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University-level engineering course syllabus outlining objectives, content, laboratory work, and instructional outcomes for a microwave engineering elective.
Course:
EEE 445 Microwaves
Credits and Contact Hours:
4 Credit Hours (lecture, lab)
Topics:
Engineering
Course Coordinator:
Dr. George Pan, Professor
Textbook:
D.M. Pozar, Microwave Engineering, Addison-Wesley, 1990
Supplemental materials:
R.S. Elliott, An Introduction to Guided Waves and Microwave Circuits, Prentice-Hall, 1993; R.E. Collin, Foundations for Microwave Engineering, McGraw-Hill, 1996; D.K. Chen, Field and Wave Electromagnetics, Addison-Wesley, 1989; Ramo, Whinnery, and Vanducer, Fields and Waves in Communication Electronics
Catalog description:
Waveguides; circuit theory for waveguiding systems; microwave devices, systems, and energy sources; striplines and microstrips; impedance matching transformers; measurements
Prerequisites or co-requisites:
EEE341
Course type:
Elective
Specific goals:
To acquaint students with microwave circuits and systems
Outcomes of instruction:
Skills to identify and solve problems including microwave circuits and systems such as microstrip lines, couplers, hybrids, and waveguides
Outcomes of Criterion 3:
Use of math and engineering principles; use of modern tools for simulation; lab experiments and testing
Topics covered:
Transmission lines and waveguides; microstrip and striplines; microwave network analysis; matching techniques; multisection and tapered matching; resonators; dividers, couplers, hybrids; active microwave circuits; microwave systems and applications
Computer usage:
Design project and simulation including hybrid couplers, coupled lines, matching networks
Laboratory experiments:
Weekly three-hour laboratory; network analyzers; bandpass filter; isolator and circulator microstrip line; microcircuit bandpass filter; time domain measurement; power measurement; cavity and resonator
Course contribution:
Design, simulation and testing of basic microwave circuits including matching circuits, couplers, and resonators
Prepared by:
George Pan, Jim Aberle, K. Tsakalis
Date of preparation:
June 2021
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Year:
20XX
Region / City:
Pasadena, CA, USA
Subject:
Guidelines for manuscript preparation
Document type:
Instructional document
Organization / Institution:
IEEE, NASA Jet Propulsion Laboratory
Author:
F. A. AUTHOR1, B. AUTHOR2, C. AUTHOR1,2,3
Target Audience:
Authors preparing manuscripts for IEEE Journal of Microwaves
Date of approval:
Not specified
Date of changes:
Not specified
Year:
2023/2024; 2024/2025
Country:
Italy
City:
Rome
Institution:
Tor Vergata University of Rome
Faculty:
Faculty of Economics
Degree Programme:
MSc European Economy and Business Law
Type of Document:
Self-declaration form
Legal Basis:
Art. 46 and Art. 76 of D.P.R. 445 of 28.12.2000
EU Regulation Reference:
EU Regulation 2016/679 (Art. 13)
Purpose:
Declaration of enrolment status and eligibility for 2 EEBL first year prizes
Programme Duration Options:
2–6 years
Degree Regulation Reference:
ante D.M. 509/99; D.M. 509/99; D.M. 270/04
Data Processing Scope:
Processing of personal data for prize awarding procedures
Required Signatures:
Declarant signature; acknowledgment of data processing information
Place and Date:
To be completed by declarant
Year:
2026
Month:
February
Course:
ECE 445 Senior Design
Academic Institution Context:
Electrical and Computer Engineering capstone project
Project Number:
11
Project Group:
Group 11
Teaching Assistant:
Zhuoer Zhang
Authors:
Matthew Jin; Timothy Fong; Ved Tiwari
Document Type:
Engineering project proposal
Project Type:
Combat robotics design project
Competition Category:
2-lb BattleBot / antweight class
Primary System:
Autonomous or remotely controlled combat robot
Subsystems:
Mechanical subsystem; Power subsystem; Microcontroller subsystem; Protection subsystem
Main Components:
BDC motors; urethane wheels; IMU sensors; LiPo 4S battery pack; voltage regulator / buck converter; Adafruit ESP32 Feather V2 microcontroller
Communication Method:
Wireless control via Wi-Fi webserver and WebSocket connection
Software Environment:
Arduino IDE
Communication Protocol:
SPI (Serial Peripheral Interface)
Sensors:
Accelerometer; gyroscope; current sensors; voltage sensors
Power Specification:
14.8 V LiPo battery stepped down to 12 V and 3.3 V
Design Constraints:
2-lb weight limit; antweight competition rules prohibiting metal components in certain contexts
Purpose:
Design and implementation plan for a competitive battle robot
Year:
2026
Region / City:
United States
Theme:
Engineering Design, Robotics
Document Type:
Project Proposal
Organization / Institution:
University of Illinois at Urbana-Champaign
Author:
Carson Sprague, Ian Purkis, Gage Gathman
Target Audience:
Engineering students, academic supervisors
Period of Validity:
Spring 2026
Approval Date:
01 May 2026
Revision Date:
N/A
Year:
2025
Region / city:
Noordwijk, The Netherlands
Topic:
Radiation hardness assurance for EEE components
Document type:
Standard
Organization / institution:
European Space Agency (ESA), ECSS Secretariat
Author:
Radiation Hardness Assurance Working Group
Target audience:
Space industry professionals, engineers, and project managers in space missions
Effective period:
Ongoing
Approval date:
1 October 2012
Amendment date:
20 March 2025
Year:
2022
Region / City:
Noordwijk, The Netherlands
Topic:
Space Product Assurance, Standards for Electrical Components
Document Type:
Technical Standard
Organization / Institution:
European Space Agency (ESA)
Author:
ECSS-Q-ST-60-13C Working Group
Target Audience:
Engineers, Space Industry Professionals
Period of Validity:
Ongoing
Approval Date:
21 October 2013
Revision Date:
12 May 2022
Course:
EEE 459 Communication Networks
Credits and Contact Hours:
3 Credit Hours (lecture)
Topics:
Engineering
Course Coordinator:
Dr. Martin Reisslein, Professor
Textbook:
James F. Kurose and Keith W. Ross, Computer Networking, A Top-Down Approach, 5th Edition, 2010, Addison-Wesley, ISBN 0-13-607967-9
Supplemental Materials:
Behrouz A. Forouzan, Data Communications and Networking, 5th Edition, 2013; Andrew S. Tanenbaum, Computer Networks, 5th Edition, 2010; Dimitri Bertsekas and Robert Gallager, Data Networks, 2nd Edition, 1992
Catalog Description:
Fundamentals of communication networks and Five-Layer Internet model
Prerequisites:
EEE 203; pre-/co-requisite EEE 350
Course Type:
Elective
Specific Goals:
Identification and relation of fundamental components of a communication network
Instructional Outcomes:
Knowledge of protocol requirements and analysis of functional parameters in protocol design
Criterion 3 Outcomes:
Engineering and mathematical problem solving; analysis and modeling of communication systems
Topics Covered:
Internet overview; application, transport, network, link, and wireless layers; routing; congestion control; Ethernet; WiFi 802.11
Laboratory Experiments:
None
Computer Usage:
Web-based applets and online networking tools
Course Contribution to Engineering Science and Design:
Design and evaluation of networking protocols and local area networks
Prepared By:
Martin Reisslein, K. Tsakalis
Date of Preparation:
June 2021
Year:
2026
Institution:
University College London, Department of Electronic and Electrical Engineering
Document Type:
Project Proposal Form
Target Audience:
Undergraduate and MSc students in Electronic and Electrical Engineering
Project Scope:
Technical and applied engineering projects across multiple specializations
Contact Persons:
Dr Oliver Hadeler (Undergraduate Research Project Module Lead), Prof. Miguel Rio (MSc Director), Dr Robert Thompson (Strategic Alliance Director)
Application Areas:
Semiconductor devices, Quantum Devices, Optoelectronics, Laser Devices, Photovoltaics, Sensor Systems, Computer Vision, Radar, RF and THz systems, Optical Networks, Wireless Networks, Signal Processing, AI Applications
Industry Focus:
Smart and immersive environments, Robotics & Autonomous Systems, Connected and Autonomous Vehicles, Health and Wellbeing, Sustainability and Green Technologies, Secure and Resilient Technologies, Communication Networks including 5G
Year:
2013
Region / City:
Pune, India
Theme:
Software Testing, IT
Document Type:
Resume
Organization / Institution:
Perscitus Solutions Pvt. Ltd.
Author:
Niharendu Garnayak
Target Audience:
Employers in IT, Recruitment Agencies
Period of Activity:
2015 - Present
Date of Approval:
Not specified
Date of Changes:
Not specified
Year:
2026
Region / City:
Not specified
Subject:
Electrical Engineering, VLSI Design
Document Type:
Course Syllabus
Institution:
University / Department of Electrical and Electronic Engineering
Instructor / Author:
Not specified
Prerequisites:
EEE525, basic knowledge of Verilog, RTL synthesis, APR, static timing analysis
Target Audience:
Graduate students in Electrical Engineering
Course Duration:
One semester
Topics Covered:
Device variability, advanced devices impact, SRAM design, microprocessor microarchitecture, low power design, domino circuits, cache and buffer design, clocking, device reliability