Designing a stable DC/DC control loop
http://www.powermanagementdesignline.com/207200854;jsessionid=ZNFE5YLWXDUU2QSNDLPSKHSCJUNN2JVN?printableArticle=true
May 31, 2009
May 26, 2009
Berkeley 240, 001 - Advanced Analog Integrated Circuits
Electrical Engineering 240, 001 - Advanced Analog Integrated CircuitsTTh 9:30-11 203 MCLAUGHLIN
Lectures
http://bwrc.eecs.berkeley.edu/classes/icdesign/ee240_s09/
Videos
http://webcast.berkeley.edu/course_details_new.php?seriesid=2009-B-25830&semesterid=2009-B
Lecture 1: Introduction
Lecture 2: CMOS Technology and Passive Devices
Lecture 3: MOS Models for Analog Design - with audio
Lecture 3: MOS Models for Analog Design - Lecture has no audio. Has been reposted above
Lecture 4: MOS Small-Signal Models for Design
Lecture 5: Electronic Noise
Lecture 6: Noise Analysis
Lecture 7: Noise and Feedback
Lecture 8: Current Sources
Lecture 9: Amplifiers
Lecture 10: Single-Ended and Differential OTAs
Lecture 11: Folded Cascode OTA
Lecture 12: Feedback I
Lecture 13: Feedback II
Lecture 14: Settling Time
Lecture 15: Design Example and Common-Mode Feedback
Lecture 16: Multistage Amplifiers
Lecture 16b: Multistage Amplifiers II
Lecture 17: High-Speed Link Overview Lecture ran overtime. Last 4 minutes are not available.
Lecture 18: High-Speed Filter Design
Lecture 18b: High-Speed Filter Design II
Lecture 19: Comparators
Lecture 20: Matching and Layout
Lecture 21: Offset Cancellation
Lecture 21b: Offset Cancellation II
Lecture 22: MOS Sample and Hold
Lecture 23: Biasing and References
Lectures
http://bwrc.eecs.berkeley.edu/classes/icdesign/ee240_s09/
Videos
http://webcast.berkeley.edu/course_details_new.php?seriesid=2009-B-25830&semesterid=2009-B
Lecture 1: Introduction
Lecture 2: CMOS Technology and Passive Devices
Lecture 3: MOS Models for Analog Design - with audio
Lecture 3: MOS Models for Analog Design - Lecture has no audio. Has been reposted above
Lecture 4: MOS Small-Signal Models for Design
Lecture 5: Electronic Noise
Lecture 6: Noise Analysis
Lecture 7: Noise and Feedback
Lecture 8: Current Sources
Lecture 9: Amplifiers
Lecture 10: Single-Ended and Differential OTAs
Lecture 11: Folded Cascode OTA
Lecture 12: Feedback I
Lecture 13: Feedback II
Lecture 14: Settling Time
Lecture 15: Design Example and Common-Mode Feedback
Lecture 16: Multistage Amplifiers
Lecture 16b: Multistage Amplifiers II
Lecture 17: High-Speed Link Overview Lecture ran overtime. Last 4 minutes are not available.
Lecture 18: High-Speed Filter Design
Lecture 18b: High-Speed Filter Design II
Lecture 19: Comparators
Lecture 20: Matching and Layout
Lecture 21: Offset Cancellation
Lecture 21b: Offset Cancellation II
Lecture 22: MOS Sample and Hold
Lecture 23: Biasing and References
http://webcast.berkeley.edu/course_details_new.php?seriesid=2009-B-25830&semesterid=2009-B
Integrated Circuits for Commuincation - EECS 142 Berkeley
Integrated Circuits for Commuincation - EECS 142 Berkeley
http://rfic.eecs.berkeley.edu/~niknejad/ee142/lectures.html
http://rfic.eecs.berkeley.edu/~niknejad/ee142/lectures.html
Low Dropout Voltage Regulators - Tutorial
Low Dropout Voltage Regulators - Tutorial, Texas A&M
http://amesp02.tamu.edu/~sanchez/607%20Lect%2012%20LDO.ppt
http://amesp02.tamu.edu/~sanchez/607%20Lect%2012%20LDO.ppt
RFICDESIGN.COM Links
RFICDESIGN.COM Links
Very Elaborate and Useful
http://www.rficdesign.com/links/
FREE BOOKS
http://rficdesign.com/links/books.htm
ASIC Complete BOOK:
Application-Specific Integrated Circuits
Very Elaborate and Useful
http://www.rficdesign.com/links/
FREE BOOKS
http://rficdesign.com/links/books.htm
ASIC Complete BOOK:
Application-Specific Integrated Circuits
Op Amps for Everyone - Book from TI
Op Amps for Everyone - Book from TI
Ron Mancini
http://sreenivasa.kothamasu.googlepages.com/Opamp_Everyone.pdf
Ron Mancini
http://sreenivasa.kothamasu.googlepages.com/Opamp_Everyone.pdf
May 17, 2009
MITOPENCOURSEWARE - RF High Speed Communication Circuits 6.776
RF High Speed Communication Circuits 6.776
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-776Spring-2005/CourseHome/index.htm
Also
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-976High-Speed-Communication-Circuits-and-SystemsSpring2003/CourseHome/index.htm
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-776Spring-2005/CourseHome/index.htm
Also
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-976High-Speed-Communication-Circuits-and-SystemsSpring2003/CourseHome/index.htm
MITOPENCOURSEWARE - Microelectronic Devices and Circuits 6.012
Microelectronic Devices and Circuits 6.012 Fall 2003
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-012Fall2003/LectureNotes/index.htm
Microelectronic Devices and Circuits 6.012 Fall 2005
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-012Fall-2005/CourseHome/index.htm
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-012Fall2003/LectureNotes/index.htm
Microelectronic Devices and Circuits 6.012 Fall 2005
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-012Fall-2005/CourseHome/index.htm
MITOPENCOURSEWARE - Circuits and Electronics 6.002
6.002 Circuits and Electronics
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-002Spring-2007/CourseHome/index.htm
Circuits and Electronics
LEC #
TOPICS
1 Introduction and lumped abstraction
2 Basic circuit analysis method (KVL and KCL mMethod)
3 Superposition, Thévenin and Norton
4 The digital abstraction
5 Inside the digital gate
6 Nonlinear analysis
7 Incremental analysis
8 Dependent sources and amplifiers
9 MOSFET amplifier large signal analysis - part 1MOSFET amplifier large signal analysis - part 2
10 Amplifiers - small signal model
11 Small signal circuits
12 Capacitors and first-order systems
13 Digital circuit speed
14 State and memory
15 Second-order systems - part 1Second-order systems - part 2
16 Sinusoidal steady state
17 The impedance model
18 Filters
19 The operational amplifier abstraction
20 Operational amplifier circuits
21 Op amps positive feedback
22 Energy and power
23 Energy, CMOS
24 Power conversion circuits and diodes
25 Violating the abstraction barrier
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-002Spring-2007/CourseHome/index.htm
Circuits and Electronics
LEC #
TOPICS
1 Introduction and lumped abstraction
2 Basic circuit analysis method (KVL and KCL mMethod)
3 Superposition, Thévenin and Norton
4 The digital abstraction
5 Inside the digital gate
6 Nonlinear analysis
7 Incremental analysis
8 Dependent sources and amplifiers
9 MOSFET amplifier large signal analysis - part 1MOSFET amplifier large signal analysis - part 2
10 Amplifiers - small signal model
11 Small signal circuits
12 Capacitors and first-order systems
13 Digital circuit speed
14 State and memory
15 Second-order systems - part 1Second-order systems - part 2
16 Sinusoidal steady state
17 The impedance model
18 Filters
19 The operational amplifier abstraction
20 Operational amplifier circuits
21 Op amps positive feedback
22 Energy and power
23 Energy, CMOS
24 Power conversion circuits and diodes
25 Violating the abstraction barrier
Power Conversion Synthesis Part 1: Buck Converter Design
Power Conversion Synthesis Part 1: Buck Converter Design
By Ernest H. Wittenbreder, Jr., Technical Witts Inc., Flagstaff, Ariz.
http://powerelectronics.com/mag/Wittenbreder%20March%202003%20PET.pdf
By Ernest H. Wittenbreder, Jr., Technical Witts Inc., Flagstaff, Ariz.
http://powerelectronics.com/mag/Wittenbreder%20March%202003%20PET.pdf
Buck-Converter Design Demystified
Buck-Converter Design Demystified
By Donald Schelle and Jorge Castorena, Technical Staff, Maxim Integrated Products, Sunnyvale, Calif.
From Power Electronics Technology
http://powerelectronics.com/mag/606PET25.pdf
By Donald Schelle and Jorge Castorena, Technical Staff, Maxim Integrated Products, Sunnyvale, Calif.
From Power Electronics Technology
http://powerelectronics.com/mag/606PET25.pdf
Texas Instruments Analog Applications Journal
Texas Instruments Analog Applications Journal
For plethora of application notes on Analog and Power Management ........ Must read ......
For plethora of application notes on Analog and Power Management ........ Must read ......
Tutorial Papers on Analog Circuits
From University of Toranto (Some Links not working)
Aichin Chung LC oscillators: Theory and Design
Tony Pialis Low voltage, low power op amp design
Altan Hazneci Current feedback Amps
Paul Westergaard CMOS LNA's
Marcus van Ierssel Oscillator phase noise and jitter
Behnam Mohammadi Modeling of Silicon-compatible On-chip Inductors
Donny Mota Fully-Differential Op Amps and Common Mode Feedback Circuit Design
Robert Przyslupski Frequency regenerative dividers
Dennis Ma RF Receiver Systems and Circuits
Sotoudeh Hamedi-Hagh Power reduction techniques in pipelined A/D converters
Stephen Yue RF mixer circuit Linearization Techniques
Jorge Varona Power DACs using Sigma-Delta and PW modulation
Louie Pylarinos Charge Pump Circuits
Chetan Mistry Polymer Circuits
Raymond Tang Fiber Optic Preamplifiers
Natalie Wong CMOS Integrated Photodiodes and Transimpedance Amplifiers
Tony Pialis Low voltage, low power op amp design
Altan Hazneci Current feedback Amps
Paul Westergaard CMOS LNA's
Marcus van Ierssel Oscillator phase noise and jitter
Behnam Mohammadi Modeling of Silicon-compatible On-chip Inductors
Donny Mota Fully-Differential Op Amps and Common Mode Feedback Circuit Design
Robert Przyslupski Frequency regenerative dividers
Dennis Ma RF Receiver Systems and Circuits
Sotoudeh Hamedi-Hagh Power reduction techniques in pipelined A/D converters
Stephen Yue RF mixer circuit Linearization Techniques
Jorge Varona Power DACs using Sigma-Delta and PW modulation
Louie Pylarinos Charge Pump Circuits
Chetan Mistry Polymer Circuits
Raymond Tang Fiber Optic Preamplifiers
Natalie Wong CMOS Integrated Photodiodes and Transimpedance Amplifiers
AGC circuits: Theory and design Isaac Martinez G.
Basic and advanced current references Afshin Haftbaradaran
Automated Analog Circuit Design Navid AziziUsing Genetic AlgorithmsProgrammable Analog Circuits Vincent Law
Modeling and practical Agnes Tamconsiderations for integrated capacitors
Modeling of Substrate Noise Coupling Vincent Mui
Phase noise of oscillators Fang Fang
VCO circuits Jeff Wilkin
Low Power sense amplifiers Igor Arsovski
SOI vs CMOS analog circuits Vivian Ma
RF Power Amplifiers Alan Poon
Optoelectronic Integrated Circuits Shahla Honarkhahusing Porous Silicon
On-chip image rejection Nora Yantechniques for RF receivers
CMOS vs. charge-coupled device Imagers Kevin Ng
Low Power/Low Voltage CMOS Bandgap Tim Loreferences
Mismatch effects on Bandpass delta-sigma Farshid Rezaeimodulators
Laser Drivers Circuits Ricardo Aroca
IQ phase generation circuits HongFeng Dong
Chopper-Stabilized Amplifiers Yiqian Ying
RF Transmitter circuits Raymond Koo
Phase Interpolating Circuits Kostas Pagiamtzis
Sample and Hold Circuits Joyce Wong
Low-Power RF mixer circuits Mohammed El Kawokgy
Low-Power comparators Samira Naraghi
Distortion analysis of a LNA Su Tarn Lim
Basic and advanced current references Afshin Haftbaradaran
Automated Analog Circuit Design Navid AziziUsing Genetic AlgorithmsProgrammable Analog Circuits Vincent Law
Modeling and practical Agnes Tamconsiderations for integrated capacitors
Modeling of Substrate Noise Coupling Vincent Mui
Phase noise of oscillators Fang Fang
VCO circuits Jeff Wilkin
Low Power sense amplifiers Igor Arsovski
SOI vs CMOS analog circuits Vivian Ma
RF Power Amplifiers Alan Poon
Optoelectronic Integrated Circuits Shahla Honarkhahusing Porous Silicon
On-chip image rejection Nora Yantechniques for RF receivers
CMOS vs. charge-coupled device Imagers Kevin Ng
Low Power/Low Voltage CMOS Bandgap Tim Loreferences
Mismatch effects on Bandpass delta-sigma Farshid Rezaeimodulators
Laser Drivers Circuits Ricardo Aroca
IQ phase generation circuits HongFeng Dong
Chopper-Stabilized Amplifiers Yiqian Ying
RF Transmitter circuits Raymond Koo
Phase Interpolating Circuits Kostas Pagiamtzis
Sample and Hold Circuits Joyce Wong
Low-Power RF mixer circuits Mohammed El Kawokgy
Low-Power comparators Samira Naraghi
Distortion analysis of a LNA Su Tarn Lim
May 16, 2009
How to design a DC-DC Control Loop?
How to design a DC-DC Control Loop?
http://yourcircuits.com/inc/sdetail/3536
Details:
Designing the compensation network in a DC/DC converter can be a mystery if one does not know where to place the poles and zeros of the error amplifier and how much gain the error amp needs. Normally, a lot of trial and error is used to try to stabilize the control loop of a DC/DC converter. Here's a systematic approach to getting the job done.
From the website : www.YourCircuits.com
All About Circuits
All About Circuits
http://www.allaboutcircuits.com/
Volumes:
Volume I - DC
Basic Concepts of Electricity, OHM's Law, Electrical Safety, Scientific Notation...
Volume II - AC
Basic AC Theory, Complex Numbers, Reactance and Impedance, Resonance...
Volume III - Semiconductors
Amplifiers and Active Devices, Solid-State Device Theory, Diodes and Rectifiers...
Volume IV - Digital
Numeration Systems, Binary Arithmetic, Logic Gates, Switches...
Volume V - Reference
Conversion Factors, Resistor Color Codes, Math References, Periodic Table...
Volume VI - Experiments
Test Equipment, DC Circuits, AC Circuits, Discrete Semiconductor Circuits...
http://www.allaboutcircuits.com/
Volumes:
Volume I - DC
Basic Concepts of Electricity, OHM's Law, Electrical Safety, Scientific Notation...
Volume II - AC
Basic AC Theory, Complex Numbers, Reactance and Impedance, Resonance...
Volume III - Semiconductors
Amplifiers and Active Devices, Solid-State Device Theory, Diodes and Rectifiers...
Volume IV - Digital
Numeration Systems, Binary Arithmetic, Logic Gates, Switches...
Volume V - Reference
Conversion Factors, Resistor Color Codes, Math References, Periodic Table...
Volume VI - Experiments
Test Equipment, DC Circuits, AC Circuits, Discrete Semiconductor Circuits...
IIT Bombay NEPTEL Online VLSI Design course
IIT Bombay NEPTEL Online VLSI Design course
http://www.cdeep.iitb.ac.in/nptel/Electrical%20&%20Comm%20Engg/VLSI%20Design/TOC.htm
Lecture 1 : Motivation of the Course
Lecture 2 : What is System?
II MOSFET
III Fabrication Process and Layout Design Rules
IV Propagation Delays in MOS
V Power Disipation in CMOS Circuits
VI Semiconductor Memories
VII I/O PADs
http://www.cdeep.iitb.ac.in/nptel/Electrical%20&%20Comm%20Engg/VLSI%20Design/TOC.htm
Lecture 1 : Motivation of the Course
Lecture 2 : What is System?
II MOSFET
III Fabrication Process and Layout Design Rules
IV Propagation Delays in MOS
V Power Disipation in CMOS Circuits
VI Semiconductor Memories
VII I/O PADs
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