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UC1610J/883B Texas Instruments SILICON, BRIDGE RECTIFIER DIODE visit Texas Instruments
UC3612DP Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC3612J Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC1611J/883B Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC1612J/883B Texas Instruments SILICON, RECTIFIER DIODE visit Texas Instruments
UC1612J Texas Instruments SILICON, RECTIFIER DIODE, CERDIP-8 visit Texas Instruments

t1b rectifier

Catalog Datasheet MFG & Type PDF Document Tags

Resistor R0805

Abstract: smd transistor t1A charged by the energy stored in the transformer through rectifier diode D4 or D5. The current loop which , transistor Q1 is off. This interrupts the power supply of VIPer12AS from auxiliary winding T1B, the VDD , BC85 6B 3 + C8 22n F 4.7k C1 2 100 nF 4. 7k BAV103 T1B 139 uH 34 turn s , capacitor, class Y1, WKP, 500V Rectifier bridge, 250 Vac, 0.5A, TO-269AA STMicroelectronics, diode, peak , 100nF (1) T1B 139uH 34 t urns 0.18 CuL 1 R16 0R (2) VIN R8 4.7k (1) D5
STMicroelectronics
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Resistor R0805 smd transistor t1A 125VDC to 24 VDC regulator circuit Resistor R1206 smd transistor t1A 59 smd transistor T1C AN2103

capacitor 100nf 50v 0805

Abstract: KMG 400V 22R 1 4.7k 1 T1B=17turns 1 VIPer12AS 1 TSM101CD 1 SFH617A-3 Description capacitor , , class Y1 WKP 500V 20% -40.+85° C bridge rectifier 250VAC 0.5A -55.150° C diode 75V 200mA
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capacitor 100nf 50v 0805 KMG 400V Nippon Chemi-Con KME fi324 Chemi-Con LXY vogt transformer STEVAL-ISA020V1 LL4148 STPS160A BC846B TK120

rectifier module circuit diagram 48vdc circuits

Abstract: 4010 optocoupler SRMTM4010 40A Synchronous Rectifier Module C OL OR AD O DIVISIO N DESCRIPTION TM , SRMTM4010 40A Synchronous Rectifier Module C OL OR AD O DIVISIO N ABSOLUTE MAXIMUM RATINGS W W W , 2.8 ICTCH 40A IFWD 40A mohm Synchronous Rectifier Operation Transformer Voltage Range , Powered Regulator SRMTM4010 40A Synchronous Rectifier Module C OL OR AD O DIVISIO N FUNCTIONAL , the prediction time for the Catch synchronous rectifier. Pin 9 is used to tailor the module
Microsemi
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TLV431A rectifier module circuit diagram 48vdc circuits 4010 optocoupler power module 48 volt rectifier circuit diagram TM4010 power module 48 volt rectifier block diagram planar transformer theory

1N5761

Abstract: 470 k 1 T1A 15 µF C4 TUBE T1B D8 D7 D1 1N4007 IC C2 CTN 0.1 µF 100 V D2 AC LINE 220 V , D2 D3 D5 D7 CTN L = = = = = = = = Q2 = BUL45 Transistor 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 , FT10 toroid, T4A (LCC) Primary: 4 turns Secondaries: T1A: 4 turns Secondaries: T1B: 4 turns All
ON Semiconductor
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MUR105 1N400 F/385 F/1000 F/400

planar transformer theory

Abstract: planar transformer mounting in pcb SRM4010 40A Synchronous Rectifier Module C OL OR AD O DIVISIO N DESCRIPTION Rectification , , Broomfield, CO. 80020, 303-469-2161, Fax: 303-466-3775 Page 1 SRM4010 40A Synchronous Rectifier , 2.8 ICTCH 40A IFWD 40A mohm Synchronous Rectifier Operation Transformer Voltage Range , Powered Regulator SRM4010 40A Synchronous Rectifier Module C OL OR AD O DIVISIO N Pin Number 1 , external capacitor to tailor the prediction time for the Catch synchronous rectifier. The external
Microsemi
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planar transformer mounting in pcb planar transformer layout planar transformer pcb pulse TLV431 step down transformer winding of less then 5 volt

2N3905 MOTOROLA

Abstract: Semiconductor Motorola Nihon EP05Q03L or ON Semiconductor (Motorola) MBR0540 Dual N-channel MOSFET International Rectifier , International Rectifier Fairchild Nihon On Semiconductor (Motorola) Taiyo Yuden TDK PHONE 631-435-1110 , 9 T1-B T1-D DL VL 3 OUT 4 FB C11 2200pF R2 220 3 R3 10k 1% Q1 2 C10 4700pF C6 10µF 6.3V VOUT2 2.5V
Maxim Integrated Products
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2N3905 MOTOROLA Semiconductor Motorola PNP Transistor DPAK 2N3905 regulator MAX1864 MAX1864EVKIT

639 TRANSISTOR PNP

Abstract: 35MV100AX International Rectifier IRF7303 or Fairchild NDS9956A PNP transistor (DPAK) Fairchild KSH30 , Rectifier Fairchild 703-257-7740 703-257-7547 310-322-3331 310-252-7175 888-522-5372 , C8 10µF 6.3V Q2 C11 2200pF 4 2 2 3 2 1 T1-B T1-A C7 10µF 6.3V
Maxim Integrated Products
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35MV100AX JMK325BJ106MN C3216X5R0J106M 639 TRANSISTOR PNP 35MV100 diode t1.e Electrolytic Capacitor 25V 470uf international rectifier 639 10MV470AX

RJ-45 poe ethernet

Abstract: DA2343 rectifier and power extraction techniques. They start with the simplest implementation, which is least like , 0.1 mF 7 IC1 DET CLASS ILIM TPS2377D-1 1N5803 5 178 kW 24.9 kW 4 T1B , RJ-45 Pulse T1B Optional CBULK To dc/dc Converter PG R1 3.3 W VSS RTN Q1 , L1 Data to Ethernet PHY 2 T1A 3 L2 Pulse T1B DET CLASS ILIM VSS TPS2377D , RJ-45 Pulse T1B Optional To dc/dc Converter PG R1 3.3 W RTN Q2 MMBTA56 R2 2.2 W
Texas Instruments
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RJ-45 poe ethernet DA2343 TPS2377 tps23751 SLVA225 TPS2375/77-1 IEEE802

Regulating

Abstract: RHGA4 generator and the line via rectifier SS-L and smoothing capacitors SS-C and resistances SS-R2 (resistor unit , SS-R3 MTR Cr SS'L\g0 SS-C [] t1b SS SS-Rf ,r 1H â'" 66 ,-y & 5 A 9b1 Tn s rn SS-R2L AUlSf. 3% 6% mk nfi , Glaltningskondensator och likriktare Smoothing condenser and rectifier SS 6'7 Realerrela Reaulatina relau MTR X
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Regulating RHGA4 circuit diagram for automatic voltage regulator generator Kopp MS 84 asea transformator 470/7J

FAN4800IN

Abstract: KBL06 AC C5 100uF 450V D9 MBRS 140 R30 4.7k T1B C12 10uF 35V R7B 178k D7 MMBZ5245B , T1B C12 10uF 35V R7B 178k R30 4.7k D5 RGF1J D7 MMBZ5245B D11A MBR2545CT D11B , The output inductor and rectifier are chosen with maximum current rating larger than the maximum , D7 MMBZ5245B R14 33 T1B R30 4.7k Q2G C25 0.1uF R17 33 D3 RGF1J AN6032 , FQPF 6N50 D4 MMBZ5245B R19 220 Q3G D7 MMBZ5245B R14 33 T1B R30 4.7k Q2G
Fairchild Semiconductor
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FAN4800 FAN4800IN KBL06 AC FAN48001 tds-1047 TSO-735 380VDC 265VAC 1N5406 1N5401 MMBT3904

toroid FT10

Abstract: 221D C5 D5 D3 C1 D10 IC T1A 400 V 0.1 µF 1000 V 15 µF C4 TUBE T1B D8 , Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 @ 25°C RM10 core, A1 = , : 4 turns Secondaries: T1B: 4 turns All resistors are 1/4 Watt, ±5% R1 = 470 k R2 = R3 = 47 R4
Motorola
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BUL45F toroid FT10 221D L 0629 MTP8P10 MJE18006 BUL45/D E69369 220AB

toroid FT10

Abstract: 1N5761 . T1A 400 V 0.1 µF 1000 V 15 µF C4 TUBE T1B D8 FUSE D1 D7 IC 0.1 µF , 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 @ 25°C RM10 , Secondaries: T1A: 4 turns Secondaries: T1B: 4 turns NOTES: 1. Since this design does not include the line
ON Semiconductor
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AC FUSE T4A diode 1n400 MJE210 MPF930 221A-06 MTP12N10

1N5761

Abstract: RM10-CORE C5 D5 D3 C1 D10 IC T1A 400 V 0.1 µF 1000 V 15 µF C4 TUBE T1B D8 , Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 @ 25°C RM10 core, A1 = , : 4 turns Secondaries: T1B: 4 turns All resistors are 1/4 Watt, ±5% R1 = 470 k R2 = R3 = 47 R4
Motorola
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RM10-CORE pl lamp ballast transistor 1N4007 MJF18006

MJF1800

Abstract: MJE1800 D5 1000 V C5 400 V 0.1 µF 22 µF C1 D10 D9 385 V MUR150 D3 470 k 1 T1B T1A 15 µF , Components Lists Q1 = Q2 = BUL45 Transistor D1 = 1N4007 Rectifier D2 = 1N5761 Rectifier D3 = D4 = MUR150 D5 , : T1B: 4 turns NOTES: 1. Since this design does not include the line input filter, it cannot be used
ON Semiconductor
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MJF1800 MJE1800

bul45g

Abstract: C4 TUBE T1B D8 FUSE D1 D7 IC 0.1 mF D6 Q2 C3 47 Ω MUR150 C2 , nF/1000 V C4 = 15 nF/1000 V C5 = C6 = 0.1 mF/400 V Q2 = BUL45 Transistor 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 Ω @ 25ï'°C RM10 core, A1 = 400 , turns Secondaries: T1B: 4 turns NOTES: 1. Since this design does not include the line input filter
ON Semiconductor
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bul45g BUL45G

1N5761

Abstract: si 1N4007 transistor . T1A 400 V 0.1 µF 1000 V 15 µF C4 TUBE T1B D8 FUSE D1 D7 IC 0.1 µF , 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 @ 25°C RM10 , Secondaries: T1A: 4 turns Secondaries: T1B: 4 turns NOTES: 1. Since this design does not include the line
ON Semiconductor
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si 1N4007 transistor T4A mst

1N5761

Abstract: bul45a 470 k 1 T1B T1A 15 mF C4 TUBE FUSE D8 D7 D1 1N4007 IC D6 Q2 47 L 5.5 mH 1 , Components Lists Q1 D1 D2 D3 D5 D7 CTN L = = = = = = = = Q2 = BUL45 Transistor 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 @ 25C RM10 core, A1 = 400, B51 (LCC) 75 turns, wire = 0.6 mm FT10 toroid, T4A (LCC) Primary: 4 turns Secondaries: T1A: 4 turns Secondaries: T1B: 4
ON Semiconductor
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bul45a npn BUL45G

1N5761

Abstract: toroid FT10 circuit and detailed component list are provided below. T1A 1000 V 15 mF C4 TUBE T1B D8 , = 0.1 mF/400 V Q2 = BUL45 Transistor 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = , FT10 toroid, T4A (LCC) Primary: 4 turns Secondaries: T1A: 4 turns Secondaries: T1B: 4 turns NOTES
ON Semiconductor
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marking code t1a

1N5761

Abstract: MPF930 1000 V 15 mF C4 TUBE T1B D8 FUSE D1 D7 IC 0.1 mF D6 Q2 C3 1000 V 47 , nF/1000 V C4 = 15 nF/1000 V C5 = C6 = 0.1 mF/400 V Q2 = BUL45 Transistor 1N4007 Rectifier 1N5761 Rectifier D4 = MUR150 D6 = MUR105 D8 = D9 = D10 = 1N400 47 W @ 25°C RM10 core, A1 = 400, B51 , Secondaries: T1B: 4 turns NOTES: 1. Since this design does not include the line input filter, it cannot be
ON Semiconductor
Original

BV-1 501

Abstract: cq met t1a 250 /T1B G5/SKâ'" 2 1 9 â'"G2/T1B G6/SI â'" 3 14 â'" Gl/WO G6/SI â'" 3 18 â'" Gl/WD G7/CK0â'" 4 16 , 27 â'"G2/T1B C3 â'" 2 39 â'" CO G6/SI â'" 3 26 â'"G1/WD G4/S0 â'" 3 38 â'" G3/T1A G7/CK0 â'" 4 25 â'" GO/INT G5/SK â'" 4 37 â'" G2/T1B CKI â'" 5 24 â'" RESET G6/SI â'" 5 36 â'" G1/WD vcc - 6 , alternate features: GO INTR (External Interrupt Input) G2 T1B (Timer T1 Capture Input) G3 T1A (Timer T1 I/O
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BV-1 501 cq met t1a 250 embedded c programming examples CQ 1.000 crystal oscillator fxs 100 10 copbsac728n8
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