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Part Manufacturer Description Datasheet BUY
250VXR470MEFC25X40 Rubycon Corporation CAP ALUM 470UF 20% 250V SNAP visit Digikey Buy
250VXH470MEFC22X40 Rubycon Corporation CAP ALUM 470UF 20% 250V SNAP visit Digikey Buy
250VXG470MEFC22X45 Rubycon Corporation CAP ALUM 470UF 20% 250V SNAP visit Digikey Buy
250VXR470MEFC30X30 Rubycon Corporation CAP ALUM 470UF 20% 250V SNAP visit Digikey Buy
250VXH470MEFC25X30 Rubycon Corporation CAP ALUM 470UF 20% 250V SNAP visit Digikey Buy
250VXR470MEFCSN22X50 Rubycon Corporation Aluminum Electrolytic Capacitor, Polarized, Aluminum (wet), 250V, 20% +Tol, 20% -Tol, 470uF, Through Hole Mount, CAN, ROHS COMPLIANT visit Digikey Buy

capacitor 470uf 250v

Catalog Datasheet MFG & Type PDF Document Tags

teapo xg-vs

Abstract: 1000uf, 25v electrolytic capacitor ) 3x 330uF/250V (22x45) 4x 470uF/200V (22x45) 4x 220uF/200V (25x25) 3x 220uF/250V (25x30) 2x 330uF/200V (25x30) 3x 470uF/200V (25x40) 3x 470uF/250V (25x45) 3x 680uF/200V (25x50) 2x 330uF/250V (30x30) 3x 680uF/200V (30x35) 4x 680uF/250V (30x50) 2x 820uF/200V (30x45) 2x 1000uF/200V (30x50) 3x 470uF , 330uF/250V (22x40) 3x 390uF/250V (22x45) 2x 470uF/250V (22x50) 4x 220uF/250V (25x25) 3x 270uF/250V (25x30) 2x 330uF/250V (25x30) 3x 390uF/250V (25x35) 2x 470uF/250V (25x40) 4x 560uF/250V (25x45) 2x
NOVA Elektronik
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capacitor 470uF/200V teapo

Abstract: capacitor 470uF/16V teapo (22x25) 4x 220uF/200V (22x30) 3x 330uF/200V (22x35) 3x 220uF/200V (25x25) 3x 330uF/250V (22x45) 4x 470uF/200V (22x45) 4x 220uF/200V (25x25) 3x 220uF/250V (25x30) 2x 330uF/200V (25x30) 3x 470uF/200V (25x40) 3x 470uF/250V (25x45) 3x 680uF/200V (25x50) 2x 330uF/250V (30x30) 3x 680uF/200V (30x35) 4x 680uF/250V (30x50) 2x 820uF/200V (30x45) 2x 1000uF/200V (30x50) 3x 470uF/250V (35x30) 2x 680uF/250V (35x35 , ) 3x 390uF/250V (22x45) 2x 470uF/250V (22x50) 4x 220uF/250V (25x25) 3x 270uF/250V (25x30) 2x 330uF
NOVA Elektronik
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teapo lxk

Abstract: capacitor 330uF 200V 330uF/200V (22x35) 3x 220uF/200V (25x25) 3x 330uF/250V (22x45) 4x 470uF/200V (22x45) 4x 220uF/200V (25x25) 3x 220uF/250V (25x30) 2x 330uF/200V (25x30) 3x 470uF/200V (25x40) 3x 470uF/250V (25x45) 3x 680uF , ) 2x 1000uF/200V (30x50) 3x 470uF/250V (35x30) 2x 680uF/250V (35x35) 2x 820uF/200V (35x35) 2x 820uF , (22x25) 3x 220uF/250V (22x30) 4x 270uF/250V (22x35) 3x 330uF/250V (22x40) 3x 390uF/250V (22x45) 2x 470uF , ) 2x 470uF/250V (25x40) 4x 560uF/250V (25x45) 2x 680uF/250V (30x40) 7x 560uF/250V (30x35) 4x 820uF
NOVA Elektronik
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SLES220

Abstract: 680NF 250V 50V 1% 10k 470nF 250V + 100nF 100V GND 100nF 100V 3.3R GND OUT_B_M PVDD 470uF 50V OUT_A_P R_COMP 10k 10k 1% 470nF 250V 100nF 100V + 100nF 100V GND OUT_B_P 10k 1% 3.3R 470uF 50V 10k 1 , R_COMP 10k PVDD 470uF 50V 10k 1% 470nF 250V 100nF 100V + 100nF 100V GND PVDD 470uF 50V OUT_C_P 470uF 50V 10k 1% 3.3R 470uF 50V R_COMP 10k 10k 1% 470nF 250V 100nF 100V + 100nF 100V GND , 10nF 100V 3.3R IN_RIGHT R_COMP 10k 470uF 50V 10k 1% 470nF 250V 100nF 100V + 100nF 100V
Texas Instruments
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12v 300W AUDIO AMPLIFIER CIRCUIT DIAGRAM

Abstract: 600w audio amplifier circuit diagram ground 43 P HS bootstrap supply (BST), external 0.033 µF capacitor to OUT_A required. 41 34 P HS bootstrap supply (BST), external 0.033 µF capacitor to OUT_B required. BST_C 40 33 P HS bootstrap supply (BST), external 0.033 µF capacitor to OUT_C required. BST_D 27 24 P HS bootstrap supply (BST), external 0.033 µF capacitor to OUT_D required. CLIP 18 , BST_A 54 BST_B C_STARTUP 3 5 O Startup ramp requires a charging capacitor of 4.7 nF
Texas Instruments
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TAS5630BDKD

Abstract: 12v 400W AUDIO AMPLIFIER CIRCUIT DIAGRAM GND A OUT_A_M B R_COMP 10k PVDD 470uF 50V 1% 10k 470nF 250V + 100nF 100V GND 100nF 100V 3.3R GND OUT_B_M PVDD 470uF 50V OUT_A_P R_COMP 10k 10k 1% 470nF 250V 100nF 100V + 100nF 100V GND , OUT_C_M C GND D OUT_D_M R_COMP 10k PVDD 470uF 50V 10k 1% 470nF 250V 100nF 100V + 100nF 100V GND PVDD 470uF 50V OUT_C_P 470uF 50V 10k 1% 3.3R 470uF 50V R_COMP 10k 10k 1% 470nF 250V , 250V 100nF 100V + 100nF 100V GND OUT_LEFT_P 470uF 50V 10k 1% 3.3R 17 18 19 20 21
Texas Instruments
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schematic diagram power inverter 1500w

Abstract: schematic diagram inverter 1500w capacitor filter has been realized connecting in parallel four tap in "series" configuration. This solution , split in two parts. In this way it is possible to held a low value capacitor (C2) connected to the , contents). On the other hand, the capacitor (C1) connected to the AC side of the bridge, performs most of , BRIDGE KBPC25-04 C1 2.2µF 250V + + R3 75K 1W R4 1M FUSE 10A/250V + Po , 150K R12 15 5% Co 1µF 630V 4x 470µF 315V 20 6 11 2 4x 470µF 315V 3 7
STMicroelectronics
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L4981A schematic diagram power inverter 1500w schematic diagram inverter 1500w STE30NA50-DK graetz diode bridge diagram inverter 1500w dc to ac inverter 1500w circuit diagram AN828 L4981A/B 50/60H

schematic diagram power inverter 1500w

Abstract: ste30na50-DK inductor, a Graetz bridge and a simple resistor for the startup phase. The Output capacitor filter has , . In this way it is possible to held a low value capacitor (C2) connected to the output of the , other hand, the capacitor (C1) connected to the AC side of the bridge, performs most of the high , 2.2µF 250V + + R3 75K 1W R4 1M FUSE 10A/250V + Po=1500W Vo=440V D2 4x 1N4150 , 5 9 18 17 12 10 R6 100K C3 5% 330nF R2 220 1% Co 1µF 630V 4x 470µF
STMicroelectronics
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KPBC2504 schematic diagram inverter 1500w USING MOSFET 1500w inverter simple circuit kpbc25 1500w dc to ac inverter Circuit diagram 55x28x25

schematic diagram power inverter 1500w

Abstract: dc to ac inverter 1500w circuit diagram and a simple resistor for the startup phase. The Output capacitor filter has been realized connecting , possible to held a low value capacitor (C2) connected to the output of the rectifier bridge, minimising the harmonic distortion (introduced by the rectified DC contents). On the other hand, the capacitor (C1 , FUSE 10A/250V + Vi C1 2.2µF 250V 176VAC/265VAC 1 7 4 R4 1M BRIDGE KBPC25-04 R3 75K 1W R5 47 500mW , 120K 5% 13 14 3 R11 3.9K 5% Rx 150K 4x 470µF 315V 4x 470µF 315V Co 1µF 630V L4981A 20
STMicroelectronics
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220 ac INVERTER without transformer 220uF, 25V STE36N50-DK L4981 PFC STE36N50DK L4981

schematic diagram power inverter 1500w

Abstract: graetz bridge inductor, a Graetz bridge and a simple resistor for the startup phase. The Output capacitor filter has , . In this way it is possible to held a low value capacitor (C2) connected to the output of the , other hand, the capacitor (C1) connected to the AC side of the bridge, performs most of the high , 2.2µF 250V + + R3 75K 1W R4 1M FUSE 10A/250V + Po=1500W Vo=440V D2 4x 1N4150 , % Co 1µF 630V 4x 470µF 315V 20 6 11 2 4x 470µF 315V 3 7 R1 5.1K 1
STMicroelectronics
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graetz bridge Graetz 3 phase inverter schematic diagram SCHEMATIC DIAGRAM OF POWER factor corrector ste30na50 330nF capacitor

500w car audio amplifier circuit diagram

Abstract: 1200w power amplifier circuit diagram C111 470uF/63V R124 5.6OHM/1W D205 1N914 FB2 AMPOUT2 LO1COM C110 0.1uF/250V/EF , (0VDC), the polarity of the coupling capacitor, CIN, shown in Figure 5 is correct. CIN 4.7uF + , shift without the need of an external op amp. The value of the input capacitor, CIN, in Figure 5 , can be calculated as follows: F3dB = 1/(2 x CIN x RIN ) where: CIN = input capacitor value in Farads , mentioned overvoltage sense resistors, a Zobel Network, the common mode capacitor, the common mode zobel
Tripath Technology
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RB-TA3020-3 500w car audio amplifier circuit diagram 1200w power amplifier circuit diagram 1200w audio amplifier circuit diagram 1200w audio amplifier 1500w mosfet audio amplifier circuit diagram 800w audio amplifier circuit diagram RB-TA3020-1 RB-TA3020-2 RB-TA3020

.68k 275V-X2

Abstract: Capacitor 470uf 400v /250V , Y2 Capacitor 2.2nF/250V , Y2 Capacitor 470uF/400V 15nF/630V 100nF/400V 100nF/50V 47uF/25V , as overcurrent protection. The X2 Capacitor C1, C2 and Choke L1 and Y1 capacitor C3 and C4 forms a , , together with a smoothing capacitor C5, provide a voltage of 80 to 380 VDC depending on input voltage is , capacitor C10. By adding the D4 and R10, the voltage of PCS pin should start from 2.2V instead of 1.5V , diode to charge up the external capacitor C9 at VCC pin. Additional Startup current can be provided by
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ICE1QS01 Capacitor 470uf 400v E42 CORE FOR 20KHZ TRANSFORMER smps transformer SMPS IC 2003 AN-ICE1QS01
Abstract: , OUT_A_P 1% GND OUT_B_M B - 330nF 250V + 470uF 50V 48 V GND OUT_A_M A , 10k 1% 1% 100nF 100V R_COMP 10k 100nF 100V PVDD - 330nF 250V + 470uF , OUT_D_M D - 330nF 250V + 470uF 50V GND 10nF 100V OUT_D_P 3.3R GND 100V 10nF , 0.033-mF capacitor to OUT_A required BST_B 41 34 P HS bootstrap supply (BST), external Texas Instruments
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TAS5615 SLAS595B STEREO/300W ISO/TS16949
Abstract: 50V 10k 1% 3.3R OUT_B_P PVDD 470uF 50V 10k 1% R_COMP 10k 330nF 250V + 100nF 100V GND 470uF 50V 10k 1 , 10nF 100V 3.3R GND 3.3R GND C 100nF 100V 10k PVDD 470uF 50V 10k 1% 330nF 250V OUT_C_M D 100nF 100V 10k PVDD 330nF 250V OUT_D_M R_COMP + GND 470uF 50V OUT_C_P R_COMP + GND , 250V 100nF 100V + 100nF 100V GND OUT_LEFT_P 470uF 50V 10k 1% 3.3R 17 18 19 20 , ground HS bootstrap supply (BST), external 0.033-mF capacitor to OUT_A required HS bootstrap supply (BST Texas Instruments
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12v 300W AUDIO AMPLIFIER CIRCUIT DIAGRAM

Abstract: 80w audio amplifier schematic circuit diagram 250V + 10k 100nF 100V 1% 470uF 50V 10k 470uF 50V GND 10k 100nF 100V 1% GND OUT_A_P 1% GND OUT_B_M B - 330nF 250V + 470uF 50V 10nF 100V , 100nF 100V R_COMP 10k 10k 100nF 100V PVDD - 330nF 250V + 470uF 50V 10k 1 , 330nF 250V + 470uF 50V GND 10nF 100V OUT_D_P 1% 3.3R GND 100V 10nF GND , supply (BST), external 0.033 F capacitor to OUT_A required. BST_B 41 34 P HS bootstrap
Texas Instruments
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12v 300W AUDIO AMPLIFIER CIRCUIT DIAGRAM 80w audio amplifier schematic circuit diagram OPA1632 TAS5630 10uf 63v capacitor BEST active subwoofer SLAS595A
Abstract: 50V 10k 1% 3.3R OUT_B_P PVDD 470uF 50V 10k 1% R_COMP 10k 330nF 250V + 100nF 100V GND 470uF 50V 10k 1 , 10nF 100V 3.3R GND 3.3R GND C 100nF 100V 10k PVDD 470uF 50V 10k 1% 330nF 250V OUT_C_M D 100nF 100V 10k PVDD 330nF 250V OUT_D_M R_COMP + GND 470uF 50V OUT_C_P R_COMP + GND , 250V 100nF 100V + 100nF 100V GND OUT_LEFT_P 470uF 50V 10k 1% 3.3R 17 18 19 20 , ground HS bootstrap supply (BST), external 0.033-mF capacitor to OUT_A required HS bootstrap supply (BST Texas Instruments
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13003 charger

Abstract: 121k 1kv capacitor C4 Capacitor, Electrolytic,4.7uF/35V,5x11mm KSC C5 Capacitor, Solid, 470uF/10V, 8x12mm , ,5x11mm C5 Capacitor, Solid, 470uF/10V, 8x12mm C6 Capacitor, Electrolytic, 330uF/10V, 8x12mm , , Solid, 470µF/16V, 8 × 11mm C4 Capacitor, Electrolytic,6.8µF/35V, SMD 0805 C5 Capacitor , , 470µF/16V, 8 × 11mm C4 Capacitor, Electrolytic,6.8µF/35V, SMD 0805 C5 Capacitor, Ceramic , , Solid, 470µF/16V, 8 × 11mm C0 Capacitor, Ceramic,100nF/100V,0603,SMD POE C13 Capacitor
Active-Semi
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13003 charger 121k 1kv capacitor 230v to 5v circuit using 13003 transistor ACT334 ACT512 ACT410 ACT411 ACT410/411 ACT413
Abstract: 100nF 100V R_COMP 10k PVDD - 330nF 250V + 180 kOhm , R_COMP 10k PVDD - 330nF 250V 10k 100nF 100V R_COMP 10k PVDD 470uF 50V 10k 1% 100nF 100V 1% - 330nF 250V + 470uF 50V 10k 470uF 50V GND 10k 1% 1 , Analog ground BST_A 54 43 P HS bootstrap supply (BST), external 0.033-mF capacitor to OUT_A required BST_B 41 34 P HS bootstrap supply (BST), external 0.033-mF capacitor to Texas Instruments
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0.5 MF CAPACITOR

Abstract: 6W200 50V 10k 1% 3.3R OUT_B_P PVDD 470uF 50V 10k 1% R_COMP 10k 330nF 250V + 100nF 100V GND 470uF 50V 10k 1 , 10nF 100V 3.3R GND 3.3R GND C 100nF 100V 10k PVDD 470uF 50V 10k 1% 330nF 250V OUT_C_M D 100nF 100V 10k PVDD 330nF 250V OUT_D_M R_COMP + GND 470uF 50V OUT_C_P R_COMP + GND , 250V 100nF 100V + 100nF 100V GND OUT_LEFT_P 470uF 50V 10k 1% 3.3R 17 18 19 20 , ground HS bootstrap supply (BST), external 0.033-mF capacitor to OUT_A required HS bootstrap supply (BST
Texas Instruments
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0.5 MF CAPACITOR 6W200

purepath class G

Abstract: 330nf 250v 1% 330nF 250V OUT_A_M B 100nF 100V 10k 330nF 250V OUT_B_M R_COMP + PVDD 470uF 50V , GND 3.3R GND C 100nF 100V 10k PVDD 470uF 50V 10k 1% 330nF 250V OUT_C_M D 100nF 100V 10k 330nF 250V OUT_D_M R_COMP + PVDD 470uF 50V OUT_C_P GND R_COMP + GND 100nF 100V 10k , 10k 470uF 50V 10k 1% 330nF 250V 100nF 100V + 100nF 100V GND OUT_LEFT_P 470uF 50V 10k 1% 3.3R , R_COMP 10k PVDD 470uF 50V 10k 1% 330nF 250V 100nF 100V + 100nF 100V GND PVDD R_COMP 50 V 49 V 48
Texas Instruments
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purepath class G 330nf 250v SLAS595
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