ECE 4325. Special Topics. ECE 4350. 4 Credit Hours. ECE 3043. ECE 1881. To gain an understanding of the device needs for current and future computers, and fiber optic and wireless communication systems addressing the future needs of high- frequency, GHz-range, device operation. Electromechanical and Electromagnetic Energy Conversion. Introduction to signal processing for discrete-time and continuous-time signals. To study electromagnetic interference and susceptibility of electrical systems, with application to analog and digital circuits. Credit not awarded for ECE 3150 and ECE 3060.

Credit not allowed for both ECE 4325 and ECE 6340. 5 Credit Hours. Requires a formal research report. 3 Credit Hours. Adv Malware Analysis. Analysis and design of bipolar and MOS digital integrated circuit families and their applications in modern electronic systems. ECE 4501. Special Topics. ECE 4871. Requires formal reports and group presentations. ECE 4555. A study of mathematical methods used in medical acquisition and processing. ( M ) An ability to acquire and apply new knowledge as needed, using appropriate learning strategies. 4 Credit Hours. Special Topics. 1-21 Credit Hours. ECE 4150. ECE 4012. <>/ExtGState<>/ProcSet[/PDF/Text/ImageB/ImageC/ImageI] >>/MediaBox[ 0 0 612 792] /Contents 4 0 R/Group<>/Tabs/S/StructParents 0>>

ECE 4370. Crosslisted with BMED 4784. 3 Credit Hours. ECE 4446. 4 Credit Hours. Introduces the principles of Monte Carlo techniques and network simulation, and applies them to design issues in ATM systems. Special Topics. ECE 4273. Special Topics.

Special Topics. Introduction to microelectronic processing technologies and CMOS. ECE 1901. 4 Credit Hours. 1-21 Credit Hours. Credit not allowed for both ECE 3072 and ECE 3071. Special Topics. ECE 2891. ECE 3802. ECE 4811. Credit not allowed for both ECE 2026 and ECE 2025. Filtering. 3 Credit Hours.

1 0 obj Electromagnetics. Program a microcontroller to implement a digital control algorithm, using interrupt-based timing and on-chip peripherals for interfacing. 1 Credit Hour. 3 Credit Hours.

Design, analysis, construction, modeling, and testing of circuits and systems pertaining to audio engineering. This course serves as an introduction to three-phase power systems, electromechanical energy conversion, and operating principles of electric machines. CAD tools, project design methodologies, logic synthesis, and assembly language programming. ECE 3400. ECE 4470.

Memory hierarchy, memory management, and protection. ECE 4410. ECE 3872. ECE 3080.

Undergraduate Research II. Credit not allowed for both ECE 2020 and ECE 2030. Credit not awarded for ECE 4122 and ECE 6122. ECE 3550. 3 Credit Hours. ECE 3075. This course documents student completion of ECE professional communications requirement through workshops, seminars, research projects, co/extra-curricular activities, etc. IC Fabrication. Spring 2003. ECE 4783. Mathematical Foundations of Computer Engineering. Circuits and Electronics. Special Problems. ECE 2040 [min C] Corequisites None Catalog Description Analysis and design of control systems. 1 Credit Hour.

Laboratory emphasizes computer-based signal processing.

4 Credit Hours. Analog Electronics.

ECE 4892. Undergraduate Research II. 3 Credit Hours. 3 Credit Hours. 3 Credit Hours. Discussion of engineering and computational applications. Engineering Practice and Professionalism. Credit is not allowed for both ECE 4130 and ECE 6130. 3 Credit Hours. Special Problems. stream Special Problems. 1 Credit Hour.

Processes, threads, CPU scheduling, and associated techniques. 3 Credit Hours. The GTA for the class is Roger Liang. 1-21 Credit Hours. Laser Theory and Applications. However the class material is both straightforward, interesting, and easy if you put in the effort. Internetworking skills for design and implementation of hardware and software Internet products. 1-21 Credit Hours.

Methods of analysis and design of audio power amplifiers. ECE 4795. Special Topics. Development of effective algorithms and their implementation by object-oriented code. ECE 3060. Basic digital telecommunications systems are examined in a laboratory setting using electronic modules, covering concepts such as modulation, channel coding, AWGN, eye diagrams, and BER. Second semester of ECE culminating design sequence. Feedback Control Systems.

Analysis and design of control systems. First semester of ECE culminating design sequence. Wireless Communications. Power System Analysis and Control. ECE 3894. 3 Credit Hours. ECE 2811.

Electrical Energy Systems. ECE 4147. 3 Credit Hours.

3 Credit Hours. 1 Credit Hour. Includes basic estimation theory, linear prediction, and statistical modeling. ECE 4445. Special Topics.

Special Topics. ECE 3901.

1-12 Credit Hours.

An advanced treatment of VLSI systems analysis, design, and testing with emphasis on complex systems and how they are incorporated into a silicon environment. Measurements, Circuits, and Microelectronics Laboratory. You get to do more 2036 style projects but they are easier in the sense that you are given enough resources to get them done without too much pain and suffering and the projects are open ended with the general goal at the end being able to control something wirelessly (bluetooth, HTTP, RPC over serial, etc) and have it do something unique. Introduction to state space formulation, continuous and discrete. ECE 3903. Includes major project. Credit not allowed for both ECE 2036 and ECE 3090. Fundamentals learned in RF-I are employed to design the elements of radio receivers, transmitters, and similar systems. Experimentation to develop a practical understanding of antennas and their properties.

ECE4575 Course Syllabus ECE4575 Numerical Methods for Optimization and Optimal Control (3-0-0-3) CMPE Degree This course is Elective for the CMPE degree. Introduction to Automation and Robotics. Textbook(s) 3 Credit Hours.

Non-renewable and renewable/sustainable energy sources. 1-21 Credit Hours. 4 Credit Hours. 1-21 Credit Hours. Course Syllabus. ���T���H�J��b�1��Ӯgb Analytical methods for modeling biological systems, including white-noise protocols for characterizing nonlinear systems. ECE 4180. Digital System Design.

2 Credit Hours. Special Topics. 4 0 obj Special Topics. ECE 3815. Properties of semiconductor devices.

( P ) An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics, ( LN ) An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors, ( LN ) An ability to communicate effectively with a range of audiences, ( LN ) An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts, ( M ) An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives, ( M ) An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions. 3 Credit Hours. Special Topics. Requires formal reports and group presentations. Basic concepts of DC and AC circuit theory and analysis.

Introduction to Medical Image Processing. 3 Credit Hours.

ECE 3077. 3 Credit Hours. Advanced digital design issues in the context of VLSI systems. Laplace and Z-Transforms.

Z Transform. %���� 4 Credit Hours. 1 Credit Hour. Machine learning and data science in networks or other emerging topics.

Design Synthesis of Application-specific Signal Processors. ECE 4415. ECE 2030. Textbook(s)

Power Electronics. 2 Credit Hours. ECE 2026. ( P ) An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics, ( M ) An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors, ( LN ) An ability to communicate effectively with a range of audiences, ( LN ) An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts, ( LN ) An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives, ( LN ) An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions. Special Problems. ECE 4782. 3 Credit Hours.

ECE 3041. Design, analysis, simulation, implementation, and evaluation of advanced electronic circuits.

( P ) An ability to acquire and apply new knowledge as needed, using appropriate learning strategies. ECE 2045. ECE 4175.

Focus on hands-on, team-based activities using robotics.

Graphical design techniques. Practical Skills and Design. Analysis, design, and control of mobile robots and manipulators. Credit not allowed for both ECE 3071 and ECE 3072. Courses Taught in Princeton University: Spring 2007: MAE 306 Engineering Mathematics (junior level) Engineering Electrophysiology. <> Develop a state-space model for a given physical system, and use it to analyze the system?s response and to characterize the system?s stability.

ECE 4803. Advanced Computer Architecture.

Semiconductor Devices for Computer Engineering and Telecommunication Systems. Antenna Engineering Laboratory. Network Design and Simulation. ECE 2802. Electronic Packaging Substrate Fabrication. ECE 1814. Credit will not be awarded for ECE 4612 and ECE 4602. 4 Credit Hours. ECE 4752. Engineering ethics, design tools, financial and economic principles, project management, probabilistic and statistical techniques, and decision making. 1-21 Credit Hours. ECE 4903. 3 Credit Hours.

Programming design projects. Laplace transforms, transfer functions, and stability.