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Electromagnetic Fields, Forces, and Motion
[MIT Spring '05 Video Streaming and Download]
Topics: Coulomb’s Force Law; Magnetic Field; Inducing magnetization, thermodynamics; equations of motion, Energy conversion; Applicatio- ns to motion, induction and commutator machines; sensors and transducers; Skin effect; Standing waves;
Code:
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-641Spring-2005/Videos/index.htmVLSI Courses
VLSI Circuit Design
[Virginia Tech 2004 Streaming]
Code:
http://www.vbs.vt.edu/content/classes/display_class.php?course_ID=95260Introduction to VLSI ASIC design
An Introductory Course both on VLSI and ASIC Design right from the basics like Moore's Law to Designing.
Code:
http://webcast.cern.ch/Projects/WebLectureArchive/a99/a99999s1t20/sync/f001.htmAnalysis and Design of VLSI Analog-Digital Interface Integrated C
[Berekeley Fall '06 Video Streaming]
Filters: Active, Higher Order and high Q Filters, Continuous-Time Filters, Switched-Capacitor Filters, Network Noise; Data Converters : DAC and ADC etc....
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=VLSI,Digital Electronics and many
[CERN Spring '02 Video Streaming]
This link includes a lot of material on VLSI, Digital and Analog Design Techniques and many more....
Code:
http://humanresources.web.cern.ch/Humanresources/external/training/tech/special/ELEC2002.aspVLSI and Networking
[MIT Spring '04 Video Streaming and Download]
Systolic Computation; Fast addition, Multiplication,Division; Matrix Computations; Finite State Machines; Clock period; Bender; Interc- onnection Networking; Routing; VLSI; VLSI lower Bounds; VLSI Layout. Area-Universal Networks etc....
Code:
http://theory.lcs.mit.edu/classes/6.896/spring04/calendar/Integrated Circuit Related Courses
Digital Integrated Circuits
[Berkeley Fall '05 Video Streaming]
Topics include: Design Metrics; IC Manufacturing and Design Rules; MOS transistor mode, Capacitance, Propagation Delays; CMOS Inverter, Scaling, Logic, Logical Effort; Pass Transistor Logic; dynamic Logic; Adders, Multipliers, Shifters; Sequential circuits, Timing, Clock Distribution, Power Distribution and Memory etc….
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Linear Integrated Circuits
[Berkeley Fall '04 Video Streaming]
Topics include: MOS Device Models; Current Sources, Active Loads; Output Stages; Op -Amps Low freq Analysis; Telescopic and Folded cascade Op Amps; Frequency response; Stability; Compensation; Filters, A/D and D/A’s; Wireless Circuits and RF Front-end etc....
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Integrated Circuits for Communications
[Berkeley, Video Streaming]
Topics included: Intro to Communication Circuits; High-Speed Amplifiers and tuned Amplifiers; Two-Port Power Gain and Stability; Matching Networks; Distortion; Noise in Communication Systems; LNA Design; Mixers: BJT/MOS Mixers, Noise and Passive Mixers; LC oscillators, Steady State Analysis, Oscillator Phase Noise; Power Amplifiers; Frequency Synthesizers etc….
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Advanced Analog Integrated Circuits
[Berkeley, Video Streaming and Audio Download]
Topics: MOS models for Analog Design; Electrical, Thermal Noise and their equivalent Noise Generators; Current Sources; OTAs, Folded cascade OTA and OTA design; Feedback; Settling Time; Comparator Design; Coupling: E/M and Substrate coupling;Offset Cancellation etc..
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Advanced Digital Integrated Circuits
[Berkeley Spring '06 Video Streaming and Audio Download]
Topics included: Modeling; Device Models; Static and Pass Transistor Logic; Dynamic Logic; Low Power Design; Leakage; Adiabatic; Ultra Low Voltage Design; Process variation; Timing; Asynchronous and Synchronization; Clock Distribution; Embedded and Low Voltage Memory etc....
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Introduction to Microelctronic Circuits
[Berkeley Fall '06 Video Streaming]
Topics Covered: PN junction; Diode; Current, Voltage, mesh and nodal analysis; Power and Energy; First order Circuits, and Time response; Second order systems and Forced response; Phasor analysis; Bode plot; First and second order filters; Small signal analysis; Op Amp and many.
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Microelectronic Devices and Circuits
[Berkeley Fall '06 Video Streaming]
IC fabrication; PN diode, BJT,FET,MOSFET small signal analysis; MOS capacitors; MOSFET amplifiers; Two port models ;Frequency response, MOSFET
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=Memory Circuit Design
[Boise State University Fall '04, Video Streaming]
Digital Design; on and off Currents; Diff Capacitances;EQ circuits; Dealy; RAS/CAS and addressing; SRAM; Floating Gate Memory (Flash); Clock doubler;Resistive memories;CMOS imagers and Sensing; PLL,VCO etc...
Code:
http://cmosedu.com/jbaker/courses/ee5418/f04/notes/lec5418.htmCMOS Analog IC Design
[Boise State University Fall '06, Video Streaming]
MOSFET operation; Small Signal Models; Biasing and Current Mirror Circuits; BMR; MIllers Theorem; Amplifiers Frequency Response, Push-Pull Amplifiers, Differential Amplifiers, CMMRetc....
Code:
http://www.cmosedu.com/jbaker/courses/ee5411/f06/notes/lec5411.htmAdvanced Analog IC Design
[Boise State University Spring '06, Video Streaming]
All types of Electrical noises; Correlated Double Sampling (CDS); MOSFET Switch; Discrete Analog Integrators(DAI);High-Speed Op-Amp; CMPB; DAC, ADC and delta-sigma ADCs etc....
Code:
http://www.cmosedu.com/jbaker/courses/ee614/s06/notes/lec614.htmCMOS Mixed-Signal IC Design
[Boise State University Fall '06, Video Streaming]
Signals and Systems: Sampling,Aliasing ADC/DAC Quantization noise, SNR, ENOB, SNDR, SFDR, jitter.Integrators, Differentia- tors,Filters, Decimation,Interpolation,higher order modulators, transconductor, SC, Digital and Bilinear Filters etc....
Code:
http://www.cmosedu.com/jbaker/courses/ee615/f06/notes/lec615.htmIntegrated Circuit Physical Design
[Boise State University Spring '06, Video Streaming]
Layout and cross-sectional views,Win SPICE, n-well, patterning, layout, Layout with LASI; MOSFET formation; MOSFET capacitances, delay, recovery time poly layers, sub threshold, Ion, Ioff ; Scaling, short channel effects; Models for digital design, delay calculations, pass gates; Sizing devices for driving capacitive loads (buffer design); Static logic gates etc..
Code:
http://www.cmosedu.com/jbaker/courses/ee5410/s06/notes/lec5410.htmPower Electronic System Integration
[Virginia Tech Spring '06 Video Streaming ]
Overview; Integratable Materials; Advanced Power Semiconductors; Thermal-Mechanical Integration;Control and Sensor, Electro-Magneto-Thermo- mechanical Integration; High Density integration; Integrated Power Supplies; Integrated Modular Motor Drives; IPEM-Based Power Conversion System etc….
Code:
http://www.cpes.vt.edu/public/courses/pesi.phpElectronic - Free Video and Audio lecture
Basic Courses
Solid State Devices
[Berkeley Spring '06 Video Streaming and Audio Download]
Topics include: MOSFET transistors; MOS capacitances; Advanced MOSFET issues; On and Off state effects; Hot carrier effects; Physics of basic oxide reliability; Gate Electrode Materials; Multiple Gate MOSFET ; Memory and Displays etc….
Code:
http://webcast.berkeley.edu/courses/archive.php?seriesid=1906978281Circuits and Electronics
[MIT Fall '00 Video Streaming and Download]
Topics: KCL, KVL ; Dependent and independent sources; Theorems; MOSFET; Amplifiers; First and second order systems; Steady state analysis and those required for Basic Electronic course.
Code:
http://ocw.mit.edu/OcwWeb/Electrical-Engineering-and-Computer-Science/6-002Circuits-and-ElectronicsFall2000/VideoLectures/index.htmElectricity and Magnetism
[MIT Spring'02 Video Streaming and Download]
Topics Covered Electric field; RL , RC and RLC circuits; Superconducti- vity; Magnetic Field; Electric and Magnetic Flux;Gauss’s law; Magnetic materials; Dia-,Para-, and Ferromagnetism; Electric Energy; Hysteresis; Maxwell's Equations; Polarization; Waves; EMF; Amperes law; Biot-Savart Law; Electromagnetic Induction etc...
Code:
http://ocw.mit.edu/OcwWeb/Physics/8-02Electricity-and-MagnetismSpring2002/VideoLectures/index.htmAnimation Magazine - September 2007:
http://rapidshare.com/files//animatioagazinsep07_hendooone.rarIEEE-Spectrum August 2007
http://rapidshare.com/files//SPEC_20070801_Aug_2007.pdfIEEE-Spectrum July 2007
http://rapidshare.com/files//SPEC_20070701_Jul_2007.pdfSoftware Magazines-2007
http://rapidshare.com/files//SWM_20070701_Jul_2007.pdfhttp://rapidshare.com/files//SWM_20070501_May_2007.pdfhttp://rapidshare.com/files//SWM_20070301_Mar_2007.pdfhttp://rapidshare.com/files//SWM_20070101_Jan_2007.pdfhttp://rapidshare.com/files//SWM_20061101_Nov_2006.pdfhttp://rapidshare.com/files//SWM_20060901_Sep_2006.pdfhttp://rapidshare.com/files//SWM_20060801_Aug_2006.pdfScientific American -2006
http://rapidshare.com/files//scientimericajun07_hendoone.rarhttp://rapidshare.com/files//sciam_.rarhttp://rapidshare.com/files//.rarhttp://rapidshare.com/files//sciam_.rarhttp://rapidshare.com/files/49/sciam_.rarhttp://rapidshare.com/files//sciam_.rarhttp://rapidshare.com/files//sciam_.rarhttp://rapidshare.com/files//sciam_.rarhttp://rapidshare.com/files//sciam_.rarHiFi World Magazine - June 2007
http://rapidshare.com/files//hifworagazinejun07_www.bborobbar.com.rarHiFi World Magazine - May 2007
http://rapidshare.com/files//hifworagazinemay07_www.bborobbar.com.rarMSDN microsoft Magazines All 2006 Issues
http://rapidshare.com/files//msdicrosoft06All_www.BboroBbar.com_Ali.rarPass :www.BboroBbar.com
PC Magazine - May 2007
http://rapidshare.com/files//pagazinma07_bbor.rarSmart Computing Magazine - July 2007
http://rapidshare.com/files//SmaomputinJu7_Hendoone.rarSIGNAL Magazine - May 2007
http://rapidshare.com/files//SignMa07_www.bborobbar.com.rarNano-CMOS Circuit and Physical Design
http://rapidshare.com/files//nanmosircuitndysicaesign_hendoone.rarUltra-Wideband Wireless Communications and Networks
http://rapidshare.com/files//ultraidebandrelesmmunicationdtworks_hendoone.rarWindows IT Pro - May 2007
http://rapidshare.com/files//WindowITroMa07_www.bborobbar.com.rarSubstrate Noise Coupling in Mixed-Signal ASICs
Book Description:
Driven by applications such as telecommunications, computing and consumer/multimedia
and facilitated by the progress in CMOS ULSI technology, the microelectronics IC market
is characterized by an ever-increasing level of integration complexity.
Today complete systems, that previously occupied one or more boards, are integrated
on a few chips or even on one single multi-million transistor chip - a so called
System-on-Chip (SoC). Although most functions in such integrated systems are
implemented with digital or digital signal processing circuitry, the analog circuits
needed at the interface between the electronic system and the continuous-valued outside
world are also being integrated on the same die for reasons of cost and performance.
Unfortunately, the integration of both analog & RF circuits and digital circuits on
the same die not only offers many benefits, but also creates some technical difficulties.
Since the analog circuits exploit the low-level physics of the fabrication process, they
remain difficult and costly to design, but they are also vulnerable to any kind of
noise or crosstalk signals. The higher levels of integration (moving towards
100 million transistors per chip clocked at ever higher frequencies)
make the mixed-signal signal integrity problem increasingly challenging.
One of the most important problems is the parasitic supply and substrate
noise coupling, caused by the fast switching of the digital circuitry that
then propagates to the sensitive analog circuitry via the common substrate.
It is therefore important to be able to predict the impact of digital switching
noise on the analog circuit performance at the design stage of the integrated
system, before the chip is taped out for fabrication, and to understand how
this problem can be reduced.
The purpose of Substrate Noise Coupling in Mixed-Signal ASICs is to provide an overview of very recent research results in the field of substrate noise analysis and reduction techniques. Much of the reported work has been established as part of the Mixed-Signal Initiative of the European Union. It is a representative sampling of the current state of the art in this area. All the different aspects of the substrate noise coupling problem are covered. Some chapters describe techniques to model and reduce the digital switching noise injected in the substrate. Other chapters describe methods to analyse the propagation of the noise from the source (the digital circuitry) to the reception point (the embedded analog circuitry) through the substrate considered as a resistive/capacitive mesh. Finally, the remaining chapters describe techniques to model and especially to reduce the impact of substrate noise on the analog side. This is illustrated with several practical design examples and measurement results.
Code:
http://rapidshare.com/files//SNCMSA.pdfNewnes Interfacing Companion: Computers, Transducers, Instrumentation and Signal Processing
Book Description
Tony Fischer-Cripps is a Project Leader in the Division of Telecommunications and
Industrial Physics of the CSIRO (Commonwealth Scientific & Industrial Research Organisation),
Australia. He was previously lecturer, University of Technology, Sydney (UTS), Australia,
and has also worked for the National Institute of Standards and Technology, USA (NIST,
formerly National Bureau of Standards - NBS).
* The essential pocket reference for engineers and students
* Interfacing in action: PCs, PLCs, transducers and instrumentation in one book
* Develop systems and applications that work with Newnes Interfacing Companion
Book Info
A uniquely concise and practical guide to the hardware, applications and design
issues involved in computer interfacing and the use of transducers and instrumentation.
Essential pocket reference for engineers and students interfacing in action.
http://rapidshare.com/files//newnes_interfacing_companion.pdfElectronic and Optoelectronic Properties Of Semiconductor Structures
Book Description
Jasprit Singh presents the underlying physics behind devices that drive today's
technologies, utilizing carefully chosen solved examples to convey important
concepts. Real-world applications are highlighted throughout the book,
stressing the links between physical principles and actual devices.
The volume provides engineering and physics students and professionals with
complete coverage of key modern semiconductor concepts. A solutions manual
and set of viewgraphs for use in lectures is available for instructors,
from
solutions@cambridge.orghttp://rapidshare.com/files//Electronic_and_Optoelectronic_Properties_of_Semiconductor_Structures_-_singh.rarPrentice.Hall.Fundamentals.of.Analog.Circuits.(Floyd,Buchla).2nd Edition.2007
http://mihd.net/97iqr1Analog Circuit Design: High-Speed A-D Converters, Automotive Electronics and Ultra-Low Power Wireless [transportation, Road & Motor Vehicles]
http://mihd.net/s9rqgjMicroelectronic Circuits - fifth edition
by Adel S. Sedra, Kenneth C. Smith
Book Description
This market-leading textbook continues its standard of excellence and
innovation built on the solid pedagogical foundation that instructors
expect from Adel S. Sedra and Kenneth C. Smith. All material in the
fifth edition of Microelectronic Circuits is thoroughly updated to reflect
changes in technology-CMOS technology in particular. These technological
changes have shaped the book's organization and topical coverage, making
it the most current resource available for teaching tomorrow's engineers
how to analyze and design electronic circuits. Features of the Fifth
Edition BLStreamlined Organizational Structure: The "must-cover" topics
are placed first in each chapter; the more specialized material appears
last. The first five chapters, Part I, are organized to form a coherent
single-semester introductory course. Similarly, the next five chapters,
Part II, present a body of material for a second one-semester course.
The final four chapters, Part III, contain significant topics that can
be used as enhancements or substitutes for some of the material in earlier
chapters as well as resources for project or thesis work. BLMOSFETs and BJTs:
Chapter 4 (MOSFETs) and Chapter 5 (BJTs) are completely rewritten.
The MOSFET coverage is placed first but the two devices can be covered
in any desired order. BLIC MOS and Bipolar Amplifiers:
Chapter 6 (Single-Stage Integrated-Circuit Amplifiers) and Chapter
7 (Differential and Multistage Amplifiers) are completely rewritten
to introduce IC MOS and bipolar amplifiers in an accessible, systematic way.
BLAmplifier Frequency Response: Amplifier frequency response
is now presented where needed (a "just-in-time" approach).
This includes brief coverage of the frequency responses of
the common-source and common-emitter amplifiers in Chapters 4 and 5,
respectively. Enhanced Student Support BLA new CD--packaged with
every text--includes a free student version of PSpice 9.2 Lite
Edition (SPICE simulator) and new industry-based design examples.
http://mihd.net/dseum4Analysis and Application of Analog Electronic Circuits to Biomedical Instrumentation
by Robert B. Northrop
http://mihd.net/6z0nrcMicroelectronic Circuits Lab Manual - Fourth Edition
By Kenneth C Smith
http://mihd.net/q4u3cr
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