Timeroom: Fall 2024

Displaying 11 - 20 of 70 Results for: Subject = ECE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 537 (06) - Introduction to Electrical Engineering

Intro Electrical Engineering

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   24  
CRN: 12205
Fundamentals of electrical engineering. Topics are circuit elements; signal waveforms; circuit laws and theorems; transfer functions; free, forced, and steady state responses; power calculations; amplifiers; and magnetic circuits. Lab.
Prerequisite(s): (PHYS 408 or PHYS 408S or PHYS 408H) and MATH 527 May be taken concurrently
Instructors: Wayne Smith
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 1:10pm - 2:00pm MCC 240
8/26/2024 12/9/2024 W 5:40pm - 7:30pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 541 (01) - Electric Circuits

Electric Circuits

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 10572
Linear passive circuits beginning with resistive circuits, power and energy relations, mesh and node analysis. Transient and steady-state behavior of simple circuits containing energy storage elements (capacitors, inductors). Introduction to linear active circuits using dependent source models and ideal op amps. Introduction to transfer function and frequency response concepts. Lab.
Prerequisite(s): MATH 426 May be taken concurrently and (PHYS 408 May be taken concurrently or PHYS 408S May be taken concurrently or PHYS 408H May be taken concurrently)
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 10:10am - 11:00am KING N101
8/26/2024 12/9/2024 M 1:10pm - 3:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 541 (02) - Electric Circuits

Electric Circuits

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 10570
Linear passive circuits beginning with resistive circuits, power and energy relations, mesh and node analysis. Transient and steady-state behavior of simple circuits containing energy storage elements (capacitors, inductors). Introduction to linear active circuits using dependent source models and ideal op amps. Introduction to transfer function and frequency response concepts. Lab.
Prerequisite(s): MATH 426 May be taken concurrently and (PHYS 408 May be taken concurrently or PHYS 408S May be taken concurrently or PHYS 408H May be taken concurrently)
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 10:10am - 11:00am KING N101
8/26/2024 12/9/2024 T 9:10am - 11:00am KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 541 (03) - Electric Circuits

Electric Circuits

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 10571
Linear passive circuits beginning with resistive circuits, power and energy relations, mesh and node analysis. Transient and steady-state behavior of simple circuits containing energy storage elements (capacitors, inductors). Introduction to linear active circuits using dependent source models and ideal op amps. Introduction to transfer function and frequency response concepts. Lab.
Prerequisite(s): MATH 426 May be taken concurrently and (PHYS 408 May be taken concurrently or PHYS 408S May be taken concurrently or PHYS 408H May be taken concurrently)
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 10:10am - 11:00am KING N101
8/26/2024 12/9/2024 W 1:10pm - 3:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 541 (04) - Electric Circuits

Electric Circuits

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 14817
Linear passive circuits beginning with resistive circuits, power and energy relations, mesh and node analysis. Transient and steady-state behavior of simple circuits containing energy storage elements (capacitors, inductors). Introduction to linear active circuits using dependent source models and ideal op amps. Introduction to transfer function and frequency response concepts. Lab.
Prerequisite(s): MATH 426 May be taken concurrently and (PHYS 408 May be taken concurrently or PHYS 408S May be taken concurrently or PHYS 408H May be taken concurrently)
Instructors: Nicholas Kirsch
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 10:10am - 11:00am KING N101
8/26/2024 12/9/2024 W 11:10am - 1:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (01) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 10573
Fundamental analysis and design principles. Number systems, codes, Boolean algebra, and combinational and sequential digital circuits. Lab: student-built systems using modern integrated circuit technology and an introductory design session on a CAD workstation. Lab.
Instructors: Richard Messner
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 9:10am - 10:00am KING S145
8/26/2024 12/9/2024 M 1:10pm - 3:00pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (02) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 10574
Fundamental analysis and design principles. Number systems, codes, Boolean algebra, and combinational and sequential digital circuits. Lab: student-built systems using modern integrated circuit technology and an introductory design session on a CAD workstation. Lab.
Instructors: Richard Messner
Start Date End Date Days Time Location
8/26/2024 12/9/2024 W 1:10pm - 3:00pm KING S216
8/26/2024 12/9/2024 MWF 9:10am - 10:00am KING S145
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (03) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 10575
Fundamental analysis and design principles. Number systems, codes, Boolean algebra, and combinational and sequential digital circuits. Lab: student-built systems using modern integrated circuit technology and an introductory design session on a CAD workstation. Lab.
Instructors: Richard Messner
Start Date End Date Days Time Location
8/26/2024 12/9/2024 R 9:10am - 11:00am KING S216
8/26/2024 12/9/2024 MWF 9:10am - 10:00am KING S145
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (04) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 11184
Fundamental analysis and design principles. Number systems, codes, Boolean algebra, and combinational and sequential digital circuits. Lab: student-built systems using modern integrated circuit technology and an introductory design session on a CAD workstation. Lab.
Instructors: Richard Messner
Start Date End Date Days Time Location
8/26/2024 12/9/2024 T 9:10am - 11:00am KING S216
8/26/2024 12/9/2024 MWF 9:10am - 10:00am KING S145
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 583 (01) - Designing with Programmable Logic

FPGA Design

Credits: 6.0
Term: Fall 2024 - Full Term (08/26/2024 - 12/09/2024)
Grade Mode: Letter Grading
Class Size:   22  
CRN: 16333
This course covers topics related to field programmable logic devices. Students will be introduced to Hardware Description Language (HDL) design entry languages and simulation procedures, along with common logic synthesis tools. In laboratory exercises, each student will prototype a digital system starting with HDL entry, functional and timing simulations, logic synthesis, device programming, logic probing, and system verification. Labs will develop report writing skills. This course is required for CE majors and optional for EE majors.
Prerequisite(s): ECE 543 and ECE 562
Cross listed with : ECE 796.01
Instructors: Diliang Chen
Start Date End Date Days Time Location
8/26/2024 12/9/2024 MWF 2:10pm - 3:00pm KING N328
8/26/2024 12/9/2024 T 3:10pm - 6:00pm KING S324