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Part ECAD Model Manufacturer Description Datasheet Download Buy Part
LT3484EDCB-0#TRMPBF LT3484EDCB-0#TRMPBF ECAD Model Analog Devices Inc Photoflash Capacitor Charger Visit Analog Devices Inc
LT3484EDCB-2#TRPBF LT3484EDCB-2#TRPBF ECAD Model Analog Devices Inc Photoflash Capacitor Charger Visit Analog Devices Inc
LT1054IS8 LT1054IS8 ECAD Model Analog Devices Inc Switched Capacitor Regulator, PDSO8 Visit Analog Devices Inc
DC891A DC891A ECAD Model Analog Devices Inc Capacitor Charger Controller Visit Analog Devices Inc
LTC1044CS8#PBF LTC1044CS8#PBF ECAD Model Analog Devices Inc Switched Capacitor Voltage Converter Visit Analog Devices Inc
LT3484EDCB-0#TRPBF LT3484EDCB-0#TRPBF ECAD Model Analog Devices Inc Photoflash Capacitor Charger Visit Analog Devices Inc

36 MF CAPACITOR Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
2004 - 005-1764-MF

Abstract: 005-3160-MF E145088 005-2664-MF magnetek lighting capacitor 005-2664-mf Magnetek 005-4465-P aerovox capacitor Aerovox energy discharge capacitor aerovox lighting capacitor
Text: , Aerovox joined with Parallax Power Components capacitor operation located in Bridgeport CT (which Provident acquired from Magnetek in 2001). During 2003, Aerovox & Parallax capacitor operations were , . Z73P. Z74P. Z76P. T. Parallax # . MF . MF . MF . MF . RMF . RMF . RMF . P & PQ , unique manufacturing processes. Aerovox is actively involved in safety agency programs, capacitor , programs, reviewing customer requirements along with field-use analysis. Each Aerovox capacitor is


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PDF 2004-R0 005-1764-MF 005-3160-MF E145088 005-2664-MF magnetek lighting capacitor 005-2664-mf Magnetek 005-4465-P aerovox capacitor Aerovox energy discharge capacitor aerovox lighting capacitor
2004 - TRANSISTOR SMD MARKING CODE 1 KW

Abstract: smd marking code j6 2000 W BTL POWER AMPLIFIER TRANSISTOR J9100 TRANSISTOR SMD MARKING CODE SE IEM101-3
Text: + N vs. Frequency (SE Mode) VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Vripple = , -30 PSSR (dB) -40 -50 -60 -70 -80 -90 Cb=1.0 mF -100 10 100 Cb= 4.7 mF VP = 3.6 V RF = Ri = 20 kW BTL , -80 -90 -100 10 100 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF SE Mode , -100 10 100 Cb= 4.7 mF 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW SE Mode RL = 32 W , ://onsemi.com 8 NCP4896 TYPICAL PERFORMANCE CHARACTERISTICS VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL


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PDF NCP4896 NCP4896/D TRANSISTOR SMD MARKING CODE 1 KW smd marking code j6 2000 W BTL POWER AMPLIFIER TRANSISTOR J9100 TRANSISTOR SMD MARKING CODE SE IEM101-3
MF CAPACITOR

Abstract: MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet
Text: 2 C1, C6 0.1 mF Capacitor , Ceramic 0805 VJ0805104KXXAT Vishay Vitramon 9 2 C2, C4 10 mF Capacitor , Ceramic, 10 V 1206 GRM42-2X5R106K16 Murata 10 2 C3, C9 1 mF Capacitor , Ceramic 0805 VJ0805105KXXAT Vishay Vitramon 1/ 8 Resistor, 1 , Vishay Dale 8 2 C1, C4 10 mF Capacitor , Ceramic, 10 V 01206 GRM42-2X5R106K16 Murata 9 2 C2, C3 0.1 mF Capacitor , Ceramic 0805 VJ0805104KXXAT Vishay Vitramon


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PDF Si9166DB Si9166 200-mA Si9165 VJ0805470KXXAT MBR0520T1 OD-123 IHLP2525 MF CAPACITOR MBR0520T1 10 mf capacitor IHLP2525 36 MF CAPACITOR MOSFET 1 KW VJ0805105KXXAT SIP 9 JP1 CRCW08051000FRT1 mf mosfet
2004 - LM317 spice

Abstract: LM317 spice model Parallel Application LM317 LM317BT LM317MOT MC33269 spice luxeon lumiled IC1 LM317 simulation model electrolytic capacitor JSU23X106AQC
Text: coupling capacitor . 3.6 W 1.25 V 1.5 Aac in the 33 mF cap 1.25 Aac in the 33 mF cap 350 mA , capacitor used in Figure 10. 1N5934 10 10 mF 2.2 125 VAC + 100 mF 50 Vdc Vin AC LM317 3.6 , for each 1.0 mF of AC capacitance. This means that a 10 mF , 125 Vac capacitor can supply about 100 mAdc of current, and a 33 mF 125 Vac capacitor is needed to supply a 0.35 Adc LED. The following is , approximation. As an example, Equation 3 shows the amount of current using a 33 mF capacitor for two AC line


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PDF AND8146/D LM317 spice LM317 spice model Parallel Application LM317 LM317BT LM317MOT MC33269 spice luxeon lumiled IC1 LM317 simulation model electrolytic capacitor JSU23X106AQC
2004 - 499E

Abstract: 3000 Watt BTL Audio Amplifier
Text: + N vs. Frequency (SE Mode) VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Vripple = , -30 PSRR (dB) -40 -50 -60 -70 -80 -90 Cb=1.0 mF -100 10 100 Cb= 4.7 mF VP = 3.6 V RF = Ri = 20 kW BTL , -80 -90 -100 10 100 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF SE Mode , -100 10 100 Cb= 4.7 mF 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW SE Mode RL = 32 W , = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Figure 26. Turn On Sequence (BTL Mode) @ VP = 3.6 V


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PDF NCP4896 NCP4896/D 499E 3000 Watt BTL Audio Amplifier
1997 - 1N4148

Abstract: 1N5819 Si9130 Si9130DB Si9410DY electronic schematic
Text: N4 19 R2 25 mW 3.45 ADJ 3.6 ADJ C8 0.01 mF 20 ON5 ON3 L2 10 mH 17 , 4.7 mF , 6 V Capacitor , Ceramic, 1206YG475ZAT 1206 AVX 2 C3 1 mF , 20 V Capacitor , C6, C7, C11, C12 330 mF , 6 V Capacitor , Ceramic Capacitor , Tantalum, TPSE337M006R0100 E AVX 17 18 2 1 C8, C9 C13 0.01 mF , 16 V 0.1 mF , 35 V Capacitor , Ceramic Capacitor , of the step-down converters. The 3.3-V output is adjustable to 3.3 V, 3.45 V or 3.6 V by programming


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PDF Si9130DB Si9130 500-mA 25-mA 1N5819 1N4148 LR2010-01-R025F 595D336X0035SR 1206YG475ZAT 1N4148 1N5819 Si9410DY electronic schematic
2013 - Not Available

Abstract: No abstract text available
Text: MAX CAPACITOR LOAD 26600 mF 20000 mF 3900 mF 2600 mF 1300 mF ± 2600 mF ± 1600 mF ±650 mF , detail information, please contact Powerbox. 3. An external filter capacitor is required if the module has to meet EN61000-4-4, EN61000-4-5. The PED40-24W recommended an aluminum electrolytic capacitor , in parallel. The PED40-48W recommended an aluminum electrolytic capacitor (Nippon chemi-con KY , PED40-110W recommended an aluminum electrolytic capacitor (Ruby-con BXF series, 68μF/200V 3pcs in


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PDF PED40W 9-36VDC 18-75VDC 43-160VDC 18VDC 43VDC 16VDC 40VDC 50VDC 100VDC
2005 - SMD MARKING A69 transistor

Abstract: SMD MARKING A69 A70 SMD
Text: ˆ’50 −60 −40 VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Vripple = 200 mV , ˆ’40 VP = 5.0 V RF = Ri = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Vripple = 200 mV pk−pk VP = 3.6 V , ˆ’10 VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF SE Mode RL = 32 W Vripple = 200 mV pk−pk −20 â , 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Figure 26. Turn On Sequence (BTL Mode) @ VP = 3.6 V , pop. A 1.0 mF bypass capacitor value (Cin = < 0.39 mF ) should produce clickless and popless shutdown


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PDF NCP4896 NCP4896 NCP4896/D SMD MARKING A69 transistor SMD MARKING A69 A70 SMD
2014 - NCP6360 D

Abstract: No abstract text available
Text: Switching Frequency Uses 470 nH Inductor and 4.7 mF Capacitor for Optimized Footprint and Solution , 0.47 mH 4.7 − 33 mF Co Output Capacitor for DCDC Converter (Note 6) F = 6 MHz, L = 0.33 mH 33 − 220 mF Cin Input Capacitor for DCDC Converter (Note 6) 4.7 , ) PVIN = 3.6 V, VOUT = 0.6 V to 3.4 V, COUT = 4.7 mF , RL = 10 W, TR_VCON < 1 ms 25 ms VOUT , OPERATING CHARACTERISTICS PVIN = EN = 3.6 V, L = 0.47 mH, COUT = 4.7 mF , CIN = 10 mF , Fsw = 6 MHz, TA = 25Â


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PDF NCP6360 NCP6360, NCP6360 NCP6360/D NCP6360 D
2011 - Not Available

Abstract: No abstract text available
Text: (2x1.25x0.55mm3) COUT = 4.7 mF (0402), VOUT = 1.8 V, VIN = 3.6 V 1000 Figure 7. Comparison Efficiency vs , 1 mH, COUT = 4.7 mF , TA = 25°C 1.224 VIN = 3.3 V VIN = 3.6 V VIN = 5 V VIN = 4.2 V 1.212 L = 2.2 mH, COUT = 4.7 mF , TA = 25°C VIN = 3.3 V VIN = 3.6 V 1.2 VIN = 4.2 V 1.188 , 3500 VIN = 5 V L = 2.2 mH, C = 4.7 mF , VIN = 3.3 V OUT TA = 25°C 3000 VIN = 3.6 V , 2.2 mH, COUT = 4.7 mF 0 0 VIN = 5 V 2500 VIN = 3.6 V VIN = 2.3 V 0 0 0.05 0.10


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PDF TPS62231-Q1 TPS622314-Q1 SLVSB63 TPS62231-Q1,
2004 - 3000 Watt BTL Audio Amplifier

Abstract: smd TRANSISTOR code marking KW 2000 W BTL POWER AMPLIFIER TRANSISTOR smd transistor marking j6 TRANSISTOR SMD MARKING CODE mf smd transistor marking j9 transistor smd code marking nc
Text: + N vs. Frequency (SE Mode) VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL Mode RL = 8 W Vripple = , -30 PSSR (dB) -40 -50 -60 -70 -80 -90 Cb=1.0 mF -100 10 100 Cb= 4.7 mF VP = 3.6 V RF = Ri = 20 kW BTL , -80 -90 -100 10 100 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF SE Mode , -100 10 100 Cb= 4.7 mF 1000 FREQUENCY (Hz) 10000 100000 VP = 3.6 V RF = Ri = 20 kW SE Mode RL = 32 W , ://onsemi.com 8 NCP4896 TYPICAL PERFORMANCE CHARACTERISTICS VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF BTL


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PDF NCP4896 NCP4896/D 3000 Watt BTL Audio Amplifier smd TRANSISTOR code marking KW 2000 W BTL POWER AMPLIFIER TRANSISTOR smd transistor marking j6 TRANSISTOR SMD MARKING CODE mf smd transistor marking j9 transistor smd code marking nc
2012 - Not Available

Abstract: No abstract text available
Text: input voltage; connect a 1 mF or greater ceramic capacitor from IN to GND as close as possible to the IC , 0.4 25 25 Typ Max 3.6 3.6 +85 +125 °C °C mF mF °C/W A W W Unit V 4. Latch up Current Maximum Rating , eliminate residual voltages on the output rail. Proposed in a wide input voltage range from 1.0 V to 3.6 V , WLCSP6 CASE 567FY AM A YY G · · · · · · · · · · · · · 1.0 V - 3.6 V Operating Range 16 mW P MOSFET at 3.6 V DC Current Up to 2 A Output Auto-discharge Active High EN Pin WLCSP6 0.8 x 1.2 mm ESD


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PDF NCP338 567FY NCP338/D
2006 - Not Available

Abstract: No abstract text available
Text: requires a 4.7 mF decoupling capacitor . 8 GND1 Power Ground This pin is the GROUND reference , converter. The pin must be decoupled to ground by a 4.7 mF ceramic capacitor . MAXIMUM RATINGS Symbol , Power Supply Ripple Rejection on V1, (0.2 Vp−p), Cout = 1.0 mF , Vin = 3.6 V 1.0 kHz Iout1 = 100 mA , , Iout = 10 mA, Cout= 1.0 mF 6 VN − 45 − mVrms Turn ON Output Voltage, Vin = 3.6 , maximum output current, which is IO, max/2. For NCP1526, a low profile ceramic capacitor of 4.7 mF


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PDF NCP1526 NCP1526 NCP1526/D
2005 - smd transistor marking j6

Abstract: 2000 W BTL POWER AMPLIFIER TRANSISTOR 3000 Watt BTL Audio Amplifier TRANSISTOR SMD MARKING CODE SE 10000 mf capacitor smd transistor marking u1 IEM101-3 se 140 CRCW0805 IEM101
Text: ://onsemi.com 8 NCP4896 TYPICAL PERFORMANCE CHARACTERISTICS VP = 3.6 V RF = Ri = 20 kW, Cb = 1.0 mF , pop. A 1.0 mF bypass capacitor value (Cin = < 0.39 mF ) should produce clickless and popless shutdown transitions. The amplifier is still functional with a 0.1 mF capacitor value but is more susceptible to "pop and click" noises. Thus, a 1.0 mF bypassing capacitor is recommended. Vopeak . RL http , 4 SMD Resistor 100 kW R4, R6, R7 5 SMD Resistor 1.0 kW 6 Ceramic Capacitor 1.0 mF


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PDF NCP4896 NCP4896 NCP4896/D smd transistor marking j6 2000 W BTL POWER AMPLIFIER TRANSISTOR 3000 Watt BTL Audio Amplifier TRANSISTOR SMD MARKING CODE SE 10000 mf capacitor smd transistor marking u1 IEM101-3 se 140 CRCW0805 IEM101
2006 - BLZ5.08

Abstract: SL5.08 R114665 Mhz DC-DC converter buck step down monolithic A108B A114 JESD22 NCP1526 NCP1526MUTXG UDFN10
Text: requires a 4.7 mF decoupling capacitor . 8 GND1 Power Ground This pin is the GROUND reference , must be decoupled to ground by a 4.7 mF ceramic capacitor . MAXIMUM RATINGS Rating Symbol , , (0.2 Vp-p), Cout = 1.0 mF , Vin = 3.6 V 1.0 kHz Iout1 = 100 mA 100 kHz, Iout1 = 100 mA 6 PSRR , 2.2 mH 4.7 mF 4.7 mH APPLICATION INFORMATIONS Output Capacitor (Cout) 1 mH The input , ceramic capacitor of 4.7 mF should be used for most of the cases. For effective bypass results, the


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PDF NCP1526 NCP1526 NCP1526/D BLZ5.08 SL5.08 R114665 Mhz DC-DC converter buck step down monolithic A108B A114 JESD22 NCP1526MUTXG UDFN10
2012 - Not Available

Abstract: No abstract text available
Text: input voltage; connect a 1 mF or greater ceramic capacitor from IN to GND as close as possible to the IC , 0.4 25 25 Typ Max 3.6 3.6 +85 +125 °C °C mF mF °C/W A W W Unit V 4. Latch up Current Maximum Rating , eliminate residual voltages on the output rail. Proposed in a wide input voltage range from 1.0 V to 3.6 V , WLCSP6 CASE 567FY AM A YY G · · · · · · · · · · · · · 1.0 V - 3.6 V Operating Range 16 mW P MOSFET at 3.6 V DC Current Up to 2 A Output Auto-discharge Active High EN Pin WLCSP6 0.8 x 1.2 mm ESD


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PDF NCP338 567FY NCP338/D
2006 - JMK212BY475MG

Abstract: jesd22-a108B murata smd inductors marking codes SMD INDUCTOR marking code SMD Step-Down Voltage Regulator connector SL5.08 marking code C3 SMD ic smd 160c smd transistor marking j6 A108B
Text: requires 1.0 mF decoupling capacitor . 7 VIN2 Power Input Input battery voltage to supply voltage regulator blocks. The pin requires a 4.7 mF decoupling capacitor . 8 GND1 Power Ground , blocks of the DC-DC converter. The pin must be decoupled to ground by a 4.7 mF ceramic capacitor , mF , Vin = 3.6 V 1.0 kHz Iout1 = 100 mA 100 kHz, Iout1 = 100 mA 6 PSRR VIN2 PIN LDO , ceramic capacitor of 4.7 mF should be used for most of the cases. For effective bypass results, the


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PDF NCP1526 NCP1526 NCP1526/D JMK212BY475MG jesd22-a108B murata smd inductors marking codes SMD INDUCTOR marking code SMD Step-Down Voltage Regulator connector SL5.08 marking code C3 SMD ic smd 160c smd transistor marking j6 A108B
2009 - Not Available

Abstract: No abstract text available
Text: (MIPSA25202R2), COUT = 4.7 mF 0 0.1 VIN = 3.3 V 60 VIN = 3.6 V 50 VIN = 4.2 V 40 VIN = 5 V , , L = 1 mH, COUT = 4.7 mF , TA = 25°C 1.818 1.224 VIN = 3.3 V VIN = 3.6 V 1.8 VIN = 5 , 1.818 1.764 2.45 1.212 L = 2.2 mH, COUT = 4.7 mF , TA = 25°C VIN = 3.3 V VIN = 3.6 V , Voltage (DC) - V VIN = 5 V 3500 L = 2.2 mH, COUT = 4.7 mF , TA = 25°C 1.224 VIN = 3.6 V , mA, PWM Mode 30 VIN = 3.6 V, VOUT = 1.8 V, 20 CIN = 2.2 mF , COUT = 4.7 mF , 10 L


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PDF TPS62230, TPS62231, TPS62232, TPS62233 TPS62234, TPS62235, TPS62236, TPS62237 TPS62238, TPS62239,
2013 - Not Available

Abstract: No abstract text available
Text: conditions unless otherwise specified. CIN, COUT, CFLY are 1 mF ceramic capacitors and VIN is set to 3.6 V , to 4.7 mF low ESR (Equivalent Series Resistance) ceramic capacitor For filtering, a low ESR ceramic bypass capacitor (1 mF ) in close proximity to the IN pin prevents noise from being injected back into , respectively for the charge pump flying capacitor . A low ESR ceramic capacitor (1 mF ) should be connected , typically be achieved through the use a low ESR ceramic bypass capacitor (1 mF to 4.7 mF ) in close


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PDF CAT3200, CAT3200-5 CAT3200 CAT3200â CAT3200/D
MBR0520T1

Abstract: SIP 9 JP1 CRCW08051001FRT1 VJ0805104KXXAT pwm schematic buck converter PWM 2525 CRCW08052002FRT1 CRCW08052202FRT1 CRCW08053901FRT1 Si9165
Text: MBR0520T1 1 17 VOUT 3.6 V, 600 mA 16 15 R5 1 kW R4* 50 W 14 C3 10 mF 13 12 , C2, C5, C8 0.1 mF Capacitor , Ceramic 0805 VJ0805104KXXAT Vishay Vitramon 9 2 C3, C7 10 mF Capacitor , Ceramic 1206 GRM42-2X5R106K16 Murata 10 1 C4 220 , , C5, C8 0.1 mF Capacitor , Ceramic 0805 VJ0805104KXXAT Vishay Vitramon 9 2 C3, C7 10 mF Capacitor , Ceramic 1206 GRM42-2X5R106K16 Murata 10 1 C4 270 pF


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PDF Si9165DB Si9165 600-mA 200-mA GRM42-2X5R106K16 VJ0805271KXXAT VJ0805122KXXXAT MBR0520T1 OD-123 MBR0520T1 SIP 9 JP1 CRCW08051001FRT1 VJ0805104KXXAT pwm schematic buck converter PWM 2525 CRCW08052002FRT1 CRCW08052202FRT1 CRCW08053901FRT1
MBR0520T1

Abstract: SIP 9 JP1 CRCW08051001FRT1 CRCW08052002FRT1 CRCW08052202FRT1 Si9165 Si9169 Si9169DB TSSOP-20 capacitor 1000 MF
Text: PGND for SHUTDOWN mode. 19 C8 0.1 mF VOUT 3.6 V, 600 mA R1 22 kW C6 270 pF C2 0.1 , 8 3 C2, C5, C8 0.1 mF Capacitor , Ceramic 0805 VJ0805104KXXAT Vishay Vitramon 9 2 C3, C7 10 mF Capacitor , Ceramic 1210 GRM42-2X5R106K16 Murata 10 1 , Vitramon 8 3 C2, C5, C8 0.1 mF Capacitor , Ceramic 0805 VJ0805101KXXAT Vishay Vitramon 9 2 C3, C7 10 mF Capacitor , Ceramic 1210 GRM42-2X5R106K16 Murata 10


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PDF Si9169DB Si9169 200-mA Si9165, Si9165. GRM42-2X5R106K16 VJ0805271KXXAT VJ0805123KXXXAT MBR0520T1 SIP 9 JP1 CRCW08051001FRT1 CRCW08052002FRT1 CRCW08052202FRT1 Si9165 TSSOP-20 capacitor 1000 MF
2006 - 3000 Watt BTL Audio Amplifier

Abstract: smd transistor marking j8 NCP2892 JESD78 SMD MARKING CODE transistor j3
Text: capacitor ). When using a 1 mF bypass capacitor , it offers 100 ms wake up time. Due to its excellent PSRR , Configuration Capability External Turn-on Time Configuration Capability: 100 ms (1 mF Bypass Capacitor ) Up to , -10 Vp = 3.6 V RL = 8 W Vripple = 200 mVpk-pk Input to Gnd Cbypass = 1 mF PSRR (dB) -30 , Ground -10 -10 Vp = 3.6 V RL = 8 W Vripple = 200 mVpk-pk Input to Gnd Cbypass = 1 mF PSRR , Floating Cbypass = 1 mF -30 -20 -40 -50 VP = 5 V & VP = 3.6 V -60 Vp = 5 V RL = 8 W


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PDF NCP2892 NCP2892/D 3000 Watt BTL Audio Amplifier smd transistor marking j8 JESD78 SMD MARKING CODE transistor j3
2006 - smd transistor marking j9

Abstract: SMD MARKING CODE transistor j3 9-pin audio amplifier
Text: well as an externally controlled turn-on time (with the bypass capacitor ). When using a 1 mF bypass , Configuration Capability: 100 ms (1 mF Bypass Capacitor ) Up to 1.0 nF Capacitive Load Driving Capability Thermal , VP = 3.6 V RL = 8 W AV = 2 Vripple = 200 mVpk-pk Inputs Floating Cbypass = 1 mF 0 -10 -20 PSRR (dB , mVpk-pk Cbypass = 1 mF FREQUENCY (Hz) DC OUTPUT VOLTAGE (V) Figure 19. PSRR @ Vp = 3.6 V Single , ground. When a shutdown low level is applied, with 1 mF bypass capacitor , it takes 65 ms before the DC


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PDF NCP2892 NCP2892/D smd transistor marking j9 SMD MARKING CODE transistor j3 9-pin audio amplifier
2006 - Not Available

Abstract: No abstract text available
Text: by the LDO. This pin requires 1.0 mF decoupling capacitor . Input battery voltage to supply voltage regulator blocks. The pin requires a 4.7 mF decoupling capacitor . This pin is the GROUND reference for the , ground by a 4.7 mF ceramic capacitor . 6 7 8 9 10 V1 VIN2 GND1 LX VIN1 MAXIMUM RATINGS Rating , Power Supply Ripple Rejection on V1, (0.2 Vp-p), Cout = 1.0 mF , Vin = 3.6 V 1.0 kHz Iout1 = 100 mA 100 , , 100 Hz to 100 kHz, Iout = 10 mA, Cout= 1.0 mF Turn ON Output Voltage, Vin = 3.6 V BYPASS PIN Output


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PDF NCP1526 NCP1526/D
2011 - Not Available

Abstract: No abstract text available
Text: = 4.7 mF VIN = 3.6 V VIN = 3.3 V VIN = 3.6 V Efficiency -% 60 50 40 30 20 10 0 0.1 VIN = , (0402), COUT = 4.7 mF (0402), VOUT = 1.8 V, VIN = 3.6 V 1 10 100 IO - Output Current - mA 1000 , Efficiency - % VIN = 4.2 V 2.525 L = 1 mH, COUT = 4.7 mF , TA = 25°C VIN = 3.3 V VIN = 3.6 V 60 , (DC) - V 2.525 VO - Output Voltage (DC) - V L = 2.2 mH, COUT = 4.7 mF , TA = 25°C VIN = 3.6 V , L = 1 mH, COUT = 4.7 mF , TA = 25°C VIN = 3.6 V VIN = 3.3 V 1.212 L = 2.2 mH, COUT = 4.7


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PDF TPS62231-Q1 TPS622314-Q1 SLVSB63 TPS62231-Q1,
Supplyframe Tracking Pixel