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    LT1083 APPLICATION NOTE Search Results

    LT1083 APPLICATION NOTE Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TSL1401CCS-RL2 Rochester Electronics TSL1401 - 128 x 1 Linear Sensor Array with hold. Please note, an MOQ and OM of 250 pcs applies. Visit Rochester Electronics Buy
    C8231A Rochester Electronics LLC Math Coprocessor, 8-Bit, NMOS, CDIP24, DIP-24 Visit Rochester Electronics LLC Buy
    AM79865JC Rochester Electronics LLC Telecom Circuit, Visit Rochester Electronics LLC Buy
    AM79866AJC-G Rochester Electronics LLC SPECIALTY TELECOM CIRCUIT, PQCC20, ROHS COMPLIANT, PLASTIC, LCC-20 Visit Rochester Electronics LLC Buy
    MD8087/R Rochester Electronics LLC Math Coprocessor, CMOS Visit Rochester Electronics LLC Buy

    LT1083 APPLICATION NOTE Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    STANCOR 11Z-2003

    Abstract: data LT1085CT LT1084CM scr preregulator LT1083 MR1122 TRANSISTOR 0835 LT1084 LT1084CT lt1083c1
    Text: LT1083/LT1084/LT1085 7.5A, 5A, 3A Low Dropout Positive Adjustable Regulators U DESCRIPTION FEATURES • ■ ■ ■ ■ ■ ■ ■ Three-Terminal Adjustable Output Current of 3A, 5A or 7.5A Operates Down to 1V Dropout Guaranteed Dropout Voltage at Multiple Current Levels


    Original     		PDF LT1083/LT1084/LT1085 LT1083 STANCOR 11Z-2003 data LT1085CT LT1084CM scr preregulator MR1122 TRANSISTOR 0835 LT1084 LT1084CT lt1083c1

    LT1083 application note

    Abstract: LT1083 LT1084 LT1084-5 LT1085 LT1084T
    Text: LT1083 LT1084 LT1085 Low Dropout Positive Adjustable Regulators Features • • • • • • • Description The LT1083/LT1084/LT1085 series of positive adjustable regulators are designed to provide 7.5A, 5A and 3A with higher efficiency than currently available devices. All


    Original     		PDF LT1083 LT1084 LT1085 LT1083/LT1084/LT1085 LT1083 LT1083/ LT1083 application note LT1084 LT1084-5 LT1085 LT1084T

    LT1083 CT

    Abstract: LT1083 parallel 15A LTC1158 LT1157 LT1083 parallel vout 12V 15A LT1087S LT1084 parallel 15A AN5812 LT1083 LT1087 WSC2000
    Text: Application Note 58 September 1993 5V to 3.3V Converters for Microprocessor Systems Robert Dobkin, Mitchell Lee, Dennis O'Neill and Milt Wilcox Introduction Linear Regulators The new generation of high performance microprocessors are built on dense, low breakdown voltage processes


    Original     		PDF AN58-15 F/16V F/10V F/20V AN58-16 LT1083 CT LT1083 parallel 15A LTC1158 LT1157 LT1083 parallel vout 12V 15A LT1087S LT1084 parallel 15A AN5812 LT1083 LT1087 WSC2000

    FT1083/FT1084/FT1085

    Abstract: FT1083
    Text: FT1083/FT1084/FT1085 LT1083/LT1084/LT1085 7.5A, 5A, 3A Low Dropout 7.5A,Positive 5A, 3A Low Dropout Adjustable Regulators Positive Adjustable Regulators Equivalent to LT1083/LT1084/LT1085 • ■ ■ ■ ■ ■ ■ ■ Description Three-Terminal Adjustable


    Original     		PDF FT1083/FT1084/FT1085 LT1083/LT1084/LT1085 LT1083/LT1084/LT1085 O-220, FT1083

    LT1083 parallel 15A

    Abstract: LT1083 CT 3.3V 20A voltage regulators 1A 5v input 5v output regulator LT1148 LT1086 LT1117-33 Lt1148-33 LT1084 parallel 15A LT1083 LT1087
    Text: advertisement Techniques for Deriving 3.3V from 5V Supplies – Design Note 74 Mitchell Lee Microprocessor chip sets and logic families that operate from 3.3V supplies are gaining acceptance in both desktop and portable computers. Computing rates, and in most cases, energy consumed by these circuits show a


    Original     		PDF 700mA LT1129-3 200mA 400mA LTC1174-3 LTC1147-3 LTC1148-3 LT1158 LT1083 parallel 15A LT1083 CT 3.3V 20A voltage regulators 1A 5v input 5v output regulator LT1148 LT1086 LT1117-33 Lt1148-33 LT1084 parallel 15A LT1083 LT1087

    LTC1584

    Abstract: LT1587CT 220 r3d LT1584 polarized capacitor 25uf 25v 638V RR3-20 C1213C
    Text: LT1584/LT1585/LT1587 7A, 4.6A, 3A Low Dropout Fast Response Positive Regulators Adjustable and Fixed U DESCRIPTION FEATURES • ■ ■ ■ ■ ■ Fast Transient Response Guaranteed Dropout Voltage at Multiple Currents Load Regulation: 0.05% Typ Trimmed Current Limit


    Original     		PDF LT1584/LT1585/LT1587 1584/LT1585/LT1587 LT1086 LT1521 300mA LT1529 LT1580 540mV LTC1584 LT1587CT 220 r3d LT1584 polarized capacitor 25uf 25v 638V RR3-20 C1213C

    lt1085 linear

    Abstract: MOTOROLA linear handbook linear switching voltage regulator handbook series voltage regulator using transistors LT1084-5 motorola voltage regulator Adjustable Positive Voltage Regulator 8.0V to 2 C51012-1 CMOS applications handbook LT1649
    Text: 14. Designing with 1.5-V Devices C51012-1.1 Introduction The CycloneTM FPGA family provides the best solution for high-volume, cost-sensitive applications. Stratix and Cyclone devices are fabricated on a leading-edge 1.5-V, 0.13-µm, all-layer copper SRAM process.


    Original     		PDF C51012-1 EL7551C EL7564C EL7556BC EL7562C EL7563C lt1085 linear MOTOROLA linear handbook linear switching voltage regulator handbook series voltage regulator using transistors LT1084-5 motorola voltage regulator Adjustable Positive Voltage Regulator 8.0V to 2 CMOS applications handbook LT1649

    lt1085 linear

    Abstract: linear voltage regulators 3 to 4 amp LT1085-5 LT1649 LT1083-5 LTC1775 Adjustable Positive Voltage Regulator 8.0V to 2 C51012-1 motorola voltage regulator handbook motorola voltage regulator
    Text: 12. Designing with 1.5-V Devices C51012-1.4 Introduction The Cyclone FPGA family provides the best solution for high-volume, cost-sensitive applications. A Cyclone device is fabricated on a leading-edge 1.5-V, 0.13-µm, all-layer copper SRAM process. Using a 1.5-V operating voltage provides the following advantages:


    Original     		PDF C51012-1 lt1085 linear linear voltage regulators 3 to 4 amp LT1085-5 LT1649 LT1083-5 LTC1775 Adjustable Positive Voltage Regulator 8.0V to 2 motorola voltage regulator handbook motorola voltage regulator

    lt1085 linear

    Abstract: C51012-1 LT1085-5 Positive Voltage Regulator series voltage regulator using transistors EL7551C EL7556BC EL7562CM EL7564CM LT1083
    Text: 12. Designing with 1.5-V Devices C51012-1.3 Introduction The Cyclone FPGA family provides the best solution for high-volume, cost-sensitive applications. A Cyclone device is fabricated on a leadingedge 1.5-V, 0.13-µm, all-layer copper SRAM process. Using a 1.5-V operating voltage provides the following advantages:


    Original     		PDF C51012-1 lt1085 linear LT1085-5 Positive Voltage Regulator series voltage regulator using transistors EL7551C EL7556BC EL7562CM EL7564CM LT1083

    LT1083 parallel 15A

    Abstract: LT1083 CT si9430 ic LT1084 parallel 15A LT1085-3 LT1084 12v SI9430 LT1129 LT1085 ctx10-4
    Text: advertisement 5V to 3.3V Regulator with Fail-Safe Switchover – Design Note 82 Mitchell Lee Newer microprocessors in personal computers have low voltage chips which are designed to replace existing 5V units. In the past a processor swap was simply a matter of removing one IC and replacing it with an


    Original     		PDF 200pF 3300pF LTC1148 2N2222 1-800-4-LINEAR. LT1083 parallel 15A LT1083 CT si9430 ic LT1084 parallel 15A LT1085-3 LT1084 12v SI9430 LT1129 LT1085 ctx10-4

    chopper transformer winding for 24v battery charging

    Abstract: hp laptop charging CIRCUIT diagram p50n05 43a Hall effect pin out 2N2219 transistor substitute PURE SINE WAVE inverter schematic diagram 2n3906 npn magnetic amplifier saturable core P50N05E pe-61592
    Text: Application Note 29 October 1988 Some Thoughts on DC/DC Converters Jim Williams and Brian Huffman INTRODUCTION Many systems require that the primary source of DC power be converted to other voltages. Battery driven circuitry is an obvious candidate. The 6V or 12V cell in a laptop computer must be converted to different potentials needed for


    Original     		PDF 1500pF CTX300-4 B-07T CTX33-4 D45C1 CTX-02-13949-X1 21-110J LT1533 an29f AN29-46 chopper transformer winding for 24v battery charging hp laptop charging CIRCUIT diagram p50n05 43a Hall effect pin out 2N2219 transistor substitute PURE SINE WAVE inverter schematic diagram 2n3906 npn magnetic amplifier saturable core P50N05E pe-61592

    LT1257

    Abstract: LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 LTC201 spice AN6677 AN1523
    Text: SUBJECT INDEX Subject Index to Linear Technology’s Applications Circuits A GUIDE TO THE INDEX Linear Technology has made a major effort to address a wide variety of circuit topics. The number of application problems solvable with innovative circuit techniques or new linear integrated circuits continues to grow. This comprehensive index includes


    Original     		PDF DN134) LT1016, LT1097, LT1222 LT1166, LT1431 LT1172, LT1006 LT1013, LT1088, LT1257 LT485 AN6752 OP227 "direct replacement" ltc1097 an6266 AN2544 LTC201 spice AN6677 AN1523

    lt1085 linear

    Abstract: linear handbook LT1085-5 MOTOROLA linear handbook C51012-1 EP1S60 LT1573 MS-034 BGA956 Lt1649
    Text: Section VII. PCB Layout Guidelines This section provides information for board layout designers to successfully layout their boards for Stratix devices. This section contains the required PCB layout guidelines and package specifications. This section contains the following chapters:


    Original     		PDF EL7551C EL7564C EL7556BC EL7562C EL7563C lt1085 linear linear handbook LT1085-5 MOTOROLA linear handbook C51012-1 EP1S60 LT1573 MS-034 BGA956 Lt1649

    schematic diagram 3V dc voltage regulator

    Abstract: schematic diagram ac voltage regulator PCI cyclone 3 schematics lt1085 linear design of mosfet based power supply linear handbook Switch Mode Power Supplies ac dc mosfet schematic diagram ac power regulator ac voltage regulator schematic circuit diagram cyclone 3 schematics
    Text: Section V. Design Considerations This section provides documentation on design considerations when utilizing Cyclone devices. In addition to these design considerations, refer to the Intellectual Property section of the Altera web site for a complete offering of IP cores for Cyclone devices.


    Original     		PDF

    lt1085 linear

    Abstract: schematic diagram ac voltage regulator Adjustable Power Supply Schematic Diagram linear handbook 120 volt regulator ic high voltage regulator schematic national semiconductor linear applications handbook LT1083-5 LT1085-5 schematic diagram 3V dc voltage regulator
    Text: Section V. Design Considerations This section provides documentation on design considerations when utilizing Cyclone devices. In addition to these design considerations, refer to the Intellectual Property section of the Altera web site for a complete offering of IP cores for Cyclone devices.


    Original     		PDF

    lt1083

    Abstract: SPX1083 SPX1083AU SPX1083U 3399 transistor
    Text: SPX1083 8A Low DropOut Voltage Regulator Adjustable & Fixed 3.3V FEATURES APPLICATIONS • Adjustable Output Down to 1.2V or Fixed 3.3V & 5V • Output Current of 8A • Low Dropout Voltage • Extremely Tight Load and Line Regulation • Current & Thermal Limiting


    Original     		PDF SPX1083 O-220 LT1083/LT1584 SPX1083 It1083AU-3 SPX1083AT-5 lt1083 SPX1083AU SPX1083U 3399 transistor

    C1213C

    Abstract: BD 149 transistor LT1587CT-1.5 LT1085 LT1587 equivalent components of diode 1n4002 LT1083 application note
    Text: LT1587-1.5 U DESCRIPTION FEATURES • ■ ■ ■ ■ The LT 1587-1.5 is a low dropout 3-terminal regulator with a fixed 1.5V output voltage and 3A output current capability. The design is optimized for low voltage applications where transient response and minimum input voltage


    Original     		PDF LT1587-1 LT1085, O-220) LTC1430 LTC1472 LT1580 C1213C BD 149 transistor LT1587CT-1.5 LT1085 LT1587 equivalent components of diode 1n4002 LT1083 application note

    C1162c

    Abstract: LT1585-1 1N4002 LT1084 LT1585ACT
    Text: LT1585-1.5/LT1585A-1.5 Fixed 1.5V, 4.6A and 5A Low Dropout, Fast Response GTL+ Regulators DESCRIPTION U FEATURES • ■ ■ ■ ■ The LT 1585-1.5/LT1585A-1.5 are low dropout, 3-terminal regulators with 4.6A and 5A output current capability respectively, and a fixed 1.5V output voltage. The designs


    Original     		PDF LT1585-1 5/LT1585A-1 LT1084, O-220) LTC1430 LT1528 LT1580 C1162c 1N4002 LT1084 LT1585ACT

    DALE RH-25

    Abstract: pulse transformer SCR firing circuits scr firing circuit for dc servo driver 3 phase scr firing circuit for dc servo driver Power MOS FET Gate Drive lm317 2000W mosfet power inverter dc voltage regulator using scr LM31 TL scr preregulator dc voltage regulator circuit using SCR
    Text: um TECHNOLOGY Application Note 32 March 1989 High Efficiency Linear Regulators Jim Williams Introduction Linear voltage regulators continue to enjoy widespread use despite the increasing popularity of switching ap­ proaches. Linear regulators are easily implemented, and


    OCR Scan     		PDF AD534. LT1012 rh-25 AN32-12 DALE RH-25 pulse transformer SCR firing circuits scr firing circuit for dc servo driver 3 phase scr firing circuit for dc servo driver Power MOS FET Gate Drive lm317 2000W mosfet power inverter dc voltage regulator using scr LM31 TL scr preregulator dc voltage regulator circuit using SCR

    STANCOR 11Z-2003

    Abstract: lm1083 lm1083 regulator LTI085 stancor 11z2003 scr preregulator lt1063 LT1083 CT 7.5A, 5A, 3A Low Dropout negative Adjustable Regulator LT1083
    Text: PCI LT1083/LT1084/LT1085 7.5A, 5A, 3A Low Dropout Positive Adjustable Regulator Semiconductor d e s c r i p t i o n h e LT1083 series of positive adjustable regulators regulator and power are designed to provide 7.5A, 5A and 3A with conditions. T higher efficiency th an currently


    OCR Scan     		PDF LT1083/LT1084/LT1085 LT1083 ADJTA04 ADJTA05 ADJTA06 STANCOR 11Z-2003 lm1083 lm1083 regulator LTI085 stancor 11z2003 scr preregulator lt1063 LT1083 CT 7.5A, 5A, 3A Low Dropout negative Adjustable Regulator

    Untitled

    Abstract: No abstract text available
    Text: LT1083/LT1084/LT1085 7.5A, 5A, 3A Low Dropout Positive Adjustable Regulator Semiconductor [description i T he LT1083 series of positive adjustable regulators regulator and power source are designed to provide 7.5A, 5A and 3A with conditions. The LT1083/LT1084/LT1085


    OCR Scan     		PDF LT1083/LT1084/LT1085 LT1083 LT1083/LT1084/LT1085 ADJTA03 ADJTA04 ADJTA05 QQQ1227 1083/LT1084/LT1085 ADJTA07 LT1063

    LT1087S

    Abstract: IT1083 LT1087 LT1083 DN331 LT1084
    Text: f fdU } DESIGN 7I Sp» tu l.L^l VT OT V-J A T nT c TECîHI ^ I Number 33 in a sei•/es frorr Linear Techmology Corporation April, 1990 Powering 3.3V Digital Systems Dennis O'Neill The new generation of high density digital devices requiring 3.3V power supplies impose some unique constraints on


    OCR Scan     		PDF DN33-2 LT1087S IT1083 LT1087 LT1083 DN331 LT1084

    qn2222

    Abstract: pe-6197 PE6197 eprom 92112 Pulse Engineering pe-6197 VICTOREEN resistor 48V to 12V buck boost converter p50n05 flyback converter 12v to 18v r-QN2222
    Text: r r i m Application Note 30 m TECHNOLOGY February 1989 Switching Regulator Circuit Collection Brian H uffm an Switching regulators are of universal interest. Linear Technology has made a major effort to address this topic. A catalog of circuits has been compiled so that a design


    OCR Scan     		PDF CM55-T13 PE-52645 5V-35V 2N3906 2N390 100/tF LT317AH LT1072CN8 LT1004-2 2N2222 qn2222 pe-6197 PE6197 eprom 92112 Pulse Engineering pe-6197 VICTOREEN resistor 48V to 12V buck boost converter p50n05 flyback converter 12v to 18v r-QN2222

    P50N05E

    Abstract: dc-dc converter royer PE-65050 p50n05 figure 19 hysteresis loop of magnetic core in flyback circuit 2n3507 1amp IRFZ44 mosfet for square wave inverter pe-6197 diode r 4kl c 46 PE-65066
    Text: L ir m Application Note 29 O ctober 1988 TECHNOLOGY Some Thoughts on DC-DC Converters Jim Williams Brian Huffman INTRODUCTION Many systems require that the primary source of DC power be converted to other voltages. Battery driven cir­ cuitry is an obvious candidate. The 6V or 12V cell in a lap­


    OCR Scan     		PDF California92112 P50N05E dc-dc converter royer PE-65050 p50n05 figure 19 hysteresis loop of magnetic core in flyback circuit 2n3507 1amp IRFZ44 mosfet for square wave inverter pe-6197 diode r 4kl c 46 PE-65066