NATIONAL LINEAR APPLICATION Search Results

Led driver 50W schematic top

Abstract: lm3464 NXFT15WB473FA1B Do219AB GCM188R71H224KA64D IPD200N15N3 converter circuit ac to dc 2V to 100V CRCW06031K05FKEA FDD2572 GRM32ER72A225KA35L
Contextual Info: National Semiconductor Application Note 2071 SH Wong August 20, 2010 Introduction Standard Settings of the Evaluation Board The LM3464 is a linear LED driver with Dynamic Headroom Control DHC technology designed to drive four serial high power / high brightness LED strings. Four individual linear

IC LM7808 8V Voltage regulator

Abstract: tl494ch UC3525 application notes LM7915 to-3 lm7812 voltage regulator spec. sheet UC3525 LM7808 TO3 LM2951CM SG3524BN National Semiconductor voltage regulator lm7812
Contextual Info: Linear Products Cross Reference Guide Summer 2004 National Semiconductor provides a comprehensive set of support services. Product information, including sales literature and technical assistance is available through National's Customer Support Centers. Linear Products Cross Reference Guide – 2004

LMC7301

Abstract: LM338 model SPICE Step-Down Voltage Regulator smd 5pin ic VARIABLE POWER SUPPLY. 0 - 30V, LM723 LM338 spice 6v battery charger lm317 automatic LM338 TO-3 spice model diode smd marking BUF GP 750 LM4560 LM358 vs LM741
Contextual Info: Linear/Mixed-Signal Designer’s Guide February 1999  Welcome to National Semiconductor’s February 1999 Edition of the Linear/Mixed-Signal Designer’s Guide! Included in this guide are: • • • • • Alphanumeric index Product selection trees Product selection guides

fm sca

Abstract: LMC568 AN-450 LMC568CM LMC568CN M08A small signal audio FET
Contextual Info: LMC568 National Semiconductor & LMC568 Low Power Phase-Locked Loop General Description Features The LMC568 is an amplitude-linear phase-locked loop con­ sisting of a linear VCO, fully balanced phase detectors, and a carrier detect output. LM CM OS tm technology is employed

LP3850

Contextual Info: LP38502-ADJ Application Note 1759 LP38502TS-ADJ Evaluation Board Literature Number: SNVA307A National Semiconductor Application Note 1759 Chester Simpson November 28, 2007 Introduction Basic Application Circuit The LP38502TS-ADJ is a 1.5A Low-Dropout LDO linear

160-2043-02-01-00

Abstract: LP38502-ADJ
Contextual Info: LP38502-ADJ Application Note 1782 LP38502TJ-ADJ Evaluation Board Literature Number: SNVA321 National Semiconductor Application Note 1782 Chester Simpson January 29, 2008 Introduction Basic Application Circuit The LP38502TJ-ADJ is a 1.5A Low-Dropout LDO linear

LM391-80

Abstract: high voltage booster high speed op amp voltage booster TY-85 BD349 LF357 audio amplifiers 300w audio amplifier circuit diagram 300w audio amp schematic circuit pin diagram of LM308 Op Amp IC 300w power amplifier circuit diagram
Contextual Info: National Semiconductor Application Note 272 September 1981 Although modern integrated circuit operational amplifiers ease linear circuit design, IC processing limits amplifier output power. Many applications, however, require substantially greater output voltage swing or current or both than IC

7483 IC

Abstract: ic 7483 pin configuration of IC 7483 ic 7483 pin diagram for IC 7483 applications of IC 7483 7483 IC APPLICATIONS 7483 comparator Datasheet of IC 7483 data sheet ic 7483
Contextual Info: National Semiconductor Application Note 263 March 1981 Producing and manipulating the sine wave function is a common problem encountered by circuit designers Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator Sine

ic LM386 wein bridge

Abstract: sine wave crystal controlled oscillator 2N3819 fet lm311 lm386 controlling ic lm311 2n3819 equivalent ic Sine Wave Generation Techniques alternative of LM386 100 khz crystal mm74193
Contextual Info: National Semiconductor Application Note 263 October 1999 Producing and manipulating the sine wave function is a common problem encountered by circuit designers. Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator. Sine

ST6129

Abstract: RJ45 connector SHIELD RJ45 low connector pcb board 74ABT574 DP83223 DP83840 DP83850 ML65L541 ML6692 PIC16C61A
Contextual Info: June 1996 Application Note 57 MII-Based Repeater Application using the ML6692 INTRODUCTION This application note describes the design of an MII-based repeater using the Micro Linear ML6692 100BASE-TX PHY with the National DP83850 repeater controller. The design

HALF WAVE RECTIFIER CIRCUITS high speed

Abstract: FULL WAVE RECTIFIER CIRCUITS HALF WAVE RECTIFIER CIRCUITS precision ac/dc converter using LM101A HALF WAVE RECTIFIER RECTIFIER DIODES NATIONAL absolute value dc summing amplifier precision rectifier performance of HALF WAVE RECTIFIER with filter summing amplifier 4 inputs
Contextual Info: National Semiconductor Linear Brief 8 August 1969 Although semiconductor diodes available today are close to ‘‘ideal’’ devices they have severe limitations in low level applications Silicon diodes have a 0 6V threshold which must be overcome before appreciable conduction occurs

ML6697

Abstract: SW-DIP-8 Micro Linear Application Note 33 SCHEMATIC 10kw POWER SUPPLY SW-DIP-8 datasheet 74ABT574 74F260 DP83223 DP83840 DP83850
Contextual Info: September 1997 Application Note 66 MII-Based Repeater Application Using the ML6697 INTRODUCTION REPEATER SYSTEM OVERVIEW This Application Note describes the design of an MII-based repeater using the Micro Linear ML6697 100BASE-TX Physical Layer PHY with the National DP83850 repeater

"Microphone Preamplifier" 1.5V transistor

Abstract: "Microphone Preamplifier" 1.5V "Microphone Preamplifier" riaa filter LF412 LM329 amplifier lm10 de riaa equalized Japan Servo POTENTIOMETER 1K ONE LM3046
Contextual Info: National Semiconductor Application Note 299 April 1982 Although operational amplifiers and other linear ICs have been applied as audio amplifiers, relatively little documentation has appeared for other audio applications. In fact, a wide variety of studio and industrial audio areas can be served by

LB-23

Abstract: precision Sine Wave Generator triangle wave LM119 sweep generator triangle wave op amp C1995 LM118 LM119 NSC
Contextual Info: National Semiconductor Linear Brief 23 March 1986 INTRODUCTION The simple Tri-wave generator has become an often used analog circuit Tri-wave oscillators are more easily designed require less circuitry and are more easily stabilized than sine wave oscillators Further the highly linear output of todays Tri-wave generators make them useful in many

CLC560

Abstract: CLC500 non-inverting amplifier Comlinear clc231 application note CLC420 CLC501 OA-13 OA-14 OA-15 OA-31
Contextual Info: National Semiconductor OA-15 Michael Steffes August 1990 As op amp operating speeds have moved to ever higher frequencies, a whole new set of design concerns have come into play for linear op amp applications. With the development of the current feedback topology, design concerns

2N5912

Contextual Info: LS5912 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5912 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5912 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

2N5911 Pinout

Contextual Info: LS5911 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5911 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5911 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

Contextual Info: SST5912C MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix / National SST5912C FEATURES Improved Direct Replacement for SILICONIX & NATIONAL SST5912C LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

SST5912

Contextual Info: SST5912 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National SST5912 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL SST5912 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

2N5912

Abstract: Siliconix 2N5912 2N5912 jfet
Contextual Info: 2N5912 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5912 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5912 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

2N5912

Contextual Info: LS5912 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5912 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5912 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

Contextual Info: LS5911 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5911 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5911 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

ls5912

Contextual Info: LS5912 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National 2N5912 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL 2N5912 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)

Contextual Info: SST5911 MONOLITHIC DUAL N-CHANNEL JFET Linear Systems replaces discontinued Siliconix & National SST5911 FEATURES Improved Direct Replacement for SILICONIX & NATIONAL SST5911 LOW NOISE 10KHz en~ 4nV/√Hz HIGH TRANSCONDUCTANCE (100MHz)