Timeroom: Spring 2022

Displaying 1 - 10 of 61 Results for: Subject = ECE
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (01) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 50649
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 M 3:10pm - 5:00pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (02) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 50650
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 W 3:10pm - 5:00pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (03) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 50651
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 F 10:10am - 12:00pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (04) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 51224
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 T 3:40pm - 5:30pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (05) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 51718
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 R 3:40pm - 5:30pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 543 (06) - Introduction to Digital Systems

Intro to Digital Systems

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   12  
CRN: 52461
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.
Equivalent(s): EE 543
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 1:10pm - 2:00pm PARS N104
1/25/2022 5/9/2022 R 10:10am - 12:00pm KING S216
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 548 (01) - Electronic Design I

Electronic Design I

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 50652
Introduction to electronic design for analog signal processing. Linear op amp circuits for amplification and filtering. Use of Laplace techniques for filter specification; simple passive and op amp filter realizations. Discrete active devices (FET and BJT): operating characteristics, biasing considerations, canonical amplifier configurations including differential amplifiers. Prereq: ECE 541. Lab.
Equivalent(s): EE 548
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 10:10am - 11:00am KING N343
1/25/2022 5/9/2022 M 1:10pm - 3:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 548 (02) - Electronic Design I

Electronic Design I

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 50653
Introduction to electronic design for analog signal processing. Linear op amp circuits for amplification and filtering. Use of Laplace techniques for filter specification; simple passive and op amp filter realizations. Discrete active devices (FET and BJT): operating characteristics, biasing considerations, canonical amplifier configurations including differential amplifiers. Prereq: ECE 541. Lab.
Equivalent(s): EE 548
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 10:10am - 11:00am KING N343
1/25/2022 5/9/2022 T 2:10pm - 4:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 548 (03) - Electronic Design I

Electronic Design I

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   20  
CRN: 50655
Introduction to electronic design for analog signal processing. Linear op amp circuits for amplification and filtering. Use of Laplace techniques for filter specification; simple passive and op amp filter realizations. Discrete active devices (FET and BJT): operating characteristics, biasing considerations, canonical amplifier configurations including differential amplifiers. Prereq: ECE 541. Lab.
Equivalent(s): EE 548
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Hoda Pahlevanzadeh
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 10:10am - 11:00am KING N343
1/25/2022 5/9/2022 R 2:10pm - 4:00pm KING S245
Durham   Engineering&Physical Sciences :: Electrical&Comp Engineering

ECE 562 (01) - Computer Organization

Computer Organization

Credits: 4.0
Term: Spring 2022 - Full Term (01/25/2022 - 05/09/2022)
Grade Mode: Letter Grading
Class Size:   35  
CRN: 50845
Basic computer structure, including arithmetic, memory, control, and input/output units; the trade-offs between hardware, instruction sets, speed, and cost. Laboratory experiments involving machine language programming and I/O interfacing using microcomputers. Prereq: CS 410 or CS 415; ECE 543. Lab.
Only listed colleges in section: Engineering&Physical Sciences
Instructors: Diliang Chen
Start Date End Date Days Time Location
1/25/2022 5/9/2022 MWF 9:10am - 10:00am KING N343
1/25/2022 5/9/2022 W 6:40pm - 8:30pm KING S324