Courses
Electrical Principles and Components
Course #: Block A21
Duration: 30 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn: In this block consisting of six study units, the trainee will learn the basics of electrical theory. These units introduce electrical terms, symbols, and the operation of simple circuits. Ohm's law receives extensive coverage including practical troubleshooting examples used to industry. A new unit specific to capacitors and inductors provides more in-depth coverage. Up-to-date information on conductors, insulation, and specialty batteries forms a revised study unit. Study units covering magnetism, electromagnetism, motors, and generators are included with industry related examples.
Components: Nature of Electricity (086001); Circuit Analysis and Ohm's Law (086002); Capacitors and Inductors (086003); Magnetism and Electromagnetism (086004); Conductors, Insulators, and Batteries (086005); DC Motors and Generator Theory (086006);
Special Notes: This updated course replaces DC Principles, Block A01. Each study unit contains a progress examination.
Course #: 086001
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086002
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086003
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086004
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086005
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086006
Duration: 5 hours
Course Prerequisites: Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086800
Duration: 0 hours
Course Prerequisites: DC Principles (Block A21);
What Students Learn: Electronics Workbench is an electronics lab in a computer. A powerful software tool that simulates the behavior of analog circuits, digital circuits, and the corresponding test equipment. Students perform experiments faster, in a safe, user friendly environment.
Sophisticated troubleshooting options allow trainees to make practical evaluations of the theory they have been learning. High quality, visual circuit paths are recreated. The simulator lets students design, build, and verify circuits significantly faster than on a real test bench. As self-paced study, students can experiment with "what if" scenarios. Circuits can be created with any number of faults or malfunctions for students to diagnose, isolate, and repair.
Realistic test instruments used in working applications include the digital multimeter, oscilloscope, function generator, word generator, logic analyzer, logic converter, and bode plotter. A "bottomless" bin of real world components for both digital and analog circuits include over 125 74xx and 74xxx chips, resistors, diodes, capacitors, a wide variety of logic gates, scrs', triacs, npn, and pnp transistors and many more.
Special Notes:
Course #: 387009C
Duration: 10 hours
Course Prerequisites: Electronics Workbench. (086800); DC Principles (Block A21);
What Students Learn: Basic lab exercises and elementary troubleshooting problems using the Electronics Workbench (Versions 3.0, 4.0, and 5.0) are contained in this manual. Practice exercises using electrical notations, prefixes, Ohm's law, series and parallel connections, and basic circuit construction are included. The manual includes the basic operational instructions for the Workbench software and Windows.
Special Notes: The manual contains a file disk of practice circuits.
Course #: Block A22
Duration: 40 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn: Alternating current is the form of current most often used to furnish electrical energy. Students receive a complete introduction to AC terminology and basic AC circuit configurations. Individual study units on the uses of capacitors and inductors in AC circuits underlines the importance of these components in AC theory. The generation, control, and distribution of AC power are highlighted in study units on alternators, transformers, and energy distribution. How electricity is generated at a power plant and sent to consumers is covered. The student will also be introduced to basic electronics through a study unit on rectification and basic electronic components.
Components: Alternating Current (086007); Alternating Current Circuits (086008); Inductors in AC Circuits (086009); Capacitors in AC Circuits (086010); Transformers (086011); Alternators (086012); Electrical Energy Distribution (086013); Rectification and Basic Electronic Devices (086014);
Special Notes: This updated course replaces AC Principles and Components, Block A02. Each study unit contains a progress examination.
Course #: 086007
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086008
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086009
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086010
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086011
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086012
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086013
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 086014
Duration: 5 hours
Course Prerequisites: DC Principles (Block A21); Basic Industrial Math (Block X21);
What Students Learn:
Course #: 387012C
Duration: 10 hours
Course Prerequisites: Electronics Workbench. (086800); DC Principles (Block A21); AC Principles (Block A22);
What Students Learn: This lab manual, designed for use with the Electronics Workbench simulation software (Versions 3.0, 4.0, and 5.0), contains lab exercises and troubleshooting problems that reinforce the theory learned in AC Principles. Problems dealing with impedances of RC and RL circuits, rectification of AC voltages, and series and parallel resonant circuits are part of the learning experience.
The manual contains the basic operational instructions for the Workbench software and Windows.
Special Notes: The manual contains a file disk of practice circuits.