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CMOS Analog IC Design

Learning by Problem Solving

Ivan Jørgensen;Erik Bruun
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Langue:  English
The book is a companion to the textbook ‘CMOS Analog IC Design: Fundamentals’ by Erik Bruun, published by bookboon. It contains problems which can be solved using the theory presented in the textbook.
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This book is a companion to the textbook ‘CMOS Analog IC Design: Fundamentals’ by Erik Bruun, published by bookboon. It contains problems which can be solved using the theory presented in the textbook.
For solving the problems, you may use analytical methods and Spice simulations. The Spice simulator used for this book is LTspice. The book ‘CMOS Integrated Circuit Simulation with LTspice’ by Erik Bruun and also published by bookboon is an introduction to LTspice.

About the Authors

Erik Bruun has been teaching analog electronics and CMOS integrated circuit design for more than 25 years at the Technical University of Denmark. From 1989 to 2016, Erik was a Professor in Analog Electronics and since 2016 he has continued his professional activities as a Professor Emeritus.

In his teaching, Erik has always emphasized the presentation of complex technical matters in an easily understandable way, so that the students can understand and learn the essentials of the topics being taught. This is also the hallmark of his textbooks about fundamentals of CMOS integrated circuit design and CMOS integrated circuit simulation.

While he has been teaching the fundamentals of analog electronics to hundreds of students, Erik has also been engaged in research and in research supervision. During the years, Erik has supervised more than 20 PhD students, now positioned in prestigious jobs in industry and academia around the world.

His own publications count more than 100 scientific papers presented in journals and at international conferences.

Prior to his academic career, Erik spent about 10 years in industry and was directly involved in industrial development projects for space electronics and computer systems.

Ivan Jørgensen - (M.Sc. in 1993 and Ph.D. in 1997) has 30 years of with analog integrated circuit design.
In 1997 he started in the hearing aids company Oticon as IC designer (5 years) and during the next 10 years he worked as Competence Manager, Systems Manager and Director for a group up to 20 people, also managing several IC projects.
In 2012 he started as an Ass. Professor at DTU doing research and teaching in analog integrated circuit design.
Ivan has made 60 publications holds 10 patents.

  • Preface
  • Problems
  • Problem 1 - CMOS opamp, feedback
  • Problem 2 - feedback, filter design
  • Problem 3 - transresistance amplifier
  • Problem 4 - differential amplifier, transconductance amplifier
  • Problem 5 - current mirror, regulated cascode
  • Problem 6 - feedback, stability
  • Problem 7 - current mirror, regulated cascode
  • Problem 8 - Inverting amplifier, frequency response
  • Problem 9 - feedback, stability
  • Problem 10 - differential pair, single-ended output, frequency response
  • Problem 11 - inverting amplifier, common-source stage, frequency response
  • Problem 12 - differential amplifier, body effect
  • Problem 13 - feedback amplifier, phase margin
  • Problem 14 - cascode amplifier, cascade amplifier
  • Problem 15 - source follower, common-drain stage, body effect
  • Problem 16 - bias circuit, common-source stage
  • Problem 17 - bias circuit
  • Problem 18 - feedback amplifier, phase margin
  • Problem 19 - common-source amplifier, gain-bandwidth product
  • Problem 20 - common-source amplifier, Miller capacitor
  • Problem 21 - feedback amplifier, phase margin
  • Problem 22 - common-source amplifier, cascode amplifier, Miller capacitor
  • Problem 23 - feedback amplifier, phase margin
  • Problem 24 - differential amplifier
  • Problem 25 - common-drain stage, common-gate stage
  • Problem 26 - feedback amplifier, integrating amplifier
  • Problem 27 - common-source amplifier, two-stage amplifier
  • Problem 28 - feedback amplifier, Miller compensation
  • Problem 29 - two-stage opamp
  • Problem 30 - feedback amplifier, phase margin
  • Problem 31 - dual-output gain stage
  • Problem 32 - dc current source
  • Problem 33 - feedback amplifier, phase margin
  • Problem 34 - inverting amplifier, common-source stage
  • Problem 35 - cascode gain stage
  • Problem 36 - common-source amplifier, Miller compensation
  • Problem 37 - feedback amplifier, phase margin
  • Problem 38 - voltage regulator
  • Problem 39 - feedback, phase margin
  • Problem 40 - source follower, common-drain stage
  • Problem 41 - feedback amplifier, phase margin
  • Problem 42 - opamp, voltage follower
  • Problem 43 - feedback amplifier, bandwidth
  • Solutions
  • Solution to Problem 1
  • Solution to Problem 2
  • Solution to Problem 3
  • Solution to Problem 4
  • Solution to Problem 5
  • Solution to Problem 6
  • Solution to Problem 7
  • Solution to Problem 8
  • Solution to Problem 9
  • Solution to Problem 10
  • Solution to Problem 11
  • Solution to Problem 12
  • Solution to Problem 13
  • Solution to Problem 14
  • Solution to Problem 15
  • Solution to Problem 16
  • Solution to Problem 17
  • Solution to Problem 18
  • Solution to Problem 19
  • Solution to Problem 20
  • Solution to Problem 21
  • Solution to Problem 22
  • Solution to Problem 23
  • Solution to Problem 24
  • Solution to Problem 25
  • Solution to Problem 26
  • Solution to Problem 27
  • Solution to Problem 28
  • Solution to Problem 29
  • Solution to Problem 30
  • Solution to Problem 31
  • Solution to Problem 32
  • Solution to Problem 33
  • Solution to Problem 34
  • Solution to Problem 35
  • Solution to Problem 36
  • Solution to Problem 37
  • Solution to Problem 38
  • Solution to Problem 39
  • Solution to Problem 40
  • Solution to Problem 41
  • Solution to Problem 42
  • Solution to Problem 43
  • Appendix A