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Part Manufacturer Description Datasheet Download Buy Part
LT3439EFE#TRPBF Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE#TR Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
LT3439EFE#PBF Linear Technology LT3439 - Slew Rate Controlled Ultralow Noise 1A Isolated DC/DC Transformer Driver; Package: TSSOP; Pins: 16; Temperature Range: -40°C to 85°C
PMP5660 Texas Instruments Multi-Transformer 2x25V?50V@700mA, 390V@192mA
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA)

EE16 transformer atx Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1998 - EE16 transformer atx

Abstract:
Text: Applications · Desktop PC stand-by power supply (PS98, ATX , NLX, SFX, Micro ATX ) · Consumer stand-by supply , adjusting the transformer turns ratios and the value of the Zener diode VR1. The positive rail of the high , are long. The other side of the transformer primary is driven by the integrated, high-voltage MOSFET inside the TOP221. D1, R1, and C2 clamp voltage spikes caused by transformer leakage inductance to a , triple insulated wire allows the transformer to be constructed using a smaller core and bobbin than a


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PDF PI-2271-062998 EE16 transformer atx optocoupler atx power supply schematic TDK EEL16 PC40 TOP221P core EEL16 transformer 5043CX100R0J tdk ee16 pc40 bobbin ECEA1EGE101 core pc40 EE16 EEL16 transformer
2004 - EPR-54

Abstract:
Text: current, <5 µA Small low cost EE16 transformer - Provision for EE13 transformer for smaller size , alternate design utilizing simplified EE16 transformer construction is presented. See Appendix A for , performance of a simplified EE16 transformer without using foil in the construction. This may be a more , includes provisions to allow a transformer based on an EE13 bobbin to be fitted. An EE16 core size was , , waveforms and thermal performance. 11.2 Schematic The alternative EE16 transformer design is pin


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PDF EP-54 LNK520P EPR-54 07-May-2004 LNK520 EPR-54 Power Integrations EE16 transformer EE16 10 pin horizontal bobbin EE16 bobbin SBCP-47HY102B EE16 10 pin bobbin EE16 transformer construction ee16 bobbin specification CRF0414-253-4 8R2
2008 - IRF3705

Abstract:
Text: . Transformer Core: EE16 Sl No. Winding Description 1 Primary winding W1 2. Bobbin: EE16 VERTICAL , site - a 305 W Desktop Power Supply ( ATX ) reference design using this same active clamp forward , L3 40 mH, 25 A 1 CUSTOM F ASSEMBLY TRANSFORMER T2 SP001ARD2 1 CUSTOM G ASSEMBLY TRANSFORMER T3 SP001DRVDR2 1 CUSTOM I ASSEMBLY CHOKE L10 3.3 mH, 1.5 A , SEMI 22 JUMPER J1, J2, R14 3 B ASSEMBLY TRANSFORMER T1 STAUXSP001RD2 1


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PDF TND331/D IRF3705 IC JRC 3860 xbox schematic diagram 1N5822 SMD diode 1n4007 melf smd ac-dc voltage regulator using SCR circuit diagram IRF3705N FAIRCHILD 1n5819 SMD diode EE16 transformer atx NCP1014P
2011 - EE16 transformer

Abstract:
Text: EE16 transformer core loss can be calculated as: CoreLoss (W) = 3.6E-14 * (Freq_kHz)^1.63 * (DB_Gauss , High Frequency Wire Wound Transformers EE16 Platforms - THT Type AC/DC and DC/DC Switching , TRANSFORMER 6 100-390V 200kHz 3 2 5V-8V, 2A 8 30V, 0.04A 1 30V, 0.04A 1 PR USA 858 674 , . For flyback topology applications, it is necessary to ensure that the transformer will not saturate in , density use the following formula: Bpk (Gauss) = K1_Factor * Ipk(A) IN FLYBACK TRANSFORMER 3. In


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PDF 3000Vrms PA3050NL PA3072NL 277VAC 100KHz 150KHz 100kHz-150kHz EE16 transformer EE16 flyback transformer HIGH FREQUENCY Transformer ee16 EE16 type core EE16 core EE16 transformer EE16 5W EE16 4 3 ee-16 EE16-4 core transformer
2004 - tdk ee16 pc40 bobbin

Abstract:
Text: transformer adapter will typically consume approximately 1 W under no-load). This low no-load consumption is the result of the inherent cycle skipping feature of the TinySwitch-II and careful transformer design. Replaces a linear transformer based power supply at the same or lower cost, but with much higher , produces ±5% output regulation over temperature with a 2% Zener Does not require a transformer bias , output voltage accuracy. Minimize clamp losses: design the transformer to have a low reflected voltage


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PDF DI-77 TNY263P tdk ee16 pc40 bobbin core pc40 EE16 EE16 pc40 EE16 transformer construction EE16 DI-77 TinySwitch-II TDK EE16 PC40 core EE16 transformer t1 ee16 EE16 core transformer
2006 - varistor rv1

Abstract:
Text: layout. Key Design Points · · TRANSFORMER PARAMETERS Core Material Bobbin EE16 , gap for , Dramatically improved regulation over line frequency linear transformer · Meets CEC / ENERGY STAR requirements for active mode efficiency (63% vs. 53% requirement) · Small, low-cost EE16 core size allows , voltage and current regulation, eliminating the need for an optocoupler. Using the PI Transformer Designer software, shield windings were included in the transformer design. This allowed the circuit to


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PDF DI-119 LNK562P EN55022B varistor rv1 Pi transformer spark gap 100 kv core ee16 transformer schematic EE16 EE16 transformer construction EE16 transformer LNK562 HIGH FREQUENCY Transformer ee16 surge PCB layout
2006 - varistor rv1

Abstract:
Text: . EE16 , gapped for ALG of 113 nH/t² 250 kHz (minimum) Table 1. Transformer Parameters. (NC = No , Dramatically improved regulation over line frequency linear transformer · Meets CEC 2008 requirements for active mode efficiency (63% vs. 54.2% requirement) · Small, low-cost EE16 core size allows compact , optocoupler. Using the PI Transformer Designer software, shield L RF1 10 2.5 W D1 1N4937 windings were included in the transformer design. This allowed the circuit to meet EN55022 B conducted EMI


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PDF DI-119 LNK562PN EN55022B DI-119 varistor rv1 LNK562PN core ee16 transformer schematic EE16 transformer construction EE16 EE16 core transformer creepage core EE16 transformer EE16 transformer HIGH FREQUENCY Transformer ee16
Power Transformer EE-16

Abstract:
Text: 0805, 4.7 M 1 Q1 APT13003 1 T1 Transformer EE16 1 R1 12 ohm/0.5W 1 U2 , 5V890mA Charger Solution Using AP3706 System Engineering 2008.05.27 Contents Specifications Demo Board Schematic Bill of Material Transformer Specs Test Results Summary , 1 Transformer Specification Transformer Specification Primary Inductance Pin 1-2,all other windings open, measured at 1kHz, 0.4VRMS Bobbin EE-16 Core EE-16 2.1mH, ±5% PC40


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PDF 5V890mA AP3706 EN55022 115VAC 230Vac 110mV Power Transformer EE-16 Bobbin EE 16 AP3706 ee16 transformer specification ee16 bobbin specification EE-16 6 pin bobbin core EE16 transformer EE16 core pc40 EE16 ee-16 transformer
2003 - Power Transformer EE-16

Abstract:
Text: Frequency (132 kHz) operation allows small, low cost EE16 transformer · Built-in thermal shutdown , . TRANSFORMER PARAMETERS Core 200 EE16 , Nippon Ceramic NC-2H or equivalent, AL = 135 nH/T2 Bobbin , Flyback Design Highlights The TinySwitch-II frequency jitter feature and transformer construction , transformer bias winding · Frequency jittering reduces EMI - meets EN55022 Class B with no Y capacitor: very , T1 EE-16 C7 1.0 nF 1 kV R4 200 k 1/2 W NC 1 R3 100 D5 1N4005 GP L C1 6.8


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PDF DI-34 TNY266P Power Transformer EE-16 EEL16 TNY266PN core EEL16 transformer EE16 transformer EEL16 transformer TNY266P EE16 ee16 transformer specification EEL-16
2003 - TNY266PN

Abstract:
Text: ) operation allows small, low cost EE16 transformer · Built-in thermal shutdown protection · ON/OFF digital , Artificial Hand Connected to Secondary Return. Transformer Parameters 200 Core Material EE16 , Flyback Design Highlights · Simple design: low parts count (23) · <300 mW no-load without transformer , transformer construction allow use of a simple filter (L1, L2, C1 and C2) to meet EMI requirements with L2 , VR7 is required. T1 EE-16 L 85 - 265 VAC The combined voltage drops of Zener diode (VR7


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PDF DI-34 TNY266PN EN55022 DI-34 TNY266PN TNY266PN equivalent EE16 10 pin vertical bobbin EE16 transformer EEL16 core EEL16 transformer Power Transformer EE-16 EEL16 transformer 101408 EE16
2008 - LNK623P

Abstract:
Text: -Apr-09 7.4 DER-214 ­ 9 V, 250 mA Cooktop Controller Transformer Build Diagram Figure 5 ­ EE16 , (including transformer construction and circuits external to the products) may be covered by one or more U.S , .9 7 Transformer Specification , .10 7.4 Transformer Build Diagram .11 7.5 Transformer Construction


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PDF LNK623PG DER-214 LNK623P LNK623PG EE16 transformer EKMG401 ee16 bobbin specification EE16 10 pin bobbin SB180 VISHAY EE16 core SBC1-102-211 core ee16 transformer schematic
2008 - lnk616pg

Abstract:
Text: differential-mode EMI. This, in combination with Power Integrations' transformer E-sheildTM technology, means EMI , charge) the primary current limit is reduced to decrease the transformer flux density, which minimizes , are skipped. R8 100 L1 1.5 mH D1 1N4007 R1 10 k D2 1N4007 T1 EE16 1 C3 1 nF , : Measurements Made at 230 VAC with Output Connected to Earth Ground . Transformer Parameters 6 Bobbin EE16 , Horizontal, 10 pins, (5/5) Winding Details Shield: 15T x 3, 35 AWG Primary: 105T, 35 AWG


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PDF DI-158 LNK616PG DI-158 lnk616pg LinkSwitch-II EE16 LNK61 TOPSWITCH battery charger switching time 1N4007 t1 ee16 EE16 10 pin horizontal bobbin diode 1N4007 specifications EE-16
2013 - EE16-4 core transformer

Abstract:
Text: High Frequency Wire Wound Transformers EE16 Platforms - THT Type AC/DC and DC/DC Switching , 7 35 Pri-Sec K1 Factor 6282 3000 Vrms 8 2 FLYBACK TRANSFORMER ^1.63 , applications, it is necessary to ensure that the transformer will not saturate in the application. The peak , calculate the core loss of the transformer . Approximate transformer core loss can be calculated as , 886 3 4356768 Preliminary P691.B (03/13) High Frequency Wire Wound Transformers EE16 Platforms


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PDF 3000Vrms 277VACÂ 100kHz-150kHz PA3050NL 6E-14 EE16-4 core transformer
STR-A6159

Abstract:
Text: Start 4 D7 FRD R3 33K C5 2.2uF +5V C8 330uF Com EE16 R4 10 +5V R7 , 050905JG 28103.20-3 3. Transformer design · Schematic / structure AWG32 Pri. Single 4 , parallel 2 layers Close winding Pin Bias Sec. Pri. Figure 2 - Transformer schematic / structure · Material infomation Material Description Core TDK PC40 EE16 or equivalent Bobbin


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PDF STR-A6159 STR-A6159. BE16-118CP AWG32 050905JG tdk ee16 pc40 bobbin TDK EE16 PC40 STRA6159 EE16 10 pin bobbin core EE16 transformer EE16 core pc40 EE16 core ee16 transformer schematic TDK pc40
2007 - LNK364PN

Abstract:
Text: input and capacitor C1 filters it to produce the high-voltage DC bus that feeds transformer T1. An RCD , D L1 6.8 H EE16 D5 UF4002 +5 V, 100 mA RTN R4 16 k 1/8 W LinkSwitch-XT U1 , Regulation at 265 VAC. 80 70 205 185 225 245 265 Figure 2. Transformer Parameters Core Material No-Load Input Power vs. Line Voltage. PI-4584-021407 73 72 EE16 NC-2H or , . EE16 , 8 pin Winding Details Primary: 200T, 36 AWG, tape Secondary: 5 V:, 11T, 29 AWG triple


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PDF DI-133 LNK364PN DI-133 LNK364PN Converter for Induction Heating LNK364PN datasheet IGBT control circuit lnk364pn ic POWER supply lnk364pn EE16 EE16 bobbin resonant converter for induction heating INDUCTION HEATING mosfet
2001 - 12vdc to 120vac inverter schematic diagram

Abstract:
Text: 11-November -2000 Abstract This document presents the specification, schematic & BOM, transformer , .7 7.0 Transformer ­ T1 .8 7.1 Transformer drawing. 8 7.2 Transformer Spreadsheet , presents the specification, schematic & BOM, transformer design, test data, wave forms and EMI scan for a


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PDF EPR-00015) TNY254 EP-15) 11-November EPR-00015 12vdc to 120vac inverter schematic diagram 220VAC to 12VDC 2A circuit diagram schematic diagram 230VAC to 12VDC TNY254P 230vac 12vdc transformer 12vdc to 120vac inverter 220VAC to 12VDC transformer 12vdc to 120vac inverter schematic 12vdc to 220vac ups schematic diagram schematic diagram 230VAC to 12VDC POWER SUPPLY
2006 - TNY274

Abstract:
Text: RUV_IDEAL ENTER TRANSFORMER CORE/CONSTRUCTION VARIABLES Core Type EE16 EE16 Core Enter Transformer Core P/N: Bobbin PC40EE16-Z P/N: EE16 EE16_B OBBIN EE16_BOBBIN AE 0.192 cm , and transformer construction) may be covered by one or more U.S. and foreign patents or potentially , .8 7 Transformer Specification , .9 7.4 Transformer Build Diagram


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PDF TNY274P DER-113 pate89 TNY274 mp3 player circuit diagram free mp3 player circuit diagram pcb layout TNY274 APPLICATION NOTE EE16 type core EE16 10 pin horizontal bobbin core EE16 transformer core ee16 transformer schematic ACDC_TinySwitch-III t1 ee16
2008 - LNK613DG

Abstract:
Text: combination with Power Integrations' transformer E-sheildTM technology, means EMI standard EN55022 class B , range. At light loads (trickle charge) the current limit is reduced to decrease the transformer flux , C3 820 pF 3 1 kV R2 470 k D1 1N4007 D2 1N4007 T1 EE16 R1 10 k RF1 10 2W C1 , Earth Ground . Transformer Parameters Vin = 85 VAC Vin = 115 VAC Vin = 230 VAC Vin = 265 VAC Limit Limit 3 Core Material EE16 , NC-2H or equivalent, gapped for ALG of 143 nH/t² Bobbin


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PDF DI-157 LNK613DG DI-157 LNK613DG 2MM5230B-7 TOPSWITCH battery charger 1N4007 operating frequency specifications of 1n4007 diode core ee16 transformer schematic EE16 diode 1N4007 specifications diode D1 1N4007 1N4007 ZENER DIODE
2008 - LNK625PG

Abstract:
Text: LNK625PG (U1) along with transformer E-ShieldTM techniques allow such simple EMI filtering to meet , R2 330 L2 3.3 H T1 EE16 9 C7 1000 F 16 V D6 1N4148 C5 1 F 50V 5 V, 1.2 A , reduced to decrease the transformer flux density, which also reduces audible noise and switching losses , % tolerance values to allow precise centering of the nominal output voltage. · Transformer Parameters , -5257-101608 70 QP 60 Bobbin EE16 , 10 pin, Horizontal Feedback: 19T × 2, 34 AWG, 4 layers tape Primary


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PDF DI-201 LNK625PG DI-201 LNK625PG diode FR107 equivalent EE16 lnk625 EE16 10 pin EE16 10 pin bobbin fr107 equivalent DI201 ee16 5 2 pin EE16 10 pin horizontal bobbin
2007 - Converter for Induction Heating

Abstract:
Text: Regulation at 265 VAC. TRANSFORMER PARAMETERS EE16 Core Material NC-2H or Equivalent, gapped for ALG of 63 nH/t2 Bobbin EE16 , 8 pin Primary: 200T, 36 AWG, tape Secondary 5 V:, 11T, 29 AWG Winding , AC input and capacitor C1 filters it to produce the high-voltage DC bus that feeds transformer T1 , +18 V, 300 mA 8 D3 1N4007 C1 4.7 µF 400 V D 5 EE16 C5 100 µF 10 V D5 UF4002 , 111 mH (maximum) Table 2. Transformer Construction Information. For the latest updates, visit


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PDF DI-133 LNK364P Converter for Induction Heating EE16 IGBT control circuit INDUCTION HEATING mosfet resonant converter for induction heating VAC TRANSFORMER INDUCTION HEATING POWER SUPPLY POWER INTEGRATIONS dual flyback converter LNK364P nonisolated flyback converter
2007 - LNK564PN

Abstract:
Text: , C2, L1 and L3. The integrated frequency jitter feature of U1, along with transformer E-Shield , . LinkSwitch-LP U1 LNK564PN R8 100 k D 0.125 W FB D5 SB520 RTN 3 4 T1 EE16 D7 1N4007GP , rectifies the output from transformer T1. This rectifier is a low drop Schottky diode in order to maximize , power consumption. · Use PIXls spreadsheet to create a complete transformer design. · A slow blocking , Connected to Artificial Hand Representing Worst Case Conditions. Transformer Parameters Core Material


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PDF DI-154 LNK564PN CISPR-22/EN55022 DI-154 LNK564PN MOSFET 4166 E-Shield Transformer Techniques for Low EMI diode FR107 equivalent diode for clippers EE16 EE16 transformer construction LNK56 core ee16 transformer schematic topswitch StackFET
2006 - TNY276PN

Abstract:
Text: using small, low cost EE16 core size · >15 dBV margin to EN55022B conducted EMI limits · No , 10 V T1 EE16 D5 1N4007GP L3 Ferrite Bead 3.5 × 7.6 mm D6 SB260 R2 100 90-265 , consistent EMI performance in production, manufacturing variations in transformer T1 must be minimized from , Output Current (mA) Figure 3. Typical Output Characteristics. Transformer Parameters PI , Resonant Frequency 850 kHz (minimum) AV 50 40 dBV EE16 , NC-2H or equivalent, gapped for


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PDF DI-118 TNY276PN EN55022B DI-118 TNY276PN TNY276PN equivalent TNY275PN TNY275PN equivalent equivalent diode for sb260 t1 ee16 TNY276P EE16 NC-2H tny275pn application EE16
2008 - lnk603dg

Abstract:
Text: Integrations' transformer E-sheildTM technology, means EMI standard EN55022 class B compliance with wide , D2 1N4007 T1 EE16 5 C3 820 pF 1 kV 8 V, 0.3 A FL1 R1 470 k D7 SS15 C7 100 , transformer during common-mode surge conditions. losses with output load. At light loads (trickle charge) the primary current limit is reduced to decrease the transformer flux density, which minimizes , Connected to Earth Ground. PI-5145-051608 Transformer Parameters Output Voltage (VDC) 6.5 5.5


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PDF DI-159 LNK603DG DI-159 lnk603dg LinkSwitch-II specifications of 1n4007 diode core ee16 transformer schematic EE16 components needed for pi controller diode 1N4007 specifications EE16 10 pin bobbin diode D1 1N4007 EE16 10 pin horizontal bobbin
2011 - EE16 12V

Abstract:
Text: High Frequency Wire Wound Transformers EE16 Platforms - THT Vertical Electronics AC/DC and DC/DC , www.pulseelectronics.com 1 PRELIMINARY P680.C (3/11) High Frequency Wire Wound Transformers EE16 Platforms - THT , transformer will not saturate in the application. The peak flux density (Bpk) should remain below 2700Gauss , the transformer . Approximate transformer core loss can be calculated as: CoreLoss (W) = 3.6E-14 , EE16 Platforms - THT Vertical Mechanical Electronics 18.20 MAX IM 1 4 3.50X3=10.50 12.20


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PDF 3000Vrms 6400m 3220m 00V-400V 85kHz PA1931NL PA2115NL EE16 12V EE16 VERTICAL EE16 transformer EE16 5V EE16 flyback transformer HI-POT transformers EE16-4 core transformer 40-130KHZ EE16 HIGH FREQUENCY Transformer ee16
2007 - TNY274PN

Abstract:
Text: . TRANSFORMER PARAMETERS EE16 Core Nippon Ceramic NC-2H Material ALG of 174 nH/t2 Bobbin EE16 , 10 pin , C1, C2, L1, and L2. The integrated frequency jitter feature of U1, along with transformer E-Shield , 85-265 VAC R2 200 C2 6.8 F 400 V 3 5 D5 1N4007GP EE16 D TinySwitch-III U1 , ) 70 H (maximum) Table 1. Transformer Parameters. TIW = Triple Insulated Wire, NC = No Connect, FL , NON-INFRINGEMENT OF THIRD PARTY RIGHTS. The products and applications illustrated herein ( transformer construction


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PDF DI-113 TNY274PN EN55022B, TNY274PN EE16 Nippon Ceramic NC-2H for ying chin EE16 bobbin EE16 PC817A diode FR107 equivalent 2N3904 EE16D TNY274 DI-113
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