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PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) visit Texas Instruments
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) visit Texas Instruments
PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA visit Texas Instruments
PMP5412 Texas Instruments Transformer-less, non-isolated AC to DC visit Texas Instruments
EL5144CW Intersil Corporation VIDEO AMPLIFIER, PDSO5, SOT-23, 5 PIN visit Intersil
EL5192CW-T7 Intersil Corporation VIDEO AMPLIFIER, PDSO5, SOT-23, 5 PIN visit Intersil

eldor 9 pin transformer

Catalog Datasheet MFG & Type PDF Document Tags

eht transformer pin diagram

Abstract: flyback transformer eldor . Measurement of resistance is made using a four wire ohmmeter. Temperature should be 23 ± 2°C. Between pin 3.1.2 8 and pin 9 L(uH) 2650 Tol.(%) R(m? ) Tol.(%) ±8 520 ±10 Insulation resistance , COPIA ASSEGNATA A: Copy assigned to: ELDOR HIGH TECH WIRE-WOUND COMPONENTS s.r.l. Via Plinio, 18 22030 ORSENIGO - Como - Italy Tel. +39 031 636111 - Telefax +39 031 632243 FLYBACK TRANSFORMER , Withstanding voltage The transformer shall withstand a voltage of 1.5kV r.m.s. for 60 seconds between each
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furukawa TEX-E

Abstract: flyback transformer eldor TRANSFORMER ELDOR CORPORATION PCB - SINGLE SIDE - 70um - 100x50 mm 17/24 AN1523 APPLICATION NOTE ANNEX 2 - Switch Mode Transformer Specification COPIA ASSEGNATA A: Copy assigned to: ELDOR , ,6 0,75 0,9 I (A) SWITCH MODE TRANSFORMER SPECIFICATION CUSTOMER CODE This document and , proposed and the test results, including thermal and EMI, are enclosed in this document. The transformer , powered by the transformer, via the diode D3. The network Q1, Q2, C6, R9, R10, R11 improves the circuit
STMicroelectronics
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furukawa TEX-E flyback transformer eldor samwha electrolytic capacitor date code 220V ferrite core transformer TRANSISTORS BJT bc548 switch mode transformer L6590

flyback transformer eldor

Abstract: furukawa TEX-E MBA0204 BEYSCHLAG SFR25 BEYSCHLAG SFR25 BEYSCHLAG SFR25 BEYSCHLAG POWER TRANSFORMER ELDOR , Switch Mode Transformer Specification COPIA ASSEGNATA A: Copy assigned to: ELDOR CORPORATION S.p.A , TRANSFORMER SPECIFICATION CUSTOMER CODE This document and its content are property of ELDOR CORPORATION , SWITCH MODE TRANSFORMER SPECIFICATION CUSTOMER CODE This document and its content are property of ELDOR , TRANSFORMER SPECIFICATION CUSTOMER CODE This document and its content are property of ELDOR CORPORATION
STMicroelectronics
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samwha capacitor part numbers B82731-R2501-A30 E20/10/6 transformer 4 pin size PCB- 94v-0 samwha date code optocoupler MTBF calculation

AN1523

Abstract: flyback transformer eldor , manufactured by ELDOR in accordance with the EN60065. The transformer reflected voltage is ~105V and the , TRANSFORMER ELDOR CORPORATION PCB - SINGLE SIDE - 70um - 100x50 mm 17/24 AN1523 APPLICATION NOTE ANNEX 2 - Switch Mode Transformer Specification COPIA ASSEGNATA A: Copy assigned to: ELDOR , ,6 0,75 0,9 I (A) SWITCH MODE TRANSFORMER SPECIFICATION CUSTOMER CODE This document and , transformer data are included too, making it a good way to achieve a very short time to market solution
STMicroelectronics
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E17385 Nexans bc548 equivalent E206440 optocoupler IC PC817 pin details Loctite 480

VIPER12A EQUIVALENT

Abstract: VIPer12A connected to pin FB. Due to the parasitic element of the transformer is not possible to achieve a precise , STMicroelectronics 5.2. TRANSFORMER SPECIFICATION The transformer is produced by Eldor Corporation, its , STMicroelectronics 6.2. TRANSFORMER SPECIFICATION The transformer is produced by Eldor Corporation. The , the transformer, while the configuration with primary regulation has been chosen as a simpler and low cost solution for stand-by application. The circuit uses a small, low cost E13 transformer. 3
STMicroelectronics
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VIPER12A EQUIVALENT VIPer12A PKC136 E13 CORE TRANSFORMER viper12a application note MKS 1854-6-0-404 AN1599 EN55022

Radiohm potentiometer

Abstract: E20/10/6 n27 RADIOHM ELDOR 13/15 AN1231 - APPLICATION NOTE Mechanical drawings Annex 2 Transformer , : E20-10-6 : N27 : 0.4mm Transformer diagram 5 2362.5003A ELDOR 7 17 Turns 0.28mm/G2 , 2 D2 R4 5 2362.5003A ELDOR 7 6.8 1N4148 D1 4 DF06720M 1 6 2 R3 56K , 9 47u STTA106 D3 400V 1 16V C11 470u 25V C12 470u 25V TR2 3 L1 , compensation pin goes below 0.5V. Figure 6: Good burst mode Table 2. VIPer50 Power Dissipation Parameter
STMicroelectronics
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Radiohm potentiometer E20/10/6 n27 Radiohm capacitor cross reference 33 2AT VIPER50 application note eldor

viper12a

Abstract: 230vac to primary 9v transformer pin FB. Due to the parasitic element of the transformer is not possible to achieve a precise , . TRANSFORMER SPECIFICATION The transformer is produced by Eldor Corporation, its characteristics and material , STMicroelectronics STMicroelectronics 6.2. TRANSFORMER SPECIFICATION The transformer is produced by Eldor , capability of the transformer, while the configuration with primary regulation has been chosen as a simpler and low cost solution for stand-by application. The circuit uses a small, low cost E13 transformer
STMicroelectronics
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230vac to primary 9v transformer VIPer12A applications capacitor 4.7uF/400V capxon sanyo 1000uf, 63v CAPXON 50V capacitors CAPXON 50V

capacitor cross reference 33 2AT

Abstract: schematic diagram USB TO AV -10-6 : N27 : 0.4mm Transformer diagram 5 2362.5003A ELDOR 7 17 Turns 0.28mm/G2 8 Turns , 2 D2 R4 5 2362.5003A ELDOR 7 6.8 1N4148 D1 4 DF06720M 1 6 2 R3 56K , 9 47u STTA106 D3 400V 1 16V C11 470u 25V C12 470u 25V TR2 L1 SOURC , maintain its power switch in the off state when the voltage on the compensation pin goes below 0.5V , possible, mainly optimizing the transformer. The bad burst mode occupies a very low range of output
STMicroelectronics
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schematic diagram USB TO AV TCDT1101G radiohm potentiometer with switch viper 11A 220n 275v TRANSFORMER 13v 2A 50hz

L6598D

Abstract: l6598 24v the pin 9, keeping the current at a safe level. In case of output voltage loop failure, the , enable pin (#9). In case of over current, if the voltage on pin 9 exceeds the internal threshold the , L6563 operations and, by means of the PWM_LATCH pin (#8), it will latch the L6598 as well. 9/24 , mechanical aspect and pin numbering 1 12 2 11 3 10 4 9 5 8 6 7 TOP VIEW , . . . . . . . . . . . . . . 9 2.3 Short circuit protection . . . . . . . . . . . . . . . . . .
STMicroelectronics
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L6598D l6598 24v Power supply L6598D 1N4148 Fast Switching Diode L6598 equivalent STP9NK50ZFP Equivalent AN2331 EVAL6598-100W

pc817 sharp

Abstract: EN55022 limits 5. Figure 6. Figure 7. Figure 8. Figure 9. Figure 10. Figure 11. Figure 12. Figure 13 , . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Flyback Transformer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 , switching frequency is fixed at 60kHz by the IC internal oscillator allowing, to optimize the transformer size and cost. The transformer reflected voltage has been set to 60V, providing enough margin for the
STMicroelectronics
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AN2264 pc817 sharp EN55022 limits smd transistor E13 viper 22e UEI 10SP050L GRM40X7R104Z50

NTC16

Abstract: flyback transformer eldor 82R - 0805 CHIP RESISTOR BEYSCHLAG 103 T1 2414.0011 rev. C1 TRANSFORMER ELDOR , - 50V YXF D11 BZV55- C15 C15 NOT MOUNTED R8 560R- 0805 R7 2K7 - 0805 9 2200uF- 16V YXF , compromise between the transformer size and the harmonics of the switching frequency, in order to optimise , needs a small heat sink. The transformer reflected voltage is 90V, providing enough room for the , normal operation the controller is powered by the transformer via the diode D4. The network Q101, C102
STMicroelectronics
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AN1376 L6565 NTC16 MKS1858-6-0-808 STP4NK60ZFP resistor pth pTH murata LS220 ABL AN1376/0904

ic 741 clamper

Abstract: VIPER53 , assuring reliable operation of the Viper53. The transformer is slot type, manufactured by ELDOR , 1N4148 2 D7 1.5KE180A 4 6 7 4 3 C2 1N0-Y1 9 8 10 11 12 13 14 , circuit (~40 kHz) has been chosen in order to obtain a compromise between the transformer size and the , transformer reflected voltage is ~80V providing enough room for the leakage inductance voltage spike leaving , inductance have been chosen to allow the discontinuous current operation of the transformer overall the
STMicroelectronics
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ic 741 clamper VIPER53 VIPER53SP de1e3kx102m VIPer53 Application Note MKS2822-1-0-202 AN1732 53DIP SO-10 SFH617A-2 TL431

ARCOTRONICS R46 KI 3220

Abstract: VIPer53 Application Note 14 T1 24140011_D C1 1N0-Y1 1 2 C18 10N U3 VIPER53_DIP 10 8 9 R5 1K0 , kHz) has been chosen in order to obtain a compromise between the transformer size and the input , transformer reflected voltage is ~80V providing enough room for the leakage inductance voltage spike leaving , inductance have been chosen to allow the discontinuous current operation of the transformer overall the , , assuring reliable operation of the Viper53. uc d s) t( The transformer is slot type
STMicroelectronics
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ARCOTRONICS R46 KI 3220 Varicap 400v R46KI VIPER53 application capacitor 1000uf 6.3V smps repair circuit

MKS 1858-6-0-808

Abstract: circuit diagram of smps 220v capacitor bypasses any noise on pin #3 to ground (C23). The current flowing in the transformer primary is , rev. C1 TRANSFORMER ELDOR CORPORATION 30/33 AN1376 APPLICATION NOTE 22 ANNEX 2 , NOT MOUNTED 4 D3 STTA106U D9A NOT MOUNTED PTH 9 8 10 11 C3 2200uF-16V YXF , frequency (minimum is ~30 kHz @Vin = 80 VDC) has been chosen to get a compromise between the transformer , transformer reflected voltage is 90V, providing enough room for the leakage inductance voltage spike with
STMicroelectronics
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MKS 1858-6-0-808 circuit diagram of smps 220v Rubycon 400V 100uF capacitor trafo 1a 8 dip smps ic l6565 trafo 2kv

flyback transformer eldor

Abstract: FQP6N60 ncp1200 Over-voltage protection Efficiency > 80% Pin = 70 / 0.8 = 87.5 The below sequence details step-by-step the , input power by the average rectified voltage: Iload + 1 tc + * 4 @ Fline (1) Pout Pin + , : Qbulk + Vripple @ Cbulk + 9 mC Vripple 2 (4) From Figure 4, we can calculate the amount of , : (9) conform to what we could expect from this kind of offline power supply. http://onsemi.com 3 AND8076/D Transformer Calculation Transformer calculation can be done in several manners: a
ON Semiconductor
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FQP6N60 ncp1200 PF0082 Z9007-B DE C220 DIODE B82724-A2142-N1 KL194 NCP120 NCP1200

AND8076

Abstract: SPH6156 Appendix B, Transformer Manufacturers Eldor Corporation Headquarter Via Plinio 10, 22030 Orsenigo (Como , Over­voltage protection Efficiency > 80% Pin = 70 / 0.8 = 87.5 The below sequence details step­by­step the , input power by the average rectified voltage: Iload + 1 tc + * 4 @ Fline (1) Pout Pin + , : Qbulk + Vripple @ Cbulk + 9 mC Vripple 2 (4) From Figure 4, we can calculate the amount of , conducting time tc is simply: (9) conform to what we could expect from this kind of offline power
ON Semiconductor
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AND8076 SPH6156 2n2907 smd NCP1200P60 MBR30100 xfmr spice

DVB-S2 chipset

Abstract: NTC16 capacitor at plug-in. The transformer is layer type, manufactured by Pulse Eldor Corporation, in accordance , Transformer specification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8 2.1.1 , . . . . . . . . . . . . . . . 9 Test description . . . . . . . . . . . . . . . . . . . . . . . . , Table 1. Table 2. Table 3. Table 4. Table 5. Table 6. Table 7. Table 8. Table 9. Table 10 , . . . . . . . . 9 Output voltages measurement at Vin= 184 V and full load . . . . . . . . . . . . .
STMicroelectronics
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L6668 DVB-S2 chipset L33 SMD smd transistor L33 SMD l34 Transistor smd transistor L34 optocoupler PC817 AN2600 STEVAL-ISA040V1

NCP1200D60

Abstract: transformer egston Location = Wafer Lot = Year = Work Week · · · · · · · · · · · PIN CONNECTIONS Adj FB CS Gnd 1 2 3 4 , ÁÁÁÁÁÁÁÁÁ ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ PIN FUNCTION DESCRIPTION Pin No. 1 2 3 4 5 6 7 8 Pin Name Adj FB Function , Driving pulses This pin lets you adjust the level at which the cycle skipping process takes place By connecting an optocoupler to this pin, the peak current setpoint is adjusted accordingly to the output power demand This pin senses the primary current and routes it to the internal comparator via an L.E.B CS Gnd
ON Semiconductor
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NCP1200D60 transformer egston ncp1200d100 NCP1200D1 dip 8 pin smps ic with two HV pin egston 1200D NCP1200/D

TRANSISTOR SMD 58W

Abstract: BYV228 and pin configuration 9 16 8 9 1 1 SO16 PACKAGE SIP9 PACKAGE N° pin Name N , ; 4 = Low Side SEC pin; 5 = Not connected; 8 = High Side SEC pin; 9 = Not connected; 11 = Mid , integrates the controller and the Power stage on the same chip. It is housed in SO-16 and SIP-9 packages , (Figure 2) The device is supplied from the VCC pin connected to an R-C network. From VCC both the control , setting the preheating frequency. When 4.2V on CapPREH pin is overcome, an internal switch puts in
STMicroelectronics
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AN1902 TRANSISTOR SMD 58W BYV228 r2f smd transistor zener diode 4.2V 0.25W smd 58w pin diagram of 40v diac VK06TL

200D6 SMD DIP-8 datasheet

Abstract: 1200p60 equivalent ic circuit circuit protected Meets next IEA recommendations: PIN < 500mW Internally fixed frequency at 40kHz, 60kHz , voltage or shorts. W, WW = Work Week Allows Smaller, Features Lower Cost Transformer · No Auxiliary Winding Operation PIN CONNECTIONS · Internal Output Short­Circuit Protection Meet Next IEA , L = Wafer Lot Y, YY = Year W, WW = Work Week PIN CONNECTIONS Adj 1 8 HV FB 2 , ÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁÁ PIN FUNCTION DESCRIPTION Pin No. Pin Name Function 1 Adj Adjust the skipping peak
ON Semiconductor
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200D6 SMD DIP-8 datasheet 1200p60 equivalent ic circuit 200D6 datasheet 1200p60 1N5819 spice model smd optocoupler NCP1200PAK/D UC384 NCP1200P40 NCP1200D40R2 NCP1200D60R2 NCP1200P100
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