Hutchinson Central Technical High School
Course Syllabus
Course Name: Electronic 1
Instructor: Roger Aumick Contact Time: 8:12-8:53 Phone Ext: 1514
Grading Policy
The quarterfinal grade is calculated by the following method:
All assingments are worth 100 points.
To calculate your final grade, add all of your points together then divide by the number of assignments.
Unit test given at the end of the lessons covering the material based on 100 points
Homework Policy
Homework assignments pertinent to the unit of study based on 100 points. The homework assignments are mandatory and must be made up the next day if the student is absent.
Test Policy
Unit test given at the end of the lessons covering the material based on 100 points.
Quiz Policy
Quizzes pertaining to unit material are based on 100 points. The number of quizzes will be determined on how the students retain and understand the unit material in lecture.
Projects
Informal practical lab projects will be produced by the students pertinent to the lecture material on a regular basis.
A formal lab report will be assigned every quarter that will be basen on(100 points).
Course Outline
COURSE OUTLINE
Electronics II
DIODES
Diode Application
Diode Characteristics
Rectifiers, Half wave, Full wave, Bridge
CAPACITANCE
Physical characteristics of a Capacitor
Capacitor charging and discharging
Capacitance Units
Factors that determine capacitance, area, distance, dielectric properties,
Series/Parallel Capacitance
Types of Capacitors
Phase relationships
MAGNETISM & ELECTROMAGNETICS
Theory of Electromagnetism, electromagnet, permanent magnet
left-hand rule
Flux Density
Applications of Magnetism, Faraday’s Law, Lenz’s Law
1) Series/Parallel Resonant Circuits
INDUCTANCE
Principles of Inductance, self-induction
Physical properties of an Inductor
Factors to determine Inductance, number of turns, area, length, permeability
Types of Inductors, Fixed-value, Variable-value
Charge/Discharge rate
CAPACITIVE REACTANCE
Series RC circuit
Capacitive reactance, vector analysis, impedance, power
Parallel RC circuit
Capacitive reactance, vector analysis, impedance, power
RC Filters
RC Integrator
RC Differentiator
INDUCTIVE REACTANCE
Series RL circuit
Inductive reactance, vector analysis, impedance, power
Parallel RL circuit
Capacitive reactance, vector analysis, impedance, power
RL Filters
RL Integrator
RL Differentiator
RLC CIRCUITS
Series RLC analysis
Parallel RLC Analysis
Resonance, series, parallel
Applications for RLC circuits, Low Pass , High Pass , Bandpass, Band-stop filters
INDUCTANCE
Principles of Inductance, self-induction
Physical properties of an Inductor
Factors to determine Inductance, number of turns, area, length, permeability
Types of Inductors, Fixed-value, Variable-value
Charge/Discharge rate
CAPACITIVE REACTANCE
Series RC circuit
Capacitive reactance, vector analysis, impedance, power
Parallel RC circuit
Capacitive reactance, vector analysis, impedance, power
RC Filters
RC Integrator
RC Differentiator
INDUCTIVE REACTANCE
Series RL circuit
Inductive reactance, vector analysis, impedance, power
Parallel RL circuit
Capacitive reactance, vector analysis, impedance, power
RL Filters
RL Integrator
RL Differentiator
RLC CIRCUITS
Series RLC analysis
Parallel RLC Analysis
Resonance, series, parallel
Applications for RLC circuits, Low Pass , High Pass , Bandpass, Band-stop filters
a) Complex Numbers
b) Tuning Circuits
c) Bandwidth/Bandpass Circuits
d) Selectivity
2)Transistors
a) Digital
b) Bias
c) Voltage Divider
d) Comparator
e) JFET
3)Modulation
a) AM
b) FM
c) Phase Shift
4)Senior Project AM Radio
a) Soldering
b) Troubleshooting
c) Presentation
5)Frequency Spectrum
6)Satellite
a) Physical Properties
b) Systems
c) Types
I. Genosynchronous
II. Communication
7)Networking
a) Telephony
I. Network Systems
b) Information
8)Digital Electronics
a) Number Systems
I. Binary
II. Decimal
III. Hexadecimal
b) Logic Circuits
9)Computers
a) System Architecture
b) I/O