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47uH

Catalog Datasheet MFG & Type PDF Document Tags

150UH

Abstract: C12-K7.5L .0R 1.2µH C3-P1.2R 1.2µH C3-P1.2RA 1µH C3-P1.5R 1.5µH 47µH 58~1050 0.33~2.40 - C4-P1.5R 1µH 47µH 45~850 0.35~2.85 - 1.8 C4-P1.8R 1.2µH 40~920 0.37~2.70 , 1.8 C3-Y1.8R 1.2µH 68~820 0.30~1.80 0.30~1.90 2 C3-Y2.0R 2.2µH 47µH 70~600 0.28~1.30 0.50~1.60 C4-Y1.2R 1µH 47µH 62~1360 0.28~2.10 0.40~1.70 C4-Y1 , ~3.00 0.44~4.00 47µH 3.0 3.0 CP Series 1.2 10µH 18µH 1.5 CZ Series 4.0 4.0
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150UH C12-K7.5L c5-k3la MITSUMI transformers #220 500 C6-K5LA C8-H3.5R C10-K3L C10-H3 C10-K4L C10-H5R C12-K4 C12-K7

33-2C

Abstract: 50 0.01 0.1 470µH 40 50 0.01 50 470µH 30 40 470µH 40 20 30 30 10 20 20 0 10 47µH 470µH 470µH 47µH 47µH 47µH 4.7µH 4.7µH 4.7µH 0.1 1 1µH 1µH 1µH 10 Current, IDC (A) Current, 4.7µH , ) ambient (°C) TEMPERATURE Vs CURRENT 0.1 0.1 47µH 47µH 1 1µH 1 1µH 1µH 10 10 Current, IDC (A) 4.7µH 4.7µH 0 0.5 1 1.5 2 2.5 3 10 0 10000 0 0 0 Current, IDC (A) 0.5 0.5 1 1 1.5 2 2 2.5 470µH 2.5 470µH 470µH 47µH 3 3 Current, IDC (A) 1.5 INDUCTANCE Vs FREQUENCY
muRata Power Solutions
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33-2C 82102C 82152C 82222C 82332C 82472C 82682C
Abstract: DESCRIPTION 18 4.7µH ±10% inductors (0805) Murata LQM21NN4R7K10 R1â'"R10, R12, R15â'"R18, R20 , 34 33 32 31 30 29 28 27 26 25 L10 L9 R5 4.7uH 150â"¦ 1% FERRITE BEAD QB_TERM QA_TERM1 VCC QA_CTRL1 VCC QA_CTRL2 S15 VCC QB_CTRL S16 L18 L17 R9 4.7uH 150â"¦ 1 , Figure 2. MAX3612 EV Kit Schematic 4â''â'' _ L19 R10 L20 4.7uH 150â"¦ 1% FERRITE BEAD L22 L21 R12 4.7uH 150â"¦ 1% FERRITE BEAD C5 0.1uF C6 0.1uF C7 0.1uF C8 0.1uF C9 0.1uF Microsemi
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MAX3612EVKIT TAJB336K010R
Abstract: CONSTRUCTION Max.1.0 5 3. .4 3 2 3 2. 6. 9 2 0 1. 4 1. 1 4 ( 4.7µH - 22µH ) BOTTOM , CONSTRUCTION Max. 1.5 5 3. .4 3 2 3 2 6. .9 2 0 1. 1. 4 1 4 ( 4.7µH - 47µH , CONSTRUCTION 6 4. .5 5 Max. 1.2 2 3 ( 4.7µH - 47µH ) 4 7. .1 3 1. 5 1. 9 1 4 , ( 4.7µH - 22µH ) ( 33µH - 100µH ) ( 4.7µH - 100µH ) BOTTOM VIEW 80 POWER INDUCTORS , 15µ 22µ 33µ 47µ 100kHz 100kHz 100kHz 4.7µH ­ 22µH ± 30% (N) 3.3µH ­ 33µH ± 30% (N) 4.7µH ­ 47µH ± 30 Sumida
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CLS4D09 CLS4D11 CLS4D14 CLS5D11 CLS5D14 CLSD4D09

LLB2520

Abstract: FSLB2520-100K inductance range from 1 to 47µH. ! Low DC resistance, about half of TOKO's LLM 2520 type with same package , 1 47µH. ! LLM2520 1/2 ! ! ! ELECTRICAL CHARACTERISTICS / ! Inductance range , decrease by current 1.0µH 4.7µH 10µH 47µH Indutance (H) 100 10 1 0.1 1 10 100 1000 DC current (mA) LLB2520 Inductance vs Frequency 1.0µH 4.7µH 10µH 47µH , characteristics (Drift) Drift L/L (%) 1.0µH 4.7µH -40 10µH 25 47µH 4% 3% 2% 1% 0% -1%
TOKO
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FSLB2520-100K FSLB2520-150K FSLB2520-1R0M FSLB2520-1R5M FSLB2520-2R2M FSLB2520-3R3M FSLB2520-330K FSLB2520-470K TR6871

47uH

Abstract: CBC3225T4R7M CBC3225T4R7MR CBC3225T100MR CBC3225T220MR CBC3225T470MR CBC3225T101MR 1.0µH +/-20% 2.2µH +/-20% 4.7µH +/-20% 10µH +/-20% 22µH +/-20% 47µH +/-20% 1.0µH +/-20% 2.2µH +/-20% 4.7µH +/-20% 10µH +/-20% 22µH +/-20% 47µH +/-20% 100µH +/-20% 1.0µH +/-20% 2.2µH +/-20% 4.7µH +/-20% 10µH +/-20% 22µH +/-20% 47µH +/-20% 100µH +/-20% 220µH +/-20% 470µH +/-20% 1.0µH +/-20% 2.2µH +/-20% 4.7µH +/-20% 10µH +/-20% 22µH +/-20% 47µH +/-20% 100µH +/-20% Maximum Rated Current (mA) 700mA 530mA 360mA
Taiyo Yuden
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CBC2012T1R0M CBC2012T2R2M CBC2012T4R7M CBC2012T100M CBC2012T220M CBC2012T470M 47uH CBC3225T4R7M 4.7uh cbc3225

33uH

Abstract: 0.47uH 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 100 1000 DC current(mA) Frequency (MHz) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 0.35µH 2.2µH 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 002-02 / 20080701 / c531_glfr1608.fm , 1 0.35µH 2.2µH 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH , 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 002-02
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GLFR1608 GLFR1608T1R0M-LR GLFR1608T2R2M-LR GLFR1608T3R3M-LR GLFR1608T100M-LR 33uH 0.47uH 100UH 68uH glfr1608tr47mlr C/120 2002/95/EC GLFR1608TR35M-LR GLFR1608TR47M-LR GLFR1608TR55M-LR

100uH inductor

Abstract: inductor 100uH : 81% 47µH s Twice the Output Current as the Single Cell Pin-to-Pin Compatible MAX1642/3 , current if a lower value of inductor is selected. SP6642/6643 Applications Schematic ­ 47µH Inductor , Current Application Comparing efficiencies, the 47µH is less efficient than the 100uH at the maximum , SP6642/3 from 100µH to 47µH will increase the peak inductor current by 2 times from about 250mA to , the time constant for charge in the inductor. Since L changes by 1/2 from 100µH to 47µH, the DC
Sipex
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SP6642 SP6642EU SP6643EU SP6642UEB 100uH inductor inductor 100uH 4.7uH inductor Sumida 4.7uH CD54-470 SP6642/6643APN/02

LQM21F

Abstract: LQM21FN100M70p Inductance 22µH±30% 47µH±30% 4.7µH±20% 10µH±20% Test Frequency 1MHz 1MHz 1MHz 1MHz Rated , % 22µH±30% 47µH±30% 1.0µH±30% 2.2µH±30% 4.7µH±30% 10µH±30% Test Frequency 1MHz 1MHz 1MHz 1MHz 1MHz 1MHz 1MHz , 1.25±0.2 (in mm) (in mm) Dimension of t Inductance : 1.0 to 10µH 0.85±0.2 Inductance : 22 to 47µH 1.25±0.2 Dimension of t Inductance : 1.0 to 2.2µH 0.85±0.2 Inductance : 4.7 to 47µH 1.25±0.2 I , ) *2: only LQM21D (22 to 47µH)/LQM21F (4.7 to 47µH) (in mm) I Rated Value (p: packaging code
muRata
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LQM21F LQM21D/LQM21F LQM21DN1R0N00 LQM21DN2R2N00 LQM21DN4R7N00

LT8580

Abstract: 3.24 1.5V 3.22 1V 3.2 0 50 100 150 (mA) L=47uH 200C=47uH 250 Vout=3.3V 4 of 9 LT8580 (%) 88 86 84 82 80 78 76 3V 2.5V L=47uH C=2*47uH Vout=3.3V 1.5V 2V 1V 0 50 100 150 200 250 300 350 (mA) 200 (mV) 3V 150 2.5V 2V 100 50 L=47uH C=47uH Vout=3.3V 1.5V 1V 0 0 50 100 , 80 60 1.5V 40 L=47uH C=2*47uH Vout=3.3V 1V 20 0 0 50 100 150 200
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260KH 400KH 950TYP 700REF 037TYP 028REF
Abstract: 2. 4V, L1 = SUMIDA 47µH) VIN = 1.5V VIN = 2.0V 100 EFFICIENCY (%) 60 50 VIN = 1.2V VIN = 0.85V 20 70 VIN = 1.2V 60 VIN = 0.85V 50 40 10 L1 = 47µH SUMIDA CD43-470 R1 = 200kâ"¦, R2 = 200kâ"¦ 10 0.1 1 10 VIN = 0.85V 40 L1 = 47µH TDK , = 3. 3V, L1 = SUMIDA 47µH) EFFICIENCY vs. LOAD CURRENT (VOUT = 3. 3V, L1 = TDK 47µH) 100 , 47µH SUMIDA CD43-470 FB = GND 10 0.01 0.1 1 10 VIN = 1.2V VIN = 0.85V 40 20 Maxim Integrated Products
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MAX1678EUA

SCDS104R

Abstract: SCDS127 47uH 50 50 47uH 10uH 10uH 0 0 1 10 100 1000 10000 100000 , 180uH 200 300 L(uH) L(uH) 150 180uH 200 100uH 100 100uH 100 47uH 50 47uH , 220uH 200 100 47uH 100 47uH 10uH 0 10uH 0 0 1 10 100 1000 10000 , ) L(uH) 4.7uH 4 4.7uH 4 2 2 1.2uH 1.2uH 0 0 1 10 100 1000
Chilisin Electronics
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HP4291A SCDS62 SCDS104R SCDS127 SMD 330uH 220UH SCDS64 SCDS73 SCDS74

SCDS104R

Abstract: SCDS127 47uH 50 50 47uH 10uH 10uH 0 0 1 10 100 1000 10000 0 100000 , L(uH) L(uH) 150 180uH 200 100uH 100 100uH 100 47uH 50 47uH 0 1 10 , . FREQUENCY CHARACTERISTICS 300 400 220uH 300 L(uH) L(uH) 200 220uH 200 100 47uH 100 47uH 10uH 0 10uH 0 0 1 10 100 1000 10000 2 4 6 8 10 , ) 4.7uH 4 4.7uH 4 2 2 1.2uH 1.2uH 0 0 1 10 100 1000 FREQUENCY (KHz
Chilisin Electronics
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SCDS104R-220M-N SCDS124 470UH SCDS125
Abstract: QB1 36 35 34 33 32 L10 L9 R5 4.7uH 150â"¦ 1% FERRITE BEAD QB_TERM 31 30 29 28 27 26 25 S11 VCC S12 DC1 VCC DC0 L14 L13 R7 4.7uH 150â"¦ 1% FERRITE BEAD QA_TERM1 , S18 S20 QA_TERM2 QC_TERM S19 S21 L19 R10 L20 4.7uH 150â"¦ 1% FERRITE BEAD L22 L21 R12 4.7uH 150â"¦ 1% FERRITE BEAD S13 C5 0.1uF C6 0.1uF C7 0.1uF C8 0.1uF C9 , QA0 J13 L23 R15 L24 4.7uH 150â"¦ 1% FERRITE BEAD QA1 C15 J14 0.1uF C16 0.1uF QA1 Microsemi
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MAX3636 MAX3636EVKIT

GLCR2012

Abstract: GLCR2012T100M-HC 100 100µH 47µH Inductance(µH) Inductance(µH) 100 22µH 10µH 10 4.7µH 2.2µH 47µH 22µH 10 10µH 4.7µH 2.2µH 1 1.0µH 1 100µH 0.1 0.1 1 10 0.1 100 , decreasing rate(%) ­5 10000 Impedance() 100µH 47µH 1000 22µH 100 10µH 4.7µH 2.2µH 1.0µH 10 ­10 100µH 47µH ­15 ­20 22µH ­25 10µH ­30 4.7µH 2.2µH ­35 ­40 ­45
TDK
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GLCR2012 GLCR2012T100M-HC GLCR2012T101M-HC GLCR2012T1R0M-HC 012T2R2M-HC GLCR2012T4R7M-HC GLCR2012T220M-HC GLCR2012T470M-HC

GLCR2012T4R7M-HC

Abstract: GLCR2012T470M-H 10 100 0.1 1 10 Frequency (MHz) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 100 1000 DC current(mA) 3.3µH 22µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH · All specifications are subject to change , ­35 ­40 ­45 1 0.1 1 10 100 ­50 1 10 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH 100 1000 DC current(mA) Frequency (MHz
TDK
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GLCR2012T470M-H

GLFR2012T100M-LR

Abstract: GLFR2012T1R0M-LR 10 100 0.1 1 10 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH 100 1000 DC current(mA) Frequency (MHz) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH · All specifications are subject to , ) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 100 1000 DC current(mA) 3.3µH 22µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH
TDK
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GLFR2012 GLFR2012T100M-LR GLFR2012T1R0M-LR 6.8uH GLFR2012T330M-LR GLFR2012T4R7M-LR

L34 ferrite beads

Abstract: MAX3638 L10 L9 R5 4.7uH 150 1% FERRITE BEAD QB_TERM 31 30 29 28 27 26 25 S11 VCC S12 DC1 VCC DC0 L14 L13 R7 4.7uH 150 1% FERRITE BEAD QA_TERM1 VCC QA_CTRL1 VCC QA_CTRL2 , S19 S21 L19 R10 L20 4.7uH 150 1% FERRITE BEAD L22 L21 R12 4.7uH 150 1% FERRITE BEAD , J7 QB0 J8 QB0 J9 QA0 C10 J11 0.1uF C14 0.1uF QA0 J13 L23 R15 L24 4.7uH 150 1 , J17 VCC QC_CTRL QC J22 QC J23 C35 0.1uF C36 0.1uF L26 L25 R16 4.7uH 150 1
Maxim Integrated Products
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MAX3638 L34 ferrite beads MAX3638ETM EXS00A J2-C12 BLM15HD102SN1 SMAX3638 MAX3638EVKIT

CD43-470

Abstract: LQH3C470K SUMIDA 47µH) VIN = 1.5V VIN = 2.0V 100 EFFICIENCY (%) 60 50 VIN = 1.2V VIN = 0.85V 20 70 VIN = 1.2V 60 VIN = 0.85V 50 40 10 L1 = 47µH SUMIDA CD43-470 R1 = 200k, R2 = 200k 10 0.1 1 10 VIN = 0.85V 40 L1 = 47µH TDK NLC453232T-470K R1 = 200k, R2 , . LOAD CURRENT (VOUT = 3.3V, L1 = 22µH) EFFICIENCY vs. LOAD CURRENT (VOUT = 3.3V, L1 = SUMIDA 47µH) EFFICIENCY vs. LOAD CURRENT (VOUT = 3.3V, L1 = TDK 47µH) 100 100 VIN = 1.2V VIN = 0.85V 40
Maxim Integrated Products
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MAX1678 LQH3C470K 47UH 200MA CD43-220 1381 voltage detector TDK 47uh TDK 4.7uh

CDPH4D19F

Abstract: CDRH10D43F . 5. 9M 5. AX . 3. 0 6 DIMENSIONS (mm) CDPH4D19F 1. 8 1 2. ( 3.3µH - 47µH , ( 4.7µH - 33µH ) PROVI SIONA L DIMENSIONS (mm) LAND PATTERNS (mm) CONSTRUCTION , 5.5MAX. 8 3. ( 2.2µH - 47µH ) DIMENSIONS (mm) LAND PATTERNS (mm) CONSTRUCTION , 2.8MAX. 7.0MAX. AX . NEW ( 4.7µH ) SIONA L DIMENSIONS (mm) LAND PATTERNS (mm , 5.0 ( 4.7µH - 33µH ) PROVI SIONA L < POWER INDUCTORS SMD Type > TYPE
Sumida
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CDRH4D16FB CDRH6D26FB CDRH10D43F 267m CDRH5D16F/LD

MBR0503

Abstract: 180uH Configuration L1 4.7µH VIN +2.7V to +4.7V VC CR2 C4 1N4148 0.1µF C2 10µF 25V 1 5 , Inductor Selection Guides 40 200 3.9µH VIN = 2.5V 4.7µH VIN = 3.3V Use for Li-ion battery 4.7µH 100 10µH 12µH 10 15µH 18µH 22µH 15µH 18µH 27µH 22µH 33µH 33µH MAX. OUTPUT CURRENT (mA) MAX. OUTPUT CURRENT (mA) 27µH 39µH 47µH 56µH 68µH 82µH 100µH 120µH 1 150µH 10 39µH 47µH 56µH 68µH 82µH 100µH 120µH 150µH 180µH 220µH 180µH 220µH 0.1 0
Micrel Semiconductor
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MIC2141 MIC2141-BM5 MBR0503 180uH BAT54 MBR0530 datasheet bat54 40v diode 1n4148

MBR0503

Abstract: MB0530 Configuration L1 4.7µH VIN +2.7V to +4.7V VC CR2 C4 1N4148 0.1µF C2 10µF 25V 1 5 , Inductor Selection Guides 200 40 3.9µH VIN = 2.5V 4.7µH VIN = 3.3V Use for Li-ion battery 4.7µH 100 10µH 12µH 10 15µH 18µH 22µH 15µH 18µH 27µH 22µH 33µH 33µH MAX. OUTPUT CURRENT (mA) MAX. OUTPUT CURRENT (mA) 27µH 39µH 47µH 56µH 68µH 82µH 100µH 120µH 1 150µH 10 39µH 47µH 56µH 68µH 82µH 100µH 120µH 150µH 180µH 220µH 180µH 220µH 0.1 0
Micrel Semiconductor
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MB0530 BAT54HT1 pin diode do34 CR32 MIC2142 103MA

JMK316BJ226

Abstract: TPS62220DDC minimum inductor value should be kept at 4.7µH. Selecting a larger output capacitor value is less
Texas Instruments
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TPS62220 TPS62221 TPS62222 TPS62223 TPS62224 TPS62228 JMK316BJ226 TPS62220DDC Taiyo Yuden LBC2518 4R7

MCR03PZPZD7502

Abstract: mcr03pzpz 10µF 4.7µH 10S × 6P 2.2µF/50V 1µF FAILFLAG SW SW VBAT VBAT 10k 1M VDET 26.7k , (Example 1) In case of, VIN=6.0V, L=4.7µH, fsw=1.25MHz, VOUT=39V, IOUT=80mA, Efficiency=85% Ipeak = (6.0V / 4.7µH) × (1 / 1.25MHz) × (1-(6.0V / 39V) =0.86A Iave = (39V × 80mA / 6.0V) / 85% = 0.61A 1/2 Ton = (0.61A × (1-6.0V / 39V) × (1 / 1.25MHz) × (4.7µH /6.0V) × 2) = 0.81µs (1-VIN/VOUT) × (1/fsw)=0.68µs < Ton Peak current = 0.68A/2+0.61A = 1.04A (Example 2) In case of, VIN=12.0V, L=4.7µH, fsw=1.25MHz, VOUT
ROHM
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MCR03PZPZD7502 mcr03pzpz MCR03PZPZD2202 GRM188B31A225K 4.5V to 100V input regulator 2959M BD6590MUV 11040EBT14 MAX30 VQFN024V4040 R1120A

2A132

Abstract: 4.5V to 100V input regulator 10µF 4.7µH 10S × 6P 2.2µF/50V 1µF FAILFLAG SW SW VBAT VBAT 10k 1M VDET 26.7k , (Example 1) In case of, VIN=6.0V, L=4.7µH, fsw=1.25MHz, VOUT=39V, IOUT=80mA, Efficiency=85% Ipeak = (6.0V / 4.7µH) × (1 / 1.25MHz) × (1-(6.0V / 39V) =0.86A Iave = (39V × 80mA / 6.0V) / 85% = 0.61A 1/2 Ton = (0.61A × (1-6.0V / 39V) × (1 / 1.25MHz) × (4.7µH /6.0V) × 2) = 0.81µs (1-VIN/VOUT) × (1/fsw)=0.68µs < Ton Peak current = 0.68A/2+0.61A = 1.04A (Example 2) In case of, VIN=12.0V, L=4.7µH, fsw=1.25MHz, VOUT
ROHM
Original
2A132
Abstract: L10 L9 R5 4.7uH 150 1% FERRITE BEAD QB_TERM 31 30 29 28 27 26 25 S11 VCC S12 DC1 VCC DC0 L14 L13 R7 4.7uH 150 1% FERRITE BEAD QA_TERM1 VCC QA_CTRL1 VCC QA_CTRL2 , S19 S21 L19 R10 L20 4.7uH 150 1% FERRITE BEAD L22 L21 R12 4.7uH 150 1% FERRITE BEAD , J7 QB0 J8 QB0 J9 QA0 C10 J11 0.1uF C14 0.1uF QA0 J13 L23 R15 L24 4.7uH 150 1 , J17 VCC QC_CTRL QC J22 QC J23 C35 0.1uF C36 0.1uF L26 L25 R16 4.7uH 150 1 IXYS
Original
IXD2140 IXD2140A IXD2140C
Abstract: 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 100 1000 DC current(mA) Frequency (MHz) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 0.35µH 2.2µH 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 002-02 / 20080701 / c531_glfr1608.fm , 1 0.35µH 2.2µH 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH , 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 002-02 Microsemi
Original
MAX3637 MAX3637EVKIT
Abstract: 34 33 32 L10 L9 R5 4.7uH 150 1% FERRITE BEAD QB_TERM 31 30 29 28 27 26 25 S11 VCC VCC S12 DC1 DC0 L14 L13 R7 4.7uH 150 1% FERRITE BEAD QA_TERM1 VCC QA_CTRL1 , QA_TERM2 QC_TERM S19 S21 L19 R10 L20 4.7uH 150 1% FERRITE BEAD L22 L21 R12 4.7uH 150 1 , 4.7uH 150 1% FERRITE BEAD QA1 C15 J14 0.1uF C16 0.1uF QA1 J15 QA2 C22 J16 0.1uF C29 , 4.7uH 150 1% FERRITE BEAD R19 499 1% S17 QCC J21 QA_TERM1 L15 R8 L16 4.7uH 150 1 Microsemi
Original
MAX3639 MAX3639EVKIT
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