Paul R. Gray, David A. Hodges, Robert G. Meyer, Andreas Antoniou, Gabor C. Temes, Christian C. Enz, Eric A. Vittoz, François Krummenacher, George S. Moschytz
Electrical and electronics engineering professionals 5Hoopeer Hoopeer
Sung-Mo Kang is a Korean electrical engineer and professor. He received his Ph.D. in electrical engineering from UC Berkeley in 1975. He has made significant contributions in the areas of VLSI circuit design and memristor research. Kang led the development of the world's first 32-bit CMOS microprocessor at AT&T Bell Labs. He has received numerous honors and awards for his work and has authored over 400 papers and co-authored 9 books.
Leon M. Tolbert is a professor at the University of Tennessee. He received his PhD in electrical engineering from Georgia Tech in 1999. His research focuses on power electronics and electric machines. He has received several honors and awards for his research and teaching, including the IEEE Industry Applications Society Outstanding Young Member Award.
Materials, Semi-conductors and Micro-ChipsMark Simon
The document discusses developments in material science and computing technology. It describes the 3 essential properties of materials - elements, atom arrangements, and atom bonds. It then explains how the invention of the transistor and integrated circuits using silicon semiconductors revolutionized computing by making machines smaller, faster, and more efficient. However, artificial intelligence still has limitations because the human brain uses different memory and parallel processing compared to the linear processing of computer CPUs.
Jing Li seeks a position as an SI/EMC engineer with extensive experience in EMC analysis and design. She has a PhD in electrical engineering from Missouri University of Science and Technology with a focus on signal integrity and computational electromagnetics. Her past work includes analyzing EMI issues at Cisco and developing absorbing materials to mitigate radiation. She has published several papers and her research analyzed the radiation mechanisms of optical links and connectors.
I have completed my studies and obtained a diploma in electrical engineering. This diploma certifies that I have successfully finished the requirements for this educational program. With this qualification, I am now prepared to enter the workforce in an electrical engineering role or pursue further education.
This document lists abbreviations for many IEEE publications including transactions, journals, letters, and magazines. It provides the full name of each publication as well as its acronym and reference abbreviation. There are over 80 publications listed spanning various engineering and technology fields such as electronics, computer science, communications, power and energy, and more. The list is organized alphabetically by the full name of each publication.
Electrical and electronics engineering professionals 6Hoopeer Hoopeer
Yannis Tsividis is a professor of electrical engineering at Columbia University. He received his PhD from UC Berkeley in 1976. He has made major contributions in the fields of integrated circuit design, signal processing techniques, on-chip analog/hybrid computing, and event-driven continuous-time digital filters. He demonstrated the first fully-integrated MOS operational amplifier in 1976 and proposed widely adopted design techniques for MOS analog circuits. He has authored several influential textbooks and over 40 patents. He is a member of the National Academy of Engineering and has received numerous best paper and teaching awards from IEEE.
Electrical and electronics engineering professionals 5Hoopeer Hoopeer
Sung-Mo Kang is a Korean electrical engineer and professor. He received his Ph.D. in electrical engineering from UC Berkeley in 1975. He has made significant contributions in the areas of VLSI circuit design and memristor research. Kang led the development of the world's first 32-bit CMOS microprocessor at AT&T Bell Labs. He has received numerous honors and awards for his work and has authored over 400 papers and co-authored 9 books.
Leon M. Tolbert is a professor at the University of Tennessee. He received his PhD in electrical engineering from Georgia Tech in 1999. His research focuses on power electronics and electric machines. He has received several honors and awards for his research and teaching, including the IEEE Industry Applications Society Outstanding Young Member Award.
Materials, Semi-conductors and Micro-ChipsMark Simon
The document discusses developments in material science and computing technology. It describes the 3 essential properties of materials - elements, atom arrangements, and atom bonds. It then explains how the invention of the transistor and integrated circuits using silicon semiconductors revolutionized computing by making machines smaller, faster, and more efficient. However, artificial intelligence still has limitations because the human brain uses different memory and parallel processing compared to the linear processing of computer CPUs.
Jing Li seeks a position as an SI/EMC engineer with extensive experience in EMC analysis and design. She has a PhD in electrical engineering from Missouri University of Science and Technology with a focus on signal integrity and computational electromagnetics. Her past work includes analyzing EMI issues at Cisco and developing absorbing materials to mitigate radiation. She has published several papers and her research analyzed the radiation mechanisms of optical links and connectors.
I have completed my studies and obtained a diploma in electrical engineering. This diploma certifies that I have successfully finished the requirements for this educational program. With this qualification, I am now prepared to enter the workforce in an electrical engineering role or pursue further education.
This document lists abbreviations for many IEEE publications including transactions, journals, letters, and magazines. It provides the full name of each publication as well as its acronym and reference abbreviation. There are over 80 publications listed spanning various engineering and technology fields such as electronics, computer science, communications, power and energy, and more. The list is organized alphabetically by the full name of each publication.
Electrical and electronics engineering professionals 6Hoopeer Hoopeer
Yannis Tsividis is a professor of electrical engineering at Columbia University. He received his PhD from UC Berkeley in 1976. He has made major contributions in the fields of integrated circuit design, signal processing techniques, on-chip analog/hybrid computing, and event-driven continuous-time digital filters. He demonstrated the first fully-integrated MOS operational amplifier in 1976 and proposed widely adopted design techniques for MOS analog circuits. He has authored several influential textbooks and over 40 patents. He is a member of the National Academy of Engineering and has received numerous best paper and teaching awards from IEEE.
David A. Johns
Electrical and Computer Engineering Department, University of Toronto,
State-space filters based on LC ladder simulation
Analog and digital state-space adaptive IIR filters
Ph.D. Advisor: Adel S. Sedra and W. Martin Snelgrove
D. A. Johns and K. W. Martin, Analog Integrated Circuit Design, Wiley, New York, NY, N.Y., 1997.
Sanjit Kumar Mitra, Carver Mead, Charles A. DeSoer, Robert W. Newcomb, William J. Kerwin, Stephen P. Boyd, Gabor C. Temes, R. Gregorian, Adel S. Sedra, W. Martin Snelgrove , Omid Shoaei, Ayal Shoval, Anthony Chan Carusone, Gordon W. Roberts , Kenneth W. Martin
Electrical and electronics engineering professionals 7Hoopeer Hoopeer
David J. Allstot and Willy M. C. Sansen are prominent professors of electrical engineering known for their work in analog and mixed-signal integrated circuits. Both have had prolific careers publishing extensively and advising many PhD students who have gone on to successful careers in industry and academia. They have received numerous awards and honors for their technical contributions and leadership, including election to the National Academy of Engineering for Allstot and appointments as Fellow of the IEEE for both. Their work has had significant global impact and helped train generations of engineers.
Gordon W. Roberts
Electrical Engineering, University of Toronto, Toronto (Ph.D)
Professor of Electrical and Computer
Engineering Dept., McGill University,
Toronto, Montreal, Canada (1989-present)
This document provides an introduction to power electronics, including:
- A brief history of power electronics from the late 19th century developments in rectifiers and vacuum tubes to the modern transistor and other semiconductor devices.
- An overview of the development of different generations of power semiconductor devices from the 1950s to today, including thyristors in the 1950s-1970s, MOSFETs and other devices in the 1970s-1990s, and IGBTs from the 1990s onward.
- An explanation that power electronics now plays a major role in electrical engineering through its use in electronic converters that power many modern devices and systems.
Torben Aabo is a principal engineer at PCC Power Cable Consultants, Inc. He has over 40 years of experience in the electrical engineering field. He received his bachelor's degree in electrical engineering in 1967 and has since worked on various projects involving failure investigations and testing of high voltage cable systems. He has published over 20 technical papers and frequently serves as an expert witness in legal cases involving high voltage cable projects.
This document provides a curriculum vitae for Mequanint A. Moges, PhD. It details his educational background, including a PhD in Computer Communications & Networking from Stony Brook University. It also outlines his professional experience, which includes serving as Assistant Chair and Associate Professor in the Department of Engineering Technology at the University of Houston. His research interests involve wireless sensor networks and performance analysis of computer and communication systems.
David Goren has worked at IBM for over 15 years as a researcher focusing on power conversion and electromagnetic design for processors. He is now self-employed writing a book on science and Buddhism. He has a B.Sc., M.Sc., and D.Sc. from Technion in electrical engineering. He has received several awards for his research and teaching.
Here are the key points about Kirchoff's laws:
- Kirchoff's Current Law (KCL) states that the sum of currents entering a node equals the sum of currents leaving the node. It expresses conservation of charge.
- Kirchoff's Voltage Law (KVL) states that the sum of voltages around any closed loop is zero. It expresses conservation of energy.
- KCL is written as the sum of currents entering or leaving a node equals zero. The sign convention is that currents entering a node are positive and currents leaving are negative.
- KVL is written as the sum of voltages around a closed loop equals zero. The sign convention is that voltages across a source in the direction
Hyun Yoon is seeking a circuit designer position where he can use his technical and analytical skills. He has over 15 years of experience in IC design for wireless communications. His experience includes designing RF front-ends, mixers, PLLs, and baseband circuits for various wireless standards such as ZigBee, Bluetooth, LTE, and WLAN. He is proficient in circuit simulation tools like HSpice, PSpice, Cadence, and Verilog-AMS.
This document describes a thesis that designed a linearly polarized rectangular microstrip patch antenna using the IE3D/PSO simulation software. The thesis was submitted in partial fulfillment of the requirements for a Bachelor of Technology degree in Electronics and Communication Engineering. It was carried out under the supervision of Prof. S.K. Behera at the National Institute of Technology in Rourkela, India in 2009. The thesis aimed to design and fabricate an inset-fed rectangular microstrip patch antenna and study the effects of antenna dimensions and substrate parameters on radiation characteristics such as bandwidth. Particle swarm optimization was used in conjunction with the IE3D simulator to optimize the antenna design.
The field of electronics is a branch of physics and electrical engineering that deals with the emission, behaviour and effects of electrons using electronic devices. Electronics uses active devices to control electron flow by amplification and rectification, which distinguishes it from classical electrical engineering, which only uses passive effects such as resistance, capacitance and inductance to control electric current flow.[citation needed]
This document summarizes a senior thesis on normally-off GaN HEMTs. It introduces GaN as a promising material for power transistors due to its large bandgap, breakdown field, and thermal conductivity compared to silicon. However, conventional GaN HEMTs are normally-on, meaning the channel conducts without a gate bias, which poses safety and power consumption issues. The thesis explores using a p-type GaN gate to deplete the channel and achieve a normally-off characteristic. TCAD simulations were performed to model the pGaN gate HEMT structure and analyze its normally-off behavior and limitations. The goal was to determine if the pGaN gate method is the most promising approach for creating normally-off GaN H
This document discusses normally-off GaN HEMTs and proposes simulating a pGaN gate HEMT structure using Synopsys TCAD software. It provides background on the development of transistors, noting GaN's potential advantages over silicon in power devices due to its larger bandgap, higher breakdown field, and higher thermal conductivity. Currently, GaN HEMTs are normally-on, which is undesirable for safety reasons. The document reviews different methods proposed to achieve normally-off operation and identifies the pGaN gate method as promising due to providing an acceptable threshold voltage and gate swing. It proposes simulating a pGaN gate HEMT using a Si substrate, AlN nucleation layer, GaN:C buffer layers,
This document describes research in millimeter-wave integrated circuits conducted by Taejong Baek at Dongguk University. The research focuses on developing monolithic integrated circuits for millimeter-wave applications using semiconductor technologies like metamorphic HEMTs with 70nm gate lengths. Key accomplishments include fabricating 70nm gate length MHEMTs with an fT of 330GHz and fmax of 425GHz, as well as developing dielectric-supported air-gap microstrip lines (DAML) to reduce transmission line losses in millimeter-wave integrated circuits. The DAML fabrication process uses only photolithography and low-temperature processes for compatibility with standard MMIC fabrication.
Parametric Analysis of Single Element U Slot Microstrip AntennaIJSRD
In wireless communication system antennas are the most important element for creating communication link between source and destination. Microsrtip antennas are used for mobile and other satellite communication application because of their light weight, low power handling capacity and low profile. The modern mobile communication system requires high gain, wide bandwidth and minimal size antennas that are capable of providing better performance over a wide range of frequency spectrum. This requirement leads to the design of microsrtip patch array antenna. This paper proposes the parametric analysis of single element U slot MSA. Low dielectric constant substrates are generally preferred for maximum radiation. Thus it prefers FR4 as a dielectric substrate. Desired patch antenna design is simulated by using high frequency simulation software and patch antenna is designed as per requirement. Antenna dimensions such as Length (L), Width (W), and substrate dielectric constant and parameters like Return Loss, Gain, impedance and current distribution are calculated using CAD-FEKO. The antenna has been design to be operated in the range of 8-12GHz. Hence this antenna is highly suitable for X-band applications.
This document provides a summary of editing done by D.C. Nitch including two PhD dissertations on numerical electromagnetics code and characteristics of conical antennas, and five MSc theses in the Electromagnetics Laboratory at Wits University. It also lists three journal papers edited on fast sparse iterative methods, comparing sparse iterative methods, and measuring shielding quality of coaxial cables. Presentations include at least three lectures on writing a thesis attended by over 120 students and lecturers. Lecturing includes tutoring the required course "Engineer in Society" for third year electrical engineering students.
The memristor is a two-terminal electronic component theorized in 1971 as a fourth fundamental circuit element. In 2008, HP Labs created the first physical memristor using titanium dioxide. Memristors behave similarly to synapses in the brain and could be used to build artificial neural networks for applications like neuromorphic computing and non-volatile memory. Major companies and research institutions are now working to further develop memristors and explore their potential applications in the future.
Symica is an electronic design automation tool for analog and mixed-signal integrated circuit design. It supports hierarchical design entry and compatibility with popular simulation models. Symica has capabilities for modern IC development including accommodating different process design kits. Its affordable and flexible pricing makes it attractive for startups and independent researchers. Established semiconductor companies can use Symica as a cost-saving solution for expanding design capabilities beyond limited licenses from major EDA vendors.
Gene's law, Common gate, kernel Principal Component Analysis, ASIC Physical Design Post-Layout Verification, TSMC180nm, 0.13um IBM CMOS technology, Cadence Virtuoso, FPAA, in Spanish, Bruun E,
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David A. Johns
Electrical and Computer Engineering Department, University of Toronto,
State-space filters based on LC ladder simulation
Analog and digital state-space adaptive IIR filters
Ph.D. Advisor: Adel S. Sedra and W. Martin Snelgrove
D. A. Johns and K. W. Martin, Analog Integrated Circuit Design, Wiley, New York, NY, N.Y., 1997.
Sanjit Kumar Mitra, Carver Mead, Charles A. DeSoer, Robert W. Newcomb, William J. Kerwin, Stephen P. Boyd, Gabor C. Temes, R. Gregorian, Adel S. Sedra, W. Martin Snelgrove , Omid Shoaei, Ayal Shoval, Anthony Chan Carusone, Gordon W. Roberts , Kenneth W. Martin
Electrical and electronics engineering professionals 7Hoopeer Hoopeer
David J. Allstot and Willy M. C. Sansen are prominent professors of electrical engineering known for their work in analog and mixed-signal integrated circuits. Both have had prolific careers publishing extensively and advising many PhD students who have gone on to successful careers in industry and academia. They have received numerous awards and honors for their technical contributions and leadership, including election to the National Academy of Engineering for Allstot and appointments as Fellow of the IEEE for both. Their work has had significant global impact and helped train generations of engineers.
Gordon W. Roberts
Electrical Engineering, University of Toronto, Toronto (Ph.D)
Professor of Electrical and Computer
Engineering Dept., McGill University,
Toronto, Montreal, Canada (1989-present)
This document provides an introduction to power electronics, including:
- A brief history of power electronics from the late 19th century developments in rectifiers and vacuum tubes to the modern transistor and other semiconductor devices.
- An overview of the development of different generations of power semiconductor devices from the 1950s to today, including thyristors in the 1950s-1970s, MOSFETs and other devices in the 1970s-1990s, and IGBTs from the 1990s onward.
- An explanation that power electronics now plays a major role in electrical engineering through its use in electronic converters that power many modern devices and systems.
Torben Aabo is a principal engineer at PCC Power Cable Consultants, Inc. He has over 40 years of experience in the electrical engineering field. He received his bachelor's degree in electrical engineering in 1967 and has since worked on various projects involving failure investigations and testing of high voltage cable systems. He has published over 20 technical papers and frequently serves as an expert witness in legal cases involving high voltage cable projects.
This document provides a curriculum vitae for Mequanint A. Moges, PhD. It details his educational background, including a PhD in Computer Communications & Networking from Stony Brook University. It also outlines his professional experience, which includes serving as Assistant Chair and Associate Professor in the Department of Engineering Technology at the University of Houston. His research interests involve wireless sensor networks and performance analysis of computer and communication systems.
David Goren has worked at IBM for over 15 years as a researcher focusing on power conversion and electromagnetic design for processors. He is now self-employed writing a book on science and Buddhism. He has a B.Sc., M.Sc., and D.Sc. from Technion in electrical engineering. He has received several awards for his research and teaching.
Here are the key points about Kirchoff's laws:
- Kirchoff's Current Law (KCL) states that the sum of currents entering a node equals the sum of currents leaving the node. It expresses conservation of charge.
- Kirchoff's Voltage Law (KVL) states that the sum of voltages around any closed loop is zero. It expresses conservation of energy.
- KCL is written as the sum of currents entering or leaving a node equals zero. The sign convention is that currents entering a node are positive and currents leaving are negative.
- KVL is written as the sum of voltages around a closed loop equals zero. The sign convention is that voltages across a source in the direction
Hyun Yoon is seeking a circuit designer position where he can use his technical and analytical skills. He has over 15 years of experience in IC design for wireless communications. His experience includes designing RF front-ends, mixers, PLLs, and baseband circuits for various wireless standards such as ZigBee, Bluetooth, LTE, and WLAN. He is proficient in circuit simulation tools like HSpice, PSpice, Cadence, and Verilog-AMS.
This document describes a thesis that designed a linearly polarized rectangular microstrip patch antenna using the IE3D/PSO simulation software. The thesis was submitted in partial fulfillment of the requirements for a Bachelor of Technology degree in Electronics and Communication Engineering. It was carried out under the supervision of Prof. S.K. Behera at the National Institute of Technology in Rourkela, India in 2009. The thesis aimed to design and fabricate an inset-fed rectangular microstrip patch antenna and study the effects of antenna dimensions and substrate parameters on radiation characteristics such as bandwidth. Particle swarm optimization was used in conjunction with the IE3D simulator to optimize the antenna design.
The field of electronics is a branch of physics and electrical engineering that deals with the emission, behaviour and effects of electrons using electronic devices. Electronics uses active devices to control electron flow by amplification and rectification, which distinguishes it from classical electrical engineering, which only uses passive effects such as resistance, capacitance and inductance to control electric current flow.[citation needed]
This document summarizes a senior thesis on normally-off GaN HEMTs. It introduces GaN as a promising material for power transistors due to its large bandgap, breakdown field, and thermal conductivity compared to silicon. However, conventional GaN HEMTs are normally-on, meaning the channel conducts without a gate bias, which poses safety and power consumption issues. The thesis explores using a p-type GaN gate to deplete the channel and achieve a normally-off characteristic. TCAD simulations were performed to model the pGaN gate HEMT structure and analyze its normally-off behavior and limitations. The goal was to determine if the pGaN gate method is the most promising approach for creating normally-off GaN H
This document discusses normally-off GaN HEMTs and proposes simulating a pGaN gate HEMT structure using Synopsys TCAD software. It provides background on the development of transistors, noting GaN's potential advantages over silicon in power devices due to its larger bandgap, higher breakdown field, and higher thermal conductivity. Currently, GaN HEMTs are normally-on, which is undesirable for safety reasons. The document reviews different methods proposed to achieve normally-off operation and identifies the pGaN gate method as promising due to providing an acceptable threshold voltage and gate swing. It proposes simulating a pGaN gate HEMT using a Si substrate, AlN nucleation layer, GaN:C buffer layers,
This document describes research in millimeter-wave integrated circuits conducted by Taejong Baek at Dongguk University. The research focuses on developing monolithic integrated circuits for millimeter-wave applications using semiconductor technologies like metamorphic HEMTs with 70nm gate lengths. Key accomplishments include fabricating 70nm gate length MHEMTs with an fT of 330GHz and fmax of 425GHz, as well as developing dielectric-supported air-gap microstrip lines (DAML) to reduce transmission line losses in millimeter-wave integrated circuits. The DAML fabrication process uses only photolithography and low-temperature processes for compatibility with standard MMIC fabrication.
Parametric Analysis of Single Element U Slot Microstrip AntennaIJSRD
In wireless communication system antennas are the most important element for creating communication link between source and destination. Microsrtip antennas are used for mobile and other satellite communication application because of their light weight, low power handling capacity and low profile. The modern mobile communication system requires high gain, wide bandwidth and minimal size antennas that are capable of providing better performance over a wide range of frequency spectrum. This requirement leads to the design of microsrtip patch array antenna. This paper proposes the parametric analysis of single element U slot MSA. Low dielectric constant substrates are generally preferred for maximum radiation. Thus it prefers FR4 as a dielectric substrate. Desired patch antenna design is simulated by using high frequency simulation software and patch antenna is designed as per requirement. Antenna dimensions such as Length (L), Width (W), and substrate dielectric constant and parameters like Return Loss, Gain, impedance and current distribution are calculated using CAD-FEKO. The antenna has been design to be operated in the range of 8-12GHz. Hence this antenna is highly suitable for X-band applications.
This document provides a summary of editing done by D.C. Nitch including two PhD dissertations on numerical electromagnetics code and characteristics of conical antennas, and five MSc theses in the Electromagnetics Laboratory at Wits University. It also lists three journal papers edited on fast sparse iterative methods, comparing sparse iterative methods, and measuring shielding quality of coaxial cables. Presentations include at least three lectures on writing a thesis attended by over 120 students and lecturers. Lecturing includes tutoring the required course "Engineer in Society" for third year electrical engineering students.
The memristor is a two-terminal electronic component theorized in 1971 as a fourth fundamental circuit element. In 2008, HP Labs created the first physical memristor using titanium dioxide. Memristors behave similarly to synapses in the brain and could be used to build artificial neural networks for applications like neuromorphic computing and non-volatile memory. Major companies and research institutions are now working to further develop memristors and explore their potential applications in the future.
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Symica is an electronic design automation tool for analog and mixed-signal integrated circuit design. It supports hierarchical design entry and compatibility with popular simulation models. Symica has capabilities for modern IC development including accommodating different process design kits. Its affordable and flexible pricing makes it attractive for startups and independent researchers. Established semiconductor companies can use Symica as a cost-saving solution for expanding design capabilities beyond limited licenses from major EDA vendors.
Gene's law, Common gate, kernel Principal Component Analysis, ASIC Physical Design Post-Layout Verification, TSMC180nm, 0.13um IBM CMOS technology, Cadence Virtuoso, FPAA, in Spanish, Bruun E,
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William Strange earned his PhD in 1959 from the University of California, Los Angeles under advisor Peter Henrici. His thesis was titled "Difference Methods for Mixed Boundary Value Problems". One of his PhD students was Hermann Flaschka.
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Energy efficiency has been important since the latter part of the last century. The main object of this survey is to determine the energy efficiency knowledge among consumers. Two separate districts in Bangladesh are selected to conduct the survey on households and showrooms about the energy and seller also. The survey uses the data to find some regression equations from which it is easy to predict energy efficiency knowledge. The data is analyzed and calculated based on five important criteria. The initial target was to find some factors that help predict a person's energy efficiency knowledge. From the survey, it is found that the energy efficiency awareness among the people of our country is very low. Relationships between household energy use behaviors are estimated using a unique dataset of about 40 households and 20 showrooms in Bangladesh's Chapainawabganj and Bagerhat districts. Knowledge of energy consumption and energy efficiency technology options is found to be associated with household use of energy conservation practices. Household characteristics also influence household energy use behavior. Younger household cohorts are more likely to adopt energy-efficient technologies and energy conservation practices and place primary importance on energy saving for environmental reasons. Education also influences attitudes toward energy conservation in Bangladesh. Low-education households indicate they primarily save electricity for the environment while high-education households indicate they are motivated by environmental concerns.
Applications of artificial Intelligence in Mechanical Engineering.pdfAtif Razi
Historically, mechanical engineering has relied heavily on human expertise and empirical methods to solve complex problems. With the introduction of computer-aided design (CAD) and finite element analysis (FEA), the field took its first steps towards digitization. These tools allowed engineers to simulate and analyze mechanical systems with greater accuracy and efficiency. However, the sheer volume of data generated by modern engineering systems and the increasing complexity of these systems have necessitated more advanced analytical tools, paving the way for AI.
AI offers the capability to process vast amounts of data, identify patterns, and make predictions with a level of speed and accuracy unattainable by traditional methods. This has profound implications for mechanical engineering, enabling more efficient design processes, predictive maintenance strategies, and optimized manufacturing operations. AI-driven tools can learn from historical data, adapt to new information, and continuously improve their performance, making them invaluable in tackling the multifaceted challenges of modern mechanical engineering.
Software Engineering and Project Management - Software Testing + Agile Method...Prakhyath Rai
Software Testing: A Strategic Approach to Software Testing, Strategic Issues, Test Strategies for Conventional Software, Test Strategies for Object -Oriented Software, Validation Testing, System Testing, The Art of Debugging.
Agile Methodology: Before Agile – Waterfall, Agile Development.
Electrical and electronics engineering professionals
1. Paul R. Gray
December 8, 1942
Jonesboro, AR, USA
American
Ph.D. Electrical Engineering, University
of Arizona, Tucson, USA, 1969, Advisor: *
Douglas J. Hamilton
M.Sc. Electrical Engineering, University
of Arizona, Tucson, USA, 1965.
B.Sc. Electrical Engineering, University
of Arizona, Tucson, USA, 1963.
Professor Emeritus, Electrical
Engineering and Computer Sciences Dept.,
University of California Berkeley (UC
Berkeley), USA. (1971-present)
https://www2.eecs.berkeley.edu/.../
IEEE Author (1971-2014)
(M'69–SM'76–F'80)
Research Areas:
CMOS integrated circuits
Analogue-Digital Conversion
Switched Capacitor Filters
ResearchGate
2.
3.
4. PhD students PhD students
PhD 1985 (High-frequency
CMOS continuous time filters)
PhD 1976 (Nonuniform pulse code
modulation encoding using
integrated circuit techniques)
Yannis P. Tsividis
Haideh Khorramabadi
PhD 1979 (MOS Switched
Capacitor Ladder Filters)
https://www2.eecs.berk
eley.edu/Pubs/Dissertat
ions/Faculty/gray.html
David J. Allstot
Stephen H. Lewis
PhD 1987
(Video-Rate
Analog-to-Digital
Conversion
Using Pipelined
Architectures)
5. David A. Hodges
August 25th, 1937
Hackensack, New Jersey, USA
American
Ph.D. Electrical Engineering, University
of California, Berkeley, USA, 1966,
Advisor: *Donald Oscar Pederson
M.Sc. Electrical Engineering, University
of California, Berkeley, USA, 1961.
B. E. E. Electrical Engineering, Cornell
University, USA, 1960.
Professor Emeritus, Electrical
Engineering and Computer Sciences Dept.,
University of California, Berkeley (Retired).
USA. (1970-present)
https://www2.eecs.berkeley.edu/../
Google Scholar (1961-present)
IEEE Author (1963-present)
(S’59–M’65–SM’71–F’77)
Research Areas:
Switched-Capacitor
Circuit
ADC
CMOS Integrated-
Circuits
Mixed-Signal MOS
Circuits
Orcid
ResearchGate
Daniel M. Tellep
Distinguished Professor
Emeritus, IEEE Richard
M. Emberson Award
2017, led the creation
of IEEE Access
PhD title: Synthesis and
Realization of Monostable
and Counting Bistable
Circuits.
6.
7. P. R. Gray, P. Hurst, S. Lewis, and R. G.
Meyer, Analysis and Design of Analog Integrated
Circuits, 5th ed., New York, NY: Wiley, 2001.
Adel S. Sedra, and Kenneth Carless
Smith. Microelectronic circuits. Holt,
Rinehart and Winston, 1982.
David A. Hodges and G. Jackson
Horace, Analysis and design of digital
integrated circuits. McGraw-Hill, 1988.
Analysis and Design of
Analog Integrated
Circuits, or simply “Gray
and Meyer” to many in
its first three editions,
was first published by
John Wiley in 1977.
Adel S. Sedra and Peter O.
Brackett. Filter theory and
design: active and passive.
Champaign, Ill: Matrix
Publishers, 1978.
8. Robert G. Meyer
July 21st, 1942
Melbourne, Australia
Australian
Ph.D. Electrical Engineering University of
Melbourne, Australia, 1968.
M.Eng.Sci. Electrical Engineering
(Honors), University of Melbourne, Australia,
1965.
B.E. Electrical Engineering (First Class
Honors), University of Melbourne, Australia,
1963.
Professor Emeritus and Professor in the
Graduate School, Electrical Engineering and
Computer Sciences Dept., University of
California, Berkeley (UC Berkeley), USA.
(1968-present)
https://www2.eecs.berkeley.edu/.../
IEEE Author (1971-present)
(S'64–M'68–SM'74–F'81)
Research Areas:
High-Frequency Analog
Integrated-Circuit Design
Device Fabrication
Intermodulation Distortion
Inductors and Mixers
BiCMOS Analogue
Integrated Circuits
Voltage Controlled
Oscillator
ResearchGate
M.Sc. thesis titled “Evaluation of noise
parameters of bipolar and field-effect
transistors.” and Ph.D. titled “Signal and
noise performance of transistor mixers.”
9.
10. Robert G. Meyer,
Integrated-Circuit
Operational
Amplifiers. Ed., 1978.
Asad A. Abidi, Paul R. Gray, and Robert
G. Meyer. Integrated Circuits for
Wireless Communications. Wiley-IEEE
Press, 1999.
A. M. Niknejad and R. G.
Meyer. Design,
simulation and
applications of inductors
and transformers for Si
RF ICs. Boston, Mass,
Kluwer Academic
Publishers, 2000.
11. PhD students PhD students
PhD 1972 (Optimum Design of
Integrated Variable-Gain Amplifiers)
Willy M. C. Sansen
PhD 1981 (Effects of Random and
Periodic Excitations on Relaxation
Oscillators)
Asad A. Abidi Ali M. Niknejad
PhD 2000 (Analysis, Simulation,
and Applications of Passive
Devices on Conductive
Substrates)
https://www2.eecs.berkeley
.edu/Pubs/Dissertations/Fa
culty/meyer.html
https://chic.caltech.edu/gene
alogy/robert-g-meyer/
12. Andreas Antoniou , Digital filters
analysis, design, and signal
processing applications, McGraw
Hill, 1993.
R. Schreier and G. C. Temes, Eds.,
Understanding Delta-Sigma Data Converters.
Piscataway, NJ: IEEE press, 2005.
R. Gregorian and Gabor
C. Temes, Analog MOS
integrated circuits for
signal processing, New
York, Wiley-Interscience,
1986.
Gabor C. Temes,
and Jack W.
LaPatra. Introduc
tion to circuit
synthesis and
design. McGraw-
Hill Companies,
1977.
James C. Candy and Gabor C.
Temes. Oversampling delta-sigma data converters:
theory, design and simulation. IEEE Press, 1992.
13. Andreas Antoniou
Cyprus
Ph.D. Electrical Engineering, University
of London, London, UK, 1966. Advisor: Mr.
N. Ream.
B.Sc. Electrical Engineering (Eng.
Hons), University of London, London, UK
1963.
Professor Emeritus, Electrical and
Computer Engineering Dept., University of
Victoria. Canada. (1983-1990)
https://www.ece.uvic.ca/~andreas/
Google Scholar (1965-2017)
IEEE Author (1965-2017)
(M'69–SM'79–F'82–LF'04)
Research Areas:
Analog and Digital
Filter Design
Adaptive Filter
Digital Signal
Processing
Optimization Methods
ResearchGate
Note: Prof. Antoniou retired a number of years
ago and is no longer involved in the
supervision of graduate students, post-doctoral
fellows, or research associates.
14. • Inventor of high-quality gyrator/GIC circuits
• Proposed design procedures for RC-active
filters
• One of his papers on gyrator circuits was
awarded the Ambrose Fleming Premium by
the IEE
• Developed design methodologies and
algorithms for one- and two-dimensional
digital filters, adaptive filters, and equalizers
• Received the IEEE Circuit and Systems
Society 2005 Technical Achievement Award
16. Gabor C. Temes
1929
Ph.D. Electrical Engineering, University
of Ottawa, ON, Canada, in 1961, and an
honorary doctorate from the Technical
University of Budapest, Budapest,
Hungary, in 1991.
B.Sc. Electrical Engineering Dipl. Ing.,
Technical University of Budapest, 1952,
B.Sc. Physics Dipl. Phys. , Eotvos
University, 1955.
Professor of Electrical Engineering and
Computer Science Dept., Oregon State
University. Corvallis, Oregon, USA. (1990-
present)
https://eecs.oregonstate.edu/./temes-gabor
Google Scholar (1961-present)
IEEE Author (1962-present)
(SM’66–F’73–LF’98)
Research Areas:
Data Converters
Switched-Capacitor
Circuits
Analog and Digital
Signal Processing
CMOS Analog
Integrated Circuits
Integrated Sensor
Interfaces
ResearchGate
Ph.D. title “The insertion loss
synthesis of communication
networks using non-ideal elements,”.
17.
18. Patents:
1. “D.C. Bias Servomethod and Apparatus for Magnetic Recording Heads,” (with P.
Bajka), U.S. Patent 3,564,160, February 1971.
2. “Variable Sample Periodic Hold Electronic Delay Network,” U.S. Patent
3,587,007, June 1971.
3. “Asymmetrical Loss-Pole Mechanical Filter,” U.S. Patent 3,725,828, April 1973.
4. “Photo Detector Input Circuit,” U.S. Patent 4,173,723, November 11, 1979.
5. “Offset Compensated Switched-Capacitor Circuits,” U.S. Patent 4,543,534,
September 1985.
6. “Pixel Non-Uniformity Correction System,” U.S. Patent, 4,602,291, July 1986.
7. “Aktives Netzwerk,” West German Patent DE3401516C2, October 1986.
8. “Switched-Capacitor Pseudo-N-Path Filter,” U.S. Patent 4,644,304, February
1987.
9. “Pipelined Digital-to-Analog Converter,” U.S. Patent 4,713,650, December 1987.
10. “Multi-Stage Sigma-Delta Analog-to-Digital Converter,” U.S. Patent 5,153,593,
October 6, 1992.
11. “High-Order Sigma-Delta Analog-to-Digital Converter,” U.S. Patent 5,198,817,
March 30, 1993.
12. “Dual-Quantization Oversampling Digital-to-Analog Converter,” U.S. Patent
5,369,403, November 29, 1994.
13. “Track-and-Hold Circuit Utilizing a Negative of the Input Signal for Tracking,”
U.S. Patent 5,689,201, November 18, 1997.
14. “Method and Apparatus for Use in Switched-Capacitor Circuits,” U.S. Patent
6,873,278, March 29, 2005; European Patent Application, May 21, 2001.
15. “Switched-Capacitor Signal Scaling Circuit” U.S. Patent 7,046,046, Oct. 13,
2005.
21. Gabor C. Temes and Sanjit
Kumar Mitra, Eds., Modern
filter theory and design. New
York, Wiley-Interscience, 1973.
Martin Hänggi and George S. Moschytz,
Eds. Cellular neural networks: analysis,
design and optimization. Springer
Science & Business Media, 2000.
George S. Moschytz,
MOS switched-capacitor
filters : analysis and
design. Eds., 1984.
Carver Mead and Mohammed
Ismail, Eds. Analog VLSI
implementation of neural systems.
vol. 80. Springer Science &
Business Media, 2012.
Mohammed Ismail
and Delia Rodríguez
de Llera González,
Eds. Radio design in
nanometer
technologies. Vol.
326. Berlin:
Springer, 2006.
22. Paul R. Gray, David A.
Hodges, and Robert W.
Brodersen, Eds. Analog MOS
integrated circuits. New York,
IEEE Press, 1980.
Paul R. Gray, Bruce A. Wooley, and Robert W.
Brodersen. Eds. Analog MOS integrated
circuits II. New York, IEEE Press, 1989.
Steven R. Norsworthy, Richard Schreier, and
Gabor C. Temes, Eds. Delta-sigma data
converters: theory, design, and simulation.
IEEE, 1997.
23. Christian C. Enz December 24th, 1957
Zürich, Switzerland
Swiss
Ph.D. Electrical Engineering, The Swiss
Federal Institute of Technology (the
École Polytechnique Fédérale de
Lausanne (EPFL)), Lausanne (EPFL),
1989. Advisor: Prof. Eric A. Vittoz
M.Sc. Electrical Engineering, The Swiss
Federal Institute of Technology, Lausanne
(EPFL), 1984.
Professor, Ecole Polytechnique Fédérale
de Lausanne (EPFL), Integrated Circuits
Laboratory (ICLAB), Switzerland.
https://people.epfl.ch/christian.enz/..en
Google Scholar (1984-present)
IEEE Author (1986-present)
(S’83-M’84-SM’11-F’19)
Research Areas:
Low-Power Analog
and RF IC Design
MEMS-Based IC
Design
Wireless Sensor
Networks
Semiconductor Device
Modeling
Noise in Devices and
Circuits
Inexact and Error
Tolerant Circuits and
Systems
Orcid
ResearchGate
Together with E. Vittoz and F. Krummenacher, he
is the developer of the EKV MOS transistor model
C. C. Enz, “High precision CMOS
micropower amplifiers,” Ph.D. thesis, No.
802, EPFL, Lausanne, 1989.
25. Eric A. Vittoz
May 9th, 1938
Lausanne, Switzerland
Swiss
Ph.D. Electrical Engineering, EPFL
(Swiss Institute of Technology
Lausanne), Switzerland, 1969. Advisor:
Prof. M. Cosandey.
M.Sc. Electrical Engineering,
Polytechnical School University of
Lausanne, (EPFL), Switzerland, 1961.
Professor, Ecole Polytechnique Fédérale
de Lausanne (EPFL), Switzerland
https
Google Scholar (1961-present)
IEEE Author (1969-present)
(A’63-M’72-SM’87-F’89-LF’04)
Research Areas:
Analog Integrated Circuits
Weak Inversion Circuits
Low Power CMOS Circuit
Design
Miniature Electronic
Devices
Electronic Watches
ResearchGate
He joined the Watchmakers Electronic
Center (CEH) in 1962 as a member of the
team that developed the first quartz watch.
His work has innovations including low-
voltage CMOS logic; circuits based on MOS
transistors operated in weak inversion, and
biology-inspired processing. Together with
C. C. Enz and F. Krummenacher, he is the
developer of the EKV MOS transistor model.
27. Distinguished Work
27 Patents
E. A. Vittoz. Low-
power crystal and
MEMS oscillators:
the experience of
watch developments.
Dordrecht, Springer,
2010.
28.
29. François Krummenacher
April 29th, 1955
Lausanne, Switzerland
Swiss
Ph.D. Electrical Engineering, Ecole
Polytechnique Fédérale de Lausanne
(EPFL), Lausanne, Switzerland, 1985,
Advisor: Roger Dessoulavy
M.Sc. Electrical Engineering, Ecole
Polytechnique Fédérale de Lausanne (EPFL),
Lausanne, Switzerland, 1979.
Professor, Ecole Polytechnique Fédérale
de Lausanne (EPFL), Switzerland.
https://people.epfl.ch/....krummenacher
IEEE Author (1979-present)
Research Areas:
CMOS Integrated
Circuits
Low Power Electronics
Frequency Convertors
Switched-Capacitor
Networks
Biomedical Electronics
Biosensors
Body Sensor Networks
Orcid
ResearchGate
PhD title “Optimisation des filtres à capacités commutées à très faible consummation”.
Translate “Optimization of switched capacitor filters with very low consumption”
31. George S. Moschytz
April 18th, 1934
Freiburg im Breisgau, Germany
Swiss
Ph.D. (Dr.sc.tech.) Electrical
Engineering, Eidgenössische Technische
Hochschule (ETH) Zürich, Switzerland
1960, Advisor: Prof. H. Weber
B.Sc. (Diplom) Electrical Engineering,
Eidgenössische Technische Hochschule
(ETH) Zürich, Switzerland 1958.
• Professor of Telecommunications and
director of the Institute of Signal and
Information Processing at (Swiss
Federal Institute of Technology ) ETH
Zurich, Switzerland (1973-1999/retired)
https://ee.ethz.ch/.../faculty/....html /
Google Scholar (1962-present)
IEEE Author (1970-present)
(M’65-SM’77-F’78-LF)
Research Areas:
CMOS Integrated
Circuits
Switched Capacitors
Filters
Adaptive Filters
Active-RC Filter
Design
Analog-Digital Signal
Processing
Network Theory
ResearchGate
32. George S. Moschytz, Analog
Circuit Theory and Filter
Design in the Digital World:
With an Introduction to the
Morphological Method for
Creative Solutions and
Design. Springer, 2019.
George S.
Moschytz,
Linear
integrated
networks:
fundamental
s. 1974.
George S. Moschytz, and P.
Horn. Active Filter Design
Handbook: For Use with
Programmable Pocket
Calculators and
Minicomputers. Chichester
[England: J. Wiley, 1981.
George S. Moschytz, Linear
integrated networks: design.
Van Nostrand Reinhold Co.,
1975