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381LX103M035J052 Cornell Dubilier Electronics Inc CAP,AL2O3,10MF,35VDC,20% -TOL,20% +TOL visit Digikey Buy
380LX103M080A052 Cornell Dubilier Electronics Inc CAP,AL2O3,10MF,80VDC,20% -TOL,20% +TOL visit Digikey Buy
36DY103F040AM2B Vishay Sprague CAP,AL2O3,10MF,40VDC,10% -TOL,50% +TOL visit Digikey Buy
EKMH160VSN103MP30T United Chemi-Con Inc Cap,Al2O3,10mF,16VDC,20% -Tol,20% +Tol visit Digikey Buy
ELXZ100ELL103ML40S United Chemi-Con Inc Cap,Al2O3,10mF,10VDC,20% -Tol,20% +Tol visit Digikey Buy
ESMH800VNN103MA50T United Chemi-Con Inc Cap,Al2O3,10mF,80VDC,20% -Tol,20% +Tol visit Digikey Buy

capacitor 10MF

Catalog Datasheet MFG & Type PDF Document Tags

capacitor 10MF

Abstract: capacitor 10mf 16v Bill of Materials for the NCP 1450 Bipolar Transitor 3.0V Demonstration Board h 8/28/2003 Designator Quantity IC2 D2 Q2 C5 C4 C6 Cb Rb L2 1 1 1 1 1 1 1 1 1 Description Value PWM Step-up DC-DC controller 3.0 V Schottky Power Rectifier Bipolar Power NPN 3A 30V Low Profile Tantalum Capacitor 10mF / 16V Low ESR Tantalum Capacitor 220mF / 6V 0603 SMD Ceramic Capacitor 0.1mF / 16V 0603 SMD Ceramic Capacitor 3000pF / 16V Chip Resistor 1/8W 560 Power Inductor 10uH/1.7A
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capacitor 10mf 16v

Abstract: capacitor 10MF O SMT 0.5-5 pF G K U Trimmer Capacitor C A P A CH IP 3.9 pF 15 nF Chip Capacitor 0805 ELECTRO U TIC CAPACITOR 10MF 16V R E S IS T O R U 2 X 27011 1/2 W 0.57 for C lass B Operation T E F L O N G L A S S 1 5 0
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capacitor 10MF

Abstract: NA TSOPâ'5 UDFN ON Semiconductor NCP1522B NCP1522BU C1 1 Ceramic capacitor 4.7mF, 10V, X5R 10% 0805 TDK C1608X5R1A475 C2 1 Ceramic capacitor 10mF, 6.3V, X5R 10% 0603 TDK C1608X5R0J105 C3 1 Ceramic capacitor 18pF, 50V, COG 5
ON Semiconductor
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capacitor 10MF NCP1522BUGEVB EVBUM2105/D
Abstract: = High frequency supply decoupling capacitor (0.1- jjF recommended). C5= Com m on supply low frequency decoupling capacitor (10-mF tantalum recommended). Xtal Connection or Reference Input Xtal , negate its decoupling capability. The 10- jj.F decoupling capacitor shown should be a tantalum type , capacitor should be placed as close to the V dd P'n as possible, otherwise the in- Figure 5 shows a -
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17U97

capacitor 10MF

Abstract: Pin, VDD/2 Normally connected to VSS with a 0.1mF ceramic capacitor in parallel with a 10mF , a signal ground of this chip. An electrolytic capacitor 10mF parallel with a 0.1mF ceramic capacitor , capacitor, especially 0.1µF ceramic capacitor for high frequency should be placed as near to VDD and VREF , supplied from analog supply and should be separated from system digital supply. Decoupling capacitor, especially 0.1mF ceramic capacitor for high frequency should be placed as near to VDD as possible. 2
Asahi Kasei Microsystems
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AK4380 MS0018-E-00

PC MOTHERBOARD CIRCUIT diagram SCHEMATICS

Abstract: GRM188R71H104KA93D 3 5 10mF C5, C6, C7, C8, C9 Ceramic chip capacitor, 10mF 10V ±10%, X7R 1206 , . 7 6 External Gain Capacitor Socket Configuration for the DUT Board , ) Integration Capacitor (Nominal) CINT (pF) â'"0.2 to 50 37.5 (internal) â'"0.8 to 200 50.0 , capacitor socket locations are included on the DDC112EVM DUT board to allow for optional input circuits and , C13 C12 P17 P18 DDC112 (DUT) Figure 6. External Gain Capacitor Socket Configuration for
Texas Instruments
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PC MOTHERBOARD CIRCUIT diagram SCHEMATICS SLAU234A DDC11 DDC114 DDC114EVM DDC112U SBAS085

hcpl 7806

Abstract: CPOL-EUE5-10 Electrolytic Capacitor 10mF/35V 20% CPOL-EUE2.5-6 Rubycon 50 MH710M 6.3x7 C5, C30, C42 3 , bootstrap circuitry, requiring an external high-voltage diode for the capacitor refueling path. The device , voltage on the bulk capacitor falls outside of the desired operating range, the controller drive output , bridge rectifier B1 is used to rectify the input AC line voltage. Capacitor C5 filters the high , regulation loop bandwidth is limited by the capacitor C22. The sensitivity of the zero current detection
ON Semiconductor
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hcpl 7806 CPOL-EUE5-10 CPOL-EUE2-5 R-EU_M1206 C-EUC1206 working of ic1 7806 AND8293/D NCP1396A NCP1605 NCP1027
Abstract: external 1-mF ceramic capacitor (minimum) to GND. Output terminal to the charging system. Battery voltage , Output power pin for power input of host charger controller. Connect an external ceramic bypass capacitor (1.0-mF minimum) to GND. Ground terminal There is an internal electrical connection between the exposed , parasitic inductance of the adapter cable and the input bypass capacitor form a resonant circuit. Once the , voltage from spiking up due to resonance between the inductance of the input cable and the input capacitor Texas Instruments
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SLUSA62A ISO/TS16949

avago application bulletin 1038

Abstract: Venkel CR0805 10W capacitor 0.1mF ±10% 50V X7R 8 C2, C3 2 Monolithic ceramic radial lead capacitor 0.01mF ±10% 50V X7R 9 C51 Monolithic ceramic radial lead capacitor 4.7pF ±10% 50V COG 10 C101 Monolithic ceramic radial lead capacitor 0.047mF ±10% 50V X7R 11 C171 Monolithic ceramic radial lead capacitor 56pF ±10% 50V COG 12 C6, C7, C16 Tantalum radial lead capacitor 10mF ±20% 10V 3 13 , large 10 µF electrolytic capacitor and a 0.1 µF monolithic-ceramic capacitor should be located as
Avago Technologies
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HFBR-0400Z HFBR-14X4Z HFBR-24X6Z HFBR-4663 HFBR-1414Z PE-65728 avago application bulletin 1038 Venkel CR0805 10W HFBR0400Z HFBR-0414Z DT1608-472XMBC MBRS120T3
Abstract: . Connect an external 1-mF ceramic capacitor (minimum) to GND. OUT 7,8 O Output terminal to the , Output power pin for power input of host charger controller. Connect an external ceramic bypass capacitor (1.0-mF minimum) to GND. GND 3 â'" Ground terminal Thermal PAD There is an internal , adapter cable and the input bypass capacitor form a resonant circuit. Once the soft-start sequence starts , to resonance between the inductance of the input cable and the input capacitor, Q1 is turned off Texas Instruments
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638V

Abstract: external 1-mF ceramic capacitor (minimum) to GND. Output terminal to the charging system. Battery voltage , Output power pin for power input of host charger controller. Connect an external ceramic bypass capacitor (1.0-mF minimum) to GND. Ground terminal There is an internal electrical connection between the exposed , parasitic inductance of the adapter cable and the input bypass capacitor form a resonant circuit. Once the , voltage from spiking up due to resonance between the inductance of the input cable and the input capacitor
Texas Instruments
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638V

TPS65171RHAR

Abstract: TPS65171 device and to place one 10mF input capacitor as close as possible to these pins. Another 10mF input , be increased. If it is not possible to place the 10mF capacitor close to the device, it is , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is , input capacitor selection. Table 2. Input Capacitor Selection CAPACITOR 10mF/16V 10mF/16V 10mF/16V , Converter) CAPACITOR 22mF/25V 10mF/25V 10mF/50V COMPONENT SUPPLIER Murata, GRM32ER61E226KE15 Murata
Texas Instruments
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TPS65171 TPS65171RHAR NTC 4.7K termistor marking r10 SOD capacitor 10mf 16v SLVSA22A

capacitor 10mf 16v

Abstract: Termistor NTC 1 K device and to place one 10mF input capacitor as close as possible to these pins. Another 10mF input , be increased. If it is not possible to place the 10mF capacitor close to the device, it is , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is , input capacitor selection. Table 2. Input Capacitor Selection CAPACITOR 10mF/16V 10mF/16V 10mF/16V , Converter) CAPACITOR 22mF/25V 10mF/25V 10mF/50V COMPONENT SUPPLIER Murata, GRM32ER61E226KE15 Murata
Texas Instruments
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Termistor NTC 1 K

TPS65171

Abstract: capacitor 47MF 50v device and to place one 10mF input capacitor as close as possible to these pins. Another 10mF input , be increased. If it is not possible to place the 10mF capacitor close to the device, it is , inductor is required. To minimize possible audible noise problems, one 10mF capacitor in parallel is , input capacitor selection. Table 2. Input Capacitor Selection CAPACITOR 10mF/16V 10mF/16V 10mF/16V , Converter) CAPACITOR 22mF/25V 10mF/25V 10mF/50V COMPONENT SUPPLIER Murata, GRM32ER61E226KE15 Murata
Texas Instruments
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capacitor 47MF 50v NTC 2.2K NTC 2,2k NTC 22K capacitor 47MF termistor 10k

irf 3025

Abstract: capacitor 10MF -15-10/89. COMPONENT C1 - C5 C6 C7.C8 L1 R1,R2,R3 Z1 r set DESCRIPTION 0.1 nF CERAMIC CAPACITOR 10mF , F capacitor. T his m eans th at the tim es, t 5 and t6, q uoted in th e tim ing characteristics are , connected to Iref - A 0.1 |xF ceramic capacitor must always be used to bypass this pin to VaaVoltage , capacitor. A 0.1 n-F ceramic capacitor must always be used to decouple this input to VAAReference amplifier , tion, to reduce the lead inductance. Best performance is obtained with a 0.1 (a-F ceramic capacitor
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irf 3025 BIT 3195 G BLT 3195 ADV478/ADV471 RS-343A/RS-170 ADV473 E1309-15-10/89 RPE112Z5U104M50V CSR13G1Q6KM
Abstract: as possible to the device. VIN INPUT BYPASS CAPACITOR 10mF x 2 VIN VIN HIGH FREQUENCY , capacitor between VBSTx and SWx pins. An internal diode is connected between VREG5 and VBSTx SW1, SW2 , with a high-quality ceramic capacitor of at least 1.0µF. VREG5 is active when ENx is high level , decade above the zero frequency. The inductor and capacitor selected for the output filter must be , inductance change and of 4.9A based on the temperature rise. The capacitor value and ESR determines the Texas Instruments
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TPS65581 SLVSC38
Abstract: as possible to the device. VIN INPUT BYPASS CAPACITOR 10mF x 2 VIN VIN HIGH FREQUENCY , ceramic capacitor between VBSTx and SWx pins. An internal diode is connected between VREG5 and VBSTx , regulator. Bypass to GND with a high-quality ceramic capacitor of at least 1.0µF. VREG5 is active when ENx , . The inductor and capacitor selected for the output filter must be selected so that the double pole of , the temperature rise. The capacitor value and ESR determines the amount of output voltage ripple. The Texas Instruments
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SLVSC38B
Abstract: as possible to the device. VIN INPUT BYPASS CAPACITOR 10mF x 2 VIN VIN HIGH FREQUENCY , circuit. Connect 0.1µF ceramic capacitor between VBSTx and SWx pins. An internal diode is connected , of 5.5V linear regulator. Bypass to GND with a high-quality ceramic capacitor of at least 1.0µF. , . The inductor and capacitor selected for the output filter must be selected so that the double pole of , the temperature rise. The capacitor value and ESR determines the amount of output voltage ripple. The Texas Instruments
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SLVSC38A

IEC-908

Abstract: AK4353 /2 and normally connected to AVDD with a 0.1mF ceramic capacitor. An electrolytic capacitor 10mF parallel with a 0.1mF ceramic capacitor attached to VCOM pin eliminates the effects of high frequency noise , . Large external capacitor is used to reduce power supply noise. Analog Ground Pin Analog Power Supply Pin
Asahi Kasei Microsystems
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AK4353 IEC-908 AKD4353 AK4353VF IEC958 CP1201 MS0016-E-00

TK11100CS

Abstract: tk11100 output voltage is stable with 0.22mF capacitor on the output side. Any kind of capacitor can be used. However, a good characteristic is shown the more overall larger this capacitor is. The over current , Rejection R.R 80 dB 1.27 V ppm /°C Cout=1.0mF, Cnp=0.01mF Cfb=100pF, Iout=30mA Cout=1.0mF, Cnp=0.01mF Cfb=100pF, Iout=10mA, f=1kHz Cout=1.0mF, Cnp=0.001mF Cfb=100pF Rise Time tr 40 ms , VoutTYP £ 13.0V *In the actual application, either ceramic or tantalum capacitor can be used for Cin
Asahi Kasei Microdevices
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TK11100CS tk11100 22mf capacitor capacitor 0.1m.f CM05B grm39 GC3-K027E
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