The Goderich Signal-Star, 1983-08-17, Page 50Descriptions C
arses/Programs
tricity For Electronics or equivalent.
Offered at: Doon.
Basic Electricity For Electronics A
Students should have a basic knowledge
of mathematics. Topics covered include:
current theory, Ohm's Law, series and
paral;el resistive circuits, alternating
current, including inductive and capaci-
tive reactance, resonance and the use of
test equipment.
Offered at: Doon, Guelph, Waterloo.
Digital Electronics A
This is a practical, introductory course in
digital techniques. The student will be
able to develpp ability interpreting,
implementing and troubleshooting cir-
cuits using common logic families_
Topics include: Gates, Flip Flops, Regis-
ters. Decoders, Multiplexers, Logic Dia-
gram and Data Sheet Interpretation. The
student will be provided with sufficient
theory to further develop skills in digital
processes.
Offered at: Poon, Guelph, Waterloo.
Electrical Fundamentals I A
Note: To be successful in this course, it
is recommended that students have
completed Grade 12 Mathematics.
This course covers the principles of
conduction in conductors, semi -conduc-
tors, insulators, liquid, gases .and vacu-
um; electric current definition and
sources; voltage, definition and sources;
resistance, causes and effect in series
and parallel circuit; Ohm's law; resistivi-
ty; temperature coefficient of resistance;
theory of magnetism and its application
to series and parallel circuits; generation
of A.C. voltage; measuring A.C. values,
peak, instantaneous, average, R.M.S.;
vector relationships between voltage
and current; resistive A.C. circuits; the
inductor; power in an A.C. circuit;
resistor -inductor circuits and voltage
impedance vectors.
Offered at: Doon. •
Electrical Fundamentals II A
The principles of electrostatic fields;
capacitors and circuits in series and
parallel; resonance and O factor; analy-
sis of D.C. circuits; complexing operator
applied to A.C. series and parallel cir-
cuits.
Offered at: Doon.
Electrical/Electronic Fabrication I A
Note: To be successful in this course, it
is recommended that students have
completed Grade 12 Mathematics.
This course introduces the student to the
practical and theoretical aspects of
electronic equipment fabrication. While
designing and constructing the chassis
and power supply for a project, the
student will demonstrate and practice:
basic 'hand tool use; prototype fabrica-
tion techniques; soldering techniques,
electronic layout techniques; basic PCB
layout and fabrication; wirewrapping
techniques; proper hardware selection;
proper documentation recording tech-
niques.
Recording and information gathering
techniques will be emphasized in this
practical course -
Offered at: Doon.
Electrical/Electronic
Fabrication II A
Prerequisite: Electrical/Electronic Fab-
rication I or equivalent.
Students who have not completed
Electrical/Electronic Fabrication I will be
required to demonstrate equivalent skills
within the first three weeks of this
course. If unable to do so, they will be
discontinued from the course and a full
refund will be issued.
This course further develops the stu-
dents abilities gained from E/E Fabrica-
tion I Course. Students are required to
complete a u Proc. based prototype
which incorporates application of proto-
typing techniques including production
scheduling, printed circuit bard man-
ufacture, packaging requirements, fin-
ishing, labelling, assembly, testing, and
debugging techniques. Proper record-
ing, schedule updating, project reporting
and presentation techniques will be
included as part of the final project.
Offered at: Peon.
Electrical /Electronic
Instrumentation I
This first course in Instrumentation
introduces the student to the SI Units
used in the Electrical/Electronic field, a
discussion of the types of errors that
exist in a measuring situation and how to
apply basic instruments such as the
i) DC Ammeter, Voltmeter, and Ohm-
meter, ii) Wattmeter, and iii) AC Volt-
meter.
Offered at: Doon.
Intermediate Electricity For
Electronics A
Prerequisite: Basic Electricity for Elec-
tronics or Introductory Electricity for
Electronics.
This course is designed to prepare
students for further electronic courses
such as Industrial Electronics and
Electronic Troubleshooting. Topics cov-
ered include: principles of vacuum tube
operation and semi -conductor principles
and operation.
Offered at: Doon, Guelph, Waterloo.
Industrial Electronics A
Prerequisite: a Basic Electricity course.
Topics include: semi -conductors, feed-
back circuits, binary, octal, hexadecimal
and logic.
Offered at: Guelph.
METAL MACHINING
The College has developed a com-
prehensive modular Machine Tool Setter
Operator Program (MTSO) designed to
prepare the graduate for entry into the
metal machining industry as a setter
operator with one or more of the
following specializations:
- Engine Lathes
- Turret Lathes
- Milling Machines
- Grinding Maghines
Graduates of the evening part-time
MTSO Program will receive the College
Certificate equivalent to the full-time day
program.
In addition to the specialization modules
listed above, the Program includes the
theory and practice modules, as fol-
lows:
- Safety and First Aid
- Communications
- Occupational Calculations and Fun-
damentals of Metric System (SI)
- Technical Data
- Blueprint Reading and Sketching
- Principles of Metal Cutting
- Engineering Materials
- Precision Measuring Instruments
- Lay -out Operations
- Metal Removing Hand Tools
- Metal Sawing Machines
- Drilling Machines
- Introduction to Conventional Machine
Tools and NC Machining
The part-time MTSO Program is offered
at Guelph, Stratford and Waterloo
Campuses. The fall trimester has 13
weeks, the starting date is Monday,
Sept. 19, 1983. Students attend two
nights per week, for four hours per night
from 6:00 to 10:00 p.m. The fee for the
tall trimester is $104 payable to the
College on the starting date.
In order to be admitted, you must
complete the Application/Registration
form on the back cover of this catalogue,
and forward it to the College Registrar.
The detailed schedule of your learning
activities will be mailed to you prior to
the starting date.
NC Machining And Manual
Programming
The course covers the major compo-
nents of NC manufacturing systems, the
application of Cartesian co-ordinates to
machine tool motions, the types and
classifications of NC equipment, part
programming methods, the types of
hardware used for tape preparation and
NC terminology.
Additional topics include: NC tape
specifications, coding and format, func-
tional capabilities of positioning and
contouring NC machines, the operation
of basic tape preparation systems, the
process df developing NC manual part
programs. Students will perform the
required mathematical calculations and
write manual part programs for position-
ing and contouring NC machine tools.
Students will understand manual and
automatic control of NC machine tools
through the use of control console,
activation of special machine functions
for automatic tool and pallet changing,
and interpretation of alarm and error
messages. To be eligible, candidates
should have completed the Machine
Tool Setter Operator program specializ-
ing in Engine Lathe, Turret Lathe,
Horizontal Boring Mill or Milling Ma-
chine, or possess equivalent work
experience. Applicants with relevant
work experience will be assessed to
determined readiness for the course.
Offered at: Doon.
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