The logic gates presented in the module include AND, OR, NOR, NAND and inverters. Ampere's circuit law is also discussed as well as design considerations for air gaps in magnetic circuits. • Soldering Iron
Connect with Penn Foster on various social media sites. This module also introduces the student to the effects of magnetic hysteresis and residual magnetism on a magnetic circuit. Specific topics include microprocessor architecture (registers, memory maps, status, program counter, and stack), logic operations, assembly language programming, embedded-systems design and an introduction to control algorithms. Convert hexadecimal numbers to binary and binary numbers to hexadecimal. Apply superposition to a circuit with more than one voltage or current source. Engineering instruments – Maintenance and repair – … The types of capacitors covered in this module include electrolytic, ceramic, mylar and tantalum. This multimedia program includes pre-tests, interactive exercises, sample exams and online technical and tutorial support to help prepare you for online computer-based final exams. 6.334 examines the application of electronics to energy conversion and control. Describe the basic operation of a transistor. Explain the relationship between current, voltage and power in a transistor. This program is often of interest to people who want to study electronics with an emphasis on mechanical systems, for example someone coming from a millwright background. Thousands of students are currently enrolled in the Electronics Technician Certificate program and hundreds have earned their Electronics Technician certificate without ever stepping foot into a classroom. This program prepares graduates with professional, technical and practical skills that include problem-solving, research, design, prototyping, implementation, installation and testing of electronics-based systems. List some applications of series parallel circuits. You must have completed the 8th grade to enroll in this program. Describe the linear relationship between current and voltage. This module provides an overview of the basic theory and operation of microprocessors and their logical and programming characteristics. It will not waste your time. This means you will need access to high-speed internet to begin your program. Describe the basic operating characteristics of an oscilloscope. The module also covers power, loaded voltage dividers and the Wheatstone Bridge as well as troubleshooting applications and problem solving. In addition, the module introduces essential concepts such as the relationship between temperature and resistance, electron velocity, and the direction of current flow. George Brown College offers you a number of easy registration options, to make it convenient and affordable for you to register in the Electronics Technician Certificate. Here is an overview of what you'll learn and the order in which you'll access your lessons: Program Goal: The program provides students with the necessary skills for entry into the field of electronics. Explain the effects of inductive reactance and capacitive reactance on an AC circuit. Electronics Courses Outline Description The Electronics Technician is an award winning educational program that consists of 24 modules of interactive curriculum using text, video, audio, 2D and 3D animations and laboratory simulation software. Describe the purpose of feedback in op amp circuits. The Electronics Technician Certificate program prepares graduates of the program for employment and/or further on-the-job training as a service technician in the field of consumer, commercial and industrial electronics. We reserve the right to change program content and materials when it becomes necessary. Apply Ohm's law for parallel circuit calculations. The maximum power transfer theorem is emphasized by demonstrating both theoretical and practical considerations of power expended versus power consumed. Describe how voltages are distributed around a series circuit. Convert a magnetic quantity from SI to English units, and vice versa. The Q of a series circuit is also presented using practical and theoretical examples of problem solving for resonance. Integrators, differentiators, oscillators and active filters are included emphasizing real world control applications. They can also function as service technicians or electricians in factories and mines. • Digital Trainer
Define self inductance and mutual inductance. To view an Electronics sample lesson, click here. The student will learn the methods used to solve problems using loop analysis, Nodal analysis, Thvenin's theorem, Norton's theorem, and the Superposition theorem. The student will learn to apply Kirchhoff's voltage law to solve problems and design voltage dividers. If you love to tinker with all kinds of electronic equipment, it's time to turn your tinkering into a career with our online Electronics course. List the three laws of magnetic attraction and repulsion. The Electrical Technician Course covers electrical theory and practical training, outline of submersible pump, engineering drawing, science and calculation etc. Course Outline/Description— Telecommunications Technician DIPLOMA PROGRAM 24 weeks – 38 semester credit hours (DAY) 52 weeks – 38 semester credit hours (EVENING) Total 720 hours OBJECTIVE Through a combination of theory and hands-on training, Telecommunications Technician* students learn how communications networks are designed, constructed and made operational. The student will learn basic op amp configurations such as inverting and non inverting amplifiers, as well as summing amplifiers and comparators. Basic Electronics, Program Outline ; Basic Electronics. Describe the relationship between temperature and resistance. Study basic electronic procedures, linear/digital technology, integrated circuit techniques, and much more in ICS Canada’s online Electronics Technician Training program. Explain the purpose of loaded voltage dividers. In this online program, you can take the first step toward a career in this field by learning how to install, repair, maintain, or even sell hi-tech electronic equipment — all in as little as five months. Express magnetic reluctance in terms of magnetomotive force and magnetic flux. Theoretical concepts as well … Describe the effects of ammeter and voltmeter loading. Explain the principle of electric charge. Oscilloscopes, signal generators, and frequency counters are presented with an emphasis on practical applications and safe operation of these instruments. Explain the necessity of a shunt resistor in a dc ammeter circuit. tolerate me, the e-book will definitely tone you new event to read. Series and parallel configurations of capacitor circuits are included in the module as well as an introduction to bypass and coupling capacitors. Reply Delete. This module will focus on the magnetic circuit and the magnetic properties of materials. Name the three classifications of magnetic materials. Procedures for Recommending Revisions to the Course Outline Advanced Education has prepared this course outline in partnership with the Instrumentation and Control Technician Provincial Apprenticeship Committee. Text Books & Scheme of Studies are available. The principles of molecules and atomic structure are also presented in this module as well as an introduction to electric charges. This module covers units of measure, scientific notation, SI system, and engineering notation. In addition, the module also covers microcontrollers and an introduction to PC architecture. This module introduces the student to the fundamentals of alternating voltages and currents. Explain inductive time constants and transients in RL circuits. Discuss the purpose of voltage divider biasing. Siemens Canada tours the Integrated Manufacturing Centre (IMC) Students win Outstanding Student Researcher Awards at DC Research Day; DC students design future with newly purchased 3D printers; DC Students win Top … This module provides an introduction to magnetism including the nature of magnetism, magnetic fields, and magnetic materials. Express the voltage divider rule and determine where it can be applied. Online Class: Electronics 101 $ 65.00 no certificate - OR - $ 90.00 with CEU Certificate* Start Right Now! Describe the effect of air gaps in a magnetic circuit. Instruction Sets Your accredited online learning program includes ten Instruction Sets designed to take you step-by-step through the knowledge and skills you’ll employ in your new career in Electronics. Describe the basic operation of a comparator. List various types of inductors used in electrical and electronic circuits. The proper operation of this equipment is vital. This module also covers multimeters, electronic meters, and an introduction to digital measuring instruments. It will introduce the concepts of instruction sets, machine language programming, input/output, interrupts and interfacing techniques. Explain the difference between vectors and phasors. Describe the operating characteristics of the dc wattmeter. The module also covers wire sizes, the resistor color code, and troubleshooting resistors. Browse Courses My Classes. Explain Lenz's law and the principle of counter EMF. Convert voltage sources to current sources, and vice versa. Determine the efficiency of an electrical device. The student will learn the principles of magnetic force, reluctance, permeance, and permeability. The MC2 Coaching Center offers online Electronics Technicians (ECT) Review. Courses list is available. Electronics Workbench is a registered trademark of Interactive Image Technologies, Ltd. in the United States of America and/or other jurisdictions. This module is designed to introduce the student to the fundamental concepts of electronics and describe some basic applications. Convert binary numbers to decimal and decimal numbers to binary. Apply basic troubleshooting techniques to digital circuits. Your program consists of 15 Instruction Sets designed to take you step-by-step through the knowledge and skills you'll use in your new career. A librarian is available to answer questions on general research-related topics via email and to assist students in research activities during their studies with Penn Foster Career School International. Differentiate between isolation transformers and auto transformers. Describe some of the important areas where electronics technology is applied. Differentiate between P type and N type semiconductors. Personalized Coaching & Mentoring; Professional and Entrance Exam Reviews; 0 steps completed 0%. Upon completion of the program, students will be able to: Starting Your Program
Electric Motor Systems Technician apprenticeship course outlines. Explain the purpose of voltage followers. There is a lot of good information on the internet but … Students in Penn Foster Career School have access to an online library for use during their studies. Computer Specifications
The Electronics Technician is an award winning educational program that consists of 24 modules of interactive curriculum using text, video, audio, 2D and 3D animations and laboratory simulation software. Procedures for Recommending Revisions to the Course Outline Advanced Education has prepared this course outline in partnership with the Appliance Service Technician Provincial Apprenticeship Committee. Automation Technician Program Outline. Instruction Sets
Identify the schematic symbols of several common electronic components and describe their functions; define terms used in electronics, Name several electrical shock hazards, and understand how to prevent electrical shocks through lockout-and-tag procedures, proper procedures, and personal protective equipment (PPE), Discern the various types of conductors and their conductivity; determine the size of conductor needed for an application; identify types of insulating materials and list their temperature ratings, Calculate voltage, resistance, and current in series, parallel, and series-parallel circuits, Understand how to use electronics equipment, including multimeters, soldering equipment, and ohmmeters, Read circuit diagrams, and analyze basic relay ladder diagrams, List the various switch types, their uses, and the advantages and disadvantages of each type, Identify many types of wires, cables, connectors, and terminals, and specify the applications for each type, Determine the expected resistance of a wire, and estimate the change in resistance that occurs with changing wire characteristics, Discern the differences among simple, compound, and closed magnetic circuits, Determine the direction of magnetic lines of force around a conductor, Calculate the total capacitance of a circuit; calculate the time constant of a resistance-capacitance (RC) or resistance-inductance (RL) circuit; calculate the total inductance of a circuit, Explain how inductors are constructed, and describe how an inductor can regulate the flow of current in a DC circuit, Describe how diodes and transistors work and how to determine if they're working properly; list uses for diodes and transistors in electronic systems, Recognize the job opportunities and certifications available to electronics technicians, and name the essential job skills needed, Explain how to test and diagnose electrical and electronic equipment using measuring and diagnostic devices, such as multimeters and oscilloscopes, Understand and explain inductive reactance, capacitive reactance, and reactance as applied to resonant and non-resonant circuits, determine circuit Q and bandwidth, Understand and explain pulse theory, including the generation of various waveforms, by relaxation oscillator, multivibrator, and switching circuits; describe and understand the Schmitt trigger, integrator, and differentiation circuits; explain how to troubleshoot these circuits, Explain electronic logic circuits, including common gates and flip-flop circuits, and the use of binary numbering systems to determine circuit output, Explain the use of NAND gates as universal devices, Describe the various transistor/diode/resistor logic circuits and logic chip families, and the uses, applications, and troubleshooting of common logic circuits, Explain the operating principles of linear and digital devices, including applications and considerations such as level matching, fan-in and fan-out, and selection of the appropriate device family, Describe how to use logic devices in industrial circuits, Understand and explain the function of memory integrated circuits, Demonstrate knowledge of troubleshooting the various integrated circuit systems, Perform experiments using the XK-200 Digital Trainer, which is designed for conducting hands-on experiments on linear, pulse, digital, and logic circuits, Describe industrial computer systems and their uses, including analog and digital computer systems, Identify the symbology for controller programs, including the symbols used to portray ladder logic, how to apply Boolean algebra principles, and how to use various computer languages to accomplish tasks from a broad overview, Describe computer-aided design (CAD) and computer-aided manufacturing (CAM), including users, uses, and required hardware and software, Explain the concept of interfacing hardware; describe serial interfacing, parallel interfacing, and input-output categories, Identify applications (closing the loop), such as making measurements, controlling machines, and controlling processes, Explain the basic interface standards, including RS232C.