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R60MN41005040K KEMET Corporation Film Capacitor, Polyester, 400V, 1uF visit Digikey Buy
R60MN4100AA40K KEMET Corporation Film Capacitor, Polyester, 400V, 1uF visit Digikey Buy
R75MN41004030J KEMET Corporation Film Capacitor, Polypropylene, 400V, 1uF visit Digikey Buy
R60MN41005040J KEMET Corporation Film Capacitor, Polyester, 400V, 1uF visit Digikey Buy
ECW-F4105JB Panasonic Electronic Components CAP 1UF 400V METAL POLYPRO visit Digikey Buy
R60MI41005030K KEMET Corporation Film Capacitor, Polyester, 400V, 1uF, 7143 visit Digikey Buy
105PHC400K Illinois Capacitor Inc Film Capacitor, Polypropylene, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, AXIAL LEADED, LEAD FREE visit Digikey Buy
105MMR400K Illinois Capacitor Inc Film Capacitor, Polyester, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, RADIAL LEADED, LEAD FREE visit Digikey Buy
105PHC400KG Illinois Capacitor Inc Film Capacitor, Polypropylene, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, AXIAL LEADED, LEAD FREE visit Digikey Buy
105MPW400K Illinois Capacitor Inc Film Capacitor, Polypropylene, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, AXIAL LEADED, LEAD FREE visit Digikey Buy
105MPR400K Illinois Capacitor Inc Film Capacitor, Polypropylene, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, RADIAL LEADED, LEAD FREE visit Digikey Buy
105MWR400K Illinois Capacitor Inc Film Capacitor, Polyester, 400V, 10% +Tol, 10% -Tol, 1uF, Through Hole Mount, AXIAL LEADED, LEAD FREE visit Digikey Buy

1uF 400V capacitor

Catalog Datasheet MFG & Type PDF Document Tags

ignition schematic

Abstract: SCHEMATIC IGNITION iGBT EEU-EB2W220S ECA-1HM100I EMI Inductor HF-Inductor Capacitor 1µF/400V Capacitor 330nF/275VAC X2 , Capacitor, 1uF, 25V, 1206 Capacitor, 1uF, 25V, 0805 Capacitor, 270nF, 16V, 0805 31 6 Panasonic , frequency is programmed with the external capacitor at the TIGN pin. CTIGN charges up and down linearly , ignition circuit comprises of a diac (DIGN), transformer www.irf.com 1 -9- (LIGN), capacitor (CIGN), resistor (RIGN2) and switch (MIGN). When the IC turns on the switch MIGN, capacitor CIGN
International Rectifier
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ignition schematic SCHEMATIC IGNITION iGBT IRS2573D ERJ-6ENF1001V ERJ-S06F22R0V ERJ-S06F10R0V 18K/3W RPFC11

WIMA MKc 4

Abstract: 1uF 400V capacitor polyester ,2nF/400V 20x 22nF/400V 20x 4,7nF/400V 20x 10nF/400V 20x 47nF/400V 20x 0,1uF/400V 12x 0,22uF , / 405 Pieces Polyester Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads Type , Pieces Polypropylene Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads Type , ,1uF 5x 8x 8,2nF 8x 18nF Service by NOVA Elektronik GmbH · www.nova-elektronik.de · , ,8nF 10nF-33nF 47nF-68nF B32529.X-Y / Epcos ±5% -55 to +100°C 5mm Voltage 400V 250V 100V
NOVA Elektronik
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WIMA MKc 4 1uF 400V capacitor polyester 100nF 63V polyester capacitor capacitor mkt 100nf 400v 10nF 63V Polyester Capacitor capacitor WIMA mkc 10 CCC-21 FL16/20 CCC-23 FL24/10 CBB11 CCC-41

wima fkc

Abstract: WIMA MKc 4 22nF/400V 20x 0,1uF/400V 12x 0,22uF/400V 12x 47nF/400V 20x 10nF/400V 20x 0,33uF/400V 10x , / 405 Pieces Polyester Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads Type , Values / 230 Pieces Polypropylene Film Capacitors for 100V-DC / Dipped Capacitor element with radial , 10x 3,9nF 6x 39nF 5x 0,1uF 5x 8x 8,2nF 8x 18nF Service by NOVA Elektronik GmbH · , Capacitance Voltage 1,0nF-6,8nF 400V 0,1uF-0,47uF 63V 10nF-33nF 250V 0,68uF-3,3uF 50V
NOVA Elektronik
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wima fkc wima fkc 3 wima MKC capacitor MKP 400V 100nf teapo WIMA MKP 1000V CQ92M CQ92P FL16/10 CCC-62 CCC-63 CCC-64

50hz sine oscillator

Abstract: capacitor 0.01uf 400v . For a 50Hz rectified sine wave a 1µF capacitor connected to Vdd is sufficient to guarantee stable , Eliminates High Voltage Input Electrolytic Capacitor Smallest and Most Reliable Off-Line Solution Constant Current or Constant Voltage Mode Control Can be Operated Directly from Rectified AC Mains 10V to 400V , a constant average current output or a constant average voltage output from an input of 10V to 400V , for bulky and expensive high voltage input electrolytic capacitor. The PWM control utilizes feed
Supertex
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HV9904 VN2460N8 50hz sine oscillator capacitor 0.01uf 400v pwm variable frequency drive circuit diagram power supply 400v circuit diagram Sine PWM AC 50HZ 400V voltage regulator 1N4007 MURS120T3 10VDC 400VDC 265VAC

1uF 400V capacitor

Abstract: Yageo 10uF, 400V electrolytic capacitor C4 U1 C13 VDD C2 1uF, 16V BU9HS-153R15B 2.2uF, 400V C9 9 13 12 C3 10uF, 400V Rosc PWMD LD CS Gate HV9910 VDD U2 4 8 14 228k R5 R8 0.56 1uF, 50V 5.49k R6 97.6k R11 D7 R3 1k 9.1V R12 4.99k VDD , 1uF, 50V X7R ceramic chip capacitor SMD1206 TDK Corporation C3216X7R1H105K 6 1 C9 1uF, 16V X7R ceramic chip capacitor SMD0805 TDK Corporation C2012X7R1C105K 7 1 C11
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DN-H01 1uF 400V capacitor Yageo 10uF, 400V electrolytic capacitor YAGEO CAPACITOR capacitor 10uF/400V capacitor 0.1uf 400v CISPR-15 256VAC 50/60H 250VAC ERJ-6RQFR56V

resistor yageo

Abstract: 1uF 400V capacitor , 400V electrolytic capacitors Radial 4.7uF, 25V X7R ceramic chip capacitor SMD1210 TDK Corporation C3225X7R1E475M C8 1uF, 50V X7R ceramic chip capacitor SMD1206 TDK Corporation C3216X7R1H105K 1 C9 1uF, 16V X7R ceramic chip capacitor SMD0805 TDK Corporation C2012X7R1C105K , 12 5 4 BU9HS-153R15B 0.01uF, 250VAC 1uF, 16V C4 Q1 1 R5 1uF, 50V VDD , 10uF, 400V C2 2.2uF, 400V 2.2uF, 400V C13 D1 1N4764ADO41 LED+1 D2 T1 CL
Supertex
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resistor yageo Yageo 47uF, 400V electrolytic capacitor CPHS-EFD20-1S-10P hv9910b HV9910BNG-G HV9910B MMBT2222A EFD20

50hz sine oscillator

Abstract: pwm variable frequency drive circuit diagram . For a 50Hz rectified sine wave a 1µF capacitor connected to Vdd is sufficient to guarantee stable , General Description Eliminates High Voltage Input Electrolytic Capacitor Smallest and Most Reliable , Rectified AC Mains 10V to 400V Input Range Internal Regulator 1.5mA Operating Supply Current PLL Based , an input of 10V to 400V DC or directly from rectified AC mains up to 280V. The second order topology , mains without the need for bulky and expensive high voltage input electrolytic capacitor. The PWM
Supertex
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rectified constant power led driver 1uf 500v capacitor 400V linear regulator dc capacitor 400v MOSFET Variable power supply 500v 400hz sine oscillator IRFBC30AS DO1608C-105 DO1608C-224 HV9904LG

CBB11

Abstract: seika capacitor Values / 405 Pieces Polyester Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads , / 230 Pieces Polypropylene Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads , 0,1uF 5x 8x 8,2nF 8x 18nF REV: 30.11.2010 General Manager: Claudia Dinges Value added tax , ,8nF 10nF-33nF 47nF-68nF B32529.X-Y / Epcos ±10% -55 to +100°C 5mm Voltage 400V 250V 100V , 30x 6,8nF 20x 68nF 20x 0,1uF 80x 0,15uF 20x 0,22uF 20x 0,33uF 15x 0,47uF 20x 0,68uF 20x 1,0uF
NOVA Elektronik
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seika capacitor YE-DS teapo capacitor capacitor 10uf 250v mkp 250Vac AC capacitor capacitor 100nf 63v MKT D-50259

teapo xg-vs

Abstract: 1000uf, 25v electrolytic capacitor 22nF/400V 20x 4,7nF/400V 20x 10nF/400V 20x 47nF/400V 20x 0,1uF/400V 12x 0,22uF/400V 12x 0 , Reliable Aluminium Electrolytic Capacitor in Chip form Type/Brand: MVK/NCC or alternative ±20% Tolerance , Pieces High Reliable Aluminium Electrolytic Capacitor in Chip form Type/Brand: MVK/NCC or alternative , Pieces Polyester Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads Type/Brand , / 230 Pieces Polypropylene Film Capacitors for 100V-DC / Dipped Capacitor element with radial leads
NOVA Elektronik
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teapo xg-vs 1000uf, 25v electrolytic capacitor teapo xg-vs 250v 10nF 63V Polyester or Ceramic Capacitor 1000uF 25V capacitor Philips Electrolytic Capacitor 400v CCC-13 F/63V F/50V F/16V F/25V F/35V

KC778B

Abstract: triac light switch .47uF 400V X2 100 (L) 1W 470 10uF 470uF 470K .1uF C9014 LIGHT .01uF 400V , 1N4004 1uF 400V X4 100 (L) 470 10uF 1W 470uF 470K C9014 12V .01uF 400V , stages of regulator is used in the system by use of zener diode 1uF 400V 1N 4004 X2 220 100 (L) 1W 1N4148 10uF LIGHT 470uF .1uF 470K 5.6V .01uF 400V 110v AC TRIAC , ) Internal switched capacitor bandpass filter reduces external component count and improves reliability by
COMedia
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KC778B triac light switch C9014 Transistor PIR motion DETECTOR block DIAGRAM PIR SENSOR IS MOTION SENSOR PIR motion DETECTOR CIRCUIT DIAGRAM 1N4001 IN4148

diode byt 11600

Abstract: diode P600M DC 1% C10 1µF 16V R10 21k 1/4W 1% C11 270pF 400V R11 402 1/4W , R9 R10 33k 1.8M 21k C10 1µF 16V C11 270pF 400V R11 R12 402 1/4W , current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both
STMicroelectronics
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L4981A L4981B L4981 DIP20 L4981X L4981XD diode byt 11600 diode P600M DC B1ET3411A STTA5 C12 IC GATE 5L

1500W Power Amplifier PCB Layout

Abstract: smd transistor SRS voltage blocking diode, D4, are incorporated. D3 clamps the bias voltage to a safe level. If 400V is , drive transformer is simplified because it only needs 400V operational insulation and it is always , . An important aspect +400V V PWM 1 V BR1 V SR1 V SR2 V PWM 2 DELAY V PWM 2 RL V BR2 , 400V RTN FIGURE 9. TIMING REQUIRED TO DRIVE SRs OUTLLN V1 V1 V2 ENABLE V SR1 U108 , bridge capacitor is charged by the secondary side eventually resulting with excessive voltage damage
Intersil
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ISL6752 ISL6753 TP120 1500W Power Amplifier PCB Layout smd transistor SRS transisTOR C123 transistor c124 ic q110 AC Transformer 50A 100V inductance ISL6752EVAL1Z AN1341 450VDC 425VDC AN1262

transorb 400v

Abstract: transorb diode BIDIRECTIONAL 5 C3, C6, C9, C21, C22 C4 1µF 50V 20% Z5U capacitor 1 3 C7, C12, C17 0.1µF 50V 20 , 1µF 50V Y5V 20% 1206 capacitor 3 C5, C23, C29 0.01µF 50V 20% Z5U capacitor 1 4 1 1 1 , capacitor. Steady-state operation ensures that the VEAO signal is 5V. The frequency of the internal ramp , (Continued) output voltage would be 400V for a 11.3M resistor to the boost output voltage and 5V steady-state at the VEAO pin. R12 + R13 = VBOOST ­ VEAO = IPGM (1) 400V ­ 5V = 113M . 35µA
Fairchild Semiconductor
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transorb 400v transorb diode BIDIRECTIONAL KC006L-ND p4625-nd 12v transformer diode RS405L ML4803 IEC1000-3-2

HV9910

Abstract: AC ammeter and ct diagram U3 Terminal Block 68uF, 400V Snap-in Electrolytic Capacitor 1uF, 400V Metallized Polypropylene Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 400V, 1.5A Fast - , , 10V 13 R5 C3 1uF, 400V AC INPUT R2 178K 9 5K C4 0.1uf, 25V Vdd Rosc , 0.56 PWMD MOUNT3 Vds 1 GND MOUNT2 Q1 8 R3 1K MOUNT1 1 1 68uF, 400V , resistor 0.56 ohm, 1%, 1/4W SMD 1206 resistor Top adjust 5K trim pot 400V, 1A, DF-S, Single Phase diode
Supertex
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HV9910DB2 HV9910B2 AC ammeter and ct diagram 68uF 400V Electrolytic Capacitor AC TO DC BY irf840 electrolytic capacitor, .1uF HV9910DB2 v.2 Led driver 10W schematic 90VAC 90-265V A082804 1/10W

diode P600M DC

Abstract: B1ET3411A 21k C10 1µF 16V C11 270pF 400V R11 R12 402 1/4W 1% C12 8.2nF , 100kHz; VO = 400V; PO = 200W NOTE: Start Up Circuit Usually the VCC capacitor (C11 in fig. 19) can be , an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both in overvoltage and
STMicroelectronics
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3kw pfc 200w power amplifier PCB layout core i3 diode p600m SO20 PFC controller dip-20

PFC 3kw

Abstract: L4981A 21k C10 1µF 16V C11 270pF 400V R11 R12 402 1/4W 1% C12 8.2nF , 100kHz; VO = 400V; PO = 200W NOTE: Start Up Circuit Usually the VCC capacitor (C11 in fig. 19) can be , current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both
STMicroelectronics
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PFC 3kw 12v to Amplifier 200w circuit diagrams L4981 PFC p600m DIODE Zener 5.1V larcet

L4981A APPLICATION NOTES

Abstract: L4981B 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both in overvoltage and UVLO conditions. FREQ-MOD Frequency , fixes the constant charging current of COSC. 18 C OSC An external capacitor connected to GND , otherwise specified VCC = 18V, COSC = 1nF, ROSC = 24K, CSS = 1µF, VCA-OUT = 3.5V, VISENSE = 0V, VLFF = VREF
STMicroelectronics
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L4981A APPLICATION NOTES 200w power amplifier circuit diagram 774kHz

L4981A

Abstract: larcet R9 1.8M 1/4W 1% C10 1µF 16V R10 21k 1/4W 1% C11 270pF 400V , 330nF R9 R10 1.8M 21k 1/4W 1/4W 1% 1% C10 1µF 16V C11 270pF 400V , 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both in overvoltage and UVLO conditions. FREQ-MOD Frequency
STMicroelectronics
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501 200w

IN4005

Abstract: 4,7uF 50v .1µF 400V 47µF 50V + + AC Line 47µF 450V .1µF 400V .1 µF 50 V .47µF 50V , applications require the addition of output capacitance. The capacitor's voltage rating should be selected in , amp and should be used in conjunction with a 47µF input capacitor. Choose the capacitor voltage
BI Technologies
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IN4005 4,7uF 50v Current Rating of IN4005 diode flyback converter DC/DC 400V bridge rectifier package industrial 450V 47UF

PFC 3kw

Abstract: L4981A 400V; PO = 200W NOTE: Start Up Circuit Usually the VCC capacitor (C11 in fig. 19) can be charged by , current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both , COSC An external capacitor connected to GND fixes the switching frequency. 19 VCC 20
STMicroelectronics
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AC line voltage controller

Abstract: switching power supply introduction 1µF Parts List Desig Description Part Number F1 Fuse, 2AG, 250mA, 250V Z1 Transient voltage suppressor, 400V D1 Diode bridge, 1A, 600V IC1 HV Supply Controller Supertex SR036SG Q1 MOSFET, 600V N-channel Supertex VN2460N8 C1 Capacitor,alum, 220µF, 35V Capacitor, cer, 1µF, 16V C2 P6KE400CA Modifications The SR036DB1 may be modified to provide higher , Connect to the AC line. The AC input is protected by a 400V transient voltage suppressor and a 250mA fuse
Supertex
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SR036 AC line voltage controller switching power supply introduction 250v 220uf capacitor bridge rectifier 1A 35v 240 AC to 12V ac transformer BRIDGE-RECTIFIER 400v 1a 120/240VAC 24VAC 264VAC 120VAC 240VAC

P6KE400CA

Abstract: switching power supply introduction 1µF Parts List Desig Description Part Number F1 Fuse, 2AG, 250mA, 250V Z1 Transient voltage suppressor, 400V D1 Diode bridge, 1A, 600V IC1 HV Supply Controller Supertex SR037SG Q1 MOSFET, 600V N-channel Supertex VN2460N8 C1 Capacitor,alum, 220µF, 35V Capacitor, cer, 1µF, 16V C2 P6KE400CA Modifications The SR037DB1 may be modified to provide higher , Connect to the AC line. The AC input is protected by a 400V transient voltage suppressor and a 250mA fuse
Supertex
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SR037 BRIDGE-RECTIFIER 12v 1A 20MAY03 VN2460

HV9910

Abstract: Led driver 10W schematic 1 R2 1 R3 1 R4 1 POT1 1 U2 1 U3 1 1 VDD,PWMD, GND Description Terminal Block 68uF, 400V Snap-in Electrolytic Capacitor 1uF, 400V Metallized Polypropylene Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 400V, 1.5A Fast - Soft recovery diode 2A, 250Vac Sub , , 10V 13 R5 C3 1uF, 400V AC INPUT R2 178K 9 5K C4 0.1uf, 25V Vdd Rosc , , 250Vac U2 Gnd 1 U3 68uF, 400V 5 F1 2 D1 BYV26D HV9910DB2 ­ Bill of
Supertex
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HV9910NG irf840 mosfet drive circuit diagram 10w led driver capacitor 1uF/400V Ac to Dc led driver with pwm dimming L1 smd p-ch mosfet A0528 B042204 A052804 ED350/2 ECO-S2GP680AA ECW-F4105JB ECJ-2FB1C225K

COILTRONICS CTX01

Abstract: CTX01-14853 ceramic capacitor (0805) Not installed 470pF 50V ceramic capacitor (0805) 1uF 25V ceramic capacitor (1206) Taiyo Yuden TMK316BJ105ML 1nF ceramic capacitor (0805) 1uF 10V ceramic capacitor (0805) Taiyo Yuden LMK212BJ105MG 2.2uF 10V ceramic capacitor (0805) Taiyo Yuden LMK212BJ225MG 1A 400V Ultra-fast , C9 1uF 25V 9 8 VCC C10 EXT 10 SYNC/ SHDN\ CS+ 1 C12 2.2uF 4 U1PGND MAX1856 5 FB LDO REF FREQ 2 R8 200k GND R7 100 6 1nF 7 C11 1uF 10V
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CTX01-14853 IRLR2905 100MV12AX 50MV47AX COILTRONICS CTX01 CTX01 transformer ctx01 CTX01-14853 Coiltronics TMK325BJ106MM CMR1U-04

T1 BC548

Abstract: china tv schematic diagram to start. As the PFC runs, the voltage at the bulk capacitor C23 reaches 400V. TEST RESULTS , Fig 2a, PCB and components layout in Fig. 2b. Figure 1. +400V 220V EMI FILTER PFC , /01297 1/7 2/7 D4 COM1 3 F1 3AT 8 R10 12 C5 1µF 1 15 R6 33K 1W , ,10 C7 470µF C10 220nF 400V TR2 OREGA G5155-01 1 3 19 T1 BC548 R20 1K C12 1nF D7 BA157 C9 1µF 14 12 C11 330nF R9 120K D5 BA157 C19 1nF 12
STMicroelectronics
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TEA2261 TEA5170 BUH517 T1 BC548 china tv schematic diagram orega 220nf 250V colour tv power supply system ic T2 BC548 D95IN292 D95IN259

TEA2261

Abstract: colour tv power supply system ic runs, the voltage at the bulk capacitor C23 reaches 400V. TEST RESULTS: Output Voltage Output , Fig 2a, PCB and components layout in Fig. 2b. Figure 1. +400V 220V EMI FILTER PFC , /01297 1/7 2/7 D4 COM1 3 F1 3AT 8 R10 12 C5 1µF 1 15 R6 33K 1W , 470µF C10 220nF 400V TR2 OREGA G5155-01 1 3 19 T1 BC548 R20 1K C12 1nF D7 BA157 C9 1µF 14 12 C11 330nF R9 120K D5 BA157 C19 1nF 12 18 R23 18K
STMicroelectronics
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BYT11-1000 equivalent colour tv circuit diagram APPLICATION L4981 schematic diagram dc-dc flyback converter diode BA157 250w schematic diagram

trifilar

Abstract: electrolytic capacitor 1uF 25v capacitor (0805) Not installed 470pF 50V ceramic capacitor (0805) 1uF 25V ceramic capacitor (1206) Taiyo Yuden TMK316BJ105ML 1000pF ceramic capacitor (0805) 1uF 10V ceramic capacitor (0805) Taiyo Yuden LMK212BJ105MG 2.2uF 10V ceramic capacitor (0805) Taiyo Yuden LMK212BJ225MG 1A 400V Ultra-fast recovery diode , -0138 core Lpri = 3uH 1:2.5:3.75:3.75 C8 470pF 50V R4 10 R5 10 2 12 11 C9 1uF 25V , 7 R14 10 1 C11 1uF 10V C12 2.2uF 4 U1PGND MAX1856 5 FB LDO REF GND
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SG4-0138 IRLL2705 trifilar electrolytic capacitor 1uF 25v 2.2UF 160V 681K CAPACITOR capacitor 100uf 400v SG3-0138 IRLR8503 CMR1U-02 26AWG

HV9910

Abstract: 68uF 400V capacitor Terminal Block 68uF, 400V Snap-in Electrolytic Capacitor 1uF, 400V Metallized Polypropylene Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 400V, 1.5A Fast - Soft recovery , , 10V 5K R2 178K 13 Vdd HD EN HV9910 1uF, 400V R3 1K 5 R4 0.56 MOUNT1 MOUNT2 , + OUTPUT C1 F1 2A, 250Vac 1 2 AC INPUT NTC1 R AC1 AC2 POS NEG 68uF, 400V U2 12 VDD U3 1 D1 BYV26D R1 464K , %, 1/4W SMD 1206 resistor Top adjust 5K trim pot 400V, 1A, DF-S, Single Phase diode bridge Universal
Supertex
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68uF 400V capacitor smd 1a 100v diode bridge SCHEMATIC POWER SUPPLY irf840 ac to dc isolated led driver schematic diagram A052104 ECJ-2VF1E104Z BYV26B PCH-45-475 CL-130 IRF840AS

22926

Abstract: capacitor 100uf 400v TMK432BJ106MM 100pF 200V ceramic capacitor (0805) Not installed 470pF 50V ceramic capacitor (0805) 1uF 25V ceramic capacitor (1206) Taiyo Yuden TMK316BJ105ML 1000pF ceramic capacitor (0805) 1uF 10V ceramic , 1:2:2:2.7 DTPH1000-0002 C8 470pF 50V R4 10 R5 10 2 12 11 C9 1uF 25V C3,C4 , 1uF 10V C12 2.2uF 4 FB LDO REF GND FREQ 2 N1 IRLL2705 0.05 Ohms 55V R8 , : Compensates for output capacitor ESR zero, if necessary. R13: Controls leakage energy when -24V output has no
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35MV100AX 22926 C8 1 100pF 100V ceramic capacitor electrolytic capacitor 22uf 400v 0805 1uF 25V capacitor 100uf 1206 ESR 100MV22AX MAX1856EUB

capacitor 47nf

Abstract: cfl ballast crest factor Resistor, 0.5Ohm, 1/2W Capacitor, 0.1uF 275 VAC EMI Inductor, 1mH 370mA Capacitor, 47nF 400V Capacitor, 10uF 350VDC 105C Capacitor, 0.1uF 50V 1206 Capacitor, 0.47uF 25V 1206 Capacitor, 1uF 25V 1206 Capacitor, 680pF 1KV SMT 1812 Capacitor, 4.7nF 1KV Polypropylene IC, Ballast Driver IR2520D Inductor , , 47nF 400V Capacitor, 10uF 350VDC 105C Capacitor, 0.1uF 50V 1206 Capacitor, 0.47uF 25V 1206 Capacitor, 1uF 25V 1206 Capacitor, 680pF 1KV SMT 1812 Capacitor, 4.7nF 1KV Polypropylene IC, Ballast
International Rectifier
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capacitor 47nf cfl ballast crest factor bridge rectifier 1A irf ballast cfl ballast transistor Electronic ballast AN-1073

AC275V

Abstract: AC300V I. RFI FILM CAPACITORS Serie F1778 THE NEW RFI FILM CAPACITOR IS MADE UP OF A 13 - DIGIT CODE , Pos.9 e.g. 0 (zero)= spaceholder 1=AC250V 2=AC275V/253V 3=AC300V 4=AC440V/400V 5 , =3,5±0,5mm e.g. 0,01µF 0,1µF 1,0µF =310 =410 =510 Pos 12 Packaging or specialities 0 , C=del.with CoC other=special version I. RFI FILM CAPACITORS Serie F1779 THE NEW RFI FILM CAPACITOR IS , =AC440V/400V 5=AC275V andSpecial temperature types 8= AC275V and special marking Pos.10 e.g. 0 (zero)=
Vishay Intertechnology
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FILM CAP AC440V/400V

EVLB001 Dimmable Fluorescent Ballast

Abstract: ix859 .7-25 Appendix 2: Capacitor Coupled Low Voltage Supply.7-26 Appendix 3 , T4 7 RESONATING CAPACITOR D3 BULK CAPACITOR IXTP02N50D R9 & R13 15V IXTP3N50P D4 T1 POWER VOLTAGE UVLO DECOUPLING CAPACITOR PFC Inductor T3 11 2 3 10 5 , MOSFET Q3. The C9 capacitor is charged to the peak line voltage. The depletion FET Q1 and the Zener , to 400V. If the bus rises to 415 VDC all PFC pulses stop. As the 400V drops, the zero crossing
Atmel
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EVLB001 Dimmable Fluorescent Ballast ix859 ACROS pressure switch MBRS140CT dali power supply circuit diagram Application AT90PWM2 ballast fluorescent lamp EVLB001 7597B

T1 BC548

Abstract: 220nf 250V to start. As the PFC runs, the voltage at the bulk capacitor C23 reaches 400V. TEST RESULTS , components layout in Fig. 2b. +400V 220V EMI FILTER PFC (L4981A) +135(B+) FLY BACK DC-DC CONV , 400V Figure 2a: Schematic Diagram. D1 D3 4x BY255 R6 33K 1W D2 D4 C7 470nF R8 2.7K , T4 BUH515 C9 1µF GS15400 R14 27K C16 F1 C8 10µF 1.2nF 3 R19 22 C3 470nF L1 14 D8 , TEA2261 8 7 6 4,5,12,13 SYNC IC3 C30 1µF TR4 R45 330 C29 220nF R2 100K R55 R 2
STMicroelectronics
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TRANSISTOR BC548 WORKING 2200uf 25v capacitor 2200uF 50V capacitor transistor buh517 220v pfc schematic diagram 10uF 450v tv CAPACITOR

P0260AD

Abstract: HT7L4091 target average LED current. A 1uF capacitor and an RCS as shown in the above calculation are a good , Capacitor Circuit EMI Lc RIN Ra AC Ca1 Ca2 Co D1 Cfilter VLED L 0.1uF 400V , Ca1 Ca2 C1 22uF 400V D1 Cfilter 0.1uF 400V Zin VLED Tr CIN 1uF/50V Lc , 400V Co D1 Zin 1uF 50V VLED L Lc VIN LD 0.1uF C7 PDM RT CT 5pF , . 12 Input Bulk Capacitor â'" C1
Holtek
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HT7L4091 P0260AD

led driver pwm 1500mA

Abstract: SMD Electrolytic CAPACITORS 100uf 16v philips 100µF, 160V electrolytic capacitor Panasonic EEU-EB2C101 C4 2.2µF, 16V SMD 0805 ceramic capacitor Panasonic ECJ-2FB1C225K 1 C7 0.1µF, 25V SMD 0805 ceramic capacitor Panasonic ECJ-2VF1E104Z 1 C11 1µF, 250V metallized polypropylene capacitor Panasonic ECW-F2105JB , Diagram V+ V+ C11 C1 J11 1uF, 250V 100uF, 160V U3 U2 AC2 NEG C4 13 , D18 3 D19, D20, D21 400V, 1.5A fast - soft recovery diode Philips BYV26B 400V, 1A
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HV9910DB1 CT-94W-502 led driver pwm 1500mA SMD Electrolytic CAPACITORS 100uf 16v philips 50hz to 60hz converter circuit diagram CTX-01 1uF 250V smd 135VAC 90-135V ECQ-U2A104MV FR1G-13 BU9-2820R5B

220v AC to 110v AC using resistor circuit diagram

Abstract: 1uF 250V Epcos Manufacturer Manufacturer's Part Number 1µF, 250V metallized polyester capacitor Radial EPCOS Inc B32522C3105J 0.47µF, 250V metallized polyester capacitor Radial EPCOS Inc B32521C3474J C3, C7 68µF, 250V electrolytic capacitor Radial Panasonic EEU-EE2D680 2 C4, C5 0.1µF, 250V , C5 1 0.1uF, 250V F1 3 C3 C7 MOV1 C6 R6 1K 5K R3 1uF, 250V 0 , 13 12 0 1uF, 250V C1 2.2uF, 16V 22uH RT J3C 0 CS Gate HV9910B
Supertex
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HV9910BDB1 220v AC to 110v AC using resistor circuit diagram 1uF 250V Epcos converter from 110v to 220v schematic diagram 220v AC to 110v AC transformer circuit diagram inductor 1000uH 2A buck converter 110v 3361P-1-502GLF SO-16

RIFA PHE 426

Abstract: PHE 425 65-579-12 Kond 0,01uF/400V 5mm Kond 0,015uF/400V 5mm Kond 0,022uF/400V 5mm Kond 0,033uF/400V 5mm Kond 0,047uF/400V 5mm Kond 0,068uF/400V 5mm Kond 0,1uF/400V 15mmm Kond 0,15uF/400V 15mm Kond 0,22uF/400V 15mm Kond 0,33uF/400V 15mm Kond 0,47uF/400V 15mm Kond 0,68uF/400V 22,5mm Kond 1uF/400V 22,5mm , Kond 0,1uF/250V 5mm Kond 0,15uF/250V 5mm Kond 0,22uF/250V 10mm Kond 0,33uF/250V 15mm Kond 0,47uF/250V 15mm Kond 0,68uF/250V 15mm Kond 1uF/250V 15mm Kond 1,5uF/250V 22,5mm Kond 2,2uF/250V 22,5mm
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PHE426 RIFA PHE 426 PHE 425 2.2uf 1000v RIFA PHE 450 0,47uF 1000v PHE 280 RIFA F/250V F/400V F/630V PHE426PF6470J PHE426PF6560J

ph c10 zener diode

Abstract: SCHEMATIC WITH IR2153 pump circuit, consisting of capacitor C10 and diodes D5 and D6, is used so that when the IR51H420 , for the charge pump capacitor C10. This causes the voltage at Vcc of the IR51H420 to begin falling , frequency well above the resonant point of the LC circuit formed by inductor L1 and capacitor C9. This is , diode D1 + the turn-on threshold of Q1, capacitor C6 is shorted out and the frequency shifts to the , IRxxH320, HD320 IRxxH420, HD420 Maximum Voltage 250V 250V 300V 400V 400V 500V Rds(on) at 25C
International Rectifier
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ph c10 zener diode SCHEMATIC WITH IR2153 SCHEMATIC WITH IR2153 protection 300 Volt mosfet schematic circuit ir2101 Fluorescent BALLAST IC IR lamp CONTROL IR2151 ERJ-8GEYJ203 BZT52-C7V5DICT-ND BZT52-C3V9DICT-ND 10BF40

HV9910

Abstract: led driver pwm 1500mA Electrolytic Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 1uF, 250V Metallized Polypropylene capacitor 0.1uF, 250V Metallized Polyester capacitors 400V, 1.5A Fast - Soft recovery diode 400V, 1A SMB Fast Recovery Diode Slow Blo SMD 125V, 2A fuse Low profile common mode choke , Diagram V+ V+ C11 C1 J11 1uF, 250V 100uF, 160V VDD D21 FR1G-13 0.1uF, 250V L1 , trim pot Universal LED driver 400V, 1A, DF-S, Single Phase diode bridge D2PAK Heat Sink VDD,PWMD
Supertex
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HV9910B1 100uF 250v capacitor capacitor 1uf/250v capacitor 0.1uf 250v choke 1000uh 120v input buck converter ED555/2DS PCV-2-105-02 ERJ-6ENF4643V ERJ-6ENF1783V ERJ-14RQJR27U

440v to 12v smps power supply

Abstract: 120v battery charger Schematic Diagram LR8. To maintain stability, a bypass capacitor of 1.0µF or larger and a minimum DC output current of , V V %/V % % mA mA mA µA µF dB °C 120Hz, VOUT = 5V 12V , VIN V ADJ OUT Vout2 PWM IC Figure 2: SMPS Start-Up Circuit 1µF LR8 + VIN = 15V to 450V VIN , , 200V, 400V ADJ I 2.4K ADJ 10 VIN = 400V 9 VIN = 12V 1.0µF 8 VIN = 200V 7 6 -50 -25 0
Supertex
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440v to 12v smps power supply 120v battery charger Schematic Diagram 12V SMPS charger circuit diagram 440v ac voltage regulator pwm controller 450v input voltage 400V to 12V DC Regulator
Abstract: current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both , COSC An external capacitor connected to GND fixes the switching frequency. 19 VCC 20 , "¦, CSS = 1µF, VCA-OUT = 3.5V, VISENSE = 0V, VLFF = VREF, IAC = 100µA, VRMS = 1V, VFEED = GND, VIPK = STMicroelectronics
Original
Abstract: average LED current. A 1uF capacitor and an RCS as shown in the above calculation are a good start point , 400V 0.1uF 400V Zin PDM RT CT 5pF MOSFET GDR VDD C7 CIN 1uF/50V VIN , AC Ca1 Ca2 Co D1 Cfilter VLED L 0.1uF 400V Rb CIN Lc 1uF/50V , Cfilter 0.1uF 400V Zin VLED Tr CIN 1uF/50V Lc Ra LD GDR VDD C7 Essential , Cfilter CIN 22uF 400V 0.1uF 400V Co D1 Zin 1uF 50V VLED L Lc VIN LD Holtek
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105k 400V capacitor

Abstract: capacitor 105k 400V DESIGN FEATURESL DC/DC Converter, Capacitor Charger Takes Inputs from 4.75V to 400V by Robert , current for a 100µF output capacitor charged to 400V in less than 100ms (R9 = 976). For output voltages , VOUT,TRIP (V) VTRANS 100V TO 400V DC 550 400 400 Figure 8. Isolated capacitor charger , °C T1 AMBIENT OPERATION Figure 7. A 100V to 400V input, 500V output, isolated capacitor charger , 100V to 400V input, 400V output, capacitor charger and voltage regulator Note that the FB pin of the
Linear Technology
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LT3751 105k 400V capacitor capacitor 105k 400V 400V Automatic Voltage Regulator 105k 630v ceramic any circuit using irf830 battery charger

3kw smps pfc

Abstract: 3kw half bridge smps R9 1.8M 1/4W 1% C10 1µF 16V R10 21k 1/4W 1% C11 270pF 400V , 330nF R9 R10 1.8M 21k 1/4W 1/4W 1% 1% C10 1µF 16V C11 270pF 400V , -600 R3 D3 1N4150 220K 5% BRIDGE + 4 x BY255 FUSE 4A/250V 100 5% D2 1N5248B C1 1µF 400V , 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS
STMicroelectronics
Original
3kw smps pfc 3kw half bridge smps irf740 pins connections pwm power MOSFET IRF740 driver circuit D94IN049A 3kw pfc using l4981 application note L6560 L6560A

stm12nm50

Abstract: DZW06-48 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both in overvoltage and UVLO conditions. Frequency , constant charging current of C OSC. 18 COSC An external capacitor connected to GND fixes the , specified VCC = 18V, COSC = 1nF, ROSC = 24K, CSS = 1µF, VCA-OUT = 3.5V, VISENSE = 0V, VLFF = VREF, IAC =
STMicroelectronics
Original
stm12nm50 DZW06-48 NTC 15 5.3V zener 5tta5060 l4981 AN628

dzw*06

Abstract: stm12nm50 % C5 1µF 16V C6 1µF 16V D93IN029C 0.07 2W fSW = 80kHz; PO = 200W; VOUT = 400V; Irms max , current limited and can deliver an output current up to 10mA. A capacitor connected to ground defines the soft start time. An internal current generator delivering 100µA (typ) charges the external capacitor defining the soft start time constant. An internal MOS discharge, the external soft start capacitor both , C OSC An external capacitor connected to GND fixes the switching frequency. 19 VCC
STMicroelectronics
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dzw*06 220uF 450v T15A250V 220k 400V dzw*06*48 176VAC

TSD-736

Abstract: 2209w should be locally bypassed with a 10nF and a 1µF ceramic capacitor. In most applications, an electrolytic , ripple current in the storage capacitor between the PFC and PWM sections Average current, continuous , for the PWM soft start capacitor PWM voltage feedback input PFC (master) oscillator input; fOSC set by , PFC error amplifier bandwidth, and can significantly reduce the size of the PFC DC buss capacitor. The , output capacitor (the PWM input capacitor). The PWM section of both the ML4827-1 and the ML4827-2 run at
Micro Linear
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TSD-736 2209w ML4824 TSD-734 ML4827 UL1950 ML4824-1

Micro Linear Application Note 33

Abstract: ML 723 CT locally bypassed with a 10nF and a 1µF ceramic capacitor. In most applications, an electrolytic , Low total harmonic distortion s Reduces ripple current in the storage capacitor between the PFC , point for the PWM soft start capacitor 14 V REF Buffered output for the internal 7.5V , the size of the PFC DC buss capacitor. The synchronization of the PWM with the PFC simplifies the PWM compensation due to the controlled ripple on the PFC output capacitor (the PWM input capacitor).
Micro Linear
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Micro Linear Application Note 33 ML 723 CT 400V to 6V DC Regulator TO 220 Package Micro Linear Application Note 33 pfc

ML4824

Abstract: IEC1000-3-2 SPECIFICATION ML4827 The ML4827 should be locally bypassed with a 10nF and a 1µF ceramic capacitor. In , distortion Reduces ripple current in the storage capacitor between the PFC and PWM sections Average , comparator Input for PFC RMS line voltage compensation Connection point for the PWM soft start capacitor , reduce the size of the PFC DC buss capacitor. The synchronization of the PWM with the PFC simplifies the PWM compensation due to the controlled ripple on the PFC output capacitor (the PWM input
Fairchild Semiconductor
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UL1950TM ML4827CS-2 ML4827IP-2 ML4827IS-2 DS30004841

TSD-735

Abstract: ML4824 should be locally bypassed with a 10nF and a 1µF ceramic capacitor. In most applications, an , Low total harmonic distortion s Reduces ripple current in the storage capacitor between the PFC , Connection point for the PWM soft start capacitor 14 V REF Buffered output for the internal 7.5V , PFC error amplifier bandwidth, and can significantly reduce the size of the PFC DC buss capacitor , ripple on the PFC output capacitor (the PWM input capacitor). The PWM section of both the ML4827-1 and
Fairchild Semiconductor
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TSD-735 IRF840 pin-compatible tsd 736 bridge rectifier 40 amp TL431 AS VOLTAGE REGULATOR IN BOOST CONVERTER

100uF 400V capacitor

Abstract: electrolytic capacitor 22uf 400v LMK432BJ226MM 100pF 200V ceramic capacitor (0805) Not installed 470pF 50V ceramic capacitor (0805) 1uF 10V , capacitor (0805) Taiyo Yuden LMK212BJ225MG 1A 400V Ultra-fast recovery diode Central Semi CMR1U-04 1A , 2uH 1:2.5:2.8:2.8 DTPH1000-0003 C8 470pF 50V R4 10 R5 10 2 12 11 C9 1uF 10V , 7 R14 10 1 C11 1uF 10V C12 2.2uF 4 U1PGND MAX1856 5 FB LDO REF GND , : Compensates for output capacitor ESR zero, if necessary. Vin 4.9992 4.9942 5.0032 4.4961 5.0007 5.511
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100uF 400V capacitor capacitor 1000pf 50v 0805 electrolytic capacitor 22uf 200v capacitor 2.2uF 400V 28TURNS 100uf 35v

IEC1000-3-2

Abstract: ML4824-1 locally bypassed with a 10nF and a 1µF ceramic capacitor. In most applications, an electrolytic , Low total harmonic distortion s Reduces ripple current in the storage capacitor between the PFC , shunt regulator) SS Connection point for the PWM soft start capacitor 14 V REF Buffered , the size of the PFC DC buss capacitor. The synchronization of the PWM with the PFC simplifies the PWM compensation due to the controlled ripple on the PFC output capacitor (the PWM input capacitor).
Micro Linear
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13PFC MOSFET 1000v 10a 180C3 2.2 K 400v ac capacitor DS4827-01

440v to 12v smps power supply

Abstract: 120v battery charger Schematic Diagram stability, a bypass capacitor of 1.0µF or larger and a minimum DC output current of 500µA are required , , 1.20 Max V 1.26 V Test Conditions 12V , FB PWM IC Figure 2: SMPS Start-Up Circuit 1µF IOUT = LR8 + VIN 1.20V R VOUT , IADJ (µA) VOUT=1.2V VIN LR8 12V, 200V, 400V ADJ 2.4K 10 VIN = 400V VIN = 12V 9
Supertex
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adjustable regulator high voltage lr8n3 schematic diagram 200v dc voltage regulator 5V SMPS charger circuit diagram 15V Regulator dpak 440v ac power regulator LR8K4

SCHEMATIC POWER SUPPLY irf840

Abstract: irf840 mosfet drive circuit diagram T1 SHF5000A-122 C30 1µF 400V +400V PE-51686 T2 R22 10/3W R23 D11A L1 , Electrolytic 50 2 R11, R10 0.1/2W 17 1 C30 1µF/400V Film 51 3 82K/2W 18 , transformer. This is achieved by means of a floating bias supply, maintained by a bootstrap capacitor , R15 82K/2W +400V 2 1 6PCV02 J2 FBK08A24M C4 470µF C3 470µF RUR860 , RV1 - V250LA40B VIN C10 1µF C11 0.0047µF L2 J1 90-270VAC RV2 INRUSH LIM 8A
Harris Semiconductor
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P3657A LM7812 3a TRANSISTOR mosfet IRF840 amidon 43 toroid core ic lm7812 transistor irf840 frequency range P3657-A AN9417 HIP5500 36VDC IEC555-2 GBPC810 1000PIV/8A

irf840 mosfet drive circuit diagram

Abstract: OF IC LM7812 1 C23 120µF/35V Electrolytic 50 2 R11, R10 0.1/2W 17 1 C30 1µF/400V , . This is achieved by means of a floating bias supply, maintained by a bootstrap capacitor between , C17 0.1µF + R29 10 D9 R5 ICL7667 C18 0.22µF T1 SHF5000A-122 C30 1µF 400V +400V PE-51686 T2 R22 10/3W R23 D11A L1 10µF C20 0.001µF C21 , 2 FAN C5 0.22µF R27 390/3W J3 + + R16 82K/2W R15 82K/2W +400V 2
Intersil
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OF IC LM7812 Application of irf840 irf840 power supply power supply circuit LM7812 internal resistance of zener diode 1N961 MLT 22 805 A114M 1N4372 1N961 FB43-101 MC34262 HIP5600

mosfet 12w smd

Abstract: ICE3B0565J is for ICE3B0565J is internally set at 67KHz +/-2.7KHz. This demo board has SOFTS capacitor of 1uF , 1 2 C1 0.1uF/275V, X2 Capacitor 1 3 C2 47uF/400V 1 4 C3 2.2nF/400V , 2KBB40 R1 150k/2W + C3 2n2F/400V C2 47uF/400V + + C21 1800uF/25V 3 C22 220uF , DRAI N EF20 4 1uF GND 8 FB Isense 2 3 4 3 C8 1nF R4 1.5R 1 Rc6 470 Rc5 2.2K Rc1 10k Cc2 1nF 2 R4A 15R Cc1 1uF Rc2 0R Rc4 6.8k IC2
Infineon Technologies
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AN-EVALSF3-ICE3B0565J ICE3B0365J mosfet 12w smd transistor SMD 12W MOSFET 12W SMD MOSFET transistor SMD 12W schematic diagram AC to DC converter 12W AN-SMPS-ICE3DS01-1 ICE3DS01

LS03-05B05S-FPT

Abstract: mornsun-power . 4mm Note: C1: 1µF (Ceramic capacitor) 2 5. 4mm C2: 10µF (Electrolytic capacitor) PRODUCT , C1 is 22μF/400V. DC input, is a filtering capacitor in EMC Filter, the value of C1 is 10µF/400V , .External electrolytic capacitor are required to models, more details refer to typical applications; 2. Ripple and Noise , Page 2 of 4 STRUCTURE FIGURE 12 +Vin(L) 7 -Vin(N) C1 E xternal Capacitor 1 Rec , : linewidth A≥3mm,C≥9mm EXTERNAL CAPACITORS TYPICAL VALUE Output Voltage C1 5V 10µF/400V C2
MORNSUN
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LS03-05B05S-FPT mornsun-power LS03-05B05S-FPT----- 230VAC S14K350 102M/400VAC F/275VAC

znr 10k 391

Abstract: TRIAC BCR 1 AM capacitor as shown in the lamp dimmer circuit of Figure 11.3. The component values are chosen to give , ~ D2 0.22µF 200V D1 100µH 0.1µF 50V 10k DIAC 1A, 400V D1, D2 G-43 Powerex , consisting of VR and C1 and hysteresis is reduced by D1, D2, R1 and the gate of BS08A. D1 1A, 400V R2 100 R1 15k AC 120V VR 500k D2 D1 1A, 400V R3 100 BCR 1A, 400V C1 0.2µF , power supply for AC input voltage. AC 120V VR 500k D2 R1 15k BCR 1A, 400V C1 0.2µF
Powerex
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znr 10k 391 TRIAC BCR 1 AM znr 10k BCR 3A 400V triac bcr znr 10k 112 BCR1AM-12

11N60

Abstract: CM6901 function can just need a simple capacitor to ground and it can be around 1uF. 7 PGB PGB is the PG , minimum bypass capacitor should be greater than 1uF. Vref (PIN 14) Vref is 1% 3mA buffered 7.5V reference. It requires a 0.1uF to 0.01uF bypass capacitor to filter out the switching the noise. SS (PIN 6) SS pin 6 is the Soft Start Capacitor pin. CM6565 SS pin provides a close loop soft start for the , stress the 380V PFC output capacitor.) CM6565's PFCOVP use the VFB pin to sense the PFC over voltage
Champion Microelectronic
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11N60 CM6901 QP2512 ps113a 835NL-1A-B-C 1 MEGA OHM PRESET CM6561
Abstract: 1 VIN3 Regulator Input. Bypass with a 1µF capacitor to GND. In application VIN3 is always powered by VBUS of USB interface. 5,6,3 VBAT1,2,4 Regulator Input. Bypass with a 1µF capacitor , . Bypass with a 1µF Capacitor to GND for VOUT2 = 2.8V/200mA. 16 VOUT3 LDO-3 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT3 = 2.8V/200mA. 2 VOUT4 LDO-4 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT4 = 2.8V/200mA SG Micro
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SGM2026 3-16L

3 phase inverter 120 conduction mode waveform

Abstract: 3 phase inverter 180 conduction mode waveform period set by the RC network of a 1µF capacitor and a 100k resistor. At the same time Q2 will pull the , > 0.544µF 0.5 In this case use a 1µF capacitor. Note: If IQBS increases to 240µA, CBOOT = 4.88uF , DC current to each winding for the time period set by the RC network of a 5µF capacitor and a 1M , 5V/12V SEL 5 1M VMIN 2N7000 1µF 100k DC BRAKE Figure 7. DC Braking Circuit , over the range allowed by the CO capacitor (Figure 10). Blower and fan applications in this
Fairchild Semiconductor
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ML4423 3 phase inverter 120 conduction mode waveform 3 phase inverter 180 conduction mode waveform 1 HP SINGLE PHASE induction motor speed control using pwm inverter LM2907J inverter 12v to 220 ac mosfet based 120 degree conduction mode of an inverter
Abstract: 1 VIN3 Regulator Input. Bypass with a 1µF capacitor to GND. In application VIN3 is always powered by VBUS of USB interface. 5,6,3 VBAT1,2,4 Regulator Input. Bypass with a 1µF capacitor , . Bypass with a 1µF Capacitor to GND for VOUT2 = 2.8V/200mA. 16 VOUT3 LDO-3 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT3 = 2.8V/200mA. 2 VOUT4 LDO-4 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT4 = 2.8V/200mA SG Micro
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SGM2025 TQFN-16

ML4803

Abstract: ML4803-2 edge modulation · Reduces ripple current in the storage capacitor between the PFC and PWM sections · , minimize ripple current in the PFC DC buss capacitor. The ML4803 is offered in two versions. The ML4803 , ceramic bypass capacitor placed as close as possible to the IC. Good bypassing is critical to the proper , , which occurs on the input filter capacitor in such a supply, causes brief highamplitude pulses of , in the high-voltage PFC capacitor. PFC Voltage Loop Compensation Equation 1 calculates the
Fairchild Semiconductor
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ML4803-2 1N5246B ML4803CX-X ML4803IX-X ML4803-1 ML4803IP-2 ML4803IS-2 DS30004803

fan4803cp2

Abstract: 1N52468 storage capacitor between the PFC and PWM sections · Overvoltage, UVLO, and brownout protection · PFC , ) modulation technique helps to minimize ripple current in the PFC DC buss capacitor. The FAN4803 is offered in , bypassed with a high quality ceramic bypass capacitor placed as close as possible to the IC. Good bypassing , . Peak-charging effect, which occurs on the input filter capacitor in such a supply, causes brief highamplitude , as 30% using this method, substantially reducing dissipation in the high-voltage PFC capacitor
Fairchild Semiconductor
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fan4803cp2 1N52468 FAN4803-1 FAN4803-2

1N52468

Abstract: FAN4803 edge modulation · Reduces ripple current in the storage capacitor between the PFC and PWM sections · , PFC DC buss capacitor. The FAN4803 is offered in two versions. The FAN4803-1 operates both PFC and , ceramic bypass capacitor placed as close as possible to the IC. Good bypassing is critical to the proper , , which occurs on the input filter capacitor in such a supply, causes brief highamplitude pulses of , reducing dissipation in the high-voltage PFC capacitor. PFC Voltage Loop Compensation Equation 1
Fairchild Semiconductor
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APPLICATION FAN4803 boost pfc operate in ccm PWM techniques sinusoidal pulse width modulation technique FAN4803CP-1 FAN4803CP-2

orega

Abstract: THOMSON-CSF B1ET2910A D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , capacitor Ccomp, the current through Ccomp equals zero. When the output voltage increases abruptly the , through R2 does not change, IR1 must flow through the capacitor C comp and enter the error amplifier , C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF 68K 5 8 3 Vac (85V to , 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6
STMicroelectronics
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L6561 L6561D THOMSON-CSF B1ET2910A core THOMSON-CSF B1ET2910A L6561 AN BYT03-400

orega transformer

Abstract: Po-80W D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , capacitor Ccomp, the current through Ccomp equals zero. When the output voltage increases abruptly the , through R2 does not change, IR1 must flow through the capacitor C comp and enter the error amplifier , C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF 68K 5 8 3 Vac (85V to , 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6
STMicroelectronics
Original
orega transformer Po-80W L6561D equivalent 12v 200mA OREGA 473201A8 smps L6561d

NTC 10D-9

Abstract: HC11A8 Electorlytic Capacitor C202 22uF/400V Electorlytic Capacitor C203 47uF/160V Electorlytic , D203 UG4D C105 47nF Box Capacitor D204 UG4D D205 UG4D C106 220uF/400V Electorlytic Capacitor D206 UF4004 C107 47nF/630V Caramic Capacitor C108 1uF/50V , Electorlytic Capacitor C111 1uF/50V Electorlytic Capacitor C112 1nF/50V Caramic Capacitor , connected to the inverting input of the PWM comparator. For stable operation, a capacitor should be placed
Fairchild Semiconductor
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NTC 10D-9 HC11A8 250v 220uf capacitor 10D-9 8S0965 DIODE tvr10g 471D10 FS8S0965RCB FS8S0965RCBYDTU 8S0965RCB

ilpi -115

Abstract: PQ2620 IDC 2 f LINE V IDC = (.03)(2)(117)(50000) 80 = 0.348A 230 choose 1µF, 250V capacitor , 1N4004 R2 12K C2 0.01µF M TA (°C) IDET SG3561A C1 1µF 120V 1N4935 GND 6 , 1000pF RoHS Compliant / Pb-free Transition DC: 0503 -25 to 85 C6 100µF 400V SG3561AN , INV ERROR AMP COMP C4 R10 Start-up capacitor C3 is first charged by the current through , than R3 can provide. This causes the energy stored in the capacitor to supply the IC with the
Microsemi
Original
PQ2620 ilpi -115 220v ac to 3.7v dc converter tdk h7c1 ilpi 031 pn junction DIODE 1N4007 MR856 IRFBE42 90-265VAC 432VDC PQ2620/H7C1

thermal fuse 115 250V 2A

Abstract: etd 35 909K 2 1 7 L6561 - C2 22µF 25V Vo=400V Po=120W C3 1µF R1 R9 (*) 1.82M , (*) D3 1N4150 240K BRIDGE + 4 x 1N4007 FUSE 4A/250V R2 100 D2 1N5248B C1 1µF 400V C6 , = 2 x 120K R6 = 0.82/2 R7 = 2 x 499K, 1% R9 = 2 x 620K 6/11 Vo=400V Po=80W C3 1µF , external compensation network is made only with a capacitor Ccomp, the current through Ccomp equals zero , the capacitor Ccomp and enter the error amplifier. This current is monitored inside the L6561 and
STMicroelectronics
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thermal fuse 115 250V 2A etd 35 115 2a 250v thermal fuse L6561 equivalent D97IN549B Transformer ETD-29

1N52468

Abstract: FAN4803 edge modulation · Reduces ripple current in the storage capacitor between the PFC and PWM sections · , minimize ripple current in the PFC DC buss capacitor. The FAN4803 is offered in two versions. The FAN4803 , ceramic bypass capacitor placed as close as possible to the IC. Good bypassing is critical to the proper , , which occurs on the input filter capacitor in such a supply, causes brief highamplitude pulses of , reducing dissipation in the high-voltage PFC capacitor. PFC Voltage Loop Compensation Equation 1
Fairchild Semiconductor
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FQP9N50 fan4803cp1 67KHZ PWM IC 8-PIN DIP 03CS-2

china tv schematic diagram

Abstract: T1 BC548 enabling the L4981A to start. As the PFC runs, the voltage at the bulk capacitor C23 reaches 400V , diagram is shown in Fig 2a, PCB and components layout in Fig. 2b. Figure 1. +400V 220V EMI , D95IN236A AN826/1003 1/6 2/6 D4 COM1 3 F1 3AT 8 R10 12 C5 1µF 1 15 , R8 2.7K 1,7,10 C7 470µF C10 220nF 400V TR2 OREGA G5155-01 1 3 19 T1 BC548 R20 1K C12 1nF D7 BA157 C9 1µF 14 12 C11 330nF R9 120K D5 BA157 C19
STMicroelectronics
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2200uF 100v capacitor SCHEMATIC DIAGRAM OF POWER factor controller china tv schematic diagram free capacitor 220nF 400V flyback converter 2A 15V stta50

orega transformer

Abstract: BYT03-400 D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , IR2 = R2 R1 and, if the external compensation network is made only with a capacitor Ccomp, the , change, IR1 must flow through the capacitor C comp and enter the error amplifier. This current is , C1 1µF 250V T C6 R7 (*) 950K 10nF 68K 1 7 L6561 Vac (85V to 135V) 3 , 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6 R7
STMicroelectronics
Original

220k 400V

Abstract: OREGA 473201A8 D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , a capacitor C, the current through C is equal zero. When the output voltage increases abruptly the , Since the current through R2 doesn't change, the I current must flow through the capacitor C and enter , BYT03-400 R3 (*) D3 1N4150 240K R2 100 D2 1N5248B BRIDGE + 4 x 1N4007 C1 1µF , 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6 R7
STMicroelectronics
Original
D97IN550B

PWM techniques

Abstract: ic 941 8-pin Reduces ripple current in the storage capacitor between the PFC and PWM sections s Overvoltage , ) modulation technique helps to minimize ripple current in the PFC DC buss capacitor. The ML4803 is offered , capacitor placed as close as possible to the IC. Good bypassing is critical to the proper operation of the , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , steady state at the VEAO, the boost output voltage would be 400V. current will ramp up. The effective
Micro Linear
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ic 941 8-pin m7 diode PFC ML4803CP2 ic 818 a 8pin 742 8pin ic PWM IC 8 PIN DIP HALF BRIDGE DS4803-01

PWM techniques

Abstract: modulation Reduces ripple current in the storage capacitor between the PFC and PWM sections Overvoltage, UVLO , current in the PFC DC buss capacitor. The ML4803 is offered in two versions. The ML4803-1 operates both , 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as possible to , filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor in such a , method, substantially reducing dissipation in the highvoltage PFC capacitor. programming resistor. The
Fairchild Semiconductor
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ML4803CP-2

Abstract: PWM IC 8-PIN DIP Reduces ripple current in the storage capacitor between the PFC and PWM sections s Overvoltage , ) modulation technique helps to minimize ripple current in the PFC DC buss capacitor. The ML4803 is offered , capacitor placed as close as possible to the IC. Good bypassing is critical to the proper operation of the , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , steady state at the VEAO, the boost output voltage would be 400V. current will ramp up. The effective
Fairchild Semiconductor
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ML4803CP-2 ML4803CS-2 3 phase pfc controller DC DC converter 1A 400V TO 220 Package 8 pin 4v power supply converter calculations for pwm for pfc

ML4803

Abstract: 78VDC capacitor between the PFC and PWM sections Overvoltage, UVLO, and brownout protection PFC VCCOVP with PFC , current in the PFC DC buss capacitor. The ML4803 is offered in two versions. The ML4803-1 operates both , 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as possible to , fed from the line. Peak-charging effect, which occurs on the input filter capacitor in such a supply , dissipation in the highvoltage PFC capacitor. programming resistor. The nominal voltage at the VEAO pin is 5V
Micro Linear
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78VDC

1N52468

Abstract: APPLICATION FAN4803 current in the storage capacitor between the PFC and PWM sections · Overvoltage, UVLO, and brownout , /Trailing Edge (LETE) modulation technique helps to minimize ripple current in the PFC DC buss capacitor , disabling it at 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , method, substantially reducing dissipation in the high-voltage PFC capacitor. Programming Resistor
Fairchild Semiconductor
Original
Abstract: trailing edge modulation â'¢ Reduces ripple current in the storage capacitor between the PFC and PWM , current in the PFC DC buss capacitor. The ML4803 is offered in two versions. The ML4803-1 operates both , 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as possible to , capacitor in such a supply, causes brief highamplitude pulses of current to ï¬'ow from the power line , capacitor. PFC Voltage Loop Compensation Equation 1 calculates the required programming resistor Fairchild Semiconductor
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ML4803CP-1

Abstract: ML4803-2 Reduces ripple current in the storage capacitor between the PFC and PWM sections s Overvoltage , ) modulation technique helps to minimize ripple current in the PFC DC buss capacitor. The ML4803 is offered , capacitor placed as close as possible to the IC. Good bypassing is critical to the proper operation of the , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , steady state at the VEAO, the boost output voltage would be 400V. current will ramp up. The effective
Fairchild Semiconductor
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ML4803CP-1 PWM IC 14 PIN PDIP zener cr5 diode

12VRET

Abstract: APPLICATION FAN4803 storage capacitor between the PFC and PWM sections · Overvoltage, UVLO, and brownout protection · PFC , /Trailing Edge (LETE) modulation technique helps to minimize ripple current in the PFC DC buss capacitor , disabling it at 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , method, substantially reducing dissipation in the high-voltage PFC capacitor. Programming Resistor
Fairchild Semiconductor
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12VRET FAN4803CS-1 FAN4803CS-2

THOMSON-CSF B1ET2910A

Abstract: L6561D equivalent D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , capacitor Ccomp, the current through Ccomp equals zero. When the output voltage increases abruptly the , through R2 does not change, IR1 must flow through the capacitor C comp and enter the error amplifier , C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF 68K 5 8 3 Vac (85V to , 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6
STMicroelectronics
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B1ET2910 ETD 41 035 473201A7

orega

Abstract: smps design 120W D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , made only with a capacitor C, the current through C is equal zero. When the output voltage increases , capacitor C and enter in the error amplifier. This current is mirrored inside the L6561, and compared with , 1N4007 C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF C3 680nF 5 8 3 , (*) D3 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T
STMicroelectronics
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smps design 120W sgs-thomson TO-3 litz wire 38 awg STP5NA50

orega

Abstract: litz wire 38 awg D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , capacitor Ccomp, the current through Ccomp equals zero. When the output voltage increases abruptly the , through R2 does not change, IR1 must flow through the capacitor C comp and enter the error amplifier , C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF 68K 5 8 3 Vac (85V to , 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6
STMicroelectronics
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L6561 application L6561 application note smps L6561 Electronic ballast 80W Thomson-CSF power capacitors

FAN4803

Abstract: FQP9N50 edge modulation · Reduces ripple current in the storage capacitor between the PFC and PWM sections · , PFC DC buss capacitor. The FAN4803 is offered in two versions. The FAN4803-1 operates both PFC and , with a high quality ceramic bypass capacitor placed as close as possible to the IC. Good bypassing is , filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor in such a , reducing dissipation in the high-voltage PFC capacitor. PFC Voltage Loop Compensation Equation 1
Fairchild Semiconductor
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L6561 AN

Abstract: orega D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , capacitor Ccomp, the current through Ccomp equals zero. When the output voltage increases abruptly the , through R2 does not change, IR1 must flow through the capacitor C comp and enter the error amplifier , C1 1µF 250V FUSE 4A/250V T C6 R7 (*) 950K 10nF 68K 5 8 3 Vac (85V to , 1N4150 440K BRIDGE + 4 x 1N4007 FUSE 2A/250V R2 100 D2 1N5248B C1 560nF 400V T C6
STMicroelectronics
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L6561D PFC

SynQor 0112-A00

Abstract: current (100 mV/div). Load capacitance: 1µF ceramic capacitor and 15µF tantalum capacitor. Bandwidth , Vin = 400V Vin = 400V 0.0 10.0 20.0 30.0 88 -55ºC 40.0 25ºC Load Current , 10 230 Vin 385 Vin Vin = 400V 0.0 10.0 20.0 30.0 400 Vin 0 -55ºC 40.0 , ) Iout (A) 35 25 300 20 15 200 10 Vin = 230V Vin = 400V 70 Vin = 230V 100 , . Product # BQ4H136EEC45 Phone 1-888-567-9596 Vin = 385V Vin = 400V 70 80 Semiconductor
Synqor
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SynQor 0112-A00 4-A00 BQ4H136EEC45NRS

SCHEMATIC WITH IR2153

Abstract: power supply using IR2153 , consisting of capacitor C10 and diodes D5 and D6, is used so that when the IR51H420 begins to oscillate, the , regulate. If the lamp is removed from the circuit there is no longer a path for the charge pump capacitor , LC circuit formed by inductor L1 and capacitor C9. This is done to insure that the initial voltage , turn-on threshold of Q1, capacitor C6 is shorted out and the frequency shifts to the final running , IRxxH420, HD420 Maximum Voltage 250V 250V 300V 400V 400V 500V Rds(on) at 25C 2.0 1.1 0.75
International Rectifier
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power supply using IR2153 ir2104 ECE switch IR2153 ir2153 application SMT1812

HV9910

Abstract: inductor 1000uH 2A Block 100uF, 160V Electrolytic Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 1uF, 250V Metallized Polypropylene capacitor 0.1uF, 250V Metallized Polyester capacitors 400V, 1.5A Fast - Soft recovery diode 400V, 1A SMB Fast Recovery Diode Slow Blo SMD 125V, 2A fuse Low , HV9910DB1 Schematic Diagram V+ V+ C11 C1 100uF, 160V D21 FR1G-13 F1 3 4 AC INPUT 1 2 NTC1 R 1uF , Top adjust 5K trim pot Universal LED driver 400V, 1A, DF-S, Single Phase diode bridge D2PAK Heat Sink
Supertex
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1500ma led driver dc ac capacitor 100uF 40V philips 1500ma led driver Led driver schematic DF04S

hv9910b

Abstract: HV9910DB1 Manufacturer Manufacturer's Part Number EEU-EB2C101 2.2µF, 16V SMD 0805 ceramic capacitor Panasonic ECJ-2FB1C225K 0.1µF, 25V SMD 0805 ceramic capacitor Panasonic ECJ-2VF1E104Z 1µF, 250V metallized polypropylene capacitor Panasonic ECW-F2105JB 0.1µF, 250V metallized polyester capacitors Panasonic ECQ-U2A104MV 400V, 1.5A fast - soft recovery diode Philips BYV26B 400V, 1A SMB fast , positive output, cathode should 2 HV9910DB1 Schematic Diagram V+ V+ 1uF, 250V VDD D21
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HV9910bng Offline High Brightness 2820r5b AC ammeter diagram ECQ* "cross reference" full wave bridge rectifier 40v 15a
Abstract: (100mV/div). Bandwidth: 20MHz. Load capacitance: 1uF ceramic and 10µF 100mâ"¦ ESR tantalum capacitor , 70 75 Vin = 270V 10.0 20.0 30.0 Vin = 270V 65 Vin = 400V 0.0 Vin = 230V 70 Vin = 230V 65 60 80 Vin = 400V 60 -55ºC 40.0 25ºC Load Current (A , 270V 270 Vin 400 Vin Vin = 400V 0 0.0 10.0 20.0 30.0 0 -55ºC 40.0 , 20 10 Vin = 230V Vin = 270V 100 0 Vin = 400V 50 60 70 80 90 100 Synqor
Original
MCOTS-B-270-31-HT MCOTSB-270-31-HT AS9100

400V to 6V DC Regulator TO 220 Package

Abstract: power electronic transistor IGPT 1µF BYPASS CAPACITOR 10µF BYPASS CAPACITOR 65 60 55 NO BYPASS CAPACITOR 50 45 0 10 , 120Hz, T C = +25oC VIN = 170VDC, IL = 10mA, f = 120Hz, TC = +25 oC 70 1µF BYPASS CAPACITOR , 60 55 1µF BYPASS CAPACITOR 50 45 10 70 65 60 55 1µF BYPASS CAPACITOR 1M 45 10M 1 10 RIPPLE REJECTION (dB) 75 70 1µF BYPASS CAPACITOR 10µF BYPASS CAPACITOR 60 , regulators due to its ability to withstand input to output voltages as high as 400V(peak), a condition that
Intersil
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power electronic transistor IGPT V275LA10B HIP5600IS2 MO-169 HIP5600IS zener diode 1.18v 280VRMS 50VRMS

ICE3B0565

Abstract: 48V 10A SMPS circuit diagram 1 BR1 2KBB80R 1 2 C1 0.22uF/275V, X2 Capacitor 1 3 C2 47uF/400V 1 4 C3 2.2nF/400V 1 5 C4 2.2nF/250V, Y2 Capacitor 1 6 C5 33uF/35V 1 , , an adjustable Blanking Window by varying the value of Soft Start capacitor is being offered to , interference suppressors. After the bridge rectifier BR1 and the input capacitor C2, a voltage of 80 to 380 , Stage On the secondary side the power is coupled out by an ultra-fast diode UF5401. The capacitor C21
Infineon Technologies
Original
ICE3B0565 48V 10A SMPS circuit diagram AN-SMPS-ICE2AXXX-1 12v 60w smps ef20 n67 SMPS CIRCUIT DIAGRAM ice3b

ELECTROLYTIC capacitor, .10uF 50V

Abstract: fairchild 2n60 MOSFET Electrolytic Capacitor 1µF/400V R3 Resistor 115K 1% C2 Electrolytic Capacitor 10µF/400V R4 , Symbol Component Component R1 Resistor 1.5M C1 Electrolytic Capacitor 1µF/400V R2 Resistor 127K 1% C2 Electrolytic Capacitor 10µF/400V R3 Resistor 20K 1% C3 Electrolytic , Electrolytic Capacitor 1µF/400V R3 Resistor 18K 1% C2 Electrolytic Capacitor 10µF/400V R4 , EE-16 Lm=1.5mH Pri:Sec:Aux=135:10:33 R3 Resistor 110K 1% C1 Electrolytic Capacitor 1µF
Fairchild Semiconductor
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AN-6067 FAN100 ELECTROLYTIC capacitor, .10uF 50V fairchild 2n60 MOSFET capacitor 330uF 10V Power Transformer EE-16 Electrolytic Capacitor 10uf 50V fairchild 1N4007 FAN102 FSEZ1016A FSEZ1216

VIPER53

Abstract: VIPer53 Application Note 2 1N4007 D3 1 1 D2 2 2 1N4007 D4 1N4007 C2 22uF 400V C9 47uF 25V C6 3.9nF R3 3.9K C2=22uF/400V for international model / domestic uc d s) t( 1N4007 ro P C12 1uF 15K R6 4 3 2 1 D8 1N4148 2 te le C11 ? 1 1 U2 , 1N4007 D4 1N4007 C2=22uF/400V for international model / domestic R3 3.9K 64T 2 D8 , H11A817A IC3 R8 150 BYW100-200 1 s) t( uc d C2 22uF 400V C9 47uF 25V 1 2 3 4
STMicroelectronics
Original
VIPER53 VIPer53 Application Note EF25 TRANSFORMER diode cross reference PKC-136 Cramer coil step down transformer 30v schematic AN1737 300KH

rac 16a 400v

Abstract: SIRIO k k (6) For R1=282K; R2=15K;R3=7.5K;C1=1uF; and C2=1uF; we get an output response as , frequency ripple current through the output PFC capacitor (Co), IC_120(t), can be expressed as shown in , output capacitor voltage since this current generates the bus ripple voltage sensed by the output error , ) Now we plot the output PFC capacitor IC_120(t) in figure 7 below: This current is predominantly , =230V RMS; Vout=400V, Cactual=1344uF). Note that the average value of this current equals Pin_pfc/Vo as
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IEC61000-3-2 A123656 rac 16a 400v SIRIO mathcad pfc mathcad 500W forward converter design rac 16a- 400v P266-281 AN827

30T-TO-3PF

Abstract: GRM42-6COG done by stargrounding all the 400V return connections to the output capacitor, and/or maintaining very , C16 TP7 R2 10 1µF C17 1µF R7 47 2W R8 R9 93.1k 93.1k R11 93.1k 1000pF 1µF 1µF 2.37k R20 102k C10 C9 C3 R10 R26 5 OUTB 6 VDD 7 OUTA GND R28 0 D8 MBR0520L INB C8 1µF 4 1 EGP10J 3 D4 INA 8 NC NC , C15 + 2W R5 TP8 C21 0.1µF C5 1µF EGP30J 9 NC NC 8 11 10 GND ZVSENSE 7
Fairchild Semiconductor
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30T-TO-3PF GRM42-6COG WIMA FKP1 GRM42-6COG* murata GRM42-6X7R104K050 ECA1EFQ152L FEB110-001 FAN4822 AN-42032 AN-42047

equivalent smd mosfet

Abstract: capacitor 4700uF Capacitor 100uF, 100 Volts Radial Panasonic or equivalent 14 CREF Capacitor 1uF, 16 , Good Indicator 1 Watt 70 20V to 100V Start when Vin 21V 25kHz 3.3V ± 1% 5.0V ± 5% 40.0V , HV9606DB1 Instructions JOUT+, JOUTConnect your load to these terminals. This is an isolated 40.0V , 35K CB GATE HV9606 100nF CVX2 CREF 1uF Ref COMP VX2 2 09/05/2002 Supertex , capacitor. The PWM output frequency is one half the oscillator frequency. SGND ­ Common connection for all
Supertex
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equivalent smd mosfet capacitor 4700uF SMD 6 PIN IC FOR PWM smd resistor parasitic capacitance sk15 amplifier mosfet 2n7000 MMBTA56 SMD-SOT23 SMD-0805
Abstract: Transient voltage suppressor, 400V HV Supply Controller MOSFET, 600V N-channel Capacitor, alum, 220µF, 35V Capacitor, cer, 1µF, 16V P6KE400CA Supertex SR037SG Supertex VN2460N8 Part Number Modifications The , Inductorless Switching Power Supply SR037 Circuit F1 125mA D1 ACIN Z1 P6KE400CA IC1 SR037 C2 1µF Q1 , value capacitor. 16APR02 2 Supertex Supertex
Original
SR03DB1
Abstract: 220µF IC1 SR036 VREG C2 1µF Parts List Desig F1 Z1 D1 IC1 Q1 C1 C2 Description Fuse, 3AG, 125mA, 250V Transient voltage suppressor, 400V Diode bridge, 1A, 600V HV Supply Controller MOSFET, 600V N-channel Capacitor, alum, 220µF, 35V Capacitor, cer, 1µF, 16V Supertex SR037SG Supertex VN2460N8 P6KE400CA , , C1 may be replaced with a higher value capacitor. 16APR02 2 Supertex Supertex
Original

BRIDGE-RECTIFIER 5v 1A

Abstract: D1 diode VN2460N8 C1 Capacitor, alum, 220µF, 35V C2 Capacitor, cer, 1µF, 16V P6KE400CA , VUNREG C1 220µF IC1 VREG SR036 C2 1µF Parts List Desig Description Part Number F1 Fuse, 3AG, 125mA, 250V Z1 Transient voltage suppressor, 400V D1 Diode bridge, 1A , value capacitor. 16APR02 2 Supertex
Supertex
Original
BRIDGE-RECTIFIER 5v 1A D1 diode am fuses BRIDGE-RECTIFIER 1A Dual N-Channel MOSFET ac to ac converter

Atmel

Abstract: ACT8865 /10V, X7R, 0603 Murata/TDK Murata/TDK C8 C11,C12,C14 Ceramic capacitor, 1uF/10V, X7R, 0603 , , 1uF/10V, X7R, 0603 Ceramic capacitor, 2.2uF/10V, X7R, 0603 Chip Resistor, 1.2kΩ, 1/16W, 1%, 0402 , /TDK C8 Ceramic capacitor, 1uF/10V, X7R, 0603 Murata/TDK C9 Ceramic capacitor, 1nF/16V , /TDK C12 C13 Ceramic capacitor, 2.2uF/10V, X7R, 0805 Ceramic capacitor, 1uF/25V, X7R, 0603 , Ceramic capacitor, 1uF/25V, X7R, 0603 Murata/TDK Rcs1,Rcs2 Chip Resistor, 50mΩ,1/2W, 1%, 1210
Active-Semi
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ACT2801 ACT2802 Atmel ACT8865 ACT8945A Automobile Black Box ACT2801C ACT2802B ACT2802C ACT4501

VIPER53

Abstract: VIPer53 Application Note 1N4007 D3 1N4007 1 1 D2 2 2 1N4007 D4 1N4007 R3 3.9K C2=22uF/400V for international model / domestic C2 22uF 400V C9 47uF 25V C6 3.9nF C11 ? 2 4 3 2 1 D8 1N4148 R6 C12 1uF 15K 1 1 C3 220pF 1KV R5 10 2 R1 51 1W 5 6 , L1 20mH 1 D1 2 2 1N4007 D3 1 1 D2 2 2 1N4007 D4 C2=22uF/400V for , -200 1 2 1 1 1N4007 R3 3.9K R6 15K C12 1uF 2 C A 1 3 C1 .15 275V
STMicroelectronics
Original
Tl431 as optocoupler driver VIPER53 EQUIVALENT diode 1N4007 specifications CSM2525-003C 230vac to primary 12v transformer 230vac to primary 15v transformer

ez1216

Abstract: EZ121 R 270 C2 EC 1µF/400V R7 R 137K C3 EC 10µF/400V R8 R 510 C5 4.7nF/1KV , 510R/1206 + C2 1uF /400V C5 100K N7 R4 750K 2 D4 1N4007 2 D3 1N4007 R2 , output, current compensation. Output of the current error amplifier. Connect a capacitor between COMI , the voltage error amplifier. Connect a capacitor between COMV pin and GND for frequency compensation , for the controller. A 1.5M, 0.25W, startup resistor and a 10µF/25V VDD hold-up capacitor are
Fairchild Semiconductor
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ez1216 EZ121 FSEZ1216NY 1N4007 1206 JESD22-A114 n12101 MS-001 5M-1994 MKT-N08FREV2
Abstract: 1uF /400V 4.7nF/1KV N6 + C3 10uF/400V 1 L4 1mH + N10 4 C7 2 R5 750K , 1nF R6 R 270 C2 EC 1µF/400V R7 R 137K C3 EC 10µF/400V R8 R 510 C5 , Output, Current Compensation. Output of the current error amplifier. Connect a capacitor between COMI , the voltage error amplifier. Connect a capacitor between COMV pin and GND for frequency compensation , F/25V VDD hold-up capacitor is sufficient for an AC-to-DC power adapter with a wide input range Fairchild Semiconductor
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FSEZ1216B

HT7L4091

Abstract: Ca2 Co D1 Cfilter C1 0.1uF 400V 22uF 400V VLED L CIN Zin 1uF/50V Lc , Ca1 Ca2 Co D1 Cfilter VLED L 0.1uF 400V Rb CIN 1uF/50V Lc VIN LD , D1 Cfilter 22uF 400V AC 0.1uF 400V VLED Tr CIN Zin 1uF/50V Lc Ra Rsb , BJT AC Ca1 Cfilter CIN C1 Ca2 D1 22uF 400V 0.1uF 400V VLED L Zin 1uF , Power supply Used for the internal circuits except the gate driver circuit. A 0.1 F capacitor must be
Holtek
Original
MS-012

AN1642 VIPower 5V buck smps with VIPer12A

Abstract: VIPer12A applications capacitor whose value ranges from 10nF to 1µF. In particular, such a capacitor has to be calculated in , auxiliary capacitor through a low voltage diode by means of a voltage divider. The capacitor C6 is charged , performed by means of a zener diode DZ1 connected between output and FB pin. A small capacitor is connected to the FB pin in order to guarantee the feedback stability. It is necessary to keep this capacitor , D5 DZ1 DZ2 L1 L2 L3 IC1 Value 10, 1/2W 1.2k, 1/4W 2.2µF, 400V 100nF, 400V 22nF, 25V
STMicroelectronics
Original
AN1642 AN1642 VIPower 5V buck smps with VIPer12A VIPer12A applications ic viper12a 5v ic viper12a VIPer12A

FAN102MY

Abstract: DIODE IN4007 1 N 1 1 + C5 1uF /400V N P2 102P 7 2 D6 SB560 C1 472PF/1KV D5 R4 , 330µF/6.3V R11 R 200K C5 EC 1µF/400V R12 R 82K C6 EC 10µF/400V R13 R 47 , output, current compensation. Output of the current error amplifier. Connect a capacitor between COMI , the voltage error amplifier. Connect a capacitor between the COMV pin and GND for frequency , capacitor are sufficient for an AC-to-DC power adapter with a wide input range (100VAC to 240VAC) FAN102
Fairchild Semiconductor
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FAN102MY DIODE IN4007 A114 C101 JESD22 472pF SOIC127P600X175-8M M08AREV13

ez1216b

Abstract: ez1216 MOSFET Under-Voltage Lockout (UVLO) www.fairchildsemi.com 12 2 + C2 1uF /400V 4.7nF , 270 C2 EC 1µF/400V R7 R 137K C3 EC 10µF/400V R8 R 510 C5 4.7nF/1KV R9 , Output, Current Compensation. Output of the current error amplifier. Connect a capacitor between COMI , the voltage error amplifier. Connect a capacitor between COMV pin and GND for frequency compensation , /25V VDD hold-up capacitor is sufficient for an AC-to-DC power adapter with a wide input range
Fairchild Semiconductor
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ez1216b MOSFET SWITCHING FREQUENCY FSEZ1216BNY CHARACTERISTICS DIODE 1N4007 MARK N10 mosfet marking code N9

400V INDUSTRIAL voltage regulator

Abstract: IGPT CIRCUIT 19. LOAD REGULATION VS. TEMPERATURE 85 90 80 80 75 70 1µF BYPASS CAPACITOR 10µF , , IL = 10mA, f = 120Hz, TC = +25oC 70 1µF BYPASS CAPACITOR 10µF BYPASS CAPACITOR 60 50 NO , ) RIPPLE REJECTION (dB) (Continued) 75 70 65 60 55 1µF BYPASS CAPACITOR 50 1 10 10µF BYPASS CAPACITOR 75 70 65 60 55 1µF BYPASS CAPACITOR 50 NO BYPASS CAPACITOR 45 VIN = , 75 70 1µF BYPASS CAPACITOR 65 10µF BYPASS CAPACITOR 60 (REFERENCE FIGURE 3) 75 70
Harris Semiconductor
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400V INDUSTRIAL voltage regulator IGPT CIRCUIT zener diode configuration IGPT SNUBBER CAPACITOR HIP5600 HARRIS TO-220 11A 650V MOSFET 50VDC
Abstract: 1 N 2 N P2 102P 1 1 + C5 1uF /400V 7 2 D6 SB560 C1 472PF/1KV D5 , R10 R 47Kâ"¦ C4 EC 330µF/6.3V R11 R 200Kâ"¦ C5 EC 1µF/400V R12 R 82Kâ , amplifier. Connect a capacitor between COMI pin and GND for frequency compensation. 4 COMV Analog output, voltage compensation. Output of the voltage error amplifier. Connect a capacitor between the , VDD hold-up capacitor are sufficient for an AC-to-DC power adapter with a wide input range (100VAC Fairchild Semiconductor
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IR IN4007

Abstract: 1uF /400V 1 +C6 10uF/400V R3 750K R4 100K 1 IN4007 C1 472PF/1KV D5 2 T1 7 2 D6 SB560 2 R5 270 3 4 1 1 , C9 C10 C11 C12 R1 R2, R3 1N4007 SB560 FR103 CC 4.7nF/1KV 1nF EC 560µF/10V EC 330µF/6.3V EC 1µF/400V EC 10µF/400V EC 10µF/50V 0.1µF 10nF 68nF 1µF 22pF R 18 R 750K Part Type R4 R5 R6 R7 R9 R10 R11 , error amplifier. Connect a capacitor between COMI pin and GND for frequency compensation. Analog output, voltage compensation. Output of the voltage error amplifier. Connect a capacitor between the COMV pin and
Fairchild Semiconductor
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IR IN4007

IGPT CIRCUIT

Abstract: HIP5600 HARRIS TO-220 +25 C 80 75 70 RIPPLE REJECTION (dB) RIPPLE REJECTION (dB) 80 1µF BYPASS CAPACITOR , 1µF BYPASS CAPACITOR 50 50 NO BYPASS CAPACITOR NO BYPASS CAPACITOR 45 1 10 100 1k , , VOUT = 15V, TC = +25oC 80 1µF BYPASS CAPACITOR 30 100 110 FIGURE 20. RIPPLE REJECTION RATIO (OUTPUT VOLTAGE) 85 70 75 70 1µF BYPASS CAPACITOR 65 10µF BYPASS CAPACITOR 60 (REFERENCE FIGURE 3) 75 70 1µF BYPASS CAPACITOR 65 10µF BYPASS CAPACITOR 60 NO BYPASS CAPACITOR
Harris Semiconductor
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FUSE 1A 250V T Harris Semiconductor to220 power transistor P-Channel mosfet 400v to220 n702 ISO9000 1-800-4-HARRIS
Abstract: Vin = 400V Vin = 400V 0.0 10.0 20.0 30.0 90 -55ºC 40.0 25ºC Load Current , 10 Vin = 270V 270 Vin 400 Vin Vin = 400V 0 0.0 10.0 20.0 30.0 0 -55ºC , 0 100ºC Case Temperature (ºC) Load Current (A) Vin = 270V Vin = 400V Vin = 400V , 270V Output Voltage (V) 40 Vin = 400V 30 20 10 0 0 10 20 30 40 , electrolytic capacitor Figure 11: Turn-on transient at half resistive load and 100uF output capacitance Synqor
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Abstract: . Bypass with a 1µF capacitor to GND. In application VIN3 is always powered by VBUS of USB interface. 5,6,3 VBAT1,2,4 Regulator Input. Bypass with a 1µF capacitor to GND. Connected together , Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT1 = 1.8V/200mA. 7 VOUT2 LDO-2 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT2 = 2.8V/200mA. 16 VOUT3 LDO-3 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to SG Micro
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SGM2024
Abstract: VIN3 Regulator Input. Bypass with a 1µF capacitor to GND. In application VIN3 is always powered by VBUS of USB interface. 5,6,3 VBAT1,2,4 Regulator Input. Bypass with a 1µF capacitor to GND , VOUT1 LDO-1 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor to GND for VOUT1 = 1.8V/200mA. 7 VOUT2 LDO-2 Regulator Output. Sources up to 200mA. Bypass with a 1µF Capacitor , with a 1µF Capacitor to GND for VOUT3 = 3.3V/200mA. 2 VOUT4 LDO-4 Regulator Output. Sources SG Micro
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SGM2023

Metallized Polyester Film Capacitor

Abstract: 1uF 400V capacitor polyester File No.: Version: Page: METALLIZED POLYESTER FILM CAPACITOR METAL-02 A 1/9 Date: SYNTON-TECH CORPORATION 2010.01.01 Explanations Of Ordering Code DESCRIPTION : METAL 1UF 10% 250V 20 X 20 SYNTON CODE : METAL 105 Series METALLIZED POLYESTER FILM CAPACITOR Capacitance value , 250V 400V 630V 250V 20 X 20 Pitch 10.0 ±1.0mm 15.0 ±1.0 mm 20.5 ±1.0 mm 27.5 ±1.0 mm Lead Length 20mm (min) 104 : 0.1UF 105 : 1UF : 106 : 10UF APPROVED Carol CHECKED
Synton-Tech
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Metallized Polyester Film Capacitor Polyester Film Capacitor 10nF metal Polyester capacitor CAPACITOR 33UF 400V 1uF 630V capacitor polyester FILM CAPACITOR 630VDC

1uF 400V capacitor polyester

Abstract: axial film capacitor 10uf 100v + 105 0.033µF ~68µF J (±5%), K (±10%) 100V, 250V, 400V, 630V(DC) 1.6VR 2s (1.5VR 5s) C100V 15000 M C , Suntan METALLIZED POLYESTER FILM CAPACITOR - AXIAL ® AXIAL LEAD, METALLIZE POLYSTER FILM - CYCLOIDAL TS04A FEATU R E S TS04A is constructed with metallized polyester film as medium and electricode, wrapped and sealed with flame-retardant plastic and epoxy resin. With high reliability, high
Suntan Technology
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axial film capacitor 10uf 100v 250v 104 K capacitor capacitor 476 10V 68UF 250VDC 20 00081KHz 476 capacitor 10 k 100VDC VR100V 7500M 2500S 250VDC

L6561D013TR

Abstract: 3c85 ferrite FUSE 4A/250V R2 100 D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M , , 1% R9 = 2 x 620K 6/12 Vo=400V Po=80W C3 1µF L6561 Vac (85V to 265V) + 68K , -R1 R2 and, if the external compensation network is made only with a capacitor C comp, the current , Since the current through R2 does not change, IR1 must flow through the capacitor Ccomp and enter the , 1N5248B C1 1µF 250V T C6 R7 (*) 950K 10nF C3 680nF 5 8 Vac (85V to 135V) 3
STMicroelectronics
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L6561D013TR 3c85 ferrite ITACOIL E2543/E L6561D0 E25x13x7 E2543

gd w04m

Abstract: A3MA Application Circuit (80W, Wide-range Mains) D1 BYT13-600 C6 T R7 (*) 998K C3 1µF 68K 5 2 1 7 4 + Vo=400V , 1N5248B R2 100 12nF R1 C1 1µF 400V R9 (*) 1.24M 8 R5 10 L6561 3 C2 22µF 25V C7 10nF , -R1 R2 and, if the external compensation network is made only with a capacitor Ccomp, the current , Since the current through R2 does not change, IR1 must flow through the capacitor Ccomp and enter the , (85V to 135V) NTC R10 10K D3 1N4150 D2 1N5248B R2 100 10nF R1 C1 1µF 250V R9 (*) 950K
STMicroelectronics
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gd w04m A3MA 0.8mH inductor orega ETD FERRITE transformer 4x1N4007 ELECTRONIC BALLAST 18 W circuit diagram

2209w

Abstract: boundary mode flyback and a 1µF ceramic capacitor. In most applications, an electrolytic capacitor of between 100µF and , current in the storage capacitor between the PFC and PWM sections Average current, continuous boost , compensation Connection point for the PWM soft start capacitor PWM voltage feedback input PFC (master , can significantly reduce the size of the PFC DC buss capacitor. The synchronization of the PWM with the PFC simplifies the PWM compensation due to the controlled ripple on the PFC output capacitor (the
Fairchild Semiconductor
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boundary mode flyback ceramic capacitor 100nF 100v fet irf830 R7A marking fairchild flyback design MOSFET IRF840 ML4827CS2 ML4827IS2 ML4827CP2 ML4827IP2 ML4827CS2X ML4827IS2X

transformer ferrite core for E25x13x7

Abstract: l6561 in boost FUSE 4A/250V R2 100 D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M , , 1% R9 = 2 x 620K 6/13 Vo=400V Po=80W C3 1µF L6561 Vac (85V to 265V) + 68K , -R1 R2 and, if the external compensation network is made only with a capacitor Ccomp, the current , Since the current through R2 does not change, IR1 must flow through the capacitor Ccomp and enter the , 1N5248B C1 1µF 250V T C6 R7 (*) 950K 10nF C3 680nF 5 8 3 Vac (85V to 135V
STMicroelectronics
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transformer ferrite core for E25x13x7 l6561 in boost ITACOIL 2A 220vac driver B1ET2910A 105turns

THOMSON-CSF b1et2910a

Abstract: litz wire table Application Circuit (80W, Wide-range Mains) D1 BYT13-600 C6 T R7 (*) 998K C3 1µF 68K 5 2 1 7 4 + Vo=400V , 1N5248B R2 100 12nF R1 C1 1µF 400V R9 (*) 1.24M 8 R5 10 L6561 3 C2 22µF 25V C7 10nF , network is made only with a capacitor Ccomp, the current through Ccomp equals zero.When the output voltage , capacitor Ccomp and enter the error amplifier. This current is monitored inside the L6561 and when reaches , (85V to 135V) NTC R10 10K D3 1N4150 D2 1N5248B R2 100 10nF R1 C1 1µF 250V R9 (*) 950K
STMicroelectronics
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litz wire table

HV9910

Abstract: HV9910DB3 ,R6 R5 U1 U2 Description Terminal Block 100uF, 160V Electrolytic Capacitor 2.2uF, 16V SMD 0805 ceramic capacitor 0.1uf, 25V SMD 0805 ceramic capacitor 1uF, 250V Metallized Polypropylene capacitor 0.1uF, 250V Metallized Polyester capacitors 400V, 1.5A Fast - Soft recovery diode 400V, 1A SMB , driver 400V, 1A, DF-S, Single Phase diode bridge D2PAK Heat Sink VDD,PWMD, GND 3 Position Breakaway
Supertex
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HV9910DB3 HV9910DB3 v.3 B140-13 10w led 900MA smd diode V2 capacitor 22uF 250V SMD 30VDC

B1ET2910A

Abstract: 4x1N4007 D3 1N4150 D2 1N5248B R2 100 12nF R1 C1 1µF 400V R9 (*) 1.24M 8 L6561 3 C2 22µF 25V , network is made only with a capacitor Ccomp, the current through Ccomp equals zero. When the output , IR1 R1 Since the current through R2 does not change, IR1 must flow through the capacitor C comp and , (85V to 135V) NTC R10 10K D3 1N4150 D2 1N5248B R2 100 10nF R1 C1 1µF 250V R9 (*) 950K , 0.7mH Figure 4. Typical Application Circuit (120W, 220VAC) D1 BYT13-600 C6 T R7 (*) 998K C3 1µF 68K
STMicroelectronics
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OREGA FERRITE transformer
Abstract: /400V FUSE2 2 3 3 22uF 22uF 22uF 1uF Rtrim 22uF 8.5Vo/50A 1uF Rtrim 8.5Vo/50A 1uF Rtrim 8.5Vo/50A 1uF Rtrim 8.5Vo/50A Cvcc Cvcc Cvcc Cvcc , control of each module is not needed. SynQor recommends a small filter capacitor of 0.01 μF be placed , + On/Off Signal+ 10uF/400V On/Off Signal+ 03/21/14 + SENSE(-) Vout(-) Vin(-) 1 , Technical Specification Board #10 On/Off Signal- U? F? + 10uF/400V + FUSE2 FUSE2 Synqor
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UCC29002

ic viper12a

Abstract: ic viper12a 5v . 1N4148, and C4 is a low voltage capacitor which value ranges from 10nF to 1uF. In particular, such a , D1 D2 Dr Dz L Lf IC1 PART NUMBER 10 / 1/2W 1µF / 400V Electrolytic 1µF / 400V , power level of the considered application is low. The input bulk capacitor is determined on the basis , consideration has to be taken about the value of the bulk capacitor: although larger values mean low peak and , 25-30% related to the peak mains voltage. If hold-up capability is required, a larger capacitor is
STMicroelectronics
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AN1357 Buck-Boost Converter advantages vip*12a viper12 design viper12a application note ac DC supplies MEAN WELL schematic BZX55C18V

Heimann lhi 878

Abstract: Heimann lhi 958 C4 = 33µF C5 = .01µF C6 = .1µF C7 = .47µF,250V C7 = .33µF,400V C8 = 1000µF C9 = .1µF,250V * C9 = .1µF,400V D1 = 1N4004 LDR = SILONEX HSL-19M52 (Typica Z1 = 9.1V, 1/2W T1 = Q4008L4 (Typical , OSCILLATOR: Resistor Capacitor RO CO - 2.2 .01 - M µF 60Hz Oscillator Frequency Resistor Capacitor RO CO - 4.3 .01 - M µF 30Hz Oscillator Frequency , = 33µF C3 = .01µF C4 = 33µF C5 = .01µF C6 = .1µF C7 = 100µF C8 = .01µF LDR = SILONEX NSL
LSI Computer Systems
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Heimann lhi 878 Heimann lhi 958 LHi 954 heimann LHi 958 pir motion sensor LHi 958 LHi 954 LS6501LP A3800

L6561

Abstract: transformer ferrite core for E25x13x7 Application Circuit (80W, Wide-range Mains) D1 BYT13-600 C6 T R7 (*) 998K C3 1µF 68K 5 2 1 7 4 + Vo=400V , 1N5248B R2 100 12nF R1 C1 1µF 400V R9 (*) 1.24M 8 R5 10 L6561 3 C2 22µF 25V C7 10nF , network is made only with a capacitor Ccomp, the current through Ccomp equals zero.When the output voltage , capacitor Ccomp and enter the error amplifier. This current is monitored inside the L6561 and when reaches , 4A/250V Vac (85V to 135V) NTC R10 10K D3 1N4150 D2 1N5248B R2 100 10nF R1 C1 1µF 250V
STMicroelectronics
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E-L6561D DIP-8 PWM PIN2 VCC PIN4 GND el6561 ac-dc L6561 E-L6561 E-L6561D013TR

L6561 application note

Abstract: L6561 application / tantal C4 15nF / 806 (X7R) C5 1µF / 1206 (X7R) C6 1µF / 400V C7 , of the bulk capacitor can increase to several times the nominal current of the system. This inrush , input AC voltage Vin(RMS) = 85VRMS to 264Vrms, 60/50Hz n DC regulated output voltage Vout = 400V n , during the AC line brownout. Actually, when the current from the mains disappears, capacitor C3 is not , the steady state (VR = 400V). Nevertheless, for a short time, a fast transient voltage (FTOa) occurs
STMicroelectronics
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AN1692 STIL02 TA301 AN1600 694V STIL04 application l6561 LED MCF03C

VIPer12A applications

Abstract: viper12a application note voltage range 185265Vac a 400V diode can be used. The capacitor value is chosen according to the start-up , 10nF to 1uF. In particular, such a capacitor has to be calculated in order to store the charge , Minimum input voltage 180Vac Minimum input voltage ol bs Input Capacitor Cin 1µF 2.2µF 3.3µF , list REFERENCE VALUE PART NUMBER 10 / 1/2W 1µF / 400V Electrolytic 1µF / 400V Electrolytic , capacitor is determined on the basis of the minimum input voltage (that depends on the power supply
STMicroelectronics
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VIPER IC pwm schematic buck converter zener diode 18V 1.5W viper 12 ST VIPER application notes VIPER 22

Heimann LHi 978

Abstract: Heimann lhi 958 = 33µF C5 = .01µF C6 = .1µF C7 = .47µF,250V C7 = .33µF,400V C8 = 1000µF C9 = .1µF,250V * C9 = .1µF,400V D1 = 1N4004 LDR = SILONEX HSL-19M52 (Typical) Z1 = 9.1V, 1/2W T1 = Q4008L4 , ≤.45VDD - V - OSCILLATOR: Resistor Capacitor RO CO - 2.2 .01 - Mâ"¦ µF 60Hz Oscillator Frequency Resistor Capacitor RO CO - 4.3 .01 - Mâ"¦ µF , .01µF C4 = 33µF C5 = .01µF C6 = .1µF C7 = 100µF C8 = .01µF LDR = SILONEX NSL-19M52 (Typical
LSI Computer Systems
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Heimann LHi 978 PIR LHi 978 6501LP-040900-1

CECC 30701-007 capacitor

Abstract: br 123 s to 400V) ESCC3009/008/009/010/011/023 (for 2C1 or BX) AVX Styles - 0805 to 2220 ceramic chip capacitors (25V up to 400V) ESCC3009/034 AVX Styles - 1812/1825 1-3KV - Type 2 CECC APPROVAL LIST AVX , your local sales team for further details. 79 Leaded Ceramic Capacitor Range CECC 30-601 & , 1pF to 22nF 220pF to 1µF 10nF to 3.3µF Cap range 1.14 (.045) Max. 31.7 (1.25) Min. W L T , 22pF to 1µF 10nF to 2.2µF Styles SR15, SR20, SR30, SR40, SR50 H Max. LD Nom. Styles SR22, SR27
AVX
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CKS06 CECC 30701-007 capacitor br 123 s CECC 30801-005 test specification CECC 30701-007 88011 AVX CCR07 CAPACITOR MIL-PRF-20 CCR05 CCR05V CCR06 CCR06V CCR07

BZX55C18V

Abstract: Buck-Boost Converter advantages . 1N4148, and C4 is a low voltage capacitor which value ranges from 10nF to 1uF. In particular, such a , D1 D2 Dr Dz L Lf IC1 PART NUMBER 10 / 1/2W 1µF / 400V Electrolytic 1µF / 400V , the considered application is low. The input bulk capacitor is determined on the basis of the minimum , taken about the value of the bulk capacitor: although larger values mean low peak and rms current , % related to the peak mains voltage. If hold-up capability is required, a larger capacitor is needed. When
STMicroelectronics
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control circuit of viper12a DC MOTOR DRIVE USING BUCK CONVERTER ic viper12a transformer design L4949 viper buck converter design CAPACITOR 10uF 260vac 5 pin

EE16

Abstract: EE16 9V Circuit PW=10µs D.C.=2% tr, tf7ms INPUT VR 200 50 IB1 OUTPUT IB2 RB1 RL 5 + 1µF VCC=10V + 1µF , - tC(1) Main Capacitor Voltage, VMC ­ V 350 VMC - tC(2) MC =50 0µF Main Capacitor , Time, tC ­ S 350 VMC - tC(3) Main Capacitor Voltage, VMC ­ V 300 250 200 F 0µ 20 , 0.1µF 400V Xe LAMP BYPASS TUBU 0.047µF 400V 1M SCR2 PHOTO TR 1k PULSE TRANS SCR1 , MC 50µF 7 F 0µ 90 µF 00 12 Main Capacitor Voltage, VMC ­ V 300 250 200 150 100
SANYO Electric
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EE16 EE16 9V EE16 4 3 EE16 5V core EE16 pulse trans ENN538E 2SD826 2009B

X733

Abstract: .4000V class="hl">400V OUT FUNCTION Regulator Input. Supply voltage can range from 2.5V to 5.5V. Bypass with a 1µF capacitor to , . Using a ceramic capacitor which is at least 1µF with ESR > 5mâ"¦ on the SGM2007/A output ensures , external noise Fixed Outputs of 1.8V, 2.5V, 2.7V, 2.8V, 2.85V, bypass capacitor connected to the , 0.01µF ceramic capacitor for reduced noise at the output. Adjustable voltage version onlyâ'"this is
SG Micro
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X733 SGM2007 950TYP 700REF 037TYP 028REF

Heimann lhi 878

Abstract: Heimann lhi 958 C3 = .01µF C4 = 33µF C5 = .01µF C6 = .1µF C7 = .47µF,250V C7 = .33µF,400V C8 = 1000µF C9 = .1µF,250V * C9 = .1µF,400V D1 = 1N4004 LDR = SILONEX HSL-19M52 (Typical) Z1 = 9.1V, 1/2W T1 = , OSCILLATOR: Resistor Capacitor RO CO - 2.2 .01 - M µF 60Hz Oscillator Frequency Resistor Capacitor RO CO - 4.3 .01 - M µF 30Hz Oscillator Frequency , DD R11 LED LS6501LP C1 = 100µF C2 = 33µF C3 = .01µF C4 = 33µF C5 = .01µF C6 = .1µF C7
LSI Computer Systems
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LHi 978 LHi 874 Heimann LHi 878 LHi 878 application heimann PIR sensor

MP6923

Abstract: samsung roadmap 2.2uF C7 3.9nF C1 220nF R2 5.1K L2 1mH/0.25A 3 Vout MP150 C4 C3 1uF/400V 1uF/400V N D3 WEGC10GH 1A/400V C5 100uF/6.3V R5 499 GND GND Advantages 1 , . Low BOM cost â'" only 4 components around MP4050 2. Low voltage rating output capacitor â'" Precise , ) Adjustable Output Voltage from 1.5V to 15V Low Component Count and Cost No Bulk Capacitor and , Thermal Shutdown and Short Circuit Protection No Bulk Capacitor Support to drive BJT External
Monolithic Power Systems
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MP44011 MP6923 samsung roadmap MP6930 HFC0500 PAR38 MP4028 MP4034 MP4032 MP4053 MP4005A

capacitor kxj

Abstract: chemicon kxj 33uF 33 220uF WVDC 400V 400 450V 160 450V Load Life Enduranc e 1000 2000 10,000 12,000 15 , hours @ +105°C (>9 years at +75°C) Reduced Case Sizes & Lower Profile NRBXL NRBXY 160 400V , Sizes 110V & 220VAC Post Rectification, Input Capacitor AC Power Adapters (wall wart & power , 400V, 420V & 450VDC in Reduced Case Sizes NRWP +105°C 1000 /2000 hours 6.3V ~ 450VDC , : Capacitance Range: 1uF ~ 33uF Temp. Range: -40ºC ~ +105ºC Voltage Rating: 160V, 200V & 400VDC Load
NIC Components
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capacitor kxj chemicon kxj 100uF 400V Electrolytic Capacitor 105 100uF 450v capacitor electrolytic cap 400v 4.7uF kXJ Series 10X16 10X30 18X50 16X16 16X20 18X16

capacitor 0.022 k 400 MKT

Abstract: R82EC Loose R82 MKT Series Taped METALLIZED POLYESTER FILM CAPACITOR D.C. MULTIPURPOSE , 50V D = 63V E = 100V Marking: manufacturer's logo, capacitance, tolerance, I =250V M =400V D.C , METALLIZED POLYESTER FILM CAPACITOR D.C. MULTIPURPOSE APPLICATIONS a) STACKED version p = 5 mm , voltage (V) is lower than the rated voltage (VR), the capacitor may work at higher dv/dt. In this case , - - R82 MKT Series METALLIZED POLYESTER FILM CAPACITOR D.C. MULTIPURPOSE APPLICATIONS p = 5 mm
-
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capacitor 0.022 k 400 MKT R82EC R82DC4100 capacitor 4.7uf 250v polyester R82DC3100 R82DC3470

1N52468

Abstract: FAN4803 cross reference storage capacitor between the PFC and PWM sections · Overvoltage, UVLO, and brownout protection · PFC , ripple current in the PFC DC buss capacitor. The FAN4803 is offered in two versions. The FAN4803 , disabling it at 9.1V. VCC must be bypassed with a high quality ceramic bypass capacitor placed as close as , capacitive input filter fed from the line. Peak-charging effect, which occurs on the input filter capacitor , method, substantially reducing dissipation in the high-voltage PFC capacitor. Programming Resistor
Fairchild Semiconductor
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FAN4803 cross reference FAN4803 CROSS MOSFET C25 cross-reference 3 phase pfc PFC soft FAN4803CS1X

pq3230

Abstract: 12V 1A Transformer specification FEATURES 600W Phase Shifted Full Bridge Topology Wide Input Range to minimize hold up capacitor Wide ZVS , , Q23). The output inductor (L8) and output capacitor (C11, C41) act as a low pass filter for the , software GUI to read the temperature directly in degrees Celsius. Capacitor (C69) is a YCAP that reduces , and capacitor values. This information is stored in board setup file (extension .46b) and is necessary , Schematic I2C Interface 5V from USB VIN- J9 VIN+ 1 TP4 Vin+ TP12 Vin- 400V
Analog Devices
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pq3230 12V 1A Transformer specification ADP1046A PRD1404 2000/XP/V 340VDC

3200 uf

Abstract: 47NF SYNTON-TECH CORPORATION METALLIZED POLYESTER FILM CAPACITOR IN PLASTIC BOX File No.: Version , SYNTON CODE : MEFBOX Series Metallized Polyester Film Capacitor MEFBOX TYPE Capacitance , J Voltage 50V 63V 100V 250V 400V 630V 63V T5X19 63V T5 X 19 Pitch 5.0±0.5mm Lead Length 19.0±1.0mm 473 : 47NF (0.047uF) 474 :0.47uF 105 : 1uF APPROVED Carol , Disseminate. SYNTON-TECH CORPORATION METALLIZED POLYESTER FILM CAPACITOR IN PLASTIC BOX File No
Synton-Tech
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3200 uf 47NF MFEBOX-02

"mos controlled thyristor"

Abstract: MOS Controlled Thyristor +18V, -7V TJ = +125oC VKA = -400V - 120 - ns - 160 - ns Current Turn-On , Curves (Continued) TJ = +150oC, RG = 1, L = 200µH 150 VKA = -400V 100 VKA = -500V 50 1.8 1.6 1.4 1.2 VKA = -500V 1.0 0.8 VKA = -400V 0.6 0.4 0.2 0.0 0 0 10 20 30 , 200µH 300 TJ = +150oC, RG = 1, L = 200µH 1.8 1.7 tFI, FALL TIME (µs) 250 VKA = -400V 200 150 VKA = -500V 100 50 VKA = -400V 1.6 1.5 VKA = -500V 1.4 1.3 1.2 1.1 1.0 0 0
Harris Semiconductor
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MCTV65P100F1 MCTA65P100F1 M65P100F1 MOS Controlled Thyristor 1000V MCT MCT thyristor 1000v MCT thyristor MO-093AA TA9900
Abstract: VOUT of the LR8. To maintain stability, a bypass capacitor of 1.0µF or larger and a minimum DC , Regulation 0.003 0.01 %/V 15V , , (µA) VOUT=1.2V VIN LR8 12V, 200V, 400V ADJ 2.4Kâ"¦ 10 VIN = 400V VIN = 12V 9 , Load Transient Response Line Transient Response 400V VIN VIN 0V LR8 400V VOUT Supertex
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ICE3BR4765J

Abstract: ICE3B4765J /275V, X2 capacitor EPCOS / B32922C3104M 3 C2 47uF/400V EPCOS / B43504A9476M 4 C3 2n2F/400V 5 C4 1nF/250V, Y1 capacitor 6 C5 22u/50V EPCOS / B41851A6226M 7 C6 , ripple) Terminal with decoupling capacitor of 0.1uF +1uF Figure 21 ­ AC output ripple @ Vin=85Vac and , /-10mV(exclude high frequency ripple) Terminal with decoupling capacitor of 0.1uF +1uF Figure 22 ­ AC , lightning surge test. After the bridge rectifier BR1 and the input bulk capacitor C2, a voltage of 100 to
Infineon Technologies
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AN-EVALSF3R-ICE3BR4765J ICE3BR4765J ICE3B4765J smd schottky diode sg1 1nF CAPACITOR 250v ac smd y class smd zener diode mark J2

"MOS Controlled Thyristors"

Abstract: MCT thyristor RG = 1, VGA = +18V, -7V TJ = +125oC VKA = -400V - 120 - ns - 160 - ns , Curves (Continued) TJ = +150oC, RG = 1, L = 200µH 150 VKA = -400V 100 VKA = -500V 50 1.8 1.6 1.4 1.2 VKA = -500V 1.0 0.8 VKA = -400V 0.6 0.4 0.2 0.0 0 0 10 20 30 , 200µH 300 TJ = +150oC, RG = 1, L = 200µH 1.8 1.7 tFI, FALL TIME (µs) 250 VKA = -400V 200 150 VKA = -500V 100 50 VKA = -400V 1.6 1.5 VKA = -500V 1.4 1.3 1.2 1.1 1.0 0 0
Harris Semiconductor
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MOS-Controlled Thyristor 2000A MOS RHRG75120 equivalent MCTV65P1

ICE3BR4765J

Abstract: smd schottky diode sg1 2KBB80R 2 C1 0.1uF/275V, X2 capacitor EPCOS / B32922C3104M 3 C2 47uF/400V EPCOS / B43504A9476M 4 C3 2n2F/400V EPCOS / B32560J8222M 5 C4 1nF/250V, Y1 capacitor 6 C5 , ripple) Terminal with decoupling capacitor of 0.1uF +1uF Figure 21 ­ AC output ripple @ Vin=85Vac and , /-10mV(exclude high frequency ripple) Terminal with decoupling capacitor of 0.1uF +1uF Figure 22 ­ AC , the bridge rectifier BR1 and the input bulk capacitor C2, a voltage of 100 to 380 VDC is present
Infineon Technologies
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DSP-301N-S008 ice3b47 EF20 TRANSFORMER 22nF-400V 4A, 50V BRIDGE-RECTIFIER NEC Epcos EF20 TRANSFORMER AN-EVAL3BR4765J

RK3026

Abstract: 10w led diode C11,C12,C14 Ceramic capacitor, 1uF/10V, X7R, 0603 Ceramic capacitor, 2.2uF/10V, X7R, 0603 , , 1uF/10V, X7R, 0603 Murata/TDK C9 Ceramic capacitor, 1nF/16V, X7R, 0603 Murata/TDK C10 , Ceramic capacitor, 2.2uF/10V, X7R, 0805 Ceramic capacitor, 1uF/25V, X7R, 0603 Murata/TDK Murata/TDK , capacitor, 22uF/10V, X7R, 1206 Ceramic capacitor, 4.7uF/10V, X7R, 0805 Murata/TDK Murata/TDK C4 Ceramic capacitor, 0.1uF/10V, X7R, 0603 Murata/TDK C6 C7 Ceramic capacitor, 10nF/10V, X7R, 0402
Active-Semi
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RK3026 10w led diode charger pad wide REGULATOR sw 13003 10kk thermistor ACT4523 ACT4523A ACT4533A ACT4533B ACT4503 ACT4455
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