This is the PDF file of catalog No.O05E-5. No.O05E5.pdf CHIP COIL CHIP COIL. Murata Manufacturing Co., Ltd. Cat.No.O05E-5

CHIP COIL CHIP COIL Murata Manufacturing Co., Ltd. Cat.No.O05E-5

Murata's LQ- series of chip coils consists of compact, highperformance inductors. Their innovative coil and case structures mean low DC resistance and outstanding high-frequency characteristics. The series is designed for a variety of applications, facilitating component selection for individual circuit requirements.!products GUIDE Application Structure Dimensions (mm) (inch) Inductance Range (H) n n n µ µ µ m m Page General Range LQHN LQH3N Wound coil (ferrite core) 3.2.6 3.2 2.5 6 2 3Y7 LQH (N) 4N 4.5 3.2 82 LQGN LQG2N Magnetically shielded multilayer.6 0.8 2.0.25 0603 0805 8Y9 Y Tight inductance tolerance LQS33N Magnetically shielded 3.2 3.5 24 2Y3 High-frequency Range LQGA LQGA Multilayer.0 0.5.6 0.8 0402 0603 4Y6 Tight inductance tolerance LQPA LQPA Thin film.0 0.5.6 0.8 0402 0603 7Y LQW608A.6 0.8 0603 2Y23 LQN2A LQNA Wound coil (air core) 2.0.5 3.2.6 0805 6 24Y27 LQNH Wound coil (ferrite core) 3.2.6 6 28 Chokes LQHC 3.2.6 6 LQH3C Wound coil 3.2 2.5 2 29Y3 LQH4C 4.5 3.2 82 LQG2C 2.0.25 0805 32 LQG2F Magnetically shielded multilayer 2.0.25 0805 33Y34 LQG326F 3.2.6 6 35Y36 LQN6C Wound coil 5.7 5.0 22 39Y4 LQS33C LQS66C Magnetically shielded 3.3 3.3 6.3 6.3 22 2525 37Y38 39Y4 Please refer to the usage conditions; Notice of Chip Coil...P.42YP.45 Dimensions of Taping...P.46 Please refer to the usage conditions; Design Kit...P.47YP.50 Information of Chip Coil...P.5

!PART NUMBERING (Please specify the part number when ordering.) (Ex.) LQ H 3 N 33 K q w e r t y LQ N 2 A N J q w e r t y LQ G 2 N R K q w e r t y 34 u 04 u u T i qchip Coil wform. Structure Mark H N S P G W esize Mark 3 4 6 2 33 66 608 326 Size 3.2Z.6mm 3.2Z2.5mm 4.5Z3.2mm 5.7Z5.0mm.0Z0.5mm.6Z0.8mm 2.0Z.25 (.5) mm 3.2Z3.5mm, 3.3Z3.3mm 6.3Z6.3mm.6Z0.8mm 3.2Z.6mm rcharacteristic. Applications Mark N C A H F Form.Structure Wire wound with coating Wire wound without coating Wire wound with shielded core Thin film Multilayer Horizontal wire wound Characteristic. Applications General use Choke coil Air coil High Q For DC power supply line choke coil tinductance Example : 330µH/33 33µH/330 3.3µH/3R3 0.33µH/R33 yinductance Tolerance Mark G J K M N B C S D Tolerance T02% T05% T% T% T30% T0.nH T0.2nH T0.3nH T0.5nH 33nH/33N 3.3nH/3N3 uadditional Number ipackaging Code (LQG2N/2C/LQPA/A/ LQGA/A/LQW608A) Mark T T2 B Packaging Taped (φ80mm Reel) Taped (φ330mm Reel) Bulk package

CHIP INDUCTOR SELECTION Choke Need Magnetical Shield No Start Application Less than 50MHz Yes Impedance Matching or Resonance Operating 30MHz to 50MHz Greater than MHz Chip Inductor for Choke Use Chip Inductor for General Chip Inductor for Magnetical shield Chip Inductor for High Chip Inductor for Ultra High 0805 LQG2C.0-47µH 7-60mA 0805 LQG2F.0-47µH 7-2mA 6 LQG326F µh 70mA 6 LQHN 0.5-µH 2 LQH3N 0.-560µH 82 LQH4N.0-20µH 0603 0805 24 LQGN 47-20nH LQG2N 0.-4.7µH LQS33N.0-µH 6 LQNH 54-880nH 0402 LQGA.2-33nH 0603 LQGA.2-nH 0402 0603 LQPA.0-33nH 6 22 LQPA.3-33nH LQHC 0.2-µH 80-970mA 2 LQS33C 560-20µH-50mA 22 2525 0603 LQW608A 2.2-2nH LQH3C 0.5-560µH 60-450mA LQN6C/LQS66C 0.2-00µH 0.05-6.0A 0805 LQN2A 3.3-470nH 82 6 LQH4C.0-470µH 90-80mA LQNA 8.8-nH 2

CHIP COIL Standard Chip Coil LQHN/LQH3N/LQH(N)4N Series Wire Wound Chip Coil with High Q Value at High Frequencies and Low DC Resistance The chip coil LQH/LQN series consists of miniature chip inductors wound on a special ferrite core and are made possible by an automatic winding technique developed by Murata. These inductors have a high Q at high frequencies and low DC resistance, making them very well suited to enhancing the performance of electronic circuits in video, communications, and audio equipment. LQHN Type LQH3N Type!FEATURES. There are three different inductor types: the LQHN,LQH3N and LQH(N)4N series. These three series cover a wide inductance range (from 0.µH to 2.2mH). 2. The series has outstanding frequency characteristics and a high Q value at high frequencies. 3. The low DC resistance permits high current flow. 4. The series has excellent solder heat resistance. Both flow and reflow soldering methods can be employed. LQHN Miniature size (3.2Z.6Z.8mm) allows parallel mounting at 2.5mm pitch. The series is suitable for portable audio-visual equipment. LQH3N A high Q value makes this series suitable for circuits up to MHz in frequency. The series is excellent for video equipment. LQH(N)4N This series offers high inductance values and high current capacity. At µh, up to 450mA designs are possible, resulting in excellent performance when the inductors are used as choke coils.!dimensions LQH4N/LQN4N Type LQHN Type 2.3±0.2 3.2±0.3 0.7 0.7 0.7 min. min. min..8±0.2.6±0.2 LQH3N Type 2.5±0.2 2.0±0.2.6±0.2 2.5±0.2 EIA Code:6 3.2±0.3 0.9.3 0.9 ±0.3 ±0.2 ±0.3 2.5±0.2 EIA Code:2 LQH4N/LQN4N Type 3.6±0.2 3.2±0.2 2.6±0.2 4.5±0.3 3.2±0.2 3.2±0.2 EIA Code:82.0 min..0 min..0 min. (in mm) 3

!SPECIFICATIONS LQHN Value(µH) Inductance Tolerance (%) Q Value(min.) DC Resistance (Ω) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQHNR5K04 0.5 0.39T40% 250 LQHNR22K04 0.22 0.43T40% 250 240 LQHNR33K04 0.33 0.45T40% 230 LQHNR47K04 0.47 25MHz 0.83T40% 0 25 LQHNR56K04 0.56 T 30 0.6T40% 80 0 LQHNR68K04 0.68 0.67T40% 60 90 LQHNR82K04 0.82 0.73T40% 85 LQHNR0K04.0 0.49T30% 75 LQHNR2K04.2 0.9 T30% 90 65 LQHNR5K(J)04.5.0 T30% 75 55 MHz LQHNR8K(J)04.8.6 T30% 60 50 LQHN2R2K(J)04 2.2 0.7 T30% 50 40 LQHN2R7K(J)04 2.7 0.55T30% 43 35 LQHN3R3K(J)04 3.3 0.6T30% 38 30 LQHN3R9K(J)04 3.9 35.5 T30% 35 25 Y25 LQHN4R7K(J)04 4.7.7 T30% 3 to MHz 8MHz LQHN5R6K(J)04 5.6.8 T30% 28 5 W85D LQHN6R8K(J)04 6.8 2.0 T30% 25 LQHN8R2K(J)04 8.2 2.2 T30% 23 5 LQHNK(J)04 T 2.5 T30% LQHNK(J)04 2 (T5) 2.7 T30% 8 95 5MHz LQHN50K(J)04 5 3.0 T30% 6 90 LQHN80K(J)04 8 3.4 T30% 5 LQHN2K(J)04 22 3. T30% 4 85 LQHN270K(J)04 27 3.4 T30% 3 LQHN330K(J)04 33 3.8 T30% 2 80 LQHN390K(J)04 39 7.2 T30% LQHN470K(J)04 47 40 2.5MHz 8.0 T30% 55 LQHN560K(J)04 56 8.9 T30% 9.0 LQHN680K(J)04 68 9.9 T30% 8.5 50 LQHN8K(J)04 82 T30% 7.5 LQHNK(J)04 2 T30% 7.0 45 4

LQH3N Value(µH) Inductance Tolerance (%) Value(min.) LQH3NRM34 0. 700 LQH3NR8M34 0.8 650 0 LQH3NR27M34 0.27 600 25 LQH3NR39M34 0.39 25.2MHz 0.25 530 LQH3NR56M34 0.56 T 60 LQH3NR68M34 0.68 30 470 LQH3NR82M34 0.82 450 LQH3NR0M34.0 0.5 445 LQH3NR2M34.2 425 0.6 LQH3NR5K34.5 75 400 LQH3NR8K34.8 0.7 60 390 LQH3N2R2K34 2.2 0.8 50 370 LQH3N2R7K34 2.7 0.9 43 3 LQH3N3R3K34 3.3.0 38 300 T LQH3N3R9K34 3.9. 35 290 LQH3N4R7K34 4.7.2 3 270 LQH3N5R6K34 5.6.3 28 250 Q DC Resistance (Ωmax.) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQH3N6R8K34 6.8.5 25 240 Y25 LQH3N8R2K34 8.2.6 23 225 to MHz MHz LQH3NK(J)34.8 90 W85D LQH3NK(J)34 2 2.0 8 80 LQH3N50K(J)34 5 35 2.2 6 70 LQH3N80K(J)34 8 2.5 5 65 LQH3N2K(J)34 22 2.8 4 50 LQH3N270K(J)34 27 3. 3 25 LQH3N330K(J)34 33 3.5 2 5 LQH3N390K(J)34 39 3.9 LQH3N470K(J)34 47 4.3 LQH3N560K(J)34 56 4.9 85 LQH3N680K(J)34 68 T 5.5 9.0 80 LQH3N8K(J)34 82 (T5) 6.2 8.5 70 LQH3NK(J)34 40 7.0 8.0 80 LQH3N2K(J)34 8.0 7.5 75 LQH3N5K(J)34 50 9.3 7.0 70 LQH3N8K(J)34 80.2 6.0 LQH3N22K(J)34 2.8 5.5 796kHz LQH3N27K(J)34 270 2.5 65 LQH3N33K(J)34 330 3.0 LQH3N39K(J)34 390 22.0 5.0 50 LQH3N47K(J)34 470 50 25.0 45 khz LQH3N56K(J)34 560 28.0 40 5

LQH4N/LQN4N Value(µH) Inductance Tolerance (%) LQH4NR0M04.0 0. LQH4NR2M04.2 LQH4NR5M04.5 85 LQH4NR8M04.8 0.30 75 T LQH4N2R2M04 2.2 62 500 LQH4N2R7M04 2.7 0.32 53 LQH4N3R3M04 3.3 0.35 47 LQH4N3R9M04 3.9 0.38 4 LQH4N4R7K04 4.7 0.40 38 LQH4N5R6K04 5.6 0.47 33 T 30 LQH4N6R8K04 6.8 0.50 3 450 LQH4N8R2K04 8.2 27 MHz 0.56 LQH4NK(J)04 23 400 LQH4NK(J)04 2 0.62 2 380 LQH4N50K(J)04 5 0.73 9 360 LQH4N80K(J)04 8 MHz 0.82 7 340 LQH4N2K(J)04 22 0.94 5 3 Q Value(min.) DC Resistance (Ωmax.) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQH4N270K(J)04 27. 4 300 Y25 35 LQH4N330K(J)04 33.2 2 270 to LQH4N390K(J)04 39.4 240 W85D LQH4N470K(J)04 47.5 2 LQH4N560K(J)04 56.7 9.3 0 LQH4N680K(J)04 68.9 8.4 80 LQH4N8K(J)04 82 2.2 7.5 70 LQH4NK(J)04 2.5 6.8 60 LQH4N2K(J)04 3.0 6.2 50 LQH4N5K(J)04 50 T (T5) 3.7 5.5 30 LQH4N8K(J)04 80 4.5 5.0 LQH4N22K(J)04 2 5.4 4.5 LQH4N27K(J)04 270 796kHz 6.8 4.0 LQH4N33K(J)04 330 8.2 3.6 95 LQH4N39K(J)04 390 9.7 3.3 90 LQH4N47K(J)04 470 40.8 3.0 80 LQH4N56K(J)04 560 4.5 2.7 70 LQH4N68K(J)04 680 7.0 2.5 65 LQH4N82K(J)04 8.5 2.2 60 LQH4N2K(J)04 0 khz 25.0 2.0 50 LQH4N22K(J)04 30.0.8 45 LQH4N52K(J)04 500 252kHz 37.0.6 40 LQN4N82K(J)04 800 45.0.5 35 LQN4N222K(J)04 20 50.0.3 30 6

!TYPICAL ELECTRICAL CHARACTERISTICS Q - Characteristics LQHN LQH3N LQH4N/LQN4N 80 60 Q 40 µh µh µh 80 60 Q 40 µh µh µh 80 60 Q 40 0µH µh µh 0 0 0 0.5 5 50 0. 0.5 5 0. 0.5 5 (MHz) (MHz) (MHz) Inductance - Temperature Characteristics LQHN LQH3N LQH4N/LQN4N L/L (%) 5 0-5 2µH 5 µh.0µh µh 0 L/L (%) -5 L/L (%) 5 0 µh -5 0µH 0µH µh - - - - 0 40 60 80-0 40 60 80-0 40 60 80 Temperature (D) Temperature (D) Temperature (D) Inductance - Current Characteristics LQHN LQH3N LQH4N/LQN4N 500 500 2µH 5000 20µH Inductance (µh) 50 µh 33µH µh Inductance (µh) 50 µh 39µH µh Inductance (µh) 0 500 0µH 390µH µh 5 5 3.9µH 50 39µH.0µH.0µH µh 5 50 500 5 50 500 5 50 500 Current (ma) Current (ma) Current (ma) Coupling Coefficient LQHN Coupling Coefficient (%) 8 6 4 2 R=0.9mm (2.5mm Pitch Parallel Mounting) R 0 R=2.0mm 0.5 5 50 Inductance (µh) 7

CHIP COIL Multilayer Chip Inductor LQGN Series Magnetically Shielded Multilayer Chip Coil Excellent for High Density Mounting The LQGN series, of magnetically shielded chip coil was developed by using original multilayer process technology and magnetic materials. Compact size is suitable for high density mounting. Shielded construction is not affected by interference from peripheral components.!features. Magnetically shielded structure provides excellent characteristics in cross talk and magnetic coupling. 2. Compact size (.6Z0.8mm) and light weight. 3. The external electrodes with nickel barrier structure provide excellent solder heat resistance. Both flow and reflow soldering can be applicable.!applications Resonance circuit, traps, filter circuits and RF choke in telecommunication equipments, cordless phones, radio equipments.!dimensions 0.4±0.2 0.8±0.5.6±0.5 0.8±0.5 (in mm) 8

!SPECIFICATIONS Inductance Q DC Value (nh) Tolerance (%) Value(min.) (MHz) Resistance (Ω max.) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQGN47NM00 47 260 LQGN68NM00 68 T 50 0.30 250 LQGN82NM00 82 245 LQGNRK00 LQGNR2K00 0.50 240 5 50 LQGNR5K00 LQGNR8K00 50 80 0.60 80 65 LQGNR22K00 LQGNR27K00 LQGNR33K00 LQGNR39K00 2 270 330 390 5 25 0.80 0.85.00 50 36 25 Y25 to W85D LQGNR47K00 LQGNR56K00 470 560 T.35.55 5 95 35 LQGNR68K00 680.70 90 LQGNR82K00 8 2. 85 LQGNR0K00 0 0.60 75 LQGNR2K00 LQGNR5K00 500 35 0.80 65 60 25 LQGNR8K00 800 0.95 55 LQGN2R2K00 20.5 50 5!TYPICAL ELECTRICAL CHARACTERISTICS Q- Characteristics Inductance- Characteristics 80 00 20nH Q 60 40 20nH 8nH nh Inductance (nh) 0 8nH nh 47nH 47nH 0 0 (MHz) Measuring instrument Q : HP429A+692A 0 (MHz) Measuring instrument L : HP429A+692A 9

CHIP COIL Multilayer Chip Coil LQG2N Series Magnetically Shielded Multilayer Chip Coil Low Drift Excellent for High Density Mounting The LQG2N series consists of magnetically shielded chip coils developed using original Murata multilayer process technology and magnetic materials. The coils occupy one quarter the volume of conventional chip coils and feature high reliability.!features. Magnetically shielded structure provides excellent crosstalk characteristics. 2. Compact (2.0Z.25mm) and lightweight. 3. Low inductance drift resulting from soldering,environmental tests, etc. 4. Outstanding solder heat resistance. Either flow or reflow soldering can be used.!applications Hard-disk drives Audio-Visual equipment Telecommunications equipment!dimensions 2.0±0.3.25±0.2 T EIA Code:0805 0.5±0.3 (in mm) LQG2NRKY2R2K LQG2N2R7KY4R7K T 0.85T0.2.25T0.2

!SPECIFICATIONS Value(µH) Inductance Tolerance (%) Q Value(min.) DC Resistance (Ω max.) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQG2NRK 0. 0.26 340 LQG2NR2K 0.2 0.29 3 LQG2NR5K 0.5 0.32 270 LQG2NR8K 0.8 0.35 250 250 LQG2NR22K 0.22 0.38 2 LQG2NR27K 0.27 25MHz 25MHz 0.42 0 LQG2NR33K 0.33 0.48 80 LQG2NR39K 0.39 0.53 65 LQG2NR47K 0.47 0.57 50 0 LQG2NR56K 0.56 25 0.63 40 Y40 LQG2NR68K 0.68 T 0.72 25 50 to LQG2NR82K 0.82 0.8 5 W85D LQG2NR0K.0 0.40 7 LQG2NR2K.2 0.47 97 LQG2NR5K.5 0.50 87 50 LQG2NR8K.8 0.57 80 LQG2N2R2K 2.2 MHz 45 MHz 0.63 7 LQG2N2R7K 2.7 0.69 66 LQG2N3R3K 3.3 0.80 59 30 LQG2N3R9K 3.9 0.89 53 LQG2N4R7K 4.7.00 47!TYPICAL ELECTRICAL CHARACTERISTICS Q - Characteristics Inductance - Temperature Characteristics 80 60 Q 4R7 R8 R0 R R22 L/L(%) 5 0 0.µH 4.7µH 40-5 R82 - - 0 40 60 80 Temperature ( C) 0 0 (MHz) Inductance - Current Characteristics 50 Inductance (µh) 5 0.5 4.7µH.8µH.0µH 0.82µH 0. 0.22µH 0.µH 5 50 500 Current (ma)

CHIP COIL Small Tolerance Chip Coil LQS33N Series for Oscillation Circuits High Q, Magnetically Shielded Chip Coil with Tight Inductance Tolerance (T2%), Perfect in Oscillation Circuits The LQS33N series consists of closed, magnetically shielded chip inductors wound on ferrite bobbins developed by Murata. Their high Q value virtually eliminates interference with nearby circuits. This, combined with their tight inductance tolerance, makes these chip inductors excellent in resonant circuits.!features. The coil's outstanding stability yields a reduction in inductor tolerance to within T2%. 2. Its high Q (typically greater than 80) is present at all inductance values and is the basis of this chip coil's outstanding low loss circuit characteristics. 3. The ferrite core shielding structure both eliminates external interference and facilitates high mounting density. 4. Small inductance variation with respect to temperature change makes these coils applicable in traps or LC filters for stable frequency characteristics. 5. This series is thin and compact, with a thickness of merely.8mm.!dimensions 3.2 +0.3-0.2.8±0.2 3.5 +0.3-0.2 0.7 min. 0.7 min. 0.7 min. EIA Code:24 (in mm) 2

!SPECIFICATIONS Value(µH) Inductance Tolerance (%) Peak Value (Typ.) Q Min. Value DC Self-resonant Resistance (Ω) (MHz min.) Allowable Current (ma)!typical ELECTRICAL CHARACTERISTICS Q - Characteristics Inductance - Temperature Characteristics Operating Temp. Range LQS33NR0G(J)04.0 0.9T30% LQS33NR2G(J)04.2 0.22T30% 85 LQS33NR5G(J)04.5 0.26T30% 80 70 LQS33NR8G(J)04.8 0.28T30% 70 LQS33N2R2G(J)04 2.2 0.33T30% 60 LQS33N2R7G(J)04 2.7 0.39T30% 55 LQS33N3R3G(J)04 3.3 7.96 60 7.96 0.43T30% 50 50 LQS33N3R9G(J)04 3.9 MHz MHz 0.45T30% 45 LQS33N4R7G(J)04 4.7 0.52T30% 40 LQS33N5R6G(J)04 5.6 0.56T30% 37 LQS33N6R8G(J)04 6.8 90 0.62T30% 35 30 LQS33N8R2G(J)04 8.2 T2 0.69T30% 32 Y25 LQS33NG(J)04 (T5) 0.94T30% 30 to LQS33NG(J)04 2. T30% 27 W85D 5 LQS33N50G(J)04 5.2 T30% 25 70 LQS33N80G(J)04 8.3 T30% 23 LQS33N2G(J)04 22.5 T30% LQS33N270G(J)04 27.7 T30% 8 2.52 2.52 LQS33N330G(J)04 33 MHz 95 MHz 2.4 T30% 6 LQS33N390G(J)04 39 2.6 T30% 5 LQS33N470G(J)04 47 3.0 T30% 4 LQS33N560G(J)04 56 80 3.3 T30% 3 LQS33N680G(J)04 68 5.3 T30% 2 LQS33N8G(J)04 82 5.8 T30% LQS33NG(J)04 6.6 T30% 80 µh µh.0µh 5 µh Q 60 L/L (%) 0 40-5 0 0. 0.5 5 50 (MHz) - - 0 40 60 80 Temperature ( C) Inductance - Current Characteristics Coupling Coefficient 500 Inductance (µh) 50 5 µh 47µH 22µH µh 4.7µH 2.2µH.0µH Coupling Coefficient (%) 8 6 4 2 0 5 50 Inductance (µh) mm 5 50 500 Current (ma) 3

CHIP COIL Multilayer Chip Inductor LQGA/A Series for High High-Q, Stable Inductance in High Range Small Size Multilayer Chip Inductor for High Range The LQGA/A series are chip inductors specifically designed for high frequency applications. The LQGA/A series is designed to realize stable characteristics in high frequency range applying integrated multilayer process. The integrated multilayer process enables a wide range of inductance values with tight tolerance.!features. High-Q, stable inductance in high frequency is achieved by the unique low-capacitance structure. It is suitable for mobile communication equipment. 2. The small size of LQGA (.0Z0.5Z0.5mm) is ideal for small mobile equipment. 3. The external electrodes with nickel barrier structure provide excellent solder heat resistance. LQGA!DIMENSIONS LQGA!APPLICATIONS High frequency circuit of telecommunication equipment such as CDMA, DECT, PHS, PCS, PCN, GSM and DCS. 0.25±0. LQGA Direection Indicator 0.5±0..0±0. 0.5±0. EIA Code:0402 LQGA 0.3±0.2 Direction Indicator 0.8±0.5.6±0.5 0.8±0.5 EIA Code:0603 (in mm) 4

!SPECIFICATIONS LQGA LQGAN2S00 LQGAN5S00 LQGAN8S00 LQGA2N2S00 LQGA2N7S00 LQGA3N3S00 LQGA3N9S00 LQGA4N7S00 LQGA5N6S00 LQGA6N8J00 LQGA8N2J00 LQGANJ00 LQGA2NJ00 LQGA5NJ00 LQGA8NJ00 LQGA22NJ00 LQGA27NJ00 LQGA33NJ00 Value (nh) 0.2 0.5 0.8 02.2 02.7 03.3 03.9 04.7 05.6 06.8 08.2.0 2.0 5.0 8.0 22.0 27.0 33.0 Inductance Tolerance T0.3nH T5% (MHz) Value (min.) 8 Q 500MHz (typ.) (MHz) 25 24 22 23 24 23 22 800MHz (typ.) 35 33 3 30 29 30 29 29 3 30 3 30 29 28 27 23 GHz (typ.) 38 34 33 32 33 32 34 33 32 3 27 24 Selfresonant DC Resistance (Ω max.) (MHz min) 0. 0.5 0.7 0.9 0.9 0.23 0.26 0.29 0.33 0.35 0.4 0.46 0.5 0.58 0.67 6000 5300 40 3600 30 2800 2300 2 800 600 500 Allowable Current (ma) 0 Operating Temp. Range Y40 to W85D LQGA Value (nh) Inductance Tolerance (MHz) Value (min.) Q DC Resistance (Ω max.) (MHz) Selfresonant (MHz min.) LQGAN2S00.2 LQGAN5S00.5 LQGAN8S00.8 0. LQGA2N2S00 2.2 LQGA2N7S00 2.7 T0.3nH 6000 LQGA3N3S00 3.3 0.5 LQGA3N9S00 3.9 LQGA4N7S00 4.7 0. LQGA5N6S00 5.6 5000 LQGA6N8J(K)00 6.8 0.25 LQGA8N2J(K)00 8.2 4000 LQGANJ(K)00 0.30 3500 2 LQGA2NJ(K)00 2 0.35 3000 LQGA5NJ(K)00 5 0.40 2800 LQGA8NJ(K)00 8 0.45 2600 LQGA22NJ(K)00 22 T5% 0.50 2300 LQGA27NJ(K)00 27 (T%) 0.55 00 LQGA33NJ(K)00 33 0.60 700 LQGA39NJ(K)00 39 0.65 500 LQGA47NJ(K)00 47 0.70 LQGA56NJ(K)00 56 0.75 LQGA68NJ(K)00 68 0.80 0 LQGA82NJ(K)00 82 0.85 900 LQGARJ(K)00 0.90 800 Allowable Current (ma) Operating Temp. Range Y40 300 to W85D 5

!TYPICAL ELECTRICAL CHARACTERISTICS "Q- Characteristics LQGA "Inductance - Characteristics LQGA 0 33nH Q 80 60 40.5nH 4.7nH Inductance (nh) 2nH 4.7nH 2nH.5nH 33nH 0 0 00 (MHz) Measuring instrument Q : HP87C, SMA connector (MM25-3CC) 0 00 (MHz) Measuring instrument L : HP87C, SMA connector (MM25-3CC) LQGA LQGA 0 0 Q 60 80 40 68nH nh 3.3nH Inductance (nh) 68nH nh 3.3nH 0 0 00 (MHz) 0 00 (MHz) 6

CHIP COIL Thin Film Chip Coil LQPA/LQPA Series for High Tight Inductance Tolerance Chip Coil for High Application Small Size and Tight Inductance Tolerance (T0.2nH or T2%) The LQPA/LQPA series consists of chip coils with a tight inductance tolerance (T0.2nH or T2%) achieved even in low inductance region.!features. Tight inductance tolerance (T0.2nH, T2%) realized by thin-film technology enables assemble with no tuning. 2. High self resonant frequency due to low stray capacitance and close inductance distribution provide stable inductance in high frequency circuit such as telecommunication equipment. 3. The external electrodes with nickel barrier structure provide excellent solder heat resistance. LQPA LQPA The appearance of coil pattern depends on the part number. LQPA Ultra-Small size 0402 inductor which is low, and lightest weight (half of multilayer type) in the world enables to miniaturize mobile telephone. LQPA Small size of 0603 (LQPA) is suitable for small hand held equipment, especially for card size equipment.!dimensions.0t0.5 LQPA 0.5T0.5!APPLICATIONS High frequency circuit of telecommunication equipment, such as DECT, PHS, PCS, PCN, GSM, DCS and CDMA. Impedance Matching Power-AMP Module (PA), SAW filter Resonance circuits VCO 0.25T0. LQPA 0.8±0.5 0.35T0. EIA Code : 0402.6±0.5 0.2 min. 0.5T0. EIA Code : 0603 (in mm) Use plastic tweezers when treating with tweezers. 7

8 This is the PDF file of catalog No.O05E-5. No.O05E5.pdf 00.3.5!SPECIFICATIONS LQGA LQPAN0B(C)00 LQPANB(C)00 LQPAN2B(C)00 LQPAN3B(C)00 LQPAN5B(C)00 LQPAN6B(C)00 LQPAN8B(C)00 LQPA2N0B(C)00 LQPA2N2B(C)00 LQPA2N4B(C)00 LQPA2N7B(C)00 LQPA3N0B(C)00 LQPA3N3B(C)00 LQPA3N6B(C)00 LQPA3N9B(C)00 LQPA4N3B(C)00 LQPA4N7B(C)00 LQPA5NB(C)00 LQPA5N6B(C)00 LQPA6N2B(C)00 LQPA6N8B(C)00 LQPA7N5B(C)00 LQPA8N2B(C)00 LQPA9NB(C)00 LQPANG(J)00 LQPA2NG(J)00 LQPA5NG(J)00 LQPA8NG(J)00 LQPA22NG(J)00 LQPA27NG(J)00 LQPA33NG(J)00 Inductance Q DC Resistance (Ω max.) Self-resonant (MHz min) Allowable Current (ma) Operating Temp. Range Value (nh) Tolerance (MHz) Typical @GHz Min. Value.0..2.3.5.6.8 2.0 2.2 2.4 2.7 3.0 3.3 3.6 3.9 4.3 4.7 5. 5.6 6.2 6.8 7.5 8.2 9..0 2.0 5.0 8.0 22.0 27.0 33.0 T0.nH (T0.2nH) T2% (T5%) 500 50 45 40 35 30 28 29 26 25 22 2 3 (MHz) 500 0. 0.2 0.3 0.2 0.3 0.4 0.5 0.6 0.7 0.9..3.6.8 2.0 2.6 3. 3.8 6000 5500 4500 3700 3300 3 2800 2500 2 400 390 280 2 280 2 90 70 60 40 30 90 80 70 60 Y40 to W85D

LQGA LQPAN3C00 LQPAN5C00 Value (nh) 0.3 0.5 Inductance Tolerance (MHz) Peak Value (Typ.) 60 40 Q Min. Value (MHz) DC Resistance (Ω max.) 0.3 Self-resonant (MHz min) Allowable Current (ma) 300 Operating Temp. Range LQPAN8C00 LQPA2N2C00 LQPA2N7C00 0.8 02.2 02.7 90 0.4 6000 250 LQPA3N3C00 03.3 T0.2nH 85 LQPA3N9C00 LQPA4N7C00 LQPA5N6C00 03.9 04.7 05.6 80 75 65 0.5 0.6 5900 50 4700 0 LQPA6N8C00 06.8 63 500 0.7 4300 LQPA8N2C00 LQPANG00 LQPA2NG00 LQPA5NG00 08.2.0 2.0 5.0 500 57 55 50 43 7 0.8.0.3 3600 3400 3000 2700 50 Y40 to W85D LQPA8NG00 8.0 39.5 2300 LQPA22NG00 22.0 38.9 2 LQPA27NG00 LQPA33NG00 LQPA39NG00 27.0 33.0 39.0 T2% 32 30 28 2.4 2.8 900 700 400 LQPA47NG00 47.0 26 2.2 LQPA56NG00 56.0 28 3.4 0 LQPA68NG00 LQPA82NG00 68.0 82.0 27 300 3.5 4.6 900 800 50 LQPARG00.00 25 6. 700 9

!TYPICAL ELECTRICAL CHARACTERISTICS "Q- Characteristics "Inductance - Characteristics LQPA LQPA 80 33nH 2.2nH Q Q 60 4.7nH 40 8.2nH 5nH 33nH 0 0 00 (MHz) LQPA 0.5nH 60 3.3nH 80 6.8nH 40 33nH 5nH Inductance (nh) Inductance (nh) 0 0 00 (MHz) LQPA nh 68nH 5nH 8.2nH 4.7nH 2.2nH 33nH 5nH 6.8nH 3.3nH 0 nh 68nH 0 00.5nH 0 00 (MHz) (MHz)

CHIP COIL Wire Wound Chip Coil LQW608A Series for High High-Q and Tight Inductance Tolerance (T0.2nH or T2%) Ultra Small Wire Wound Air-core Chip Coil The LQW608A series which consists of air-core chip coil using a miniature alumina core. The tight inductance tolerance (T0.2nH, T2%) is available due to Murata's original winding technology. The series has high Q value and high self resonant frequency in high frequency range. It is suitable for high frequency circuits which are used in telecommunication equipment.!features. Horizontal winding structure enables tight inductance tolerance (T0.2nH, T2%). Stable circuit operation is possible. 2. Broad range of inductance (3.9nH to 2nH). 3. The subminiature dimensions (.6Z0.8mm) allow high density mounting. 4. The high self resonant frequency realizes high-q value and stable inductance at high frequency. 5. Low DC resistance design is ideal for low loss, high output and low power consumption. 4. Resin-coated surface enables excellent mounting.!applications High frequency circuit in telecommunication equipment, such as DECT, PHS, PCS, PCN, GSM and CDMA. Impedance Matching Power-AMP Module (PA), SAW filter Resonance circuits VCO!DIMENSIONS 0.3T0..6T0.2 0.3T0. 0.8T0.2 0.8T0.3 0.4max. 0.2T0. (in mm) 2

22 This is the PDF file of catalog No.O05E-5. No.O05E5.pdf 00.3.5!SPECIFICATIONS LQW608A2N2D00 LQW608A3N6D(C)00 LQW608A3N9D(C)00 LQW608A4N3D(C)00 LQW608A4N7D00 LQW608A5N6D(C)00 LQW608A6N2D(C)00 LQW608A6N8D(C)00 LQW608A7N5D00 LQW608A8N2D00 LQW608A8N7D00 LQW608A9ND00 LQW608A9N5D00 LQW608ANJ(G)00 LQW608ANJ(G)00 LQW608A2NJ(G)00 LQW608A3NJ(G)00 LQW608A5NJ(G)00 LQW608A6NJ(G)00 LQW608A8NJ(G)00 LQW608ANJ(G)00 LQW608A22NJ(G)00 LQW608A24NJ(G)00 LQW608A27NJ(G)00 LQW608A30NJ(G)00 LQW608A33NJ(G)00 LQW608A36NJ(G)00 LQW608A39NJ(G)00 LQW608A43NJ(G)00 LQW608A47NJ(G)00 LQW608A5NJ(G)00 LQW608A56NJ(G)00 LQW608A62NJ(G)00 LQW608A68NJ(G)00 LQW608A72NJ(G)00 LQW608A75NJ(G)00 LQW608A82NJ(G)00 LQW608A9NJ(G)00 LQW608ARJ(G)00 LQW608ARJ(G)00 LQW608AR2J(G)00 LQW608AR3J(G)00 LQW608AR5J(G)00 LQW608AR6J(G)00 LQW608AR8J(G)00 LQW608ARJ(G)00 LQW608AR22J(G)00 Inductance Q DC Resistance (Ω max.) Selfresonant (MHz min.) Allowable Current (ma) Operating Temp. Range Value (nh) Tolerance (MHz) 800 (MHz) Typical.5 (GHz) Typical Value (min.) 2.2 3.6 3.9 4.3 4.7 5.6 6.2 6.8 7.5 8.2 8.7 9. 9.5.6.6 2.6 3.6 5.6 6.6 8.6.6 22.6 24.6 27.6 30.6 33.6 36.6 39.6 43.6 47.6 5.6 56.6 62.6 68.6 72.6 75.6 82.6 9.6.6.6.6 30.6 50.6 60.6 80.6 0.6 2.6 T0.5nH T0.5nH (T0.2nH) T0.5nH T0.5nH (T0.2nH) T0.5nH T5% (T2%) 80 75 80 85 90 85 80 75 70 65 60 95 5 95 90 75 60 55 50 Y 6 25 35 40 38 34 32 25 (MHz) 300 (MHz) Typical 250 0 50 45 50 55 50 45 0.049 0.059 0.082 0. 0.3 0.6 0.7 0.2 0.23 0.26 0.29 0.33 0.35 0.5 0.38 0.56 0.60 0.64 0.68.2.3.4.5 2. 2.2 2.4 2.5 6000 5500 4900 4600 3800 3700 3300 30 2900 2800 2700 2600 2500 2400 2300 20 2 50 00 900 800 350 600 450 400 350 300 250 700 850 750 650 600 550 500 440 4 400 380 370 360 280 340 270 250 230 2 0 80 70 60 50 40 Y25 to W85D

!TYPICAL ELECTRICAL CHARACTERISTICS "Q- Characteristics 60 "Inductance - Characteristics 0 2nH 40 Q 80 60 40 8.7nH nh 47nH nh Inductance (nh) nh 470nH nh 8.7nH 0 2nH 0 00 (MHz) Measuring instrument Q : HP429A + 693A 0 00 (MHz) Measuring instrument L : HP429A + 693A 23

CHIP COIL Wire Wound Chip Coil LQN2A/LQNA Series for High Small Winding-type Air-core Chip Coil with High Q value at High Frequencies and Low DC Resistance The LQN2A/LQNA series consists of air-core chip coil using a sub-miniature alumina core as a bobbin. The high Q value at high frequencies and high self-resonant frequencies make this coil perfect for use in the high frequency circuits of communications equipment.!features. LQN2A series covers inductance range from 3.3nH to 470nH. 2. Their high self-resonant frequency characteristic yields a high Q value and highly stable inductance at high frequencies. 3. Low DC resistance design enables to handle higher allowable current. 4. The series has excellent solder heat resistance. Both flow and reflow soldering methods can be employed. LQN2Axxxx04 Inductance tolerance T0.5nH (8.2nH max.), T5% (nh to 2nH) and T% (270nH to 470nH) are realized. The sub miniature dimensions (2.0Z.5mm) allow high density mounting. LQN2A (Tight inductance tolerance) Tight inductance tolerance of T2% is available. LQN2Axxxx44 LQN2Axxxx44 using thick wire (f0.2mm) has higher Q value than existing LQN2A series. Low DC resistance design enables to handle higher current. LQN2Axxxx44 covers inductance range from 2.7nH to 27nH. LQNA Miniature size (3.2Z.6Z.8mm) allows parallel mounting at 2.5mm pitch. Inductance tolerance T5% realized. LQN2A!DIMENSIONS 0.5 min..5t0.2 2.0T0.2 0.5 min. 0.5 min. 2.3T0.2 LQNA LQN2A W0.08 Y0..7 LQNA.5T0.2.5T0.2 EIA Code : 0805.6T0.2!APPLICATIONS High frequency circuit in telecommunication equipment, such as DECT, PHS, PCS, PCN, GSM and CDMA. Impedance Matching Power-AMP Module (PA), SAW filter Resonance circuits VCO 3.2T0.3.6T0.2.8T0.2 0.7 min. 0.7 min. 0.7 min. EIA Code : 6 (in mm) 24

!SPECIFICATIONS LQN2Axxxx04 Inductance Q * *2 Value (nh) Tolerance Peak Value (Typ.) (MHz) Min. Value (MHz) DC Resistance (Ω max.) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQN2A3N3D04 3.3 T0.5nH 0.05 6000 9 LQN2A6N8D(K)04 LQN2A8N2D(K)04 6.8 8.2 T0.5nH (T%) 70 0. 0.2 5400 3900 680 630 LQN2ANJ(K)04 80 0.03 3300 3 LQN2A2NJ(K)04 LQN2A5NJ(K)04 2 5 65 30 250 0. 0.2 30 2700 680 630 LQN2A8NJ(K)04 8 0. 2600 690 LQN2A22NJ(K)04 22 70 0.09 2 7 LQN2A27NJ(K)04 27 0.7 2300 540 LQN2A33NJ(K)04 33 65 0.5 900 570 LQN2A39NJ(K)04 LQN2A47NJ(K)04 LQN2A56NJ(K)04 LQN2A68NJ(K)04 39 47 56 68 T5% (T%) 80 65 70 65 40 0 0.09 0.23 0.26 0.23 700 600 500 730 450 430 460 Y25 to W85D LQN2A82NJ(K)04 82 60 0.42 3 LQN2ARJ(K)04 LQN2AR2J(K)04 70 50 50 0.38 0.40 900 750 350 3 LQN2AR5J(K)04 50 45 30 0.47 350 390 LQN2AR8J(K)04 LQN2AR22J(K)04 80 2 35 0.7 0.70 700 500 250 240 LQN2AR27K04 LQN2AR33K04 LQN2AR39K04 270 330 390 T% 50 5 25.2 2.00 2. 2.50 550 500 400 90 80 70 LQN2AR47K04 470 2.80 350 60 LQN2A (Tight inductance tolerance) Value (nh) Inductance Q * Tolerance Peak Value (Typ.) (MHz) Min. Value (MHz) DC Resistance (Ω max.) *2 Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQN2A33NG04 LQN2A39NG04 33 39 65 80 250 0.5 0.09 900 700 570 730 LQN2A47NG04 LQN2A56NG04 47 56 65 70 40 0 0.23 0.26 600 500 450 430 LQN2A68NG04 68 65 0.23 460 Y25 LQN2A82NG04 LQN2ARG04 LQN2AR2G04 82 T2% 60 55 50 35 40 50 0.42 0.55 0.40 900 750 3 270 3 to W85D LQN2AR5G04 50 55 30 0.68 350 260 LQN2AR8G04 80 50 LQN2AR22G04 2 * Measured with LCR meter YHP49A, measuring tap 693A. *2 Measured with Network Analyzer HP8753C. 35 0.7 0.70 700 500 250 240 25

LQN2Axxxx44 Value (nh) Inductance Tolerance (MHz) Value (min.) Q (MHz) 800MHz (Typ.).5GHz (Typ.) DC Resistance (Ω max.) Selfresonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQN2A2N7D44 2.7 900 LQN2A3ND44 LQN2A3N3D44 LQN2A5N6D44 LQN2A6N8D44 LQN2A8N6D44 LQN2ANJ44 LQN2A2NK44 LQN2A5NK44 LQN2A8NK44 LQN2A2NK44 3. 3.3 5.6 6.8 8.6.8 2.8 5.8 8.8 2.8 T0.5nH T5% T% 35 40 250 85 95 85 5 5 90 75 65 0.02 0.03 0.04 0.05 6000 5400 3900 3300 30 3 2600 20 800 700 500 400 300 3 0 950 Y25 to W85D LQN2A27NK44 27.8 95 45 0.06 800 900 LQNA Value (nh) Inductance Q DC Tolerance (%) Peak Value (Typ.) Min. Value Resistance (Ω) Self-resonant (MHz min.) Allowable Current (ma) Operating Temp. Range LQNA8N8J(K)04 8.8 50 0.029T40% 750 LQNA5NJ(K)04 4.7 0.035T40% 680 LQNA7NJ(K)04 7 0.037T40% 650 LQNA23NJ(K)04 23 0.046T40% 590 LQNA27NJ(K)04 LQNA33NJ(K)04 LQNA39NJ(K)04 LQNA47NJ(K)04 LQNA56NJ(K)04 27 33 39 47 56 T5 (T) MHz 90 60 436MHz 0.05T40% 0.057T40% 0.067T40% 0.T40% 0.40T40% 0 560 530 490 380 330 Y25 to W85D LQNA64NJ(K)04 64 80 0.80T40% 290 LQNA84NJ(K)04 LQNARJ(K)04 84 70 0.280T40% 0.300T40% 900 240 230 26

!TYPICAL ELECTRICAL CHARACTERISTICS "Q- Characteristics "Inductance- Characteristics 80 LQN2Axxxx04 50 LQN2Axxxx44 27nH Q 60 40 470nH 330nH Inductance (nh) 40 30 2nH 0 5 50 500 0 5000 00 (MHz) 2nH nh 33nH 0 (MHz) 3.3nH 50 500 0 5000 00 LQN2Axxxx44 50 3.3nH Q 90 60 2nH 30 27nH 0 50 500 0 5000 00 (MHz) LQNA 39nH 8.8nH 80 Q 60 40 nh 0 50 500 0 5000 (MHz) 27

CHIP COIL High Q Chip Coil LQNH for High Wire Wound Chip Coil with High Q from 30MHz to 50MHz and Stable Inductance The LQNH series consists of wire wound chip coils which use ferrite cores for high frequency application. Their high Q values from 30MHz to 50MHz and low DC resistance make them suitable in high-frequency resonator circuits.!features. Same dimensions as LQNA/LQHN/LQHC series enables design flexibility. 2. Broad range of inductance 54 to 880nH. 3. High Q value and stable inductance at high frequency (30MHz to 50MHz). 4. Both flow and reflow soldering methods are applicable due to excellent solder heat resistance. 5. Miniature size (3.2Z.6Z.8mm) allows parallel mounting at 2.5mm pitch.!dimensions 2.3T0.2.6T0.2!APPLICATIONS Voltage controlled oscillators, traps, and filter circuits in mobile communication equipments, cordless phones, various radio equipment, FM radio turners, TV turners (VHF low), VIF circuits. 3.2T0.3.8T0.2!TYPICAL ELECTRICAL CHARACTERISTICS Q- Characteristics 80 R88 R2 0.7 min. 0.7 min. 0.7 min..6t0.2 EIA Code : 6 (in mm) Q 60 40 54N 0 5 50 500 0 (MHz)!SPECIFICATIONS LQNH54NK04 LQNH95NK04 LQNHR4K(J)04 LQNHR2K(J)04 LQNHR29K(J)04 LQNHR39K(J)04 LQNHR50K(J)04 LQNHR6K(J)04 LQNHR75K(J)04 LQNHR88K(J)04 Value (nh) 54 95 45 25 290 390 500 6 750 880 Inductance Q DC Tolerance (%) T T (T5) MHz Peak Value (Typ.) 65 75 80 85 90 Min. Value 50 60 MHz Resistance (Ω) 0.035T30% 0.047T30% 0.06T30% 0.5T30% 0.75T30% 0.265T30% 0.445T30% 0.485T30% 0.795T30% 0.865T30% Self-resonant (MHz min.) 800 650 500 430 360 300 270 240 2 0 Allowable Current (ma) 9 790 700 5 4 330 260 250 90 80 Operating Temp. Range Y25 to W85D 28

CHIP COIL Miniature Chip Coil LQHC/LQH3C/LQH4C Series for Power Line Choke Miniature Chip Coil for Power Line Choke Has High Current Capacity, Low DC Resistance, Large Inductance The LQHC, LQH3C and LQH4C series consist of miniature chip coils with low DC resistance, high current capacity, and high impedance characteristics. These features are made possible by the development of Murata's innovative automatic winding techniques. They are excellent for use as choke coils in DC power supply circuits.!features. The LQHC, LQH3C and LQH4C series have an open magnetic structure. The series have a combined inductance range of 0.2µH to 560µH and are applicable in a wide variety of applications. 2. The series exhibit low voltage drops and small variations in inductance with respect to temperature rise and DC current level. This makes them excellent for use as power supply line choke coils. 3. The series has excellent solder heat resistance. Both flow and reflow soldering methods can be employed. LQHC Miniature size (3.2Z.6Z.8mm) allows parallel mounting at 2.5mm pitch. Despite their small size, at 0.2µH these coils have a maximum current rating of 970mA. LQH3C The low DC resistance means high current and high inductance. For inductance ranging from 0.5µH to µh, LQH3C coils have very low DC resistance. LQH4C The LQH4C has miniature size 4.5mmZ3.2mm and realized low height 2.8mm max. LQHC Type LQH3C Type LQH4C Type!DIMENSIONS LQHC Type LQH3C xx24 Series LQH3C xx34 Series 2.3±0.2 3.2±0.3 0.7 min. min. 0.7 0.7 min. 2.5±0.2 3.2±0.3 0.7 min. min. 0.7 0.7 min. 2.5±0.2.6±0.2.8±0.2.6±0.2 EIA Code : 6 2.5±0.2 2.0±0.2 2.5±0.2 EIA Code : 2 2.5±0.2 3.2±0.3 2.5±0.2 2.0±0.2 LQH4C Type 0.9 ±0.3 ±0.2.3 ±0.3 0.9 3.6±0.2 EIA Code : 2 3.2±0.2 2.6±0.2 4.5±0.3 3.2±0.2 3.2±0.2 EIA Code : 82.0 min..0 min..0 min. (in mm) 29

!SPECIFICATIONS LQHC LQHCR2M04 LQHCR22M04 LQHCR47M04 LQHCR0M04 LQHC2R2M04 LQHC4R7M04 LQHCK04 LQHC2K04 LQHC470K04 LQHCK04 Value (µh).2.22.47.0 2.2 4.7 22 47 Inductance Tolerance (%) T T MHz DC Resistance (Ω).08T40%.T40%.5T40%.28T30%.4T30%.65T30%.30T30% 3.00T30% 8.00T30% 2.00T30% Self-resonant (MHz) Typ. 900 570 3 90 67 42 26 8 2 Min. 250 80 50 3 4 7 Allowable Current (ma) 970 850 700 5 430 340 230 60 80 Operating Temp. Range Y25 to W85D LQH3C LQH3CR5M24 * LQH3CR27M24 * LQH3CR47M24 * LQH3CR0M24 * LQH3C2R2M24 * LQH3C4R7M24 * LQH3CK24 * LQH3CR0M34 LQH3C2R2M34 LQH3C4R7M34 LQH3CK34 LQH3C2K34 LQH3C470K34 LQH3CK34 LQH3C22K34 LQH3C33K34 LQH3C39K34 LQH3C47K34 LQH3C56K34 *Low DC Resistance type. Value (µh).5.27.47.0 2.2 4.7.0 2.2 4.7 22 47 2 330 390 470 560 Inductance Tolerance (%) T T T T MHz khz DC Resistance (Ω).028T30%.034T30%.042T30%.060T30%.097T30%.50T30%.300T30%.090T30%.30T30%.0T30%.440T30%.7T30%.3T30% 3.5T30% 8.4T30%.0T30% 7.0T30% 9.0T30% 22.0T30% Self-resonant (MHz) Typ. 680 490 370 0 77 50 50 66 40 27 9 3 8.5 7.0 6.6 6.2 5.7 Min. 400 250 50 64 43 26 96 64 43 26 9 5 6.8 5.6 5.0 Allowable Current (ma) 450 250 0 790 650 450 800 600 450 300 250 70 70 60 Operating Temp. Range Y25 to W85D LQH4C Value (µh) Inductance Tolerance (%) DC Resistance (Ω max.) Self-resonant (MHz) Allowable Current (ma) Operating Temp. Range LQH4CR0M04 LQH4CR5M04 LQH4C2R2M04 LQH4C3R3M04 LQH4C4R7M04 LQH4C6R8M04 LQH4CK04 LQH4C50K04 LQH4C2K04 LQH4C330K04 LQH4C470K04 LQH4C680K04 LQH4CK04 LQH4C5K04 LQH4C22K04 LQH4C33K04 LQH4C47K04.0.5 2.2 3.3 4.7 6.8 5 22 33 47 68 50 2 330 470 T T MHz khz 0.08 0.09 0. 0.3 0.5 0. 0.24 0.32 0.62.02.2.72 2.22 3.52 4.02 6.82 8.52 85 60 47 35 30 23 5 2 8.4 6.8 5.5 4.5 3.6 3.0 80 0 900 800 750 7 650 570 4 3 280 2 90 30 90 Y25 to W85D 30

!TYPICAL ELECTRICAL CHARACTERISTICS "Impedance - Characteristics!TYPICAL ELECTRICAL CHARACTERISTICS "Direct Current Characteristics Impedance (kω) LQHC 0 µh µh.0µh 0. 0.0 0.0 0. 0 Fequency (MHz) Inductance (µh) LQHC µh µh Impedance (kω) 0 0. LQH3C µh µh.0µh 0.0µH 5 50 500 DC Current (ma) LQH3C Impedance (kω) 0.0 0.0 0. 0 Fequency (MHz) LQH4C 0 µh µh.0µh 0. 0.0 0.0 0. 0 Fequency (MHz) Inductance (µh) Inductance (µh) 0. 0 µh µh.0µh 0 DC Current (ma) LQH4C µh µh.0µh 0. 0 00 DC Current (ma) 3

CHIP COIL Multilayer Chip Coil LQG2C Series Low DC Resistance Choke for Power Lines Has Magnetically Shielded Structure The LQG2C series consists of magnetically shielded chip coil developed with original Murata multilayer process technology and incorporating magnetic materials. It has less than half the DC resistance of our conventional multilayer chip coils as well as high inductance.!features. The inductors have very low DC resistance. 2. The series has an inductance range of.0µh to 47µH. 3. Magnetically shielded structure provides excellent crosstalk characteristics. 4. Compact (2.0Z.25mm) and lightweight. 5. Outstanding solder heat resistance. Either flow or reflow soldering methods can be employed.!applications Power lines (for choke use)!dimensions 2.0T0.3.25T0.2!TYPICAL ELECTRICAL CHARACTERISTICS Impedance- Characteristics T 00 Impedance (Ω) 0 47µH 22µH µh 4.7µH 2.2µH.0µH 0.5T0.3 EIA Code : 0805 (in mm) 0 (MHz) LQG2CR0N00YN00 LQG2C2N00Y470N00 T 0.85T0.2.25T0.2!SPECIFICATIONS Value (µh) Inductance Tolerance (%) DC Self-resonant (MHz) Resistance (Ω max.) Typ. Min. Allowable Current (ma) Operating Temp. Range LQG2CR0N00.0 0. 50 75.0 60 LQG2C2R2N00 LQG2C4R7N00 LQG2CN00 LQG2C2N00 2.2 4.7.0 22.0 T30 MHz 0.7 0.30 0.50 0.65 70 45 50.0 35.0 24.0 6.0 40 30 5 3 Y40 to W85D LQG2C470N00 47.0. - 07.5 07 32

CHIP COIL Multilayer Chip Coil LQG2F Series Magnetically Shielded Multilayer Chip Coil for Choke with Excellent Direct Current Characteristics LQG2F series consists of magnetically shielded chip coils based on Murata's technologies of multilayer process and magnetic materials. Excellent direct current characteristics are realized by using magnetic materials which have excellent saturation characteristics. The inductance of LQG2F is four times as large as that of conventional items.!features. LQG2F series is suitable for power line choke because of its excellent direct current characteristics. The series has larger rated current (60mA at µh) than conventional rated current. 2. Low DC resistance is realized. 3. The cross talk characteristics are excellent because of the use of magnetically shielded structure. 4. Small size (2.0Z.25mm) and light weight. 5. The series has excellent solder heat resistance. Both flow and reflow soldering can be employed.!dimensions 0.5±0.3!APPLICATIONS Circuits for DC power line choke of telecommunication equipment such as DVC, digital camera, PDA, MD and DVD-RAM. 2.0±0.2 T.25±0.2 EIA Code : 0805 (in mm) LQG2FR0N00Y2R2N00 LQG2F4R7N00Y470N00 T 0.85T0.2.25T0.2!SPECIFICATIONS Value (µh) Inductance Tolerance (%) DC Resistance (Ω T30%) Self-resonant (MHz Min.) Allowable Current (ma) Operating Temp. Range LQG2FR0N00.0 0. 5.5 2 LQG2F2R2N00 LQG2F4R7N00 LQG2FN00 LQG2F2N00 2.2 4.7.0 22.0 T30 MHz 0.28 0.30 0.50 0.35 70.5 25.5 5.5 5.5 50 80 60 3 Y40 to W85D LQG2F470N00 47.0 0.60 7.5 7 33

!TYPICAL ELECTRICAL CHARACTERISTICS Impedance Characteristics Direct Current Characteristics 000 47µH Impedance (Ω) 00 0 µh 22µH 47µH 4.7µH Inductance (µh) 22µH µh 4.7µH 2.2µH.0µH.0µH 2.2µH 0 (MHz) 0. 0 DC Current (ma) 34

CHIP COIL Multilayer Chip Coil LQG326F Series Magnetically Shielded Multilayer Thin Type Chip Coil with Excellent Direct Current Characteristics LQG326F series consists of magnetically shielded chip coils based on Murata's technologies of multilayer process and magnetic materials. Excellent direct current characteristics and low DC resistance are realized by using magnetic materials which have excellent saturation characteristics and high permeability.!features. LQG326F series is suitable for power line choke because of its excellent direct current characteristics and large rated current. (70mA at µh) 2. Low DC resistance is realized. 3. The cross talk characteristics are excellent because of magnetically shielded structure. 4. Low profile.0mm. 5. The series has excellent solder heat resistance. Both flow and reflow soldering can be employed.!dimensions 0.7±0.3!APPLICATIONS Circuits for DC power line choke of telecommunication equipments such as PDA, Note-PC, digital camera, PDA, DVC, MD and DVD-RAM. 3.2±0.2.0±0.2.6±0.2 (in mm)!specifications LQG326FM00 Value (µh) Inductance Tolerance (%) DC Resistance (Ω max.) Self-resonant (MHz Min.) Allowable Current (ma) Operating Temp. Range T MHz 0.50 70 Y40 to W85D 35

!TYPICAL ELECTRICAL CHARACTERISTICS Impedance Characteristics 00 Direct Current Characteristics 0 Impedance (Ω) Inductance (µh) 0 (MHz) DC Current (ma) 36

CHIP COIL Magnetically Shielded Choke Coil LQS33C Series Small Size, Low Profile and Magnetically Shielded Chip Coil for Choke Excellent for EL Back Light Driver Circuit!FEATURES. Low profile dimension (2.mm max.) and small size of 22 (3.3Z3.3mm) is suitable for portable equipment. 2. The series have low DC Resistance. 3. LQS33C series have large inductance of 560µH to 20µH. 4. Magnetically shielded structure prevents interference occurring between peripheral components.!applications For EL back light driver circuit!dimensions 3.3±0.3 2. max. 3.3±0.3 0.9 ±0.3.3 ±0.2 0.9 ±0.3 EIA Code : 22 (in mm)!specifications Value (µh) Inductance Tolerance (%) DC Resistance (Ω T30%) Self-resonant (MHz Min.) Allowable Current (ma) Operating Temp. Range LQS33C56N34 LQS33C68N34 LQS33C2N34 LQS33C52N34 560 680 0 500 T30 khz khz 07.8 09..0 23.0 3.0 2.6 2..7 50 40 30 25 Y25 to W85D LQS33C222N34 20 28.0.5 37

!TYPICAL ELECTRICAL CHARACTERISTICS Impedance Characteristics Direct Current Characteristics 0 00 Impedance (kω) LQS33C222N34 LQS33C2N34 LQS33C56N34 Inductance (µh) 0 LQS33C222N34 LQS33C2N34 LQS33C56N34 0. 0.0 0 00 (khz) DC Current (ma) 38

CHIP COIL Large Current Choke Coil LQN6C/LQS66C Series Choke Coil for DC/DC Converters and DC Power Lines with Low DC Resistance, Large Current Capacity and Large Inductance The LQN6C/LQS66C series are choke coils which have achieved low direct current resistance, large current capacity and large inductance by using high performance thick wire wrapping technology. Because the LQS66C series has a shielded construction, it can be mounted in high density without interference occurring between peripheral components. They are optimum for use as choke coils in DC/DC converters and DC power supply circuits.!features. Both the LQN6C series with its open magnetic path construction and the LQS66C series with its magnetic shielding construction allow application to a wide variety of uses. 2. The inductance range covers from 0.2µH up to 00µH allowing minute compatibility with the E6 series at µh to 0µH. 3. Because the direct current resistance is small as well as the voltage drop and power consumption being small also, they are optimum for use as choke coils for DC power supply circuits.!applications Camcorders, portable AV equipment, etc. DC/DC converters and DC power supplies. LQN6C!DIMENSIONS 5.0T0.3 5.7T0.3 LQS66C LQN6C 5.0T0.3 4.7T0.3.3 min..7 min..3 min. EIA Code : 22 LQS66C 6.3T0.3 6.3T0.3 4.7T0.3 6.3T0.3.3 min..7 min..3 min. EIA Code : 2525 (in mm) 39

40 This is the PDF file of catalog No.O05E-5. No.O05E5.pdf 00.3.5!SPECIFICATIONS LQN6C LQS66C Inductance DC Resistance (ΩT40%) Allowable Current (A) Operating Temp. Range Value (µh) Tolerance (%).2.27.47.0.5 2.2 3.3 4.7 6.8 5 22 33 47 68 50 2 330 470 680 20 4700 00 T MHz khz khz.007.0.03.09.022.029.036.04.074.093.5.9.32.40.67.86.9 2.4 4.4 5.4 8..3 2.5 43.6 Self-resonant (MHz min.) 450 300 0 50 80 40 30 25 7 5 2 7.6 6.5 5.0 4.0 3. 2.4.9.7.2.8.5 6.04 5.34 4.84 4.04 3.74 3.24 2.94 2.74 2.04.74.44.24 0.94 0.84 0.64 0.56 0.42 0.32 0.27 0.24 0.9 0.5 0. 0.07 0.05 Y25 to W80D LQN6CR2M04 LQN6CR27M04 LQN6CR47M04 LQN6CR0M04 LQN6CR5M04 LQN6C2R2M04 LQN6C3R3M04 LQN6C4R7M04 LQN6C6R8M04 LQN6CM04 LQN6C50M04 LQN6C2M04 LQN6C330M04 LQN6C470M04 LQN6C680M04 LQN6CM04 LQN6C5M04 LQN6C22M04 LQN6C33M04 LQN6C47M04 LQN6C68M04 LQN6C2M04 LQN6C222M04 LQN6C472M04 LQN6C3M04 Inductance DC Resistance (ΩT40%) Allowable Current (A) Operating Temp. Range Value (µh) Tolerance (%).27.68.0.5 2.2 3.3 4.7 6.8 5 22 33 47 68 50 2 330 470 680 20 4700 00 T MHz khz khz.007.0.03.06.09.022.025.029.036.069.087.4.7.29.36.63.79.8 2.2 3.9 4.9 9.4 9.5 39.7 Self-resonant (MHz min.) 300 80 50 80 40 30 25 7 5 2 7.6 6.5 5.0 4.0 3.2 2.5 2.0.7.2.8.5 6.06 5.36 4.76 3.86 3.36 2.66 2.26.86.66.36.6 0.86 0.76 0.60 0.52 0.42 0.35 0.28 0.24 0. 0.6 0. 0.07 0.05 Y25 to W80D LQS66CR27M04 LQS66CR68M04 LQS66CR0M04 LQS66CR5M04 LQS66C2R2M04 LQS66C3R3M04 LQS66C4R7M04 LQS66C6R8M04 LQS66CM04 LQS66C50M04 LQS66C2M04 LQS66C330M04 LQS66C470M04 LQS66C680M04 LQS66CM04 LQS66C5M04 LQS66C22M04 LQS66C33M04 LQS66C47M04 LQS66C68M04 LQS66C2M04 LQS66C222M04 LQS66C472M04 LQS66C3M04

!TYPICAL ELECTRICAL CHARACTERISTICS Impedance - Characteristics LQN6C LQS66C 0000 0000 Impedance (Ω) 000 00 0 00µH 0µH µh µh µh Impedance (Ω) 000 00 0 00µH 0µH µh µh µh 0.0 0. 0 0.0 0. 0 (MHz) (MHz) Direct Current Characteristics LQN6C LQS66C 00 00µH 00 00µH 0 0µH 0 0µH Inductance (µh) µh Inductance (µh) µh µh µh µh µh 0.0 0. DC Current (A) 0.0 0. DC Current (A) 4

Notice of Chip Coil. Standard Land Dimensions A high Q value is achieved when the PCB electrode land pattern is designed so that it does not project beyond the chip coil electrode. Land Solder Resist (in mm) Series Standard Land Dimensions (Flow and Reflow) LQGN LQG2N LQG2C LQG2F LQG326F LQPA/A LQGA/A LQPA/A/LQGA/A : Reflow soldering should be applied.) a c b Type LQGA LQGA LQGN Flow Reflow LQG2N/2C/2F LQPA LQPA LQG326F a 0.5Y0.6 0.6Y0.8 0.7.0 0.5Y0.6 0.7.2 b.4y.5.8y2.2 2.2Y2.6.8Y2.0 3.0Y4.0.4Y.5 2.6 4.2Y5.2 c 0.4 0.6Y0.8 0.7.2 0.4 0.6 2.0 LQHN/C LQNA/H LQN2A LQW608A If mounted at 2.5mm intervals as indicated in the diagram at left, attention should be paid to potential magnetic coupling effects when using the coil as a resonator. Refer to the coupling factor graph in the typical electrical characteristics section. c d c a 2.5min. b Type LQHN/C LQNA/H LQN2A LQW608A (LQW608A : Reflow soldering should be applied.) a.5.2 0.7Y.0 b 4.5 3.0.8Y2.0 c.75. 0.6Y0.7 d.0 0.8 0.6Y0.8 LQH3Cxx24 5.5 Series LQS33N 2.0.0 (LQS33N : Reflow soldering should be applied.).0.0.0 LQH3N 5.5 LQH3Cxx34 Series LQS33C 2.0.0 (LQS33C : Reflow soldering should be applied.).0.3.0 LQH4N LQN4N LQH4C 7.5 3.0.5.5.5.5 LQN6C LQS66C 8.0 3.5 (LQN6C/LQS66C : Reflow soldering should be applied.) 3.0 2.0 3.0 42

Notice of Chip Coil 2. Mounting Instructions Land Pattern Dimensions Large lands reduce Q of the mounted chip. Also, large protruding land areas (bordered by lines having dimensions c and d shown below) cause floating and electrode cracks. 4Amount of Solder Paste Excessive solder causes electrode corrosion, while insufficient solder causes low electrode bonding strength. Adjust the amount of solder paste so that solder is applied as shown below. Land Solder Resist c LQH/LQN LQS d 2Magnetic Coupling Since some chip coils are constructed like an open magnetic circuit, narrow spacing between coils may cause magnetic coupling. (Please refer to Page 54 for coil-to-coil spacing and coupling coefficient.) The LQS and LQG series have a magnetically shielded structure. The structure makes their coupling coefficient smaller than that of conventional chip coils. In particular, the LQS33N series has a very small coupling coefficient. Magnetic Coupling LQP/LQG LQW "Standard thickness of solder paste : 0 to 300µm (LQPA : µm, LQG Series, LQPA/LQW608A : µm to 50µm) 5Amount of Adhesive If too much adhesive is applied, then it may overflow into the land or termination areas and yield poor solderability. In contrast, if insufficient adhesive is applied, or if the adhesive is not sufficiently hardened, then the chip may become detached during flow soldering. Apply the adhesive in accordance with the following conditions. 3PCB Warping Arrange chip coils to minimize stress caused by PCB warping. Fig. Fig. 2 The arrangement shown in Fig. 2 is more effective in preventing stress than that shown in Fig.. LQGN LQG2N/2C/2F LQG326F LQN2A LQHN/C LQNA/H LQH3N/3C LQH(N)4N/4C LQH/LQN MR-853RA 0.05Y0.06 0.5Y0. 0.Y0.25 0.6Y0.8 0.8Y0. 0.Y0.23 0.45Y0.50 NF-3000 0.06Y0.07 0.Y0.25 0.25Y0.30 0.2Y0.23 0.Y0.25 0.27Y0.35 0.60Y0.80 LQG Typical Application Amount (in mg) UVS-50R-2 0.06Y0.07 0.Y0.25 0.25Y0.30 0.2Y0.23 0.Y0.25 0.27Y0.35 0.60Y0.80 43

Notice of Chip Coil 3. Standard Soldering Conditions Soldering Method Chip coils can be flow or reflow soldered. (LQS33N, LQS66C and LQPA should only be reflow soldered) Please contact Murata regarding other soldering methods. The volume of solder can cause minor fluctuations in inductance value. Therefore, carefully control the amount of solder when soldering the LQPA/A, LQGA/A and LQW608A series. 2Soldering Temperature and Time Solder within the temperature and time combinations indicated by the slanted lines in the following graphs. If soldering is repeated, please note that the allowed time is the accumulated time. 4Standard Soldering Conditions Flow Solder Temperature (D) 0 0 Pre-heating (in air) minute min. 3 sec. max. Gradual Cooling Soldering (in air) 240D Allowable Flow Soldering Temperature and Time Temperature ( C) Temperature ( C) 260 240 2 LQGN LQN2A LQG2N/2C/2F LQG326F 0 LQNA/H LQHN/C LQH3N/3C LQH(N)4N/4C 80 0 30 Time (sec.) 280 260 240 LQGA Solder : H60A Allowable Reflow Soldering Temperature and Time Solder : H60A 2 LQGN LQGA LQW608A LQPA LQN2A LQPA LQNA/H LQG2N/2C/2F 0 LQN4N LQG326F LQN6C LQHSeries LQS33N/33C LQS66C 80 0 40 60 80 Time (sec.) 3Solder and Flux Solder : Use H60A, H63A, (JIS Z 3282) or equivalent. Use solder paste equivalent to H60A for LQPA/A and LQGA/A. Flux : Use rosin-based flux, but not strongly acidic flux (with chlorine content exceeding 0.2wt%). Do not use water - soluble flux. Reflow Solder Temperature (D) 0 0 Series Pre-heating (in air) minute min. Pre-heating (50D) LQG2N/2C/2F LQG326F LQHN/C LQNA/H LQW608A LQN2A 60 sec. min. LQH3N/3C LQH4N/LQN4N/LQH4C LQS33N/33C LQN6C/LQS66C LQGA/A/LQPA/A Gradual Cooling Soldering (in air) 230D 5Reworking with Soldering Iron Preheating at 50D for minute is required. Do not directly touch the ceramic element with the tip of the soldering iron. The reworking soldering conditions are as follows. Soldering iron power output : 30W max. Temperature of soldering iron tip : 280D Diameter of soldering iron end : 3.0mm max. Soldering time : within 3 sec. T Soldering Time (T) sec. max. sec. max. Soldering Temp. (D) 230 44

Notice of Chip Coil 4. Cleaning The following conditions should be observed when cleaning chip coils. Cleaning Temperature : 60D max. (40D max. for CFC alternatives and alcohol cleaning agents) 2Ultrasonic Output : W/R max. Duration : 5 minutes max. : 28 to 40kHz Care should be taken not to cause resonance of the PCB and mounted products. 3Cleaning Agent The following cleaning agents have been tested on individual components. Evaluation in complete assembly should be done prior to production. a) CFC alternatives and alcohol cleaning agents #Isopropyl alcohol (IPA) #HCFC-225 b) Aqueous cleaning agents #Surface active agent (Clean Thru 750H) #High grade alcohol (Pine Alpha ST-S) #Hydrocarbon (Techno Cleaner 335) #Alkaline saponifier (Aqua Cleaner 240-cleaner should be diluted to % using deionized water.) LQS series : Aqueous agents should not be used because they may cause quality deterioration. LQH series : Surface active agent and high grade alcohol can be used. 4Ensure that flux residue is completely removed. Component should be thoroughly dried after aqueous agents have been removed with deionized water. For additional cleaning methods, please contact Murata. 5. Resin Coating When coating products with resin, the relatively high resin curing stress may change inductance values. For exterior coating, select resin carefully so that electrical and mechanical performance of the product is not affected. 6. Caution for Use This item is designed to have sufficient strength, but handle with care not to make it chipped or broken due to its ceramic structure. LQW Series # Sharp material, such as a pair of tweezers, shall not touch to the winding portion to prevent the breaking of wire. # Do not give excessive mechanical shock to the products mounted on the board to prevent the breaking of the core. # In some mounting machines, when picking up components support pin pushes up the components from the bottom of base tape. In this case, please remove the support pin. The support pin may damage the components and break wire. LQH/LQN Series # Sharp material, such as a pair of tweezers, shall not touch to the winding portion to prevent the breaking of wire. # Do not give excessive mechanical shock to the products mounted on the board to prevent the breaking of the core. LQP Series # The pattern of the chip coil is covered with the protection film. But the handling the chip coil shall be taken care so that the chip coil would not be damaged with the pick-up nozzle, the sharp substance and so on. LQG-N/-C/-F Series # There is possibility that the inductance value change due to magnetism. Don't use a magnet or a pair of tweezers with magnetism when chip coil are handled. (The tip of the tweezers should be molded with resin or pottery.) 7. Handling Avoid applying excessive stress to products to prevent damage. 2Do not touch winding with sharp objects such as tweezers to prevent wire breakage. 3Do not apply excessive force to products mounted on boards to prevent core breakage. 8. Operating Environment Do not use products in corrosive gases atmosphere such as chlorine gas, acid or sulfide gas. 9. Storage Requirements Storage Period Products should be used within 2 months reckon from the date of our out-going inspection. Solderability should be verified if this period is exceeded. (LQS33N/33C, LQP2A series should be used within 6 months.) 2Storage conditions a) Store products in a warehouse in compliance with the following conditions : Temperature : Y to 40D Humidity : 30 to 70% (relative humidity) Do not subject products to rapid changes in temperature and humidity. Do not store them in corrosive gases atmosphere such as one containing sulfurous acid gas or alkaline gas. This will prevent electrode oxidation which causes poor solderability and possible corrosion of coils. b) Do not store products in bulk packaging to prevent collision among coils which causes core chipping and wire breakage. c) Store products on pallets to protect from humidity, dust, etc. d) Avoid heat shock, vibration, direct sunlight, etc.. Transportations Do not apply excessive vibration or mechanical shock to products. 45

Dimensions of Taping LQG2N/2C/2F, LQG326F, LQGA/A/N, LQHN/C, LQNA/H, LQN2A, LQH3N/3C, LQPA/A, LQW608A (8mm Tape) φ.5 +0. -0 a 4.0±0. 4.0±0. C C * * *2 2.0±0. LQGA/LQPA/LQW608A * : 2.0±0.05 *2 :.0±0.05 *3 : 8.0±0.2 (2.75) 3.5±0. Direction of Feed.75±0. b 8.0±0.3 *3 0.2 <Paper Tape> Paper Tape Series LQG2NRKY2R2K LQG2CR0N00YN00 LQG2FR0N00Y2R2N00 LQGA LQGA LQGN LQPA LQPA LQW608A Plastic Tape Series LQG2N2R7KY4R7K LQG2C2N00Y470N00 LQG2F4R7N00Y470N00 LQG326F LQHN/C LQNA/H LQN2A LQH3N/LQH3C a.45 0.62.05 0.70.9. a.55.90.75 2.90 b 2.25.2.85. 2.00.00 b 2.3 3.5 3.6 2.3 3.6 c..0..0. c.35 2.05 2.5 Minimum Quantity φ80mm Reel 4,000,000 4,000,000 4,000 Minimum Quantity φ80mm Reel 3,000 2,000 φ330mm Reel,000 50,000,000 Y,000 φ330mm Reel,000 7,500 (in mm) LQS33N/33C, LQH(N)4N, LQH4C, LQN6C, LQS66C (2mm Tape) a 2.0T0. 8.0T0. 4.0T0. φ.5 +0. -0 (4.75) 5.5T0..75T0. b d C 2.0T0.3 Series LQS33N/LQS33C LQH(N)4N LQH4C LQN6C LQS66C a 3.9 3.6 5.4 6.7 b 3.7 4.9 6. 6.7 c.9 2.7 5.0 5.2 d 0.3 0.4 Minimum Quantity φ80mm φ330mm Reel Reel,000 Y 2,500,500 Y,500,350 Y Direction of Feed (in mm) 46

CHIP COIL Design Kit!DESIGN KIT Various chip coils are available in design kits assembled according to application. <Design Kit for High Range> : EKLBEB Contents : LQW608A/LQN2A/LQNH/ : LQPA/LQPA EKLBEB No. 2 3 4 5 6 7 8 9 2 3 4 5 6 7 8 9 2 22 23 24 25 26 27 28 29 LQW608A3N9D00 LQW608A4N7D00 LQW608A5N6D00 LQW608A6N8D00 LQW608A8N2D00 LQW608ANJ00 LQW608A2NJ00 LQW608A5NJ00 LQW608A8NJ00 LQW608A22NJ00 LQW608A27NJ00 LQW608A33NJ00 LQW608A39NJ00 LQW608A47NJ00 LQW608A56NJ00 LQW608A68NJ00 LQW608A82NJ00 LQW608ARJ00 LQW608AR2J00 LQW608AR5J00 LQW608AR8J00 LQW608AR22J00 LQN2A3N3D04 LQN2A6N8D04 LQN2A8N2D04 LQN2ANJ04 LQN2A2NJ04 LQN2A5NJ04 LQN2A8NJ04 QTY. (pcs.) No. 30 3 32 33 34 35 36 37 38 39 40 4 42 43 44 45 46 47 48 49 50 5 52 53 54 55 56 57 58 59 60 6 62 63 64 65 66 67 68 69 70 7 72 73 74 75 76 77 78 79 80 8 82 83 84 85 86 87 88 89 LQN2A22NJ04 LQN2A27NJ04 LQN2A33NJ04 LQN2A39NJ04 LQN2A47NJ04 LQN2A56NJ04 LQN2A68NJ04 LQN2A82NJ04 LQN2ARJ04 LQN2AR2J04 LQN2AR5J04 LQN2AR8J04 LQN2AR22J04 LQNH54NK04 LQNH95NK04 LQNHR4K04 LQNHR2K04 LQNHR29K04 LQNHR39K04 LQNHR50K04 LQNHR6K04 LQNHR75K04 LQNHR88K04 LQPAN0C00 LQPAN2C00 LQPAN5C00 LQPAN8C00 LQPA2N2C00 LQPA2N7C00 LQPA3N3C00 LQPA3N9C00 LQPA4N7C00 LQPA5N6C00 LQPA6N8C00 LQPA8N2C00 LQPANG00 LQPA2NG00 LQPA5NG00 LQPA8NG00 LQPA22NG00 LQPA27NG00 LQPA33NG00 LQPAN3C00 LQPAN5C00 LQPAN8C00 LQPA2N2C00 LQPA2N7C00 LQPA3N3C00 LQPA3N9C00 LQPA4N7C00 LQPA5N6C00 LQPA6N8C00 LQPA8N2C00 LQPANG00 LQPA2NG00 LQPA5NG00 LQPA8NG00 LQPA22NG00 LQPA27NG00 LQPA33NG00 QTY. (pcs.) "Please use the products in this Design Kit for experiment or test production, but do not use for mass production. When useing for mass production, please order them after confirming detailed specifications by approving the appropriate individual specifications sheet. 47