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CC: "ken@elecsyn.com" , "Reid, John (Oji Fibre Solutions)" , Peter Clark , Rod Macdonald , RossGMail , ApptechNZ , "hanimamiruthm@gmail.com" Sender: "piclist-bounces@mit.edu" Date: Wed, 19 Feb 2020 18:19:11 -0800 Subject: [EE]:: Superb superb - "1990 LinearApplications Handbook Volume I - A Guide to Linear Circuit Design" [A 900+ page black-hole in a book]. Thread-Topic: [EE]:: Superb superb - "1990 LinearApplications Handbook Volume I - A Guide to Linear Circuit Design" [A 900+ page black-hole in a book]. Thread-Index: AdXnlZHeCv+xy7HaTMGsk8m7PlHlfA== Message-ID: List-Help: List-Subscribe: , List-Unsubscribe: , Reply-To: Microcontroller discussion list - Public. Accept-Language: en-US X-MS-Exchange-Organization-AuthAs: Anonymous X-MS-Exchange-Organization-AuthSource: TS500.efplus4.local X-MS-Has-Attach: X-Auto-Response-Suppress: All X-MS-Exchange-Organization-SenderIdResult: TempError X-MS-Exchange-Organization-PRD: mit.edu X-MS-TNEF-Correlator: received-spf: Pass (protection.outlook.com: domain of gmail.com designates 209.85.208.50 as permitted sender) receiver=protection.outlook.com; client-ip=209.85.208.50; helo=mail-ed1-f50.google.com; dkim-signature: v=1; a=rsa-sha256; c=relaxed/relaxed; d=gmail.com; s=20161025; h=mime-version:from:date:message-id:subject:to:cc; bh=xnDzjq3RPvTPwWrFMMkGX7auv23mot9IPk6dGsjvYqg=; b=hGHKc8Vj2xXpg9FNunuvPUYDmVV0yiEqsxF6z0G1TpTFzcNHIFncJR0/vZRmqiOxcl znNbQMOg5rKLnSXcvmdaX9NSTsN0MHm4i6Crs7GzeX11Rn95geW+l6FlZI42v1oTNmlu OUcp3cPDftOhyeB9AsFs/CPKCEbU76qK6R3UGG4/y8xyfCY3H0BkTHzbJS9EMSftzwPC D//MJs2qmP4ZL0f1OH3E0wpanp3nLLKtR8h+2+fEgyYdBb8I/q+Eg9gUEjOZyOQCWOHS vCtMzDIVMk7CYmToy8JDsFv9fd+5hYYiQTb/g+DserdrjJiDtdMPJkXgfi1zrajNcXbf UaSA== authentication-results: spf=pass (sender IP is 209.85.208.50) smtp.mailfrom=gmail.com; mit.edu; dkim=pass (signature was verified) header.d=gmail.com;mit.edu; dmarc=pass action=none header.from=gmail.com;compauth=pass reason=100 errors-to: piclist-bounces@mit.edu list-id: "Microcontroller discussion list - Public." list-post: x-beenthere: piclist@mit.edu x-mailman-version: 2.1.6 x-received: by 2002:a05:6402:797:: with SMTP id d23mr26787815edy.138.1582165188986; Wed, 19 Feb 2020 18:19:48 -0800 (PST) x-topics: [EE] x-content-filtered-by: Mailman/MimeDel 2.1.6 Content-Type: text/plain; charset="us-ascii" Content-Transfer-Encoding: quoted-printable MIME-Version: 1.0 1990 LinearApplications Handbook Volume I A Guide to Linear Circuit Design (A 930 page black-hole in a book :-) ) If 30 year old linear application notes by ascended masters* are not your thing move along, nothing to see here, these are not the superbly brilliant application notes you want. otherwise, all sane and sensible electrical engineers (and others) who do not own a hardcopy version (and others like me who do) will download and cherish this 930 page cornucopia. https://ia800608.us.archive.org/12/items/LinearApplicationsHandbookVolume11= 990/LinearTechnologyApplicationsVol11990_text.pdf Consists mainly of about 100 Application and Design notes. *Many / most / ?all? by the late great Jim Williams. ______________________________________________ Unwrap it yourself if desired :-) AN1 Understanding and Applying the LT1005 Multifunction Regulator AN1-1 AN2 Performance Enhancement Techniques for Three-Terminal Regulators AN2-1 AN3 Applications for a Switched-Capacitor Instrumentation Building Block AN3-1 AN4 Applications for a New Power Buffer AN4-1 AN5 Thermal Techniques in Measurement and Control Circuitry AN5-1 AN6 Applications of New Precision Op Amps AN6-1 AN7 Some Techniques for Direct Digitization of Transducer Outputs AN7-1 AN8 Power Conditioning Techniques for Batteries AN8-1 AN9 Application Considerations and Circuits for a New Chopper-Stabilized Op Amp AN9-1 AN10 Methods for Measuring Op Amp Settling Time AN10-1 AN11 Designing Linear Circuits for 5V Operation AN11-1 AN12 Circuit Techniques for Clock Sources AN12-1 AN13 High Speed Comparator Techniques AN13-1 AN14 Designs for High Performance Voltage-to-Frequency Converters AN14-1 AN15 Circuitry for Single Cell Operation AN15-1 AN16 Unique IC Buffer Enhances Op Amp Designs, Tames Fast Amplifiers AN16-1 AN17 Considerations for Successive Approximation A-D Converters AN17-1 AN18 Power Gain Stages for Monolithic Amplifiers AN18-1 AN19 LT1070 Design Manual AN19-1 AN20 Application Considerations for an Instrumentation Low-Pass Filter AN20-1 AN21 Composite Amplifiers AN21-1 AN22 A Monolithic IC for 100MHz RMS-DC Conversion AN22-1 AN23 Micropower Circuits for Signal Conditioning AN23-1 AN24 Unique Applications for the LTC1062 Low-Pass Filter AN24-1 AN25 Switching Regulators for Poets AN25-1 AN26A Interfacing the LTC1090 to the 8051 MCU AN26A-1 AN26B Interfacing the LTC1090 to the MC68HC05 MCU AN26B-1 AN26C Interfacing the LTC1090 to the HD63705V0 MCU AN26C-1 AN26D Interfacing the LTC1090 to the COP820C MCU AN26D-1 AN26E Interfacing the LTC1090 to the TMS7742 MCU AN26E-1 AN26F Interfacing the LTC1090 to the COP402N MCU AN26F-1 AN26G Interfacing the LTC1091 to the 8051 MCU AN26G-1 AN26H Interfacing the LTC1091 to the 68HC05 MCU AN26H-1 AN26I Interfacing the LTC1091 to the COP820C MCU AN26I-1 AN26J Interfacing the LTC1091 to the TMS7742 MCU AN26J-1 AN26K Interfacing the LTC1091 tothe COP402N MCU AN26K-1 AN26L Interfacing the LTC1091 to the HD63705V0 MCU AN26L-1 AN26M Interfacing the LTC1090 to the TMS320C25 DSP AN26M-1 AN26N Interfacing the LTC1091/92 to the TMS320C25 DSP AN26N-1 AN260 Interfacing the LTC1090 to the Z-80MPU AN260-1 AN26P Interfacing the LTC1090 to the HD64180 AN26P-1 AN26Q Interfacing the LTC1091 to the HD64180 AN26Q-1 AN26R Interfacing the LTC1094 to a Parallel Bus AN26R-1 AN27A A Simple Method of Designing Multiple Order All Pole Bandpass Filters by Cascading 2nd Order Sections AN27A-1 AN28 Thermocouple Measurement AN28-1 6 XT TABLE OF CONTENTS AN29 Some Thoughts on DC-DC Converters AN29-1 AN30 Switching Regulator Circuit Collection AN30-1 AN31 Linear Circuits for Digital Systems AN31-1 AN32 High Efficiency Linear Regulators AN32-1 AN33 Converting Light to Digits: LTC1099 Half Flash 8-Bit A/D Converter Digitizes Photodiode Array AN33-1 AN34 LTC1099 Enables PC Based Data Acquisition Board to Operate DC-20kHz AN34-1 AN35 Step Down Switching Regulators AN35-1 AN36A Interfacing the LTC1290 to the 8051 MCU AN36A-1 AN36B Interfacing the LTC1290 to the MC68HC05 MCU AN36B-1 AN36C Interfacing the LTC1290/LTC1090 to the TMS370 MCU AN36C-1 AN36D Interfacing the LTC1290 to the COP820C MCU AN36D-1 AN36E Interfacing the LTC1290 to the TMS7742 MCU AN36E-1 AN36F Interfacing the LTC1290 to the COP402N MCU AN36F-1 AN360 Interfacing the LTC1290totheZ-80MPU AN360-1 AN36P Interfacing the LTC1290 to the HD641 80 Consult Factory AN37 Fast Charge Circuits for NiCad Batteries AN37-1 AN38 FilterCAD User's Manual, Version 1.00 AN38-1 AN39 Parasitic Capacitance Effects in Step-Up Transformer Design AN39-1 AN40 Take the Mystery Out of the Switched Capacitor Filter: The System Designer's Filter Compendium AN40-1 SECTION 2-DESIGN NOTES DN1 New Data Acquisition Systems Communicate with Microprocessors Over 4 Wires DN1-1 DN2 Sampling of Signals for Digital Filtering and Gated Measurements DN2-1 DN3 Operational Amplifier Selection Guide for Optimum Noise Performance DN3-1 DN4 New Developments in RS232 Interfaces DN4-1 DN5 Temperature Measurement Using the LTC1090/91/92 Series of Data Acquisition Systems DN5-1 DN6 Operational Amplifier Selection Guide for Optimum Noise Performance DN6-1 DN7 DC Accurate Filter Eases PLL Design DN7-1 DN8 Inductor Selection for LT1070 Switching Regulators DN8-1 DN9 Chopper Amplifiers Complement a DC Accurate Low-Pass Filter DN9-1 DN10 Electrically Isolating Data Acquisition Systems DN10-1 DN11 Achieving Microamp Quiescent Current in Switching Regulators DN1 1-1 DN12 AnLT1013andLT1014OpAmpSPICEMacromodel DN12-1 DN13 Closed Loop Control with the LTC1290 Series of Data Acquisition Systems DN13-1 DN14 Extending the Applications of 5V Powered RS232 Transceivers DN14-1 DN15 Noise Calculations in Op Amp Circuits DN15-1 DN16 Switched-Capacitor Low-Pass Filters for Anti-Aliasing Applications DN16-1 DN17 Programming Pulse Generators for Flash Memories DN17-1 DN18 A Battery Powered Lap Top Computer Power Supply DN18-1 DN19 A Two Wire Isolated and Powered 10-Bit Data Acquisition System DN19-1 DN20 Hex Level Shift Shrinks Board Space DN20-1 DN21 Floating Input Extends Regulator Capabilities DN21-1 DN22 New 12-Bit Data Acquisition Systems Communicate with Microprocessors Over 4 Wires DN22-1 DN23 Micropower, Single Supply Applications: (1) A Self-Biased, Buffered Reference, (2) Megaohm Input Impedance Difference Amplifier DN23-1 DN24 Complex Data Acquisition System Uses Few Components DN24-1 DN25 A Single Amplifier, Precision High Voltage Instrument Amp DN25-1 DN26 Auto-Zeroing A/D Offset Voltage DN26-1 DN27 Design Considerations for RS232 Interfaces DN27-1 XT TABLE OF CONTENTS DN28 ASPICEOpAmpMacromodelfortheLT1012 DN28-1 DN29 A Single Supply RS232 Interface for Bipolar A to D Converters DN29-1 DN30 RS232 Transceiver with Automatic Power Shutdown Control DN30-1 DN31 Isolated Power Supplies for Local Area Networks DN31-1 DN32 A Simple Ultra-Low Dropout Regulator DN32-1 --=20 http://www.piclist.com/techref/piclist PIC/SX FAQ & list archive View/change your membership options at http://mailman.mit.edu/mailman/listinfo/piclist .