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Part Manufacturer Description Datasheet BUY
DUALOUTPUT-ISOFLYBACK-REF Texas Instruments Dual Output Isolated Flyback Design: 5V @ 0.2A, 12V @ 2.1A w/2 addl out 3.3V @ 0.5A, 5V @ 0.5A visit Texas Instruments
PMP2488 Texas Instruments Flyback for Audio visit Texas Instruments
PMP4597 Texas Instruments Flyback 3.3V@50mA visit Texas Instruments
PMP191 Texas Instruments Negative Flyback Converter visit Texas Instruments
PMP4583 Texas Instruments Flyback 16V@200mA visit Texas Instruments
PMP112 Texas Instruments Flyback Reference Design visit Texas Instruments

LG flyback

Catalog Datasheet MFG & Type PDF Document Tags

LG TV flyback transformer

Abstract: FFA69023M DATE : 2003. 01 . 30 SPECIFICATION PRODUCT : FLYBACK TRANSFORMER MODEL NO. : FFA69023M , specification is applied for the flyback transformer of FFA69023M 1-2. Appearance and size As shown in the , resin surface. 2-1-3. Withstanding voltage The flyback transformer must withstand 60 seconds , . Reliability tests 3-1. Layer insulation test The flyback transformer shall withstand with high voltage (HV x 1.25) for 60 seconds without any corona, arcing or other failure. 3-2. Humidity test The flyback
Daewoo Electronics
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E151941 LG TV flyback transformer TV flyback transformer CHINA TV FBT TSE-2183U TSE2183U PX9406 E45587 9053B E105888 DC597 DH597

flyback transformer pin connections

Abstract: 20kv flyback transformer Page 1/13 SPECIFICATION FOR FLYBACK TRANSFORMER VERSION 1.0 DESCRIPTION: 29" CTV FBT , FOR FLYBACK TRANSFORMER ALTERABLE APPLICATION OF APPROVAL APPLICATION NO. NO PURPOSE PAGE , .2 BSC28-2508 Page 3/13 SPECIFICATION FOR FLYBACK TRANSFORMER SPECIFICATION OF FLYBACK TRANSFORMER , .2 BSC28-2508 Page 4/13 SPECIFICATION FOR FLYBACK TRANSFORMER 1. MECHANICAL CHARACTERISTICS 1.1 , . 4 XI'AN RADIO FACTORY NO.2 BSC28-2508 Page 5/13 SPECIFICATION FOR FLYBACK TRANSFORMER
Xian Radio Factory No.2
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E96722 flyback transformer pin connections 20kv flyback transformer flyback transformer lg E52853 hv flyback transformer KE5612G-U E187278 3406-G30 E145391 E72128

tda2579

Abstract: tda2578a . < 1,4 1,9 V V Saturation voltage at lg = 0,6 A v8-9sat typ. < 2,3 2,8 V V Flyback generator active , protection and output stage protection â'¢ Flyback generator â'¢ Voltage stabilizer QUICK REFERENCE DATA Supply voltage (pin 9) Peak output voltage during flyback (pin 5) Output current (peak-to-peak value , transistor is protected against short-circuit currents to ground, whereas, during flyback, the 'lower' power , flyback starts, this switching circuit rapidly turns off the lower output stage and so limits the turn-off
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TDA3651 TDA3651A TDA3651AQ tda2579 tda2578a LG flyback flyback data pin diagram flyback pin diagram AT1236/20 TDA2578A TDA2579

AN-16 topswitch

Abstract: EEL16 ® ® TOPSwitch -FX Flyback Design Methodology Application Note AN-25 Basic Circuit Configuration This application note introduces a simple methodology for the design of off-line flyback power supplies using the TOPSwitch-FX family. It is fundamentally the same as AN-16, "TOPSwitch Flyback Design , flow chart shows design sequence at conceptual level for TOPSwitch-FX flyback power supply design , configuration used in TOPSwitch-FX flyback power supplies is shown in Figure 1, which also serves as the
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AN-16 topswitch EEL16 TOP234Y 2581 OPTO EI40 transformer EER28L

BU105

Abstract: LG flyback (parallel connected) circuit, as shown in Figure 1, is one of voltage capability. The flyback voltage to , may be varied somewhat by adjusting retrace time and flyback tuning. For this reason these high , ), flyback primary (Lp), retrace capacitor (cr), and "S" shaping capacitor (Cs) shown, will result in a peak , LB,WITH CHANGING IB1- IQ * 2.0 A PEAK FIGURE 3 - INTERRELATION OF RB, Lg, ANO IB1 i 4.0 , impedance for good turn-off of the output device. In Figure 2, the effects of varying Lg and Ig-j on the
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MJ105 BU105 k535 lg yoke BU105 transistor bu 105 BUI05

LG TV flyback transformer

Abstract: ly transistor capability. The flyback voltage to which the device will be subjected is a relatively predictable value with , about 8 times the value of V*, but may be varied somewhat by adjusting retrace time and flyback tuning , yoke (Ly), flyback primary (Lp), retrace capacitor (Cr), and "S" shaping capacitor (C§) shown, will , '¢) (or lg "end of scan" or lg end) while still providing a fow ac impedance for good turn-off of the output device. In Figure 2, the effects of varying Lg and Ig-j on the total power input to the deflection
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MJ3260 ly transistor ferroxcube bobbin flyback transformer used in color tv power ic of lg tv pulse transformer driver ic AN-415

dh 1117

Abstract: TDA4866 140 Hz QUICK REFERENCE DATA TDA4866 â'¢ Power supply and flyback supply voltage independent adjustable to optimize power consumption and flyback time â'¢ Excellent transition behaviour during flyback , VP supply voltage (pin 3) 8.2 - 25 V Vfb flyback supply voltage (pin 7) note 2 - - 60 V 'q , Flyback generator Ire maximum current during flyback (peak-to-peak value; pin 7) - 2 A Guard , from e.g. tda4850/51/55 TDA4866 input stage guard vp gnd v output '/W FB guard circuit flyback
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dh 1117 v guard ups TDA4850/51/55
Abstract: =25 °C ) ij l th JlW E . Output Voltage a j* « s iE Output Current K i t EE Reverse Voltage (flyback diode) K*2i!E Forward Current (each flyback diode) y / i 'v < 7 =i Forward Current (each common terminal , Current WliSfct Thermal Resistance K'J - yw .yfc Reverse Current (each flyback diode) K llillE Reverse Voltage (flyback diode) #6SB E Dielectric Strength 15 15 2.7 20 20 I l l Cj N) V lN H VlNL , 6 IN 5 OUT 5 - LG 2 -COM 2 LG I -COM I IN 4 -OUT 4 -OUT 3 2 ) CO M I o RI t ) OUT 2 - w - -
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MTA002 U055-8 27---------ENA 23-----------IN ZIP-27

LG TV flyback transformer

Abstract: BU108 voltage capability. The flyback voltage that the device will be subjected to is a relatively predictable , slightly by adjusting retrace time and flyback tuning. For this reason, high voltage devices are , applications. The values of yoke inductance (Ly), flyback primary inductance (Lp), retrace capacitor (Cr) and , electrolytic, often called the "speed up" circuit, allows adjustment of Ibi (or lg "end of scan" or lg end , effects of varying Lg and B] on total power input to a deflection circuit requiring an Iq of 4.5 A are
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MJ3480 BU108 J3480 transistor BU 109 bu 2990 lg flyback transformer tv

nec2501

Abstract: B26 ZENER DIODE ® ® TOPSwitch Flyback Design Methodology Application Note AN-16 Designing an off-line , the completion of the desired TOPSwitch flyback power supply using rules of thumb, look up tables , itself stays valid. Application specific issues outside of the basic flyback converter requirements , TOPSwitch Flyback Power Supply. June 1996 AN-16 1. System Requirements VACMIN, VACMAX, fL, VO, PO , ILIMIT or KRP= 1 Y To Step 12 PI-1868-052896 Figure 2A. TOPSwitch Flyback Design Flow Chart
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nec2501 B26 ZENER DIODE NEC2501 Optocoupler NEC2501* Opto coupler SMPS 12V, 5V power integrations topswitch flyback

AN-16 topswitch

Abstract: EE16 core TinySwitch Flyback Design Methodology Introduction Figure 1. shows the basic circuit configuration in a typical TinySwitch flyback design using TNY253. This document describes a simple Design Methodology for flyback power supply design using the TinySwitch family of integrated off-line switchers , Circuit Configuration Because of the high level integration of TinySwitch, flyback power supply design is greatly simplified. As a result, the basic circuit configuration of TinySwitch flyback power
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EE16 core TNY254 pn transformer for TNY253 universal flyback transformer specification flyback switching snubber design zener snubber TL431

TOPSWITCH AN-17

Abstract: AN-17 topswitch ® Flyback Transformer Design For TOPSwitch® Power Supplies Application Note AN-17 When developing TOPSwitch flyback power supplies, transformer design is usually the biggest stumbling block. Flyback transformers are not designed or used like normal transformers. Energy is stored in the core. The , in both windings at the same time. Why use the flyback topology? Flyback power supplies use the least number of components. At power levels below 75 watts, total flyback component cost is lower
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TOPSWITCH AN-17 AN-17 topswitch TOPSwitch THREE PHASE AC EI ISOLATION TRANSFORMER TURNS DETAIL 11 pin flyback transformer CIRCULAR nec2501-h P6KE200 NEC2501-H UF4005 1N5995B 1N4148
Abstract: 2 A Output Current 7 7 < M 'v O 'O f't K » JÏ Reverse Voltage (flyback diode) Forward Current (each flyback diode) 10 A I gno 10 A â¡ v y Ï9 M W I. Logic Supply Voltage , 3 .5 7 25 Sic #ia V iso V 10 -1 0 Vcc=5V K JR W E Reverse Voltage (flyback diode) 23 Unit lc c ( O F F ) K U â'" Reverse Current (each flyback diode) Dielectric , o â'"J *" -0 X3 XJ XJ r j O iC C tS tr ^ I '(¡y tlQ ch 15 LG 2 14 * â -
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Abstract: lo Output Voltage V 2 A Output Current i- K * E E Reverse Voltage (flyback diode) Vr 60 V K«'/SE Forward Current (each flyback diode) If 2 A /< * y >  , Ie n a l 1 .5 K V â'" Reverse Current (each flyback diode) |R Vr= 6 0 V O # 4 K*«G E Reverse Voltage (flyback diode) Vf If = 1. 5 A â  7 < > â 'J -K|B|. « » S ttlO O , - IN 5 X ] - 16- OUT 5 X I - 15-LG 2 X -
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15----------LG

AN-16 topswitch

Abstract: EE16 core transformer ® TM TinySwitch Flyback Design Methodology Application Note AN-23 Introduction Design Flow This document describes a simple Design Methodology for flyback power supply design using the , , allowed by a given output diode. Because of the high level integration of TinySwitch, flyback power supply design is greatly simplified. As a result, the basic circuit configuration of TinySwitch flyback , TinySwitch flyback design using TNY253. Output capacitor Output post filter L, C + VO D TNY253
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EE16 core transformer TNY254 flyback snubber RC VOLTAGE CLAMP snubber circuit EE16 transformer tny255 powerint an-23 17F-3
Abstract: CURRENT UP TO 2.5App â  70V MAXIMUM FLYBACK VOLTAGE â  INTERNAL FLYBACK GENERATOR â  INTERNAL , TV picture tube in B & W or color television. For power consumption saving, a flyback generator is also included. The current and voltage capa­ bilities (2.5App max output current and 70V flyback , OUTPUT SIP10 10 g Z > FLYBACK GENERATOR Z > SUPPLY VOLTAGE 8 INVERTING INPUT 7 o , Supply Voltage 10 35 Unit V V f, V o Flyback Voltage 1-2 70 V V i. A m -
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STV9303 STV9303W STV2102 STV2110 V10-11

AN-32

Abstract: Power Integrations ® ® TOPSwitch-GX Flyback Design Methodology Application Note AN-32 Designing an off-line , TOPSwitch-GX Flyback designs, Power Integrations recommends the use of PI Expert which implements this design , sequence at a conceptual level for TOPSwitch-GX flyback power supply design. The step-by-step procedure , Flyback Power Supply. July 2004 AN-32 1. System Requirements VACMIN, VACMAX, fL, VO, PO, , Z , application. The basic circuit configuration used in TOPSwitch-GX flyback power supplies is shown in Figure
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Power Integrations UTV817A LTV702FB LTV703FB Transformer ei33 EI33 bobbin

EE16 core transformer

Abstract: EE16 core ® TM TinySwitch Flyback Design Methodology Application Note AN-23 Introduction Design Flow This document describes a simple Design Methodology for flyback power supply design using the , , allowed by a given output diode. Because of the high level integration of TinySwitch, flyback power supply design is greatly simplified. As a result, the basic circuit configuration of TinySwitch flyback , TinySwitch flyback design using TNY253. Output capacitor Output post filter L, C + VO D TNY253
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core EEL16 transformer ee13 bobbin LC PI FILTER DESIGN bridge RECTIFIER GI EE16 10 pin bobbin datasheet TNY253 an-24

LG flyback

Abstract: 068-CF L MTD1121F Shindengen Electric Mfg.Co.Ltd LG CR B Vref B Vs B IN B IN B PG B W1001 , Flywheel diode leak current IRFW VRFW=80V - - 10 A Flyback diode forward drop VFFB IFFB=0.9A - 1.3 2 V Flyback diode leak current IRFB VRFB=80V - - 10 A , CPU or GATE ARRAY ONE CR B SHOT LG Rt Rf Rf Cf Rs Rs Cf R2 Constant
Shindengen Electric
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HSOP28 068-CF 4-phase uniPOLAR STEPPER MOTOR CMOS IC MANUAL stepper relay

lg crt tv circuit diagram

Abstract: TDA4866 140 Hz QUICK REFERENCE DATA TDA4866 â'¢ Power supply and flyback supply voltage independent adjustable to optimize power consumption and flyback time â'¢ Excellent transition behaviour during flyback , Vp supply voltage (pin 3) 8.2 - 25 V VFB flyback supply voltage (pin 7) note 2 - - 60 V lq , Flyback generator Ifb maximum current during flyback (peak-to-peak value; pin 7) â'" 2 A Guard , guard circuit flyback generator protection amplifier a > amplifier b > outa defl feedb ^SPTT
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lg crt tv circuit diagram MED751
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