EE363A |
INTRODUCTION TO ELECTRONICS |
2003 |
2 |
Electrical Engineering and Computer Science |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course continues cadet education in electrical engineering through the study of basic electronic devices and circuits. It begins with an introduction to semi-conductor device physics. Students study the pn-junction diode and the bipolar junction transistor in the DC, small-signal, and large-signal operation. The course emphasizes single-stage amplifier design that culminates in an audio amplifier project. The course concludes with frequency analysis of amplifier circuits and an introduction to field-effect transistors. Three laboratory exercises, three mini-labs, a calculator-based equation solving exercise and computer-aided simulations supplement the lectures with practical circuit analysis, design, construction and testing. (Note: new course number EE362 eff 2004-1, Class of 2005) |
34 @ 55 min (2.500 Att/wk) |
6 @ 120 min |
|
All cadets design, build and test a multistage audio amplifier (0.5 desgn credits). 3 of the labs are 55 minutes in length. |
EE363A |
INTRODUCTION TO ELECTRONICS |
1986 |
2 |
Electrical Engineering and Computer Science |
3.5
(BS=0.0,
ET=3.5,
MA=0.0)
|
This course continues cadet education in electrical engineering through the study of basic electronic devices and circuits. It begins with an introduction to semi-conductor device physics. Students study the pn-junction diode and the bipolar junction transistor in the DC, small-signal, and large-signal operation. The course emphasizes single-stage amplifier design that culminates in an audio amplifier project. The course concludes with frequency analysis of amplifier circuits and an introduction to field-effect transistors. Three laboratory exercises, three mini-labs, a calculator-based equation solving exercise and computer-aided simulations supplement the lectures with practical circuit analysis, design, construction and testing. |
37 @ 55 min (2.500 Att/wk) |
3 @ 120 min |
|
A design project is included that requires the cadet to design, build, and test a multistage amplifier (0.5 design credits). |