EE Program Student Advising Prof. Michael Green These slides can be found at:

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Presentation transcript:

EE Program Student Advising Prof. Michael Green These slides can be found at:

EE Program Outcomes a.An ability to apply knowledge of mathematics through probability; differential & integral calculus; differential equations; linear algebra; complex variables; and science and engineering in the context of electrical engineering problems.

EE Program Outcomes b.An ability to design and conduct scientific and engineering experiments, as well as to analyze and interpret data.

EE Program Outcomes c.An ability to design systems that meet desired needs within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability.

EE Program Outcomes d.An ability to function in multi-disciplinary teams.

EE Program Outcomes e.An ability to identify, formulate, and solve current and emerging electrical engineering problems, including the development of preliminary estimates and final plans, specifications, and designs; and the implementation and operation of systems components and processes that meet performance, cost, time, safety, and quality requirements.

EE Program Outcomes f.An understanding of professional and ethical responsibility.

EE Program Outcomes g.An ability to effectively communicate technical material both orally and in writing.

EE Program Outcomes h.The broad education and the knowledge of contemporary issues necessary to understanding of the impact of electrical engineering solutions in a global and societal context.

EE Program Outcomes i.A recognition of the need for, and an ability to engage in, life-long learning.

EE Program Outcomes j.A knowledge of contemporary issues.

EE Program Outcomes k.An ability to use modern engineering techniques, skills, and computer-based tools for analysis and design.

BSEE Requirements Math/Science courses Engineering topics courses: ENGR54 or ENGR80, EECS10, EECS31, EECS31L, EECS70A, EECS70B and EECS70LB, EECS140, EECS150A, EECS150B, EECS160A, EECS160LA, EECS170A, EECS170LA, EECS170B, EECS170LB, EECS170C, EECS170LC, EECS170D (or EECS115), EECS180, EECS189A-B Technical electives… Math/Science courses Engineering topics courses: ENGR54 or ENGR80, EECS10, EECS31, EECS31L, EECS70A, EECS70B and EECS70LB, EECS140, EECS150A, EECS150B, EECS160A, EECS160LA, EECS170A, EECS170LA, EECS170B, EECS170LB, EECS170C, EECS170LC, EECS170D (or EECS115), EECS180, EECS189A-B Technical electives…

Specializations Electro-optics & Solid-State Devices 11 units selected from EECS170D, EECS174, EECS175A-B, EECS187, EECS188, EECS198), EECS199 or EECSH199 Power Electronics 12 units selected from EECS160B, EECS161, EECS161L, EECS163, EECS163L, EECS166A, EECS166B, EECS199 or EECSH199 Systems & Signal Processing 12 units selected from EECS101, EECS141A, EECS141B, EECS152A, EECS152B, EECS160B, EECS163, EECS163L, EECS198, or EECS199 or EECSH199 Electro-optics & Solid-State Devices 11 units selected from EECS170D, EECS174, EECS175A-B, EECS187, EECS188, EECS198), EECS199 or EECSH199 Power Electronics 12 units selected from EECS160B, EECS161, EECS161L, EECS163, EECS163L, EECS166A, EECS166B, EECS199 or EECSH199 Systems & Signal Processing 12 units selected from EECS101, EECS141A, EECS141B, EECS152A, EECS152B, EECS160B, EECS163, EECS163L, EECS198, or EECS199 or EECSH199

Electro-Optics & Solid-State Devices Cross-section of optical fiber (Prof. Henry Lee) CMOS distributed amplifier schematic Prof. Michael Green

Power Electronics Switching power amplifier Prof. Keyue Smedley

Systems & Signal Processing Computer vision Prof. Glenn Healey

EE Senior Design (EECS189A/B) 2-quarter culminating design project during Fall & Winter Groups of 2 or 3 students work with a faculty mentor Each group finishes by delivering an oral presentation, poster presentation, and written final report 2-quarter culminating design project during Fall & Winter Groups of 2 or 3 students work with a faculty mentor Each group finishes by delivering an oral presentation, poster presentation, and written final report

EE Senior Design Sample Projects General Coverage Superheterodyne Transistor Radio Receiver Optical wireless Digital Radio Wireless Sensor Systems Electrical readout circuitry for nanotube electrochemistry Design and implementation of a digital temperature controller Digital Audio Synthesizer Radio Frequency ID System Power Converter for Stepping Up from a Low to High DC Voltage QoS Performance of VoIP in WiFi networks Remote Locating of Vehicle in Parking Lot General Coverage Superheterodyne Transistor Radio Receiver Optical wireless Digital Radio Wireless Sensor Systems Electrical readout circuitry for nanotube electrochemistry Design and implementation of a digital temperature controller Digital Audio Synthesizer Radio Frequency ID System Power Converter for Stepping Up from a Low to High DC Voltage QoS Performance of VoIP in WiFi networks Remote Locating of Vehicle in Parking Lot