Timeroom: Fall 2024

Displaying 21 - 30 of 71 Results for: Subject = ECE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 602 (01) - Engineering Analysis

Engineering Analysis

Credits: 3.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   60  
CRN: 11186
Analyze and solve engineering problems using linear algebra and integral and differential calculus of functions of several variables. Boundary-value problems in mechanics, fluid dynamics, and electrostatics. Examination of electrostatics, magnetostatics, and fluid and wave mechanics using vector differential and integral calculus. Introduction of approximation and error analysis methods as fundamental engineering tools.
Prerequisite(s): MATH 527 and MATH 645 May be taken concurrently
Instructors: Wayne Smith
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 11:10am - 12:00pm KING N343
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 617 (05) - Junior Laboratory I

Junior Laboratory I

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 16334
Application of laboratory instrumentation to the investigation of active and passive circuit characteristics; introduction to computer-aided design, analysis, and testing; development of report writing and oral presentation skills.
Department Approval Required. Contact Academic Department for permission then register through Webcat.
Prerequisite(s): ECE 633 May be taken concurrently and ECE 651 May be taken concurrently
Attributes: Writing Intensive Course
Instructors: STAFF
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 633 (01) - Signals and Systems I

Signals and Systems I

Credits: 3.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   45  
CRN: 10576
Mathematical characterization of continuous-time systems using time- and frequency-domain concepts. Properties of linear systems described by ordinary differential equations. Fourier analysis of signals and system frequency response functions. Applications to communication and control systems. Introduction to system simulation using computer methods.
Prerequisite(s): MATH 527 and MATH 645 May be taken concurrently
Equivalent(s): ECE 633H
Instructors: Se Young Yoon
Start Date End Date Days Time Location
8/26/2024 12/9/2024 TR 11:10am - 12:30pm KING N328
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 633H (01) - Honors/Signals and Systems I

Honors/Signals and Systems I

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   5  
CRN: 10577
Mathematical characterization of continuous-time systems using time- and frequency-domain concepts. Properties of linear systems described by ordinary differential equations. Fourier analysis of signals and system frequency response functions. Applications to communication and control systems. Introduction to system simulation using computer methods. Honors students will attend an additional one-hour meeting each week.
Prerequisite(s): MATH 527 and MATH 645 May be taken concurrently
Attributes: Honors course
Instructors: Se Young Yoon
Start Date End Date Days Time Location
8/26/2024 12/9/2024 TR 11:10am - 12:30pm KING N328
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 651 (01) - Electronic Design II

Electronic Design II

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   10  
CRN: 16623
Design of fundamental circuit blocks in electronic systems. Multistage amplifiers; feedback systems and stability; power amplifiers. Nonlinear electronic circuits: oscillators, function generators; clippers and peak detectors; A/D and D/A conversion. Switching mode and logic circuits.
Department Approval Required. Contact Academic Department for permission then register through Webcat.
Prerequisite(s): ECE 548
Instructors: STAFF
Start Date End Date Days Time Location
8/26/2024 12/9/2024 Hours Arranged TBA
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 652 (01) - Electronic Design II

Electronic Design II

Credits: 6.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 14662
Design of fundamental circuit blocks in electronic systems. Multistage amplifiers; feedback systems and stability; power amplifiers. Laboratory exercises in the design and analysis of active circuits. Application of laboratory instrumentation to the investigation of active circuit characteristics; computer-aided design, analysis, and testing; development of report writing skills. This course is required of EE majors, but it is not required of CE majors.
Prerequisite(s): ECE 548
Instructors: Edward Song
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 3:10pm - 4:00pm KING N121
8/26/2024 12/9/2024 T 8:10am - 11:00am KING S220
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 652 (02) - Electronic Design II

Electronic Design II

Credits: 6.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 16335
Design of fundamental circuit blocks in electronic systems. Multistage amplifiers; feedback systems and stability; power amplifiers. Laboratory exercises in the design and analysis of active circuits. Application of laboratory instrumentation to the investigation of active circuit characteristics; computer-aided design, analysis, and testing; development of report writing skills. This course is required of EE majors, but it is not required of CE majors.
Prerequisite(s): ECE 548
Instructors: Edward Song
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 3:10pm - 4:00pm KING N121
8/26/2024 12/9/2024 W 8:10am - 11:00am KING S220
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 652 (03) - Electronic Design II

Electronic Design II

Credits: 6.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 16336
Design of fundamental circuit blocks in electronic systems. Multistage amplifiers; feedback systems and stability; power amplifiers. Laboratory exercises in the design and analysis of active circuits. Application of laboratory instrumentation to the investigation of active circuit characteristics; computer-aided design, analysis, and testing; development of report writing skills. This course is required of EE majors, but it is not required of CE majors.
Prerequisite(s): ECE 548
Instructors: Edward Song
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 3:10pm - 4:00pm KING N121
8/26/2024 12/9/2024 R 8:10am - 11:00am KING S222
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 714 (01) - Introduction to Digital Signal Processing

Intro Digital Signal Process

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   19  
CRN: 10580
Introduction to digital signal processing theory and practice, including coverage of discrete time signals and systems, frequency domain transforms and practical spectral analysis, digital filter terminology and design, and sampling and reconstruction of continuous time signals. Laboratory component providing an introduction to DSP design tools and real-time algorithm implementation. Lab.
Prerequisite(s): ECE 634
Cross listed with : ECE 814.01
Instructors: STAFF
Start Date End Date Days Time Location
8/26/2024 12/9/2024 TR 2:10pm - 3:30pm MURK 102
8/26/2024 12/9/2024 R 3:40pm - 6:00pm KING S324
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 715 (01) - Introduction to VLSI

Introduction to VLSI

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   19  
CRN: 13158
Principles of VLSI (Very Large Scale Integration) systems at the physical level. CMOS circuit and logic design, CAD tools, CMOS system case studies. Students exercise the whole development cycle of a VLSI chip: design and layout with the up-to-date commercial EDA tools. An IA (continuous grading) grade is given at the end of semester I. Lab.
Cross listed with : ECE 815.01
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 11:10am - 12:00pm KING N133
8/26/2024 12/9/2024 F 5:10pm - 7:00pm KING S324