SQ2 DLW21SN261SQ2 DLW21SN371SQ2 DLW21SN67HQ2 DLW21SN9HQ2 DLW21SN121HQ2 DLW21S67HQ2 67Ω±25% 9Ω±25% 12Ω±25% 18Ω±25% 67Ω±25% 9Ω±25% 12Ω±25% 18Ω±25% 26Ω±25% 37Ω±25% 67Ω±25% 9Ω±25% 12Ω±25% 67Ω±25% DLPNSA15HL2 DLPNSC28HL2 DLPNSN67HL2 DLPNSN9HL2 DLPNSN121HL2 15Ω±5Ω 28Ω±2% 67Ω±2% 9Ω±2% 12Ω±2% DLP1NDN35HL4 DLP1NDN67HL4 DLP1NDN9HL4 35Ω±2% 67Ω±2% 9Ω±2% Design Kits DLP11SA35HL2 DLP11SA67HL2 DLP11SA9HL2 DLP11SN67SL2 DLP11SN121SL2 DLP11SN161SL2 DLP11SN9HL2 DLP11SN21HL2 DLP11SN241HL2 DLP11SN281HL2 DLP11SN331HL2 DLP11TB8UL2 DLP2ADA35HL4 DLP2ADA67HL4 DLP2ADA9HL4 DLP2ADN67HL4 DLP2ADN9HL4 DLP2ADN121HL4 DLP2ADN161HL4 DLP2ADN21HL4 DLP2ADN241HL4 DLP2ADN281HL4 35Ω±2% 67Ω±2% 9Ω±2% 67Ω±2% 12Ω±2% 16Ω±2% 9Ω±2% 2Ω±2% 24Ω±2% 28Ω±2% 33Ω±2% 8Ω±25% 35Ω±2% 67Ω±2% 9Ω±2% 67Ω±2% 9Ω±2% 12Ω±2% 16Ω±2% 2Ω±2% 24Ω±2% 28Ω±2% Mar.28,

187 DLp Design Kits oekemdcc5c (s for DC Power Line / SMD Block type EMIFILr for Power Line) No Part Number DLW5AHN42SQ2 DLW5BSN191SQ2 DLW5BSN351SQ2 DLW5BSN2SQ2 DLW5BSN152SQ2 DLW5BSN32SQ2 DLW5BTN1SQ2 DLW5BTN251SQ2 DLW5BTN51SQ2 DLW5BTN2SQ2 DLW5BTN142SQ2 Quantity (pcs.) Common Mode Impedance (at MHz, 2 degrees C) 4Ω (Typ.) 19Ω (Typ.) 35Ω (Typ.) Ω (Typ.) 15Ω (Typ.) 3Ω (Typ.) Ω (Typ.) 25Ω (Typ.) 5Ω (Typ.) Ω (Typ.) 14Ω (Typ.) ated Voltage (Vdc) ated Current (ma) Design Kits Mar.28,

188 PL p Large Current Common Mode Choke Coils (Automotive Available) Design Kits Design Kits oekepplb (Common Mode Choke Coil) No Part Number PLTHH41PN PLTHH51PN PLTHH916PN PLTHH26PN Quantity (pcs.) Common Mode Impedance (at MHz, 2 degrees C) 4Ω (Typ.) 5Ω (Typ.) 9Ω (Typ.) Ω (Typ.) ated Voltage (Vdc) ated Current (A) 6 6 Mar.28,

189 BN Series Line Up Function Example Product Detail!Caution/Notice Soldering and Mounting Packaging Design Kits Mar.28,211

190 BN Series Line Up / Function Example Type Part Number Thickness (mm) ated Voltage Effective Frequency ange ated Current p191 BN Vdc 1MHz to 1GHz:35dB min. A SMD Type BN Vdc 1MHz to 1GHz:35dB min. 15A for Power Lines BN24H Vdc khz to 1GHz:35dB min. 15A BN25H Vdc 5kHz to 1GHz:35dB min. 15A p193 BN Vdc 1MHz to 1GHz:4dB min. A Lead Type BN Vdc 5MHz to 1GHz:4dB min. A for Power Lines BN Vdc 1MHz to 1GHz:4dB min. 15A Lead Type p194 BN Vdc 1MHz to 1GHz:4dB min. 15A Low Profile for Power Lines BN Vdc khz to 1GHz:4dB min. 15A Noise Suppression of adiation Noise from Power Line Cable Antenna Test Board DCDC Converter 7 AC Adaptor ACV ctest esult BN12 12Vdc Cable Without Filter IN 12V µf Power Circuit (SW) 7 Power Block OUT 5V Clock Drive (3MHz) Digital Block With BN Level (dbuv/m) Level (dbuv/m) Mar.28,

191 BN Function Example Impulse Noise Countermeasure Impulse Noise Generator: INS442 (4kV, 5nsec) +B CB PSG CG 6dB (4dB+2dB) ATT Oscilloscope: TDS7254 BN cwithout Filter 4kV Applied Impulse Voltage: 4kV/5nS YAIS: 1kV/div cwith Filter BN21 BN121 BN221 ESD Countermeasure 5 ESD Waveform Comparison 4 Wave Voltage (V) 3 2 Initial with BN Time (nsec) Mar.28,

192 EMI Suppression Effect BN Series Suppression of ipple Noise of DC Side in the Switching Power Supply Test Circuit BN21 Switching Power Supply +5V CG Type of Filter EMI Suppression Effect / Description There is high frequency noise of.5v maximum. Without Filter +5.V 5µs/div.2V/div BN21 can suppress most of noise. When BN21 is used +5.V 5µs/div.2V/div Example of Impulse Noise Suppression Type of Filter Without Filter EMI Suppression Effect Impulse Noise 2V/5ns Yaxis: 5V/div axis: ns/sec When BN2 is used Yaxis: 5V/div axis: ns/sec Mar.28,211 19

193 BN Series Power Lines Type BN2p BN2pSeries SMD package of block type EMIFILr. BN22/BN23 Dimensions 9.1± ±.2 (1) (2) (3) BN2p* (4) 4.2±.3 (2.45) 3.1±.2.3±.1.3±.1 * Part Number BN221 BN ±.2 1.6±.3 Appearance BN22 BN23 (1) (3) (4) (2) (4) 7.± ±.2 (1) 1.±.3 1.5±.2 (3) (4) 2.5± ±.2 (4) (2) : Electrode (in mm) Equivalent Circuit L1 L3 C2 (1) B CB (2) L2 Packaging C1 (3) PSG CG (4) (1)(4): Terminal Number PSG: Power Supply Ground CG: Circuit Ground CB: Circuit+B Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 K 33mm eel Embossed Tape 15 B Bulk(Bag) BN24H/BN25H ated Value (p: packaging code) Insertion Loss Characteristics BN22/23 Dimensions Part Number ated Voltage Withstand Voltage ated Current Insulation esistance (min.) BN24H1 Equivalent Circuit Packaging efer to pages from p.197 to p.2 for mounting information. Insertion Loss (2 to 25 degrees C line impedance=5 ohm) BN221p 5Vdc 125Vdc A 5M ohm 1MHz to 1GHz:35dB min. BN231p Vdc 25Vdc 15A 5M ohm 1MHz to 1GHz:35dB min. BN24H1p 5Vdc 125Vdc 15A M ohm khz to 1GHz:35dB min. BN25H1p 25Vdc 62.5Vdc 15A 5M ohm 5kHz to 1GHz:35dB min. Operating Temperature ange: 4 C to +125 C (BN22/BN23), 55 C to +125 C (BN24H/BN25H) 12.1±.2 (1) (2) 9.1±.2 (3) BN2p* (4) 4.2±.3 (2.45) 3.5±.2 * Part Number BN24H1 BN25H1 Appearance BN24 BN25 (1) (3) (4) (2) (4) 7.± ±.2.3±.1 1.±.3.3±.1 1.5±.2 1.3±.2 (3) (4) (1) 2.5± ±.2 (4) (2) 1.6±.3 : Electrode (in mm) L1 L3 C2 (1) B CB (2) L2 C1 (3) PSG CG (4) (1)(4): Terminal Number PSG: Power Supply Ground CG: Circuit Ground CB: Circuit+B Code Packaging Minimum Quantity L 18mm eel Embossed Tape 4 K 33mm eel Embossed Tape 15 B Bulk(Bag) Insertion Loss (db) BN221 BN231 Insertion Loss (db) Power Lines Type Continued on the following page. Mar.28,

194 BN Series Power Lines Type BN2p Series BN2p Insertion Loss Characteristics BN25H1 Insertion Loss (db) Notice (ating) In operating temperatures exceeding +85 C, derating of current is necessary for BN22 series. Please apply the derating curve shown in chart according to the operating temperature. In operating temperatures exceeding +85 C, derating of current is necessary for BN23 series. Please apply the derating curve shown in chart according to the operating temperature. Derating Derating 15 Derated Current (A) Derated Current (A) Operating Temperature ( C) In operating temperatures exceeding +85 C, derating of current is necessary for BN24H/25H series. Please apply the derating curve shown in chart according to the operating temperature Operating Temperature ( C) Derating 15 Power Lines Type Derated Current (A) Operating Temperature ( C) Mar.28,

195 BN Series Power Lines Type BNp BNpSeries Large insertion loss from several hundred khz to several GHz. BN2/BN3 Dimensions 3.5±1. 12.±.5 ø.8.8 ±.1 7.5±.2 2.5±.2 13 max. 18 max. 5.±.5 11.±.5 ø.8 ø.8.6 ±.1 2.5±.2 2.5±.2 Equivalent Circuit L1 L3 C2 (1) B CB (2) L2 C1 (3) PSG CG (4) (1)(4): Terminal Number PSG: Power Supply Ground CG: Circuit Ground CB: Circuit+B CG CB CG PSG: Power supply ground CG: Load circuit ground CB: Load circuit + Bias Packaging Code Packaging Minimum Quantity PSG B (in mm) Box BN5 Dimensions 12.±.5 11.±.5 Equivalent Circuit L1 L3 C2 (1) B CB (2) 3.5±1. ø1..8 ± max max. 5.±.5 ø1. ø1..6 ±.1 2.5±.2 2.5±.2 L2 C1 (3) PSG CG (4) (1)(4): Terminal Number PSG: Power Supply Ground CG: Circuit Ground CB: Circuit+B 7.5±.2 2.5±.2 ated Value Part Number ated Voltage Withstand Voltage ated Current Insertion Loss Characteristics CG PSG B PSG: Power supply ground CG: Load circuit ground CB: Load circuit + Bias Insulation esistance (min.) Packaging Code Packaging Minimum Quantity Box efer to pages from p.197 to p.2 for mounting information. Insertion Loss (2 to 25 degrees C line impedance=5 ohm) BN21 5Vdc 125Vdc A M ohm 1MHz to 1GHz:4dB min. BN31 15Vdc 375Vdc A M ohm 5MHz to 1GHz:4dB min. BN51 5Vdc 125Vdc 15A M ohm 1MHz to 1GHz:4dB min. Operating Temperature ange: 3 C to +85 C (5Ω 5Ω) CB CG (in mm) BN31 2 Insertion Loss (db) BN21 (BN51) Power Lines Type Mar.28,

196 BN Series Power Lines Type BN1p BN1pSeries Low profile version of BN series. Dimensions 3.2±.5.8 ±.1 *** : 12/16 12.±.2 BN*** 7.5±.2.8 ±.1 8.±.5 4.±.5 12.±.5 2.5±.2 ø.8 ±.1 11.±.2 ø.8 ±.1.6 ±.1 2.5±.2 Equivalent Circuit L1 L3 C2 (1) B CB (2) L2 C1 (3) PSG CG (4) (1)(4): Terminal Number PSG: Power Supply Ground CG: Circuit Ground CB: Circuit+B CG CB CG PSG: Power supply ground CG: Load circuit ground CB: Load circuit + Bias Packaging Code Packaging Minimum Quantity PSG B (in mm) Box 15 ated Value Part Number ated Voltage Withstand Voltage ated Current Insertion Loss Characteristics Insulation esistance (min.) Notice (ating) In operating temperatures exceeding +85 C, derating of current is necessary for BN1p series. Please apply the derating curve shown in chart according to the operating temperature. efer to pages from p.197 to p.2 for mounting information. Insertion Loss (2 to 25 degrees C line impedance=5 ohm) BN121 5Vdc 125Vdc 15A 5M ohm 1MHz to 1GHz:4dB min. BN161 25Vdc 62.5Vdc 15A 5M ohm khz to 1GHz:4dB min. Operating Temperature ange: 4 C to +125 C Insertion Loss (db) BN121 BN161 (5Ω 5Ω) Derating Derated Current [A] Operating Temperature [ C] Power Lines Type " Connecting ± power line In case of using ± power line, please connect to each terminal as shown. Power Supply (BN Input) Power Supply +Bias Power Supply Ground Power Supply Bias Power Supply Ground B PSG B PSG BN CB CG CB CG Circuit (BN Output) Load Circuit +Bias Load Circuit Ground Load Circuit Bias Load Circuit Ground Mar.28,

197 SMD Type!Caution/Notice!Caution ating Do not use products beyond the rated current and rated voltage as this may create excessive heat and deteriorate the insulation resistance. Notice Storage and Operating Conditions <Operating Environment> Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Do not use products in the environment close to the organic solvent. <Storage and Handling equirements> 1. Storage Period BN series should be used within 12 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Do not clean BN series (SMD Type). Before cleaning, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters EMIFILr may vary, depending on the circuits and ICs used, type of noise, mounting pattern, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design. Handling 1. esin Coating Using resin for coating/molding products may affect the products performance. So please pay careful attention in selecting resin. Prior to use, please make the reliability evaluation with the product mounted in your application set. 2. Handling of a Substrate (for BN2p) 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!Caution/ Notice Mar.28,

198 Lead Type!Caution/Notice!Caution ating Do not use products beyond the rated current and rated voltage as this may create excessive heat and deteriorate the insulation resistance. Notice Storage and Operating Conditions <Operating Environment> 1. Do not use products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. 2. Do not use products near water, oil or organic solvents. <Storage and Handling equirements> 1. Storage Period BN Series should be used within 12 months. Solderability should be checked if this period is exceeded. 2. Storage Conditions (1) Storage temperature: to +4 C elative humidity: 15 to 85% Avoid sudden changes in temperature and humidity. (2) Do not store products in a chemical atmosphere such as chlorine gas, acid or sulfide gas. Notice (Soldering and Mounting) 1. Cleaning Failure and degradation of a product are caused by the cleaning method. When you clean in conditions that are not in mounting information, please contact Murata engineering. 2. Soldering eliability decreases with improper soldering methods. Please solder by the standard soldering conditions shown in mounting information. 3. Other Noise suppression levels resulting from Murata's EMI suppression filters "EMIFIL" may vary, depending on the circuits and ICs used, type of noise, mounting pattern, lead wire length, mounting location, and other operating conditions. Be sure to check and confirm in advance the noise suppression effect of each filter, in actual circuits, etc. before applying the filter in a commercialpurpose equipment design.!caution/ Notice Mar.28,

199 BN SMD Type Soldering and Mounting 1. Standard Land Pattern Dimensions BN22 BN23 BN24 BN B PSG CG CG CB CG 17.5 Land Pattern + Solder esist Land Pattern Solder esist (in mm) (1) A doublesided print board (or multilayer board) as shown in the left figure is designed, and please apply a soldering Cu electrode with a product electrode to a "Land Pattern", apply resist to a "Land Pattern + Solder esist" at Cu electrode. (2) This product has large rated current of A/15A. Please consider real current and make Cu electrode thick enough. (Please design line resistance suitable for real current) (3) Please drop CG on a ground electrode on the back layer (the same also in a multilayer case) by the through hole. And a surface grand electrode layer may also take a large area as much as possible. (4) It is recommended to use a doublesided printed circuit board with BN mounting on one side and the ground pattern on the other in order to maximize filtering performance, multiple feed through holes are required to maximize the BN's connection to ground. (5) The ground pattern should be designed to be as large as possible to achieve maximum filtering performance. o PCB Warping (for BN2p) PCB should be designed so that products are not subjected to the mechanical stress caused by warping the board. Products should be located in the sideways direction (Length: a<b) to the mechanical stress. a b 2. Solder Paste Printing and Adhesive Application When reflow soldering the block type EMIFILr, the printing must be conducted in accordance with the following cream solder printing conditions. If too much solder is applied, the chip will be prone to Poor example Good example damage by mechanical and thermal stress from the PCB and may crack. Standard land dimensions should be used for resist and copper foil patterns. Series Solder Paste Printing Adhesive Application BN22 BN23 BN24 BN25 oguideline of solder paste thickness: 152µm B PSG CG CG Soldering and Mounting CB CG Mar.28,

200 BN SMD Type Soldering and Mounting 3. Standard Soldering Conditions (1) Soldering Methods Use reflow soldering methods only. Use standard soldering conditions when soldering block type EMIFILr SMD type. In cases where several different parts are soldered, each having different soldering conditions, use those conditions requiring the least heat and minimum time. Flux: o Use osinbased flux. In case of using A type solder, products should be cleaned completely with no residual flux. o Do not use strong acidic flux (with chlorine content exceeding.2wt%) o Do not use watersoluble flux. Solder: Use Sn3.Ag.5Cu solder. Use of Snn based solder will deteriorate performance of products. For additional mounting methods, please contact Murata. (2) Soldering Profile oeflow Soldering Profile (Sn3.Ag.5Cu solder) Temperature ( C) T2 T1 Preheating t1 t2 T4 T3 Limit Profile Standard Profile Series Standard Profile Heating Peak Cycle Heating Temperature Temp. (T1) Time. (t1) (T2) of eflow Temp. (T3) Time. (t2) BN22/23/24/25 22 C min. 3 to 6s 25±3 C 2 times max. Limit Profile Peak Temperature (T4) 23 C min. 6s max. 26 C/s Cycle of eflow 2 times max. 4. Cleaning Soldering and Mounting 9s±3s Time (s) (3) eworking with Solder Iron The following conditions must be strictly followed when using a soldering iron. Preheating: 15 C 6s min. Soldering iron power output: W max. Temperature of soldering iron tip / Soldering time / Times: 45 C max. / 5s max. / 1 time Do not allow the tip of the soldering iron to directly contact the chip. For additional methods of reworking with a soldering iron, please contact Murata engineering. Do not clean BN22/23/24/25 series. In case of cleaning, please contact Murata engineering. Mar.28,

201 BN Lead Type Soldering and Mounting 1. Mounting Hole Mounting holes should be designed as specified below. BNp/1p Component Side ø1.2 (PSG) (B) (CG) (CG) (CG) (CB) 2.5±.1 5.±.1 7.5±.1 2.5±.1 2.5±.1 Terminal Layout (Bottom figure) CG PSG B CB CG PSG: Power supply ground CG: Load circuit ground CB: Load circuit + Bias 2. Using the (Lead Type) Effectively (1) How to use effectively This product effectively prevents undesired radiation and external noise from going out / entering the circuit by grounding the high frequency components which cause noise problems. Therefore, grounding conditions may affect the performance of the filter and attention should be paid to the following for effective use. (a) Design maximized grounding area in the P.C. board, and grounding pattern for all the grounding terminals of the product to be connected. (Please follow the specified recommendations.) (b) Minimize the distance between ground of the P.C. board and the ground plate of the product. (ecommend unsing the through hole connection between grounding area both of component side and bottom side.) (c) Insert the terminals into the holes on P.C. board completely. (d) Don't connect PSG terminal with CG terminal directly. (See the item 1. Terminal Layout) (2) Selfheating Though this product has a large rated current, localized selfheating may be caused depending on soldering conditions. To avoid this, attention should be paid to the following: (a) Use P.C. board with our recommendation on hole diameter / land pattern dimensions, mentioned in the right hand drawing, especially for 4 terminals which pass current. (b) Solder the terminals to the P.C. board with soldercover area at least 9%. Otherwise, excess selfheating at connection between terminals and P.C. board may lead to smoke and / or fire of the product even when operating at rated current. (c) After installing this product in your product, please make sure the selfheating is within the rated current recommended. P. C. Board Patterns Use a bilateral P.C. board. Insert the BN into the P.C.board until the root of the terminal is secured, then solder. (1) Component Side View (2) Bottom View PSG PSG B B B PSG PSG CG CG CG CG CG CB CB CG ecommended Land Pattern CG B CB CG PSG CG B Shield plate Copper foil pattern Through holes ø (in mm) Copper foil pattern Soldering and Mounting Mar.28,

202 BN Lead Type Soldering and Mounting 3. Soldering (1) Use Sn3.Ag.5Cu solder. (2) Use osinbased flux. Do not use strong acidic flux with halide content exceeding.2wt% (chlorine conversion value). (3) Products and the leads should not be subjected to any mechanical stress during the soldering process, or while subjected to the equivalent high temperatures. (4) Standard flow soldering profile Temperature ( C) Preheating 15 C 6s min. Gradual cooling Soldering (in air) Soldering temperature Solder Soldering Temperature Soldering Time Sn3.Ag.5Cu solder 25 to 26 C 4 to 6s 4. Cleaning Clean the block Type EMIFILr(Lead Type) in the following conditions. (1) Cleaning temperature should be limited to 6 C max. (4 C max for alcohol type cleaner). (2) Ultrasonic cleaning should comply with the following conditions, avoiding the resonance phenomenon at the mounted products and P.C.B. Power: 2W/liter max. Frequency: 28 to 4kHz Time: 5 min. max. (3) Cleaner (a) Alcohol type cleaner Isopropyl alcohol (IPA) (b) Aqueous agent Pine Alpha STS (4) There should be no residual flux or residual cleaner left after cleaning. In the case of using aqueous agent, products should be dried completely after rinsing with deionized water in order to remove the cleaner. (5) The surface of products may become dirty after cleaning, but there is no deterioration on mechanical, electrical characteristics and reliability. (6) Other cleaning: Please contact us. Soldering and Mounting Soldering Time Mar.28,211 2

203 BN SMD Type Packaging Minimum Quantity and Dimensions of 24mm Width Embossed Tape 4.±.1 2.±.1 4.xpitch=4.±.2 12.±.1 ø ± ±.1 a: 12.4±.1 24.±.2 c: 3.3±.1 c: Depth of Cavity 3 max. 3.3±.1 ø ±.1 b: 9.4±.1 Dimension of the cavity is measured at the bottom side. Part Number BN22/23 Cavity Size a b c Minimum Qty. (pcs.) ø18mm eel ø33mm eel 4 15 Bulk 4.±.1 2.±.1 4.xpitch=4.±.2 (in mm) 12.±.1 ø ±.1 c: 3.6±.1 b: 9.4±.1 3.6±.1 Dimension of the cavity is measured at the bottom side. ø Part Number BN24/ ±.1 a: 12.4±.1 24.±.2.3±.1 Cavity Size Minimum Qty. (pcs.) a b c ø18mm reel ø33mm reel Bulk "Minimum Quantity" means the number of units of each delivery or order. The quantity should be an integral multiple of the "Minimum Quantity". Mar.28, Packaging

204 BN Design Kits Design Kits oekepbna No oekepblcka No Part Number BN21 BN121 BN161 BN12H1 BN221 BN231 BN24H1 BN25H1 Part Number BN21 BN31 BN51 BN121 BN161 BN12H1 BNP22 BN221 BN231 BN24H1 BN25H1 Quantity (pcs.) Quantity (pcs.) Insertion Loss 1MHz to 1GHz : 4dB min. 1MHz to 1GHz : 4dB min. khz to 1GHz : 4dB min. 1MHz to 1GHz : 4dB min. 1MHz to 1GHz : 35dB min. 1MHz to 1GHz : 35dB min. khz to 1GHz : 35dB min. 5kHz to 1GHz : 35dB min. Insertion Loss 1MHz to 1GHz : 4dB min. 5MHz to 1GHz : 4dB min. 1MHz to 1GHz : 4dB min. 1MHz to 1GHz : 4dB min. khz to 1GHz : 4dB min. 1MHz to 1GHz : 4dB min. 2MHz to 5MHz : 4dB min. 1MHz to 1GHz : 35dB min. 1MHz to 1GHz : 35dB min. khz to 1GHz : 35dB min. 5kHz to 1GHz : 35dB min. ated Voltage (Vdc) ated Voltage (Vdc) ated Current (A) ated Current (A) Mar.28,211 22

205 Product Guide by Size Which Size? inch (mm) 5 (42) 21 (63) 325 (86) 42 (5) 54 (12) 63 (168) 84 (2) Array 85 (212) 8 (252) 125 (3212) 126 (3216) 186 (4516) 214 (536) 22 (55) 222 (575) 276 (6816) BLM2A BLM3AG BLM3B BLM3P BLM15AG BLM15B BLM15P BLM15HG BLM15HD BLM18A BLM18B BLM18T BLM18 BLM18P BLM18K BLM18S BLA2AA BLA2AB BLM21A BLM21B BLM31P BLA31A BLA31B BLM41P Inductor Type BLM3A BLM3H BLM15A BLM15HB BLM15EG BLM15GG BLM15GA BLM18HG BLM18HE BLM18HD BLM18HB BLM18HK BLM18EG BLM18GG BLM21 BLM21P Simple Capacitor NFM18C NFM18P NFM21C NFM21P NFM3DC NFM3DP NFM31P NFM41C NFM41P NFM55P Capacitor Type LC(C) Combined NFL18ST NFL18SP NFA18S NFL21S NF21G NFA21S NFW31S NFA31C NFA31G T Circuit Filter Feed Through Type NFE31P NFE61P Common Mode Choke Coils DLPNS 525 (156) DLP1ND Array Array Array p46 p47 p57 p3 p49 p59 p31 p77 p77 p52 p63 p56 p7 p34 p42 p44 p85 p85 p54 p67 p38 p88 p88 p4 p22 p75 p24 p77 p27 p83 p83 p79 p79 p79 p79 p79 p28 p84 p72 p36 p12 p112 p113 p121 p115 p122 p116 p117 p123 p118 p119 p125 p127 p129 p128 p136 p132 p134 p124 p137 p1 p111 DLM11G DLP11S/11T DLP2AD DLW21S DLW21H DLM2HG DLP31S DLW31S DLP31D DLW5AH DLW5BS DLW5BT p16 p165 p158 p162 p166 p169 p171 p159 p164 p172 p168 p156 p156 p157 Block Type LgWgT(mm) 12g11gmax18 BN21 BN31 Lead 12g11gmax18.5 BN51 Lead 12g11g12 BN121 BN161 Lead 9.1g12.1g3.1 BN221 BN231 SMD 9.1g12.1g3.5 BN24H1 BN25H1 SMD p193 p193 p194 p191 p191 Mar.28,211 23

206 Part Number Quick eference BLp Series NFp Series DLp (PLp) Series BN Series BLA2AA BLA2AB BLA31A BLA31B BLM2A BLM3AG BLM3A BLM3B BLM3H BLM3P BLM15AG BLM15AG_AN BLM15A BLM15B BLM15EG BLM15GA BLM15GG BLM15HB BLM15HD BLM15HG BLM15PG/PD BLM15P BLM18A BLM18B BLM18EG BLM18GG BLM18HB BLM18HD BLM18HE BLM18HG BLM18HK BLM18K BLM18P BLM18 BLM18S BLM18T BLM21A BLM21B BLM21P BLM21 BLM31P BLM41P a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a p85 p85 p88 p88 p46 p47 p22 p57 p75 p3 p49 p51 p24 p59 p27 p83 p83 p77 p77 p77 p32 p31 p52 p63 p28 p84 p79 p79 p79 p79 p79 p42 p34 p7 p44 p56 p54 p67 p36 p72 p38 p4 NFA18SD NFA18SL NFA21SL NFA31C NFA31G NFE31P NFE61P NFL18SP NFL18ST NFL21SP NFM18C NFM18PS NFM18PC NFM21C NFM21P NFM31P NFM3DC NFM3DP NFM41C NFM41P NFM55P NF21G NFW31S a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a p131 p129 p132 p124 p137 p1 p111 p127 p125 p128 p12 p112 p113 p121 p115 p117 p122 p116 p123 p118 p119 p136 p134 DLM11G DLM2HG DLPNS DLP11S/11T DLP1ND DLP2AD DLP31D DLP31S DLW21H DLW21S DLW31S DLW5AH DLW5BS DLW5BT PLTH a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a p158 p159 p16 p162 p165 p166 p168 p164 p171 p169 p172 p156 p156 p157 p173 BN2 BN3 BN5 BN12 BN16 BN22 BN23 BN24 BN25 a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a a p193 p193 p193 p194 p194 p191 p191 p191 p191 Alphabetic Product Name Index 3 Terminal Filter LC Combined Type Film Type Film Type Array Multilayer Type Wire Wound Type Wire Wound Type For Large Current Array Capacitor Type Capacitor Type Array Feed Through Type For Large Current Inductor Type LC Combined Multilayer Type LC Combined T Circuit Type LC Combined Type LC Combined Type Array p1 p191 p16 p166 p158 p169 p156 p p1 p124 p1 p p13 p p1.125 p1 p129 LC Combined Wire Wound Type C Combined Type C Combined Type Array Array For GHz Band Noise For HighGHz Band Noise Common Mode Filter EMI Suppression Filter EMIFILr L Circuit Filter LC Combined L Circuit Array PI Circuit Filter T Circuit Filter p134 p p137 p13 p85 p75 p83 p149 p p p129 p129 p p1.125 Mar.28,211 24

207 Introduction of elated Catalogs: Ferrite Core, Microwave Absorber/Lead Type EMIFILr Please refer to catalogs below for ferrite cores, Microwave Absorber and leaded EMIFILr. Ferrite Core, Microwave Absorber Ferrite Core for EMI Suppression Microwave Absorber Contents Thin Type Sandwich Core <FSSA> Core for Flat Cables <FSC> Plate Core <FSSA> Beads Core <FSH> ing Core <FSB> Multi Hole Core <FSMA/FSSA> Microwave Absorber <EA> Lead Type EMIFILr EMI Suppression Filters (Lead Type EMIFILr)) Contents Ferrite Beads Inductors <BL1/2/3> Disc Type EMIFILr<DSp6/DSp9> EMIGUADr(EMIFILr with Varistor Function) <VFp3/VFp6/VFp9> Common Mode Choke Coils <PLT> Mar.28,211 25

208 Mar.28,211 26