| ECE 301 |
Linear Systems |
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Representation and analysis of linear systems using differential equations: impulse response and convolution, Fourier series, and Fourier and Laplace transformations for discrete time and continuous time signals. Emphasis on interpreting system descriptions in terms of transient and steady-state response. Digital signal processing. |
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| Pre-Requisites: | C- or better in ECE 211 and ECE 220. |
| Co-Requisites: | None |
| Restrictions: | None |
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Credits: 3
Summer I '12 Instructors: Alexander S
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| ECE 301 |
Linear Systems |
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Representation and analysis of linear systems using differential equations: impulse response and convolution, Fourier series, and Fourier and Laplace transformations for discrete time and continuous time signals. Emphasis on interpreting system descriptions in terms of transient and steady-state response. Digital signal processing. |
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| Pre-Requisites: | C- or better in ECE 211 and ECE 220. |
| Co-Requisites: | None |
| Restrictions: | None |
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Credits: 3
Summer I '12 Instructors: Alexander S
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| ECE 303 |
Electromagnetic Fields |
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This course prepared the students to formulate and solve electromagnetic problems relevant to all fields of electrical and computer engineering and that will find application in subsequent courses in RF circuits, photonics, microwaves, wireless networks, computers, bioengineering, and nanoelectronics. Primary topics include static electric and magnetic fields, Maxwell's equations and force laws, wave propagation, reflection and refraction of plane waves, transient and steady-state behavior of waves on transmission lines. Restriction: EE and CPE Majors Only. |
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| Pre-Requisites: | A grade of C- of better in ECE 211 and ECE 220 |
| Co-Requisites: | None |
| Restrictions: | None |
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Credits: 3
Summer I '12 Instructors: Alexander S
Spring '12 Instructors: Escuti M
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| ECE 421 |
Introduction to Signal Processing |
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Concepts of electrical digital signal processing: Discrete-Time Signals and Systems, Z-Transform, Frequency Analysis of Signals and Systems, Digital Filter Design. Analog-to Digital-to-Analog Conversion, Discrete Fourier Transform. To major design projects. |
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| Pre-Requisites: | ECE 301 |
| Co-Requisites: | None |
| Restrictions: | Department Consent Required |
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Credits: 3
Spring '12 Instructors: Alexander S
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| ECE 421 |
Introduction to Signal Processing |
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Concepts of electrical digital signal processing: Discrete-Time Signals and Systems, Z-Transform, Frequency Analysis of Signals and Systems, Digital Filter Design. Analog-to Digital-to-Analog Conversion, Discrete Fourier Transform. To major design projects. |
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| Pre-Requisites: | ECE 301 |
| Co-Requisites: | None |
| Restrictions: | Department Consent Required |
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Credits: 3
Spring '12 Instructors: Alexander S
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