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Part Manufacturer Description Datasheet BUY
B82451L1005E402 TDK Epcos FIXED IND 10MH 104 OHM visit Digikey
4494-106 TR 250 API Delevan FIXED IND 10MH 160MA 5.25 OHM visit Digikey
8532-49H 480 TR API Delevan FIXED IND 10MH 120MA 23.4 OHM visit Digikey
8532R-49H 480 TR API Delevan FIXED IND 10MH 120MA 23.4 OHM visit Digikey
8532R-49K 480 TR API Delevan FIXED IND 10MH 120MA 23.4 OHM visit Digikey
8532-49L TR API Delevan FIXED IND 10MH 120MA 23.4 OHM visit Digikey

10mH+inductor

Catalog Datasheet MFG & Type PDF Document Tags
Abstract: Selection Guide E & E Magnetic Products Limited Power Inductors POWER INDUCTOR SELECTION , 06/07 Selection Guide E & E Magnetic Products Limited Power Inductors POWER INDUCTOR , Magnetic Products Limited Power Inductors POWER INDUCTOR SELECTION GUIDE (PLANAR-FERRITE TYPE , Package Permissible DC Current 55 8 POWER INDUCTOR SELECTION GUIDE (PLANAR-POWDER TYPE , Power Inductors POWER INDUCTOR SELECTION GUIDE (TOROID TYPE) Inductance EEMPL Series Number -
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PI015 inductor 100uH 10A 10mH miniature inductor miniature Inductor 10mH 100uH inductor 1A SISCDRH74 831-01868 PI109 PI044 UIS1608 PI002 PI009
Abstract: 6 RM10 Inductors · Inductance Range 10mH to 150mH · Temperature Range -20 to 120°C · Core Material Curie Temperature > 150°C DC Current mA. Single Inductor Current Capacity 700 600 500 400 300 200 100 0 1 10 12 15 18 22 27 33 39 47 56 68 82 100120 150 Inductance, mH Impedance (Z) Kilohms Single Inductor Frequency Response 1000 Impedance for 10mH Impedance for 22mH Impedance for 39mH , 47mH fixed single inductor with pinned bobbin. Other values & package styles available on request Crydom
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inductor 100mH inductor 150mh 10mH inductor RM10474S
Abstract: 4 RM6 Inductors · Inductance Range 180mH to 27mH DC Current mA. 800 700 600 500 400 300 200 100 0 Single Inductor Current Capacity 1 dc. mA. Rated 1 dc. mA. Saturation 10000 Impedance (Z) Kilohms 1000 100 10 1 0.1 5.6 6.8 0.1 0.4 Single Inductor Frequency Response Impedance for 0.68mH Impedance for 1.5mH Impedance for 2.7mH Impedance for 4.7mH Impedance for 10mH · Fixed or Tuneable up to , RM6F333S = RM5 3.3mH fixed single inductor with pinned bobbin. Other values & package styles available on Crydom
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6F333 7200F 15MH inductor current 0.8 mH RM6 CORE RM6 inductor
Abstract: RM6 Inductors â'¢ Inductance Range 180mH to 27mH â'¢ Temperature Range -20 to 120°C â'¢ Core Material Curie Temperature > 150°C 1 dc. mA. Rated 1 dc. mA. Saturation 700 DC Current mA. â'¢ Fixed or Tuneable up to 17% Single Inductor Current Capacity 800 600 500 400 , Impedance for 4.7mH Impedance for 10mH 1000 0.1 6.8 Single Inductor Frequency Response 10000 , 123 = 1.2mH 104 = 10mH Example RM6F333S = RM5 3.3mH fixed single inductor with pinned bobbin Crydom
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Abstract: RM10 Inductors â'¢ Inductance Range 10mH to 150mH 1 dc. mA. Rated 1 dc. mA. Saturation 600 DC Current mA. â'¢ Temperature Range -20 to 120°C â'¢ Core Material Curie Temperature > 150°C Single Inductor Frequency Response Single Inductor Current Capacity 700 500 400 300 200 1000 Impedance (Z) Kilohms 6 Impedance for 10mH Impedance for 22mH Impedance for 39mH , fixed single inductor with pinned bobbin. Other values & package styles available on request. rm10 Crydom
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150mh
Abstract: inherently stable. The required input/output capacitor and inductor selections will not create situations of instability. Inductor Selection Selecting a suitable inductor is an important consideration as it is usually a compromise situation between the output current requirements, the inductor saturation limit and the acceptable output voltage ripple. Lower values of inductor values can provide higher output currents but will suffer from higher ripple voltages and reduced efficiencies. Higher inductor values can Holtek
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Abstract: -3, TD-3 TE-2, TD-2 1 10 100 1000 10 10,000 INDUCTOR CURRENT IN mA x V INDUCTANCE IN mH TE-4, TD-4 1 1000 10.000 TE-5, TD-5 10 100 1000 INDUCTOR CURRENT IN mA x V INDUCTANCE IN mH www.vishay.com 58 100 INDUCTOR CURRENT IN mA x V INDUCTANCE IN mH 10,000 1 10 100 INDUCTOR CURRENT IN mA X For technical questions, contact Magnetics @ -
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110PPM/ 185PPM/ 50PPM/
Abstract: Bourns Surface Mount Power Inductor Capability Matrix Product Selection Guide Product Size (mm) Bourns Model No. Shielded Length SDR0503 SDR0602 SDR0603 SDR0604 SDR0805 SDR0906 SDR1005 SDR1006 SDR2207 SRR0603 SRR0604 SRR0804 SRR0805 SRR0906 SRR0908 SRR1003 SRR1005 SRR1205 SRR1206 SRR1208 Product Range Minimum and Maximum Values Non-Shielded 5.0 5.8 5.8 5.8 7.8 10.5 12.7 9.8 22.0 6.5 6.5 10.5 10.5 10.5 10.5 12.7 12.7 12.7 12.7 12.7 · · · · · · · Bourns
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SDR0503-153J SDR0604-1R0M SDR0806-103K 1R5M 5uH inductor 103K 2R2M SDR0503-100M SDR0602-2R7M SDR0602-561K SDR0603-1R5M SDR0603-471K
Abstract: INDUCTOR CURRENT IN mA x INDUCTANCE IN mH INDUCTOR CURRENT IN mA x INDUCTANCE IN mH TE-4, TD , EFFECT AC EFFECT Q4 1 10 100 1000 10,000 1 10 100 1000 INDUCTOR CURRENT IN mA x INDUCTANCE IN mH INDUCTOR CURRENT IN mA x INDUCTANCE IN mH www.vishay.com 58 For Vishay Dale
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200mh inductor
Abstract: INDUCTANCE CHANGE % INDUCTANCE CHANGE 0 - 25 Q4 10 100 INDUCTOR CURRENT IN mA x 1000 , INDUCTOR CURRENT IN mA x Q3 1000 10,000 INDUCTANCE IN mH TE-5, TD-5 Q0 DC EFFECT -5 - 10 Q4 Q3 - 15 - 20 DC EFFECT - 25 Q4 10 100 INDUCTOR CURRENT IN mA x , INDUCTOR CURRENT IN mA x Q3 1000 10,000 INDUCTANCE IN mH Document Number 34078 Revision 13 Vishay Dale
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100mh inductor design inductor 2mH MIL-T-27 TE 555
Abstract: Q0 DC EFFECT Q4 1 10 100 Q3 1000 10,000 Q4 1 10 100 Q3 1000 10,000 INDUCTOR CURRENT IN mA x INDUCTANCE IN mH INDUCTOR CURRENT IN mA x INDUCTANCE IN mH TE-4, TD-4 TE-5, TD-5 Q0 , Q4 1 10 100 1000 10,000 1 10 100 1000 INDUCTOR CURRENT IN mA x INDUCTANCE IN mH INDUCTOR CURRENT IN mA x INDUCTANCE IN mH www.vishay.com 58 For technical Vishay Dale
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Abstract: YAGEO CORPORATION SMD INDUCTOR / BEADS SMT Power Inductors SCDS Series CONFIGURATION AND DIMENSIONS Dimensions : mm SHAPES AND DIMENSION SCDS74 (10uH ~ 10mH) 7.3±0.2 SCDS125 (10uH ~ 1.0mH) 12.0±0.3 SCDS127 (10uH ~ 47mH) 12.0±0.3 4.6 6.6 4.6 6.6 6.6±0.3 1.8 3.4Max 5.0 7.3 7.3±0.2 7.3±0.2 SCDS73 (10uH ~ 1.0mH) 1.8 5.0 7.3±0.2 4.5Max 5.0 8.0Max 5.0 7.6 12.0±0.3 6.0Max 7.3 5.9±0.3 SMT power inductor formed by Yageo
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SCDS64B SCDS62B
Abstract: INDUCTOR CURRENT IN mA x INDUCTOR CURRENT IN mA x TE-4, TD-4 TE-5, TD-5 Q0 0 % INDUCTANCE , 100 1000 INDUCTANCE IN mH 10,000 1 10 100 1000 INDUCTANCE IN mH INDUCTOR CURRENT IN mA x INDUCTOR CURRENT IN mA x www.vishay.com 142 Document Number 34078 Revision 03 Vishay Dale
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TD5 437 Vishay TE2 20MH100 td-3 td3 700
Abstract: . The PFM control scheme is inherently stable. The required input/output capacitor and inductor selections will not create situations of instability. Inductor Selection Selecting a suitable inductor , requirements, the inductor saturation limit and the acceptable output voltage ripple. Lower values of inductor values can provide higher output currents but will suffer from higher ripple voltages and reduced efficiencies. Higher inductor values can provide reduced output ripple voltages and better Holtek
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Abstract: mH .077 332.OmH 100 .12 100.OmH 10 INDUCTOR CURRENT IN mA .009 MODEL TE , .OmH 100 â'" 2.OmH 10 INDUCTOR CURRENT IN mA x o - 5 -10 - - 15 -20 -2 5 1000 10,000 INDUCTOR CURRENT IN mA x V INDUCTANCE IN mH MODEL TE-5, TD-5 1.OmH 1.8 â , '" .003 20.OH â'" - 2400.0 â'" â'" .002 10,000 INDUCTOR CURRENT IN mA x -
OCR Scan
Abstract: Surface Mount Multilayer Inductor FEATURES · · · · 0805, 0806 AND 1008 CASE SIZES HIGH DC CURRENT AND LOW DC RESISTANCE REFLOW SOLDERING APPLICABLE PACKAGE FOR AUTOMATIC PICK-PLACE NFP Series , Inductor NFP0603 SERIES NIC P/N NFP0603NR47TR90F NFP0603NR47TR120F NFP0603NR68TR100F NFP0603N1R0TR95F , www.SMTmagnetics.com Specifications are subject to change Surface Mount Multilayer Inductor Solder Pads NFP , Specifications are subject to change 3 Surface Mount Multilayer Inductor CARRIER DIMENSIONS & REEL NIC Components
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NFP0805 NFP0806 NFP1008 NPF1008
Abstract: inductor selections will not create situations of instability. Inductor Selection Selecting a suitable inductor is an important consideration as it is usually a compromise situation between the output current requirements, the inductor saturation limit and the acceptable output voltage ripple. Lower values of inductor values can provide higher output currents but will suffer from higher ripple voltages and reduced eficiencies. Higher inductor values can provide reduced output ripple Holtek
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Abstract: switch pin and is connected to the internal MOSFET switches. Connect the inductor to this pin. Do not , 10V/Div 0.5 0.4 TA = 0°C 0.3 TA = 25°C Inductor current 200mA/Div TA = -40°C 0.2 , /Div IOUT 5mA to 200mA 200mA/Div Inductor current 200mA/Div Inductor current 200mA/Div , , 50mV/Div VIN = 12V L = 10 mH COUT = 2x 10 mF SW pin 10V/Div Inductor current 200mA/Div IOUT AC 10kHz 5mA to 200mA 200mA/Div Inductor current 200mA/Div ILoad = 1mA to 50mA 50mA Texas Instruments
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TPS62125 ISO/TS16949
Abstract: inductor saturation. VDD R9 10.0K R12 1.00K R11 3.32K R7 · R8 - 2R6 · R8 RD = = R8 · , switching losses. The inductor current should be kept as low as possible but no less than 79mA. The inductor, L1, was selected based on the largest standard value available with a 79mA rating or higher in a reasonably small package. L1 was selected to be a 10mH, 120mA inductor. The peak current for the inductor can be approximated with the following equation: VPP1 - VNN1 IPEAK = VPP1 VNN1 = Supertex
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pwm using XR-2206 XR-2206 IC XR-2206 pin diagram of XR 2206 XR-2206 DATASHEET Wien Bridge Oscillator AN-H37 HV440 62VRMS 40VRMS BAV99 BAS21
Abstract: =4.7mF/50V 1812 MLCC, C3=220pF/3kV 1808 MLCC, L1=10mH 0504 SMD Inductor P/N:PMT-047 24VDC input: C1=4.7mF/100V 1812 MLCC, C3=220pF/3kV 1808 MLCC, L1=12mH 0504 SMD Inductor P/N:PMT-062 48VDC input: C1=4.7mF/100V 1812 MLCC, C3=220pF/3kV 1808 MLCC, L1=10mH 0504 SMD Inductor P/N:PMT-047 7. An external input , 1812 MLCC 1808 MLCC Inductor PMT-047 PMC03- 4.7mF/50V 4.7mF/50V 220pF/3KV 12mH 0504 SMD 24xxxW 1812 MLCC 1812 MLCC 1808 MLCC Inductor PMT-062 PMC03- 4.7mF/100V 4.7mF/50V 220pF/3KV 18mH 0504 Powerbox
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PMC03W 5-18VDC 9-36VDC 18-75VDC 25VDC 50VDC
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