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68uH

Catalog Datasheet MFG & Type PDF Document Tags

GLFR2012

Abstract: GLFR2012T100M-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 100UH C/120 2002/95/EC

33uH

Abstract: 0.47uH (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 1.5µH 10µH 68µH 100 1000 DC current(mA) Frequency (MHz) 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
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GLFR1608 GLFR1608T1R0M-LR GLFR1608T2R2M-LR GLFR1608T3R3M-LR GLFR1608T100M-LR 33uH 0.47uH 68uH glfr1608tr47mlr 4.7uh GLFR1608TR35M-LR GLFR1608TR47M-LR GLFR1608TR55M-LR GLFR1608T1R5M-LR

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 , ) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH · All
TDK
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GLCR2012 GLCR2012T4R7M-HC GLCR2012T470M-H GLCR2012T100M-HC GLCR2012T1R0M-HC

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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6.8uH GLFR2012T330M-LR GLFR2012T4R7M-LR GLFR2012T100M

diagram Converter 24v to 12v

Abstract: voltage to current converter using LM358 -5.0BT FB VIN GND 1 C1 150µF 35V 5.0V/1A 68µH 4 D1 1N5819 3 C2 330µF 16V , FB VIN 2 L1 68µH 4 GND 3 D1 3.6V/1A R2 2.37k 1% R1 1.24k 1% C3 , Application Note 14. L1 3.3V/1A 2 5 68µH 8V to 24V C2 330µF 16V 4 D1 1N5819 C1 , Nichicon Nichicon Motorola Sumida Bi 2 5.0V/1A 68µH 4 D1 1N5819 C2 330µF 16V , 330µF 6.3V R1 1.50k 1% D1 3 L1 3.3V/1A R2 2.49k 1% 68µH 1 C1 150µF 35V
Micrel Semiconductor
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diagram Converter 24v to 12v voltage to current converter using LM358 charger on LM358 charge battery lm339 lm358 frequency duty cycle battery charger on LM358 MIC4575 LM2575 MIC4575BT LM358 LM3420 LM339

220uh

Abstract: 150UH CHARACTERISTICS 200 80 68uH 68uH 70 150 60 47uH 100 L(uH) L(uH) 50 47uH 40 , 150uH 140 500 120 400 100uH L(uH) L(uH) 100 300 68uH 80 60 200 150uH 40 100uH 100 20 68uH 0 0 1 100 10000 0 0.5 1 1.5 2 FREQUENCY , INDUCTANCE vs. IDC CHARACTERISTICS 470uH 500 800 450 470uH 400 600 Ls(u H) 350 68uH Ls(uH) 300 400 250 200 200 150 10uH 100 68uH 50 0 1 10 100 FREQUENCY
Chilisin Electronics
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HP4291A SCD0403 SCD0504 SCD0705 220uh 150UH 470UH 100uH SMD inductor 100uH SCD0703 SCD1004

LQH6PPN101M43

Abstract: LQH6PP % 3.3µH±30% 4.7µH±20% 6.8µH±20% 10µH±20% 15µH±20% 22µH±20% 33µH±20% 47µH±20% 68µH±20% 100µH±20% Rated , 68µH 47µH 33µH 22µH 15µH 10µH 6.8µH 4.7µH 3.3µH 2.2µH 1.5µH 1.0µH 1 I Inductance-Current Characteristics (Typ.) 100 100µH 68µH 47µH 33µH 22µH 15µH 10µH 6.8µH 4.7µH 3.3µH 2.2µH 1.5µH 1.0µH 100 , 68µH 47µH 30 Temperature Rise (°C) 15µH 22µH 10µH 6.8µH 4.7µH 33µH 20 10 3.3µH
muRata
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LQH6PPN101M43 LQH6PP LQH6PPN100M LQH6PPN1R0N43 LQH6PPN1R5N43 LQH6PPN2R2N43 LQH6PPN3R3N43 LQH6PPN4R7M43 LQH6PPN6R8M43

GLCR2012

Abstract: GLCR2012T100M-HC 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 , ) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH · All
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lm358 li ion charger circuit

Abstract: charge battery lm339 and similar microprocessors Typical Applications Shutdown Enable 68µH SHDN MIC4575 , Regulator Shutdown Enable 68µH SHDN MIC4575 +6V to +24V VIN CIN 150µF +3.6V, 1A SW , Nichicon Nichicon Motorola Sumida Bi 3.3V/1A 68µH 5 C2 330µF 16V L1 6V to 40V 1 , VIN C1 22µF 35V 2 L1 68µH 4 GND C3 3300pF C2 330µF 6.3V MBRS130LT3 C1 , Surface Mount 5.0V/1A 5 C2 330µF 16V 3.3V/1A R2 2.49k 1% R1 1.50k 1% D1 3 68µH
Micrel Semiconductor
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HM77-11003 lm358 li ion charger circuit MBR1603 1A current to 0-5v voltage converter using LM358 BATA7 9435 motorola RCH106-680K UPL1V151MPH UPL1C331MPH 1N5244 SP-1/2-A1-0R100J VN2222LL

TDK 47uh

Abstract: 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 0.35µH 2.2µH 15µH 100µH 10 10 1 , 100 1µH 6.8µH 47µH 1000 1.5µH 10µH 68µH · All specifications are subject to change without , 6.8µH 47µH 100 1.5µH 10µH 68µH ­50 1 0.35µH 2.2µH 15µH 100µH 10 DC current(mA) 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 100 1µH 6.8µH 47µH 1000 1.5µH 10µH 68µH · All specifications are
TDK
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TDK 47uh

33UH

Abstract: GLFR1608T2R2M-LR 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 0.1 1 10 100 1000 DC current(mA) 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 / j531_glfr1608.fm (3/3) - , 15µH 100µH 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH , 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 002-02 / 20080701
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GLFR1608T330M-LR GLFR1608T101M-LR 2.2uH J531 GLFR160 GLFR1608T4R7M-LR GLFR1608T6R8M-LR GLFR1608T150M-LR GLFR1608T220M-LR
Abstract: f = 6kHz -50 f = 1kHz -60 -20 -70 VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH , -100 0.001 f = 100Hz 0.01 0.1 VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH -30 -40 f = , = 3.7V GAIN = 12dB ZSPK = 8I + 68µH THD+N RATIO (dB) THD+N RATIO (dB) -20 0 , -90 -100 10 -30 -80 POUT = 500mW -90 -100 VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH , VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH -10 TOTAL HARMONIC DISTORTION PLUS NOISE vs Maxim Integrated Products
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MAX98356

GLFR1608T1R5M

Abstract: 22uH SMD 100 1000 DC current(mA) 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 · All , ) 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 · All specifications are subject to
TDK
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GLFR1608T1R5M 22uH SMD 47UH

150UH

Abstract: C12-K7.5L .5R 1µH 70~1170 0.38~2.60 0.42~1.75 C3-K1.5L 2.2µH 68µH 60~1050 0.14~0.85 0.26~1.10 1.8 C3-K1.8L 1.2µH 68µH 25~980 0.27~1.80 0.30~2.30 1.8 C4-K1.8R 1µH , (100µH) 4.6 4.6 1.5 68µH 47µH (100µH) CK Series 3.8 3.8 4.8 4.8 150µH (220µH , 68µH 25~980 0.27~1.80 0.30~2.30 4.0 4.0 C4-P1.8R 1.2µH 68µH 40~920 0.37~2.70 , 0.50~1.60 3.0 3.0 1.2 10µH 47µH 18µH 10µH 22µH 22µH 47µH 1.5 68µH
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C12-K7.5L c5-k3la MITSUMI transformers #220 500 C6-K5LA C8-H3.5R smd diode K7 C10-K3L C10-H3 C10-K4L C10-H5R C12-K4 C12-K7

0-12v variable power supply

Abstract: LM358 pinout GND 1 C1 150µF 35V 5.0V/1A 68µH 4 D1 1N5819 3 C2 330µF 16V Fixed , L1 2 68µH 4 GND 3 D1 3.6V/1A R2 2.37k 1% R1 1.24k 1% C3 3300pF C2 , design, refer to Application Note 14. L1 3.3V/1A 2 5 68µH 8V to 24V C2 330µF 16V , Sumida MIC4575-5.0BT FB VIN GND Nichicon Nichicon Motorola Sumida Bi 2 5.0V/1A 68µH , L1 3.3V/1A R2 2.49k 1% 68µH 1 C1 150µF 35V SHDN SW MIC4575-3.3BU FB VIN
Micrel Semiconductor
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0-12v variable power supply LM358 pinout motorola 1N4148 MIC4575WU Nichicon nichicon sp M9999-062105

CR32

Abstract: CR43 R1.0 Silk screen (BOTTOM VIEW) (1.0µH ­ 68µH) In order to prevent short-circuiting, a , 71.2m / 1.75 680 68µH 1.117 / 0.37 2R7 2.7µH 78.7m / 1.58 820 82µH 3R3 , 108.7m / 1.15 151 150µH 5R6 5.6µH 125.7m / 0.99 181 180µH 6R8 6.8µH 131.2m , ) CR32 1.0µH ­ 8.2µH (7.96MHz), 10µH ­ 68µH (2.52MHz) Tolerance of Inductance CR32 1.0µH ­ 27µH ± 20%(M), 33µH ­ 68µH ± 10% (K) Rated D.C. Current This indicates the value of current when the
Sumida
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CR32 CR43

220uh

Abstract: 470UH CHARACTERISTICS 200 80 68uH 68uH 70 150 60 47uH 100 L(uH) L(uH) 50 47uH 40 , 150uH 140 500 120 400 100uH L(uH) L(uH) 100 300 68uH 80 60 200 150uH 40 100uH 100 20 68uH 0 1 100 0 10000 0 0.5 1 1.5 2 FREQUENCY , INDUCTANCE vs. IDC CHARACTERISTICS 470uH 500 800 450 470uH 400 600 350 Ls(u H) 68uH Ls(uH) 300 400 250 200 150 200 10uH 100 68uH 50 0 1 10 100 FREQUENCY
Chilisin Electronics
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680uH smd 220uh Inductance 39uH SCD1005 SCDR105B

max98303

Abstract: MAX98303EWE 51 f = 217Hz 66 f = 1kHz 66 f = 10kHz 63 THD+N = 1%, f = 1kHz, RL = 8I + 68µH , 1.8 THD+N = 10%, f = 1kHz, VPVDD = 4.2V RL = 8I + 68µH VPVDD = 3.7V Total Harmonic Distortion , . FREQUENCY VPVDD = 4.2V ZLOAD = 8I + 68µH THD+N (%) POUT = 1.2W 0.1 VPVDD = 3.7V ZLOAD = 8I + 68µH POUT = 0.2W 1 THD+N (%) 1 10 POUT = 0.2W 1 THD+N (%) VPVDD = 5V ZLOAD = 8I + 68µH MAX98303 toc05 10 MAX98303 toc04 10 TOTAL HARMONIC DISTORTION PLUS NOISE vs
Maxim Integrated Products
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MAX98303EWE stereo 2W "amplifier class ab" W161B1

D585LC

Abstract: LT3682 EN/UVLO 2MHz LT3686A SYNC/MODE 6.8µH SW DA RT GND 22µF 10k 31.6k VOUT , 6.8µH f = 2MHz 20 10 0 200 800 1000 600 400 LOAD CURRENT (mA) 60 1.4 50 MODE , 6.8µH f = 2MHz 0.2 0 1200 0 10 20 VIN (V) 30 40 3686A G03 UVLO 4.0 800 , 75 DUTY CYCLE (%) 100 3686A G15 0 VOUT = 3.3V L = 6.8µH f = 2MHz 0 500 1000 LOAD , 3686A G20 200ns/DIV VIN = 10V VOUT = 3.3V L = 6.8µH f = 2MHz COUT = 22µF ILOAD = 200mA MODE
Linear Technology
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MBRM140 LT3682 LT3990 D585LC LTC DWG 16VIN LT3686 55V37V LT3689
Abstract: f = 6kHz -50 f = 1kHz -60 -20 -70 VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH , -100 0.001 f = 100Hz 0.01 0.1 VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH -30 -40 f = , = 3.7V GAIN = 12dB ZSPK = 8I + 68µH THD+N RATIO (dB) THD+N RATIO (dB) -20 0 , -90 -100 10 -30 -80 POUT = 500mW -90 -100 VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH , VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH -10 TOTAL HARMONIC DISTORTION PLUS NOISE vs Maxim Integrated Products
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L2 diode

Abstract: FS1J3 s TYPICAL CHARACTERISTICS 1) Output Voltage vs. Output Current Topt=25°C L1=6.8uH,C1 , =5.5V Output Voltage VOUT2(V) Output Voltage VOUT1(V) L2=6.8uH,C2=10uF, VOUT1=10V,IOUT1=0mA 10.05 , 50 100 150 200 0 Output Current IOUT1(mA) L1=6.8uH,C1=10uF, VOUT2=-10V,IOUT2=0mA -50 -100 -150 Output Current IOUT2(mA) L2=6.8uH,C2=10uF, VOUT1=10V,IOUT1=0mA R1280D002B , -100 Output Current IOUT2(mA) - 14 - -150 2) Efficiency vs. Output Current L1=6.8uH,C1
Ricoh
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R1280D002X R1280D002A L2 diode FS1J3 SON-10 VDTC1100 R1280D

470 uH inductors

Abstract: 12 uh 3A inductors 68µH 10.0: L 47µH 0.80 0.6: 33µHL 47µH 0.7: 6.8µH L 22µH 0.8: L 4.7µH, L 68µH CHARACTERISTICS LHB ·
KOA Speer Electronics
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470 uH inductors 12 uh 3A inductors 0 273 101 021 1r5 tube D-25578

40kHz

Abstract: 40 khz ultrasonic speaker 1kHz f = 100Hz 0.01 0.1 1 10 f = 6kHz VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH MAX98356 toc05 0 -10 -20 THD+N RATIO (dB) -30 -40 -50 -60 -70 -80 -90 VDD = 3.7V GAIN = 12dB ZSPK = 8I + 68µH 0 -10 -20 THD+N RATIO (dB) -30 -40 -50 -60 -70 -80 -90 VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH 0 f , POUT = 150mW POUT = 850mW 10 100 1k FREQUENCY (Hz) 10k 100k VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH , ZSPK = 8I + 68µH 0 -10 -20 THD+N RATIO (dB) -30 -40 -50 -60 -70 -80 -90 -100 VDD = 4.2V GAIN =
Maxim Integrated Products
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40kHz 40 khz ultrasonic speaker 40KHZ ULTRASONIC Power max9835

1SS404

Abstract: C2012JB1E105K V 3 VIN IOVD 3.6 V 6.8µH 1.0 µF 7. *1:P2 14 2007-06-22 TB62737FUG , Current 3LED Drive, L=6.8µH Input Voltage - Efficiency/Output Current 6LED Drive, L=10µH 90 30 , ) VIN = 2.8~5.5 V Input Voltage - Efficiency/Output Current 4LED Drive, L=6.8µH 80 70 20 , Input Voltage - Efficiency/Output Current 3LED Drive, L=6.8µH 3.4 3.7 4 4.3 VIN(V) 4.6 , V Input Voltage - Efficiency/Output Current 4LED Drive, L=6.8µH 80 20 70 IOUT IF
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CUS02 NSCW215T 1SS404 C2012JB1E105K C2012JB1E225K CXLD120 RK73B1ETBK

ser2900

Abstract: SER2817H-153KL 8I + 68µH -30 -40 -50 f = 6kHz -60 -70 f = 1kHz -80 f = 100Hz -90 -90 -100 -20 VDD = 4.2V GAIN = 12dB ZSPK = 8I + 68µH THD+N RATIO (dB) -30 -10 MAX98355A/B toc04 VDD = 3.7V GAIN = 12dB ZSPK = 8I + 68µH THD+N RATIO (dB) THD+N RATIO (dB , -40 -80 POUT = 350mW -90 -30 VDD = 5V GAIN = 12dB ZSPK = 8I + 68µH -10 THD+N , ZSPK = 8I + 68µH -10 0 MAX98355A/B toc10 VDD = 3.7V GAIN = 12dB ZSPK = 8I + 68µH -20
Coilcraft
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SER2800 SER2814L-152KL SER2814H-222KL SER2814L-222KL SER2817H-332KL SER2814H-332KL ser2900 SER2817H-153KL SER2814H-103 SER2814L SER2814H SER2817H

SER2915L-103K

Abstract: SER2918H-223KL CHARACTERISTICS 1) Output Voltage vs. Output Current R1280D002A 10.10 Topt=25 C, L1=6.8µH, C1=10µF VOUT2=-10V, IOUT2=0mA R1280D002A -9.90 Topt=25 C, L2=6.8µH, C2=10µF VOUT1=10V, IOUT1=0mA Output Voltage VOUT1 , Current IOUT1(mA) Output Current IOUT2(mA) R1280D002B 10.10 Topt=25 C, L1=6.8µH, C1=10µF VOUT2=-10V, IOUT2=0mA -9.90 R1280D002B Topt=25 C, L2=6.8µH, C2=10µF VOUT1=10V, IOUT1=0mA Output Voltage , R1280D002A 90 80 70 VIN=3.3V, Topt=25 C, L1=6.8µH C1=10µF, VOUT2=-VOUT1, IOUT2=0mA 90 80 70 R1280D002A
Coilcraft
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SER2915L-103K SER2918H-223KL SER2915L SER2915H SER2918H SR-332 SER2915L-152KL SER2915H-222KL
Abstract: 3.3µH 22µH 0.55µH 4.7µH 33µH 1µH 6.8µH 47µH 1.5µH 10µH 68µH 0.35µH 2.2µH 15µH 100µH 10 10 1 , 100 1µH 6.8µH 47µH 1000 1.5µH 10µH 68µH · All specifications are subject to change without , 6.8µH 47µH 100 1.5µH 10µH 68µH ­50 1 0.35µH 2.2µH 15µH 100µH 10 DC current(mA) 0.47µH 3.3µH 22µH 0.55µH 4.7µH 33µH 100 1µH 6.8µH 47µH 1000 1.5µH 10µH 68µH · All specifications are Maxim Integrated Products
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MAX98355A/MAX98355B MAX98355A MAX98355B
Abstract: 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 , ) 1µH 6.8µH 47µH 1.5µH 10µH 68µH 2.2µH 15µH 100µH 3.3µH 22µH 4.7µH 33µH · All Ricoh
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R1280D002 EA-086-0408

XPL2010-682M

Abstract: XPL7030-682M 6.8µH, VOUT = 12V, ILOAD = 50mA 85 % VFB Feedback Voltage IFB Feedback Input Bias , i c s 7 Typical Operating Characteristics Parts used for measurments: 6.8µH (MOS6020 , - Block Diagram with Shutdown Disconnect Switch L1 6.8µH D1 7 Input Voltage 0.9V to 3.6V , voltage divider between pins VOUT and FB (see Figure 28). Figure 28. Typical Application L1 6.8µH 7 , between the pins VOUT and FB. (see Figure 29). Figure 29. LED Supply Application L1 6.8µH 7 VCC =
austriamicrosystems AG
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AS1310 XPL2010-682M XPL7030-682M AS1310-BTDT-20
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