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Electrical Engineering

http://catalog.drexel.edu/undergraduate/collegeofengineering/electricalengineering/

...Credits COOP EXPERIENCE COOP EXPERIENCE ECE 303 3.0 ECE elective 3.0 MATH 221...

Computer Engineering

http://catalog.drexel.edu/undergraduate/collegeofengineering/computerengineering/

...EXPERIENCE ECE 303 3.0 General Education elective 3.0 MATH 291 4.0 ECE...

Business and Engineering

http://catalog.drexel.edu/undergraduate/collegeofbusiness/businessandengineering/

...Engineering: ECE 105 , ECE 200 , ECE 201 , and any two of ( ECE 301 , ECE 303...

ECE 303 ECE Laboratory 3.0 Credits

This course has an emphasis on measurement systems, and develops both theory and application. The software and digital and analog hardware used are relevant to both electrical and computer engineers. Multi-week design projects and design teams are used to prepare students for Senior Design work.

College/Department: College of Engineering
Repeat Status: Not repeatable for credit
Prerequisites: ECE 301 [Min Grade: D] or ECE 201 [Min Grade: D] and (ENGR 103 [Min Grade: D] or ENGR 113 [Min Grade: D])

ECEL 303 ECE Laboratory III 2.0 Credits

Offers laboratory experiences in each of the five ECE tracks: computers, controls/robotics, electronics, power and energy, and telecommunications. Each lab consists of a stand-alone module containing: lecture material providing basic theory, references, and laboratory experiments.

College/Department: College of Engineering
Repeat Status: Not repeatable for credit
Restrictions: Cannot enroll if classification is Freshman
Prerequisites: ECEL 302 [Min Grade: D]

ECES 303 Signals and Systems II 3.0 Credits

This course introduces Laplace & Z-transforms & their corresponding region of convergence as extensions of Fourier transform (FT) to deal with signals & systems (continuous & discrete) with no FT. It also covers the fundamentals of the highly used discrete Fourier transforms (DFT) and its fast computation. The fast Fourier transform (FFT) is also presented to digitize the FT of discrete signals. Optimal, uniform, & compandor quantizer, which complements the sampler, are also introduced to discretize the signal’s range for achieving full digitization of the signal (the digitizer). To close the loop, all FT, regular and generalized, continuous & discrete are tied together.

College/Department: College of Engineering
Repeat Status: Not repeatable for credit
Prerequisites: ECE 361 [Min Grade: D], BMES 310 [Min Grade: D] (Can be taken Concurrently)(ECES 301 [Min Grade: D] or ECES 302 [Min Grade: D])

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