Please enter a valid full or partial manufacturer part number with a minimum of 3 letters or numbers

    TOP227Y TRANSFORMER DESIGN Search Results

    TOP227Y TRANSFORMER DESIGN Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    DE6B3KJ151KA4BE01J Murata Manufacturing Co Ltd Safety Standard Certified Lead Type Disc Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd
    DE6B3KJ471KB4BE01J Murata Manufacturing Co Ltd Safety Standard Certified Lead Type Disc Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd
    DE6E3KJ152MN4A Murata Manufacturing Co Ltd Safety Standard Certified Lead Type Disc Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd
    DE6B3KJ101KA4BE01J Murata Manufacturing Co Ltd Safety Standard Certified Lead Type Disc Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd
    DE6B3KJ331KB4BE01J Murata Manufacturing Co Ltd Safety Standard Certified Lead Type Disc Ceramic Capacitors for Automotive Visit Murata Manufacturing Co Ltd

    TOP227Y TRANSFORMER DESIGN Datasheets Context Search

    Catalog Datasheet Type Document Tags PDF

    EI-33

    Abstract: Ei33 Transformer ei33 TOP227Y nichicon 470uF EI33 SWITCHING TRANSFORMER EEUFA1J122L CE 470uf 400v POL-30030 PWR-TOP227Y
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP227Y. REFER TO APPLICATION CIRCUITS OF FIGURE 3. PARAMETER PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PWR-TOP227Y. 250Vrms P227Y VTP-01002 MUR160 MUR620 250Vac TL431 POL-40020 EI-33 Ei33 Transformer ei33 TOP227Y nichicon 470uF EI33 SWITCHING TRANSFORMER EEUFA1J122L CE 470uf 400v POL-30030 PWR-TOP227Y PDF

    Transformer ei33

    Abstract: 470 uf 400V ei-33 flyback transformer pin configuration TOP227Y flyback transformer 24V source switching POL-24219 24v 20A regulator circuit diagram 470uf, 400v electrolytic capacitor EI33
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP227Y. REFER TO APPLICATION CIRCUITS OF FIGURE 3 & 4. PARAMETER PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PWR-TOP227Y. 250Vrms LEAKA35V OP227Y BZY97C200 VTP-01005 MUR420 85-265Vac 50/60Hz 250Vac Transformer ei33 470 uf 400V ei-33 flyback transformer pin configuration TOP227Y flyback transformer 24V source switching POL-24219 24v 20A regulator circuit diagram 470uf, 400v electrolytic capacitor EI33 PDF

    473k 400V capacitor

    Abstract: ei-33 Transformer ei33 PWR-TOP227Y TOP227 nec2501-h 500 watt power circuit diagram flyback TOP227Y Ei33 ei33 transformer
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 O C FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP227Y. REFER TO APPLICATION CIRCUITS OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PWR-TOP227Y. 250Vrms NEC2501-H POL-30030 P6KE200A 375Vdc DF04M TL431 473k 400V capacitor ei-33 Transformer ei33 PWR-TOP227Y TOP227 nec2501-h 500 watt power circuit diagram flyback TOP227Y Ei33 ei33 transformer PDF

    EI33 bobbin

    Abstract: Ei33 core TOP227 EI-33 EI33 Transformer ei33 TOP227Y capacitor 330uF 400v schematic diagram of PM130-H1A 470UF 400v
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS TOP227Y. REFER TO APPLICATION CIRCUIT OF FIGURE 3. PARAMETER MIN. PRIMARY INDUCTANCE 3-1 0.250Vrms @ 100KHz 630 SPEC LIMITS


    Original     		OP227Y. 250Vrms 100KHz P6KE200A 250Vac VTP-01002 3300uF 85-265Vac 50/60Hz EI33 bobbin Ei33 core TOP227 EI-33 EI33 Transformer ei33 TOP227Y capacitor 330uF 400v schematic diagram of PM130-H1A 470UF 400v PDF

    PM130-H1A

    Abstract: EI40 transformer PWR-TOP227Y ei40 bobbin transformer EE40 EE40 core EE40 EI-40 PM130-R1 EI40 12V
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 O C FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP227Y. BIAS & SEC BIAS ARE USED IN FORWARD MODE. PARAMETER PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms FREQUENCY = 100 KHZ


    Original     		PWR-TOP227Y. 250Vrms 12-PIN TSD-1056 PWR-TOP227Y PM130-H1A EI40 transformer PWR-TOP227Y ei40 bobbin transformer EE40 EE40 core EE40 EI-40 PM130-R1 EI40 12V PDF

    EER28L

    Abstract: POL-15073 TOP227Y TOP227Y APP 3300uf 35v 3A 20UHY PWR-TOP204YAI precision switching transformer schematic diagram of PM130-H1A 10-PIN
    Text: TABLE 1: ELECTRICAL SPECIFICATIONS AT 25 OC FIGURE 1: SCHEMATIC DIAGRAM SWITCHING TRANSFORMER DESIGNED FOR USE WITH POWER INTEGRATIONS PWR-TOP204YAI. REFER TO APPLICATION CIRCUITS OF FIGURE 3A OR 3B. PARAMETER MIN. PRIMARY INDUCTANCE 3-1 VOLTAGE = 0.250Vrms


    Original     		PWR-TOP204YAI. 250Vrms 250Vac 3300uF VTP-02007 MUR160 MBR20100CT TL431 POL-15073 OP227Y/226Y EER28L POL-15073 TOP227Y TOP227Y APP 3300uf 35v 3A 20UHY PWR-TOP204YAI precision switching transformer schematic diagram of PM130-H1A 10-PIN PDF

    NEC2501

    Abstract: TOP225P TOP227P TOP225Y top225 TOP224Y design examples NEC2501 Optocoupler TOP227Y transformer design TOP223 TOP224
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses-up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 NEC2501 TOP225P TOP227P TOP225Y top225 TOP224Y design examples NEC2501 Optocoupler TOP227Y transformer design TOP223 TOP224 PDF

    using top223 for pc power supply

    Abstract: TOP227 TRANSFORMER DESIGN DATA TOP227Y transformer design TOP223 TRANSFORMER DESIGN DATA transistor top222y TOP223 Reference Design Board TOP227Y TOPSWITCH buck TOP226 12V TOP221
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses – up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 using top223 for pc power supply TOP227 TRANSFORMER DESIGN DATA TOP227Y transformer design TOP223 TRANSFORMER DESIGN DATA transistor top222y TOP223 Reference Design Board TOP227Y TOPSWITCH buck TOP226 12V TOP221 PDF

    flyback transformer philips

    Abstract: FLYBACK CLAMPING DIODE top225 SOD89 flyback snubber VIPER50 application note TOP221 TOP227Y equivalent VIPER100 Application Note TOP201
    Text: Crop here for Mid-Atlantic paper size DISCRETE SEMICONDUCTORS APPLICATION NOTE ZenBlockTM Zener with integrated blocking diode TM Philips Semiconductors' new ZenBlock replaces double-diode-, RCD- or RC-snubbers in flyback convertors. The new components offer circuit designers the important benefits of lower component


    Original     		MBL157 flyback transformer philips FLYBACK CLAMPING DIODE top225 SOD89 flyback snubber VIPER50 application note TOP221 TOP227Y equivalent VIPER100 Application Note TOP201 PDF

    transistor top222y

    Abstract: TOP224Y design examples TOP222y SMD cq 603 transistor smd zener diode code 20w flyback 150W schematic diagram TOP221G OF TOP227 TOP224Y data TOP227
    Text: TOP221-227 T O P S w i t c h - I I Family Three-terminal Off-line PWM Switch POWER INTEGRATIONS, INC. Product Highlights Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses - up to 90% efficiency


    OCR Scan     		OP221-227 witc08, transistor top222y TOP224Y design examples TOP222y SMD cq 603 transistor smd zener diode code 20w flyback 150W schematic diagram TOP221G OF TOP227 TOP224Y data TOP227 PDF

    transistor top222y

    Abstract: TOP224Y design examples TOP222G top223g TOP227 TRANSFORMER DESIGN DATA TOP227 TOP221-227 TOP222 5v top223 using top223 for pc power supply
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses – up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 transistor top222y TOP224Y design examples TOP222G top223g TOP227 TRANSFORMER DESIGN DATA TOP227 TOP221-227 TOP222 5v top223 using top223 for pc power supply PDF

    TOP223

    Abstract: TOP221-227 TOP222G transistor top222y TOP227 TOP226 top222y TOP221 TOP222P TOP227 TRANSFORMER DESIGN DATA
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses – up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 TOP223 TOP221-227 TOP222G transistor top222y TOP227 TOP226 top222y TOP221 TOP222P TOP227 TRANSFORMER DESIGN DATA PDF

    top221y

    Abstract: TOP224Y design examples TOP224 TOP223 application note TOP221 application note
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses – up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 top221y TOP224Y design examples TOP224 TOP223 application note TOP221 application note PDF

    Untitled

    Abstract: No abstract text available
    Text: TOP221-227 ® TOPSwitch-II Family Three-terminal Off-line PWM Switch Product Highlights • • • • • • • • • • Lowest cost, lowest component count switcher solution Cost competitive with linears above 5W Very low AC/DC losses – up to 90% efficiency


    Original     		OP221-227 PI-1951-091996 PDF