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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 visit Linear Technology - Now Part of Analog Devices Buy
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 visit Linear Technology - Now Part of Analog Devices Buy
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 visit Linear Technology - Now Part of Analog Devices Buy
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 visit Linear Technology - Now Part of Analog Devices Buy
PMP5660.1 Texas Instruments Multi-Transformer 2x25V (390V@192mA) visit Texas Instruments
PMP5660.2 Texas Instruments Multi-Transformer 2x25V (50V@700mA) visit Texas Instruments

ee13 ferrite transformer

Catalog Datasheet MFG & Type PDF Document Tags

ee13 ferrite transformer

Abstract: TDK Ferrite Core PC40 no-load consumption of , tolerance. · Design transformer with low reflected voltage to minimize clamp losses. A larger device (TNY266) may enable further reduction in VOR. · Wind transformer for lowest leakage inductance. Choose , transformer bias winding as a low voltage source for TinySwitch-II operating current. Even without this , power consumption. R6 33 T1 T1 EE13 LP = 1.9 mH 1 L1 1.0 mH L RF1 8.2 1.0 W
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DI-84 TNY264P ee13 ferrite transformer TDK Ferrite Core PC40 TDK pc40 tny266 equivalent tdk ferrite pc40 tny266 Transformer Construction Parameters CISPR-22

PC817A

Abstract: TV flyback transformer 5.5 V Flyback LNK501 Design Highlights · Replaces a linear transformer based power supply at , () filter that attenuates conducted EMI. Transformer (T1) winding phasing and D7 orientation let no , conduction mode. PO ~ 0.5 L I2f, where PO = Output Power, L = transformer primary inductance, I = LinkSwitch , ; therefore, PO is proportional to L. T1 EE13 Lp = 2.36 mH 8 D7 11DQ06 5.5 V, 0.45 A 12T 26 , C4 100 pF 500 V PC817A N U2 D U2 C L2 Ferrite Bead S LinkSwitch U1
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EN550022 TV flyback transformer EE13 tdk EE13 EE13 core core EE13 transformer B1204 DI-60

tny264pn

Abstract: TNY266 Power Integrations Consumption (mW) 200 Transformer Parameters EE13 TDK PC40 or equivalent, gapped for ALG of 128 nH/t , be used if higher precision is required. · Design transformer with low reflected voltage to minimize clamp losses. A larger device (TNY266) may allow further reduction in VOR. · Wind transformer for , transformer with tape between primary layers further reduces intra-winding capacitance and no-load , consumption of
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tny264pn TNY266 Power Integrations tny266 transformer c5470 11DQ06 equivalent TinySwitch DI-61 DI-61 TNY264PN TL431 DI-174

ee13 ferrite transformer

Abstract: tny266 Transformer Construction Parameters -3684-082603 6 Output Voltage (VDC) 160 5 TRANSFORMER PARAMETERS Core Material 4 EE13 TDK , required. · Design transformer with low reflected voltage to minimize clamp losses. A larger device (TNY266) may allow further reduction in VOR. · Wind transformer for lowest leakage inductance. Choose wire gauges to completely fill winding layers. · Winding the transformer with tape between primary , low no-load consumption of
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ee13 transformer tny2* 7 pin TNY266 application tny2 RCD snubber Ferrite Core PC40

PC817A

Abstract: EE13 tdk . Transformer Construction Information. 50 0 TDK PC40 EE13, AL = 185 nH/T2 0 90 120 150 180 210 , transformer based power supply at the same or lower cost, with better output regulation No-load input power , () filter that attenuates conducted EMI. Transformer (T1) winding phasing and D7 orientation let no , transformer primary inductance, I = LinkSwitch peak current, f = Switching frequency. I2f is accurately controlled for LinkSwitch; therefore PO is proportional to L. T1 EE13 Lp = 2.40 mH 7 85 - 265 VAC N
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LNK520 LinkSwitch EE13 core al PC817AD PC817-A TOPSWITCH battery charger DI-75 1N4005

china tv schematic diagram

Abstract: china tv schematic diagram free Optimized switching speed yields excellent radiated EMI performance Small EE13 core size The products and applications illustrated herein (including circuits external to the products and transformer , . 6 7 Transformer Specification , . 7 7.4 Transformer Build Diagram , design specification, schematic, bill of materials, and transformer documentation. Performance data and
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china tv schematic diagram china tv schematic diagram free ee13 bobbin schematic diagram tv sharp tv main board schematic diagram SHARP tv schematic diagram SHARP power supply LNK353P DER-109 261/A

tny266 equivalent

Abstract: 11DQ06 equivalent Power vs. Line Voltage. 6 5 4 3 2 1 0 0 TRANSFORMER PARAMETERS Core Material EE13 TDK PC40, or , , performance is achieved by use of TinySwitch-II, and by careful transformer design. Key Design Points · , reference (e.g. TL431) can be used if higher precision is required. · Design transformer with low reflected , transformer for lowest leakage inductance. Choose wire gauges to completely fill winding layers. · Winding the
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PI-3684-082603 ee13 transformer flyback converter PC817 1N4005 equivalent BOBBIN TRANSFORMER for ee13 Pi transformer 1N4007 2N3906 BZX79B5V1 PI-3681-091603 PI-3688-082803 PI-3685-082703

EEL-22T transformer

Abstract: LC PI FILTER DESIGN standby and bias supplies. TRANSFORMER PARAMETERS TDK PC40 EE13, AL = 284 nH/T2 Core Bobbin , 85-265 VAC 5.5 V Flyback Design Highlights · Replaces a linear transformer based power supply , is obtained through the main transformer! · Output Voltage (CV) tolerance ±10% at peak power point , pi () filter that attenuates conducted EMI. Transformer (T1) winding phasing and D6 orientation let , 4.7 µF 400 V RF1 8.2 1 W Fusible D3-D4 1N4007 L2 Ferrite Bead The RCD network of C3
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DI-59 LNK500 PI-3693-090503 EEL-22T transformer LC PI FILTER DESIGN TDK Ferrite Core PC40 clamps TDK EE13 core PC40 core PI-3694-091803

LNK520PN

Abstract: ee13 transformer changing R5. Transformer Parameters Core Material TDK PC40 EE13, gapped for ALG of 185 nH/t , 2.5 W 85 ­ 265 VAC 5.0 V Flyback Design Highlights · Replaces a linear transformer based , () filter that attenuates conducted EMI. Transformer (T1) winding phasing and D7 orientation let no , transformer primary inductance, I = LinkSwitch peak current, f = Switching frequency. I2f is accurately controlled for LinkSwitch; therefore PO is proportional to L. T1 EE13 Lp = 2.40 mH 7 85 - 265 VAC
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LNK520PN 1N4005G 1N4007G 35AWG switching transformer winding

LNK500PN

Abstract: core EE13 transformer 2.5 W 85 ­ 265 VAC 5.5 V Flyback Design Highlights · Replaces a linear transformer based , : output feedback is obtained through the main transformer! · Output Voltage (CV) tolerance ±10% at peak , C2 form a low-cost pi () filter that attenuates conducted EMI. Transformer (T1) winding phasing and , Fusible D3-D4 1N4007 L2 Ferrite Bead S C4 0.22 F 25 V D5 1N4937 Figure 1 , . PO0.5 L I2f, where PO = Output Power, L = transformer primary inductance, I = LinkSwitch peak
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LNK500PN lnk500pn datasheet PC40EE13 B1008 PC40

EE13 transformer 5v shield

Abstract: LNK363DN , C2, L1 and L2. The integrated frequency jitter feature of U1, along with transformer E-Shield , reduces with load, optimizing switching losses. C5 1 nF R3 50 V 16 T1 EE13 1 R9 30 J3, 5 V , . www.powerint.com 2 U3A R5 PC817A 100 7 LinkSwitch-XT U1 LNK363DN R7 1 k BP Ferrite Bead , complete transformer design. Keep the maximum flux density BM < 1500 Gauss (150 mT) to minimize audible , output RTN connected to Earth Ground representing worst case conditions. Transformer Parameters Core
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DI-135 EE13 transformer 5v shield CHARACTERISTICS DIODE 1N4007 EE13 NC-2H core EE13 5V power supply diode FR107 equivalent EE13 NC-2H core CISPR-22/EN55022

ee13 bobbin

Abstract: HICAL 548 0.5 Volts 1.08 ENTER TRANSFORMER CORE/CONSTRUCTION VARIABLES Core Type EE13 EE13 Core EE13 , products and applications illustrated herein (including circuits external to the products and transformer , .9 7 Transformer Design , .10 7.4 Transformer Build Diagram .11 7.5 Transformer Construction
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HICAL 548 vishay 1N4007 DO-214AC HICAL LNK363 USB charger opto ECK-D3A122KBN DER-135 CISPR22B

TNY264PN

Abstract: flyback cell phone ac charger characteristic of the circuit shown is the extremely low no-load consumption of , reduce this if required. · Design transformer with low reflected voltage to minimize clamp losses. A bigger device (TNY266) may help to further reduce VOR. · Wind transformer for lowest leakage inductance. Choose wire gauges to completely fill winding layers. · Winding transformer with tape between primary , achieved by using a transformer bias winding as a low voltage source for TinySwitch-II operating current
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DI-28 flyback cell phone ac charger cell phone charger 1N4005 operating frequency 100 kHz flyback transformer tny264p IC

tny264pn

Abstract: IC TNY264PN mA CV/CC Curve. Transformer Parameters Core Material EE13 TDK PC40, or equivalent ALG of 128 , extremely low no-load consumption of , required. · Design transformer with low reflected voltage to minimize clamp losses. A bigger device (TNY266) may help to further reduce VOR. · Wind transformer for lowest leakage inductance. Choose wire gauges to completely fill winding layers. · Winding transformer with tape between primary layers further
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IC TNY264PN tny264pn IC TNY264 TNY-264pn BZY97C TinySwitch DI-28

LNK363DN

Abstract: EE13 8 pin horizontal Ae value the transformer. Inductor L1 and ferrite bead L2 are used to provide differential mode filtering for , -227 3 W Adapter ­ LNK363DN ENTER TRANSFORMER CORE/CONSTRUCTION VARIABLES Core Type EE13 EE13 Core , (including transformer construction and circuits external to the products) may be covered by one or more U.S , .9 7 Transformer Design , .10 7.4 Transformer Build Diagram
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EE13 8 pin horizontal Ae value triple insulated wire diameter chart taicon capacitors ordering information AE 7027 diode Nippon capacitors lnk363 dn DER-227 EN55022B/CISPR22B

universal cell phone charger circuit diagram

Abstract: schematic diagram of phone charger , 1/8 W 2.4 , 2.0 W 33 , 1/4 W General purpose PNP BJT Transformer EE13 Low power off-line , , (including circuits external to the products and transformer construction) may be covered by one or more U.S , Transformer: Conducted EMI Noise Cancellation and Suppression Windings. 8 5 PCB Layout , . 10 7 Transformer Specification
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EPR-84 universal cell phone charger circuit diagram schematic diagram of phone charger keihin cell phone adapter block diagram universal flyback transformer specification EP-84 EN55022/CISPR22

TNY266PN

Abstract: equivalent diode for sb260 D1-D4 1N4005 x 4 R2 200 k L N T1 EE13 LP = 1.25 mH 1 R6 10 L3 Ferrite Bead , circuit very low ( , D5 1N4007G L2 Ferrite Bead D6 1N4148 10 1 C8 6.8 F 400 V C5 1 nF R7 500 V , the voltage reflected across the transformer (VOR) low. · Picking wire sizes that fill each winding , 900 Output Current (A) Figure 3. 6.0 VDC, 800 mA CV/CC Curve. 200 Transformer Parameters
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TNY266PN equivalent diode for sb260 TNY266PN equivalent EE16 10 pin bobbin transformers EE16 10 pin vertical bobbin core pc40 EE16 DI-63

wt-200

Abstract: LNK501P ­ No surface mount components required Small EE13 transformer allows compact size Approximate , Features · · · · · Very low cost, low component count charger/adapter - replaces linear transformer , (including circuits external to the products and transformer construction) may be covered by one or more U.S , . 6 4.3 Transformer , . 10 7 Transformer
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LNK501P wt-200 EN55022B MUR110 WT200 SBCP-47HY102B 17F-3

l20100

Abstract: transformer WE-UNIT DATUM / DATE : 2010-01-08 A Mechanische Abmessungen / dimensions : 8 1 EE13/6/6 A B , : Draht / wire: Kontaktmaterial / contact plating: Tränklack / Varnish: Ferrit/ ferrite UL-V0 TBr Cu-Ni-Sn , / Switching frequency: 100 kHz Bauteil für Netzanwendung / Off-line transformer Freigabe erteilt / general , : Bezeichnung : description : 760871038 Netzteil-Übertrager WE-UNIT Off-line transformer WE-UNIT DATUM
Würth Elektronik
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l20100 EE13/6/6 WK3260B D-74638

equivalent diode for sb260

Abstract: EE16 10 pin bobbin transformers circuit very low (< 5 µA) AC leakage current. Transformer (T1) has two shield windings (1-3 and 1 , suitable for portable electronics chargers. T1 EE13 LP = 1.25 mH 1 10 2 D7 SB260 1 RF1 , EN TNY266P BP L2 Ferrite Bead 6 V, 0.8 A R10 0.24 C6 680 µF 10 V D5 1N4007G R3 100 L3 Ferrite Bead U2 PC817D R5 1.35 2.0 W C7 100 µF 10 V R4 300 VR1 , keeping the voltage reflected across the transformer (VOR) low · Picking wire sizes that fill each
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EE16 VERTICAL 10 PIN EE16 6 pin bobbin transformers tdk ee16 pc40 bobbin 9 pin EE16 9 pin bobbin transformers TNY266P circuit diagram EE16 10 pin PI-3706-091803 PI-3705-091703
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