Basic Concepts - Oakland University

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Transcript Basic Concepts - Oakland University 

Introduction to Electrical and
Computer Engineering
Discussion D0.1
What will you learn in this course?
1
Think of some product that uses
electricity
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Toaster
Washing machine
Radio, TV, iPod
Computer
Automobile
What do all these products have in common?
2
A typical product
Input
Sensors
Analog circuits
Processing
Digital circuits
Output
Actuators
Magnetic circuits
The course
DC circuits
Op amps
Digital circuits
AC circuits
Magnetic circuits
Motors
3
A typical product
Input
Sensors
Analog circuits
Processing
Digital circuits
Output
Actuators
Magnetic circuits
In the lab you will work in groups of four and
throughout the course your group will invent
and design some useful product that
1. uses the amount of squeezing of a hand grip as
input
2. processes this data digitally, and
3. causes something to move using a relay or motor
4
Part 1 of the course
DC circuits
Op amps
Topic
Lecture
Analog & digital signals, voltage and current, circuit elements
D1.2
1 -- 29
Ohm's law and Kirchoff's law, examples
D2.1
34-54, 78-79
Binary numbers, R2-R ladder network, D/A converter
D2.2
App D, F
Nodal analysis
D2.3
59-68
Mesh analysis
D2.4
69-74
Circuit Theorems, Thevenin's and Norton's theorems
D2.5
75-78, 80-86
Wheatstone bridge
D2.6
87-89
Ideal Op Amp, Non-inverting amplifier, Inverting amplifier
D3.1
328-334
Differential amplifier, summing circuit, current-to-voltage
converter
D3.1
334-336, 340
Pages
5
Current
6
Voltage
7
Power
8
The Electromagnetic Spectrum
9
Part 2 of the course
Topics
Digital circuits
Lecture
Pages
Digital systems, number systems
D4.1
500-503, D
Basic logic gates, DeMorgan's theorem
D5.1
E
Sum of Products and Product of Sums design
D5.1
E
Implementing logic gates and digital circuits, CPLDs
D5.2
G
Boolean algebra, Karnaugh maps
D6.1, D6.2
504-516
Implementing combinational circuits using Verilog
D7.1
517-524
Semiconductors, diodes, LEDs, 7-segment displays
D7.2
354-365, 394
Latches and flip-flops
D8.1
524-530, H
Counters
D8.2
H
Implementing sequential circuits using Verilog
D8.2
H
State machines
D8.3
530-534
A/D converters, pulse-width modulation
D8.3
10
Part 3 of the course
Topics
AC circuits
Magnetic circuits
Motors
Pages
Capacitors and Inductors
104-113
Sinusoidal functions, complex numbers, phasors
144-152
Impedance and admittance
153-160, 174-181
Instantaneous power, average power, RMS values
200-207
Power factor, residential AC power circuits
207-220
DC machines
240-249
dc motors, dc generators
249-259
Magnetic circuits, mutual inductance
379-388
Linear transformer, ideal transformer
582-591
Power supply circuits
591-602
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