CMOS Analog IC Design _by_Dr. Phillip E. Allen_(课件).rar

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CMOS 模拟IC设计-艾伦 课件 适合模拟IC入门自学者配合Allen同名书籍使用 Phillip Allen received his PhD in electrical engineering from the University of Kansas in 1970. He retired from the School of Electrical Engineering at Georgia Institute of Technology as Professor Emeritus in 2005. He has worked for the Lawrence Livermore Laboratory, Pacific Missile Range, Texas Instruments and consulted with numerous companies. He has taught at the University of Nevada at Reno, University of Kansas, University of California at Santa Barbara, and Texas A&M University. His technical interest include analog integrated circuit and systems design with focus on implementing low voltage and high frequency circuits and systems in standard CMOS technology. He has conducted research in frequency synthesizers, RF, IF, and baseband filters compatible with standard IC technology. He has over 60 refereed publications in the area of analog circuits and has coauthored Theory and Design of Active Filters (1980), Switched Capacitor Filters (1984), CMOS Analog Circuit Design (1987), and VLSI Design Techniques for Analog and Digital Circuits (1990). He is presently active in teaching short courses on analog IC design to professionals worldwide. 2004 Short Course Notes: Chapter 1 - introduction Chapter 2 - Technology Chapter 3 - Models Chapter 4 - Subcircuits Chapter 5 - Amplifiers Chapter 6 - Op amps Chapter 7 - High performance op amps Chapter 8 - Comparators Chapter 9 - Switched capacitor circuits Chapter 10 - AD and DA converters
CMOS Analog IC Design _by_Dr. Phillip E. Allen_(课件).rar
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内容介绍
<html xmlns="http://www.w3.org/1999/xhtml"> <head> <meta charset="utf-8"> <meta name="generator" content="pdf2htmlEX"> <meta http-equiv="X-UA-Compatible" content="IE=edge,chrome=1"> <link rel="stylesheet" href="https://static.pudn.com/base/css/base.min.css"> <link rel="stylesheet" href="https://static.pudn.com/base/css/fancy.min.css"> <link rel="stylesheet" href="https://static.pudn.com/prod/directory_preview_static/6276adfd517cd20ea466e400/raw.css"> <script src="https://static.pudn.com/base/js/compatibility.min.js"></script> <script src="https://static.pudn.com/base/js/pdf2htmlEX.min.js"></script> <script> try{ pdf2htmlEX.defaultViewer = new pdf2htmlEX.Viewer({}); }catch(e){} </script> <title></title> </head> <body> <div id="sidebar" style="display: none"> <div id="outline"> </div> </div> <div id="pf1" class="pf w0 h0" data-page-no="1"><div class="pc pc1 w0 h0"><img class="bi x0 y0 w1 h1" alt="" src="https://static.pudn.com/prod/directory_preview_static/6276adfd517cd20ea466e400/bg1.jpg"><div class="t m0 x1 h2 y1 ff1 fs0 fc0 sc0 ls0 ws0">Chapter 10 &#8211; Digital-Analog and Analog-Digital Converters <span class="_ _0"> </span><span class="ls1">5/2/04</span></div><div class="t m0 x1 h2 y2 ff2 fs0 fc0 sc0 ls2 ws0">CMOS Analog Circuit Design<span class="ff1 ls3"> <span class="_ _1"> </span><span class="ls4 ws1">&#169; P.E. Allen - 2004</span></span></div><div class="t m0 x2 h3 y3 ff3 fs1 fc0 sc0 ls5 ws0">CHAPTER 10 &#8211; DIGITAL-ANALOG AND ANALOG-DIGITAL</div><div class="t m0 x3 h3 y4 ff3 fs1 fc0 sc0 ls6 ws0">CONVERTERS</div><div class="t m0 x4 h4 y5 ff1 fs2 fc0 sc0 ls7 ws2">Section 10.0 - Introduction</div><div class="t m0 x4 h4 y6 ff1 fs2 fc0 sc0 ls8 ws0">Section 10.1 - Characterization of Digital-Analog Converters</div><div class="t m0 x4 h4 y7 ff1 fs2 fc0 sc0 ls9 ws0">Section 10.2 - Parallel Digital-Analog Converters</div><div class="t m0 x4 h4 y8 ff1 fs2 fc0 sc0 lsa ws0">Section 10.3 - Extending the Resolution of Parallel Digital-Analog Converters</div><div class="t m0 x4 h4 y9 ff1 fs2 fc0 sc0 lsb ws0">Section 10.4 - Serial Digital-Analog Converters</div><div class="t m0 x4 h4 ya ff1 fs2 fc0 sc0 ls8 ws0">Section 10.5 - Characterization of Analog-Digital Converters</div><div class="t m0 x4 h4 yb ff1 fs2 fc0 sc0 lsb ws0">Section 10.6 - Serial Analog-Digital Converters</div><div class="t m0 x4 h4 yc ff1 fs2 fc0 sc0 lsc ws0">Section 10.7 - Medium Speed Analog-Digital Converters</div><div class="t m0 x4 h4 yd ff1 fs2 fc0 sc0 lsb ws0">Section 10.8 - High Speed Analog-Digital Converters</div><div class="t m0 x4 h4 ye ff1 fs2 fc0 sc0 lsb ws0">Section 10.9 - Oversampling Converters</div><div class="t m0 x4 h4 yf ff1 fs2 fc0 sc0 lsd ws0">Section 10.10 - Summary</div><div class="t m0 x1 h2 y10 ff1 fs0 fc0 sc0 lse ws0">Chapter 10 &#8211; Introduction (5/2/04)<span class="_ _2"> </span><span class="lsf ws3">Page 10.0-1</span></div><div class="t m0 x1 h2 y11 ff2 fs0 fc0 sc0 ls2 ws0">CMOS Analog Circuit Design<span class="ff1 ls3"> <span class="_ _1"> </span><span class="ls4 ws1">&#169; P.E. Allen - 2004</span></span></div><div class="t m0 x5 h3 y12 ff3 fs1 fc0 sc0 ls10 ws0">10.0 - INTRODUCTION</div><div class="t m0 x1 h5 y13 ff3 fs2 fc0 sc0 ls11 ws0">Organization</div><div class="c x6 y14 w2 h6"><div class="t m1 x0 h7 y15 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 x0 h7 y16 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="t m2 x7 h8 y17 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 9</div><div class="t m2 x8 h8 y18 ff1 fs4 fc0 sc0 ls3 ws0">Switched Capaci-</div><div class="t m2 x9 h8 y19 ff1 fs4 fc0 sc0 ls3 ws0">tor Circuits</div><div class="c xa y1a w2 h6"><div class="t m1 xb h7 y1b ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 xb h7 y1c ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="c xc y1a w2 h6"><div class="t m1 xd h7 y1b ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;;</span></div><div class="t m1 xd h7 y1c ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;;</span></div></div><div class="t m2 xe h8 y1d ff1 fs4 fc0 sc0 ls3 ws0">Chapter 6</div><div class="t m2 xf h8 y1e ff1 fs4 fc0 sc0 ls3 ws0">Simple CMOS &amp;</div><div class="t m2 x10 h8 y1f ff1 fs4 fc0 sc0 ls3 ws0">BiCMOS OT<span class="_ _3"></span>A's</div><div class="c x11 y1a w2 h6"><div class="t m1 x0 h7 y1b ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 x0 h7 y1c ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="t m2 x12 h8 y1d ff1 fs4 fc0 sc0 ls3 ws0">Chapter 7</div><div class="t m2 x13 h8 y1e ff1 fs4 fc0 sc0 ls3 ws0">High Performance</div><div class="t m2 x14 h8 y1f ff1 fs4 fc0 sc0 ls3 ws0">OT<span class="_ _3"></span>A's</div><div class="t m2 x15 h8 y20 ff1 fs4 fc0 sc0 ls3 ws0"><span class="fc1 sc0">Chapter 10</span></div><div class="t m2 x16 h8 y21 ff1 fs4 fc0 sc0 ls3 ws0"><span class="fc1 sc0">D/</span></div><div class="t m2 x17 h8 y20 ff1 fs4 fc0 sc0 ls3 ws0"><span class="fc1 sc0">Chapter 1</span><span class="_ _4"></span><span class="fc1 sc0">1</span></div><div class="t m2 x18 h8 y21 ff1 fs4 fc0 sc0 ls3 ws0"><span class="fc1 sc0">Analog</span></div><div class="t m2 x19 h8 y22 ff1 fs4 fc0 sc0 ls3 ws0"><span class="fc1 sc0">Systems</span></div><div class="c x11 y23 w2 h6"><div class="t m1 x0 h7 y24 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 x0 h7 y25 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="c xa y23 w2 h6"><div class="t m1 xb h7 y24 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 xb h7 y25 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="c xc y23 w2 h6"><div class="t m1 xd h7 y24 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;;</span></div><div class="t m1 xd h7 y25 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;;</span></div></div><div class="t m2 x1a h8 y20 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 3</div><div class="t m2 x1b h8 y21 ff1 fs4 fc0 sc0 ls3 ws0">CMOS</div><div class="t m2 x1a h8 y22 ff1 fs4 fc0 sc0 ls3 ws0">Modeling</div><div class="c x6 y26 w2 h6"><div class="t m1 x0 h7 y27 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 x0 h7 y28 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="t m2 x7 h8 y29 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 4</div><div class="t m2 x8 h8 y2a ff1 fs4 fc0 sc0 ls3 ws0">CMOS/BiCMOS</div><div class="t m2 x9 h8 y2b ff1 fs4 fc0 sc0 ls3 ws0">Subcircuits</div><div class="c x1c y26 w2 h6"><div class="t m1 xb h7 y27 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div><div class="t m1 xb h7 y28 ff4 fs3 fc0 sc0 ls3 ws0"><span class="fc1 sc0">;;;</span></div></div><div class="t m2 x1d h8 y29 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 5</div><div class="t m2 x1e h8 y2a ff1 fs4 fc0 sc0 ls3 ws0">CMOS/BiCMOS</div><div class="t m2 x1f h8 y2b ff1 fs4 fc0 sc0 ls3 ws0">Amplifiers</div><div class="t m2 x20 h8 y2c ff1 fs4 fc0 sc0 ls3 ws0">Systems</div><div class="t m2 x21 h8 y2d ff1 fs4 fc0 sc0 ls3 ws0">Complex</div><div class="t m2 x22 h8 y2e ff1 fs4 fc0 sc0 ls3 ws0">Circuits</div><div class="t m2 x20 h8 y2f ff1 fs4 fc0 sc0 ls3 ws0">Devices</div><div class="t m2 xa h8 y30 ff1 fs4 fc0 sc0 ls3 ws0">Simple</div><div class="t m2 x12 h8 y20 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 2</div><div class="t m2 x18 h8 y21 ff1 fs4 fc0 sc0 ls3 ws0">CMOS</div><div class="t m2 x23 h8 y22 ff1 fs4 fc0 sc0 ls3 ws0">T<span class="_ _3"></span>echnology</div><div class="t m2 xe h8 y31 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 1</div><div class="t m2 x24 h8 y32 ff1 fs4 fc0 sc0 ls3 ws0">Introduction to <span class="_ _3"></span>An-</div><div class="t m2 xa h8 y33 ff1 fs4 fc0 sc0 ls3 ws0">alog CMOS Design</div><div class="t m2 x25 h8 y34 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 8</div><div class="t m2 x26 h8 y35 ff1 fs4 fc0 sc0 ls3 ws0">CMOS/BiCMOS</div><div class="t m2 x27 h8 y36 ff1 fs4 fc0 sc0 ls3 ws0">Comparators</div><div class="t m2 x1f h8 y37 ff1 fs4 fc0 sc0 ls3 ws0">Chapter 10</div><div class="t m2 x28 h8 y38 ff1 fs4 fc0 sc0 ls3 ws0">D/A<span class="_ _3"></span> and <span class="_ _4"></span>A/D</div><div class="t m2 x1f h8 y39 ff1 fs4 fc0 sc0 ls3 ws0">Converters</div></div><div class="pi" data-data='{"ctm":[1.568627,0.000000,0.000000,1.568627,0.000000,0.000000]}'></div></div> </body> </html>
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