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MDL-BDC24 Texas Instruments IC BRUSH DC MOTOR CONTROLLER, Motion Control Electronics visit Texas Instruments
ISL55100BIRZ Intersil Corporation Quad 18V Pin Electronics Driver/Window Comparator; QFN72; Temp Range: -40° to 85°C visit Intersil Buy
ISL55100AIRZ-T Intersil Corporation Quad 18V Pin Electronics Driver/Window Comparator; QFN72; Temp Range: -40° to 85°C visit Intersil Buy
ISL55100AIRZ Intersil Corporation Quad 18V Pin Electronics Driver/Window Comparator; QFN72; Temp Range: -40° to 85°C visit Intersil Buy
ISL55100BIRZ-T Intersil Corporation Quad 18V Pin Electronics Driver/Window Comparator; QFN72; Temp Range: -40° to 85°C visit Intersil Buy
ISL55100BIRZ-T7A Intersil Corporation Quad 18V Pin Electronics Driver/Window Comparator; QFN72; Temp Range: -40° to 85°C visit Intersil

1uF 400V capacitor 10 ELECTRONIC

Catalog Datasheet MFG & Type PDF Document Tags

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 , , 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 , rectified line input (+) and the DC bus capacitor (10 uF) (through the PFC diode) and the stored energy in
International Rectifier
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IR2520D capacitor 47nf cfl ballast crest factor bridge rectifier 1A irf ballast cfl ballast AN-1073 120VAC

EE16

Abstract: EE16 9V 1.0 10 150 ­55 to +150 Unit V V V A A W W Tc=25°C °C °C Electrical Characteristics at Ta = , =10V, IC=50mA 120* 95 120 MHz Conditions Ratings min typ max 1.0 1.0 560* Unit µA µA * : The 2SD826 is , Circuit PW=10µs D.C.=2% tr, tf7ms INPUT VR 200 50 IB1 OUTPUT IB2 RB1 RL 5 + 1µF VCC=10V + 1µF , 0.2 0.4 0.6 0.8 IB=0 1.0 ITR09924 Collector-to-Emitter Voltage, VCE ­ V 5 , 5 3 2 2 1 0 Base-to-Emitter Voltage, VBE ­ V 10 10 2 3 5 Collector
SANYO Electric
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EE16 EE16 9V EE16 4 3 EE16 5V core EE16 pulse trans ENN538E 2009B
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
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

c103 TRANSISTOR

Abstract: c103 mosfet TRANSISTOR 4.7uF 10uF 1000pF 0.022uF 1uF 0.027uF 470uF 22uF 0.47uF 0.047uF 100pF 1000pF 400V 100V , National Semiconductor RD-166 Product Applications Design Center December 2008 1.0 Design , at no load. It won't restart until the output is loaded ( wake on load ) or the output capacitor is , from optocoupler U105. The power supply stays in the shut down mode until the output capacitor is , 3 LM5021MM C106 1uF SS Gnd CS LM5021 Comp RT Vin U100 R106 82.5k
National Semiconductor
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c103 TRANSISTOR c103 mosfet TRANSISTOR Viper22 application PA2865NL PA2685NL AT-339 CSP-9-111C2 CSP-9-111S2

orega

Abstract: THOMSON-CSF B1ET2910A - C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , Detector 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating Range , Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA VDIS 5
STMicroelectronics
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L6561 L6561D L6560 orega THOMSON-CSF B1ET2910A core THOMSON-CSF B1ET2910A L6561 AN BYT03-400

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 , operating in transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors , Current Detector 50 (source) -10 (sink) 1 0.65 mA mA W Ptot Power Dissipation @Tamb = 50
STMicroelectronics
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thermal fuse 115 250V 2A etd 35 115 2a 250v thermal fuse L6561 equivalent D97IN549B Transformer ETD-29

orega transformer

Abstract: Po-80W - C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , Detector 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating Range , Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA VDIS 5
STMicroelectronics
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orega transformer Po-80W L6561D equivalent 12v 200mA OREGA 473201A8 smps L6561d

orega transformer

Abstract: BYT03-400 C2 22µF 25V Vo=400V Po=120W 68K R1 R9 (*) 1.82M + R5 MOS STP5NA50 10 4 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , -0.3 to 7 V 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating , . V µA -10 3 Unit V 2 -3 Disable threshold IZCD Min. 2.1 Sink Current
STMicroelectronics
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220k 400V

Abstract: BYT03-400 C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 (*) 0.41 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , 400mA. The device is operating in transition mode and it is optimised for Electronic Lamp Ballast , Sense Input -0.3 to 7 V 5 Zero Current Detector 50 (source) -10 (sink) mA mA 1 , Source Current Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA
STMicroelectronics
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220k 400V D97IN550B

THOMSON-CSF B1ET2910A

Abstract: D97IN549B - C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , Detector 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating Range , Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA VDIS 5
STMicroelectronics
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B1ET2910 ETD 41 035 473201A7

orega

Abstract: litz wire 38 awg - C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , Detector 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating Range , Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA VDIS 5
STMicroelectronics
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litz wire 38 awg L6561 application L6561 application note smps L6561 Electronic ballast 80W Thomson-CSF power capacitors

orega

Abstract: smps design 120W Po=120W C3 1µF R1 R9 (*) 1.82M + R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , 400mA. The device is operating in transition mode and it is optimised for Electronic Lamp Ballast , -0.3 to 7 V 5 Zero Current Detector 50 (source) -10 (sink) 1 0.65 mA mA W Ptot , 4.5V -3 -10 µA mA 5 Sink Current Capability 3 10 mA 5 Disable threshold
STMicroelectronics
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smps design 120W sgs-thomson TO-3

L6561 AN

Abstract: orega - C2 22µF 25V + Vo=400V Po=120W R5 MOS STP5NA50 10 4 6 C7 10nF R6 , D2 1N5248B C1 1µF 400V C6 R7 (*) 998K 12nF R9 (*) 1.24M 8 3 R10 10K C2 , transition mode and it is optimised for Electronic Lamp Ballast application, AC-DC adaptors and SMPS , Detector 50 (source) -10 (sink) mA mA 1 0.65 W Junction Temperature Operating Range , Capability -3 -10 µA mA IZCD 5 Sink Current Capability 3 10 mA VDIS 5
STMicroelectronics
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L6561D PFC

coiltronics ctx02-13063-x3

Abstract: Coiltronics CTX02-13140 % 91k 2W T1 GND-F COMP 6 2 1 COLL LT1431 2.2k + C1 1µF 400V 33 0.068µF 1k , 4 20 10:15 TURNS 0.1µF 10 1µF FILM T3 470µF 450V 382VBUS Figure 2. 24V , 1µF 63V FILM + + 20k 2200pF "Y" 20k 15V 1N965 (× 2) 2000pF 10, 2W , regulator and increasing capacitor holdup time compared to a typical off-line converter. This results in , FAST 132 2 180 VRMS 0.001µF 30W 100W 264 1µF FILM LT1508 13 SS2
Linear Technology
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CTX02-13141-X2 CTX02-13063-X3 5MP12J105K MPC71 coiltronics ctx02-13063-x3 Coiltronics CTX02-13140 CTX02 coiltronics coiltronics ctx02 LT1509 DN143 HM41-11510

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 , 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 , 120Hz, T C = +25oC VIN = 170VDC, IL = 10mA, f = 120Hz, TC = +25 oC 70 1µF BYPASS CAPACITOR , CAPACITOR 65 10µF BYPASS CAPACITOR 60 NO BYPASS CAPACITOR 55 10 15 20 25 OUTPUT CURRENT (mA
Intersil
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HIP5600 400V to 6V DC Regulator TO 220 Package power electronic transistor IGPT DC DC converter 1A 400V TO 220 Package V275LA10B HIP5600IS2 MO-169 400VDC 280VRMS 50VRMS

SynQor 0112-A00

Abstract: 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 , ) 15 10 5 230 Vin 6 Vin = 230V Vin = 385V 3 385 Vin 0 9 Vin = 400V 400 , (resistive load) (10 ms/div). Load cap: 15µF tantalum capacitor. Input voltage pre-applied. Ch 1: Vout (5V , reflected ripple current, is, through a 10 µH source inductor, using a 47µF ceramic input capacitor (10mA
Synqor
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SynQor 0112-A00 BQ4H136EEC45 4-A00 BQ4H136EEC45NRS
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

10Kf6 diode

Abstract: ir2155 40w electronic ballast + 40 W PTC IRF820 1µF 400V 22 01µF 0.01µF 600V + 10 L2 PTC 0.01 , 40W 91K 11DF4 1/2W IR2151 N Notes IRF 720 7 6 1µF 400V 22 0.1 µF 0.01 , Application Notes AN-995A Electronic Ballasts Using the Cost-Saving IR215X Drivers Introduction Electronic ballast circuits have recently undergone a revolution in sophistication from the , "in the ballast business" and more are joining their ranks all the time. Most electronic ballasts
International Rectifier
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EE-30Z T106-26 10Kf6 diode ir2155 40w electronic ballast IR2155 equivalent IR2151 DT 94-3 self oscillating Electronic ballast 40W IRF720 BE-30-1110CP EC-35-3C81 IR2111
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