Troubleshooting and schematic reading are incorporated into the course work to provide knowledge of various types of electronic circuits and systematic instruction in electronic circuit troubleshooting. Understanding the fundamentals of electronic circuits in order to properly install, test and troubleshoot electronic components is the basis of this course. One of the primary reasons why attend this course is to be able to demystify the sometimes abstract and obscure field of electronic circuits and a brief overview of theories followed by hand-on practical application.
What Is The Training Course Methodology?
This training methodology illustrates the concepts involved in the above areas through practical consideration of actual real-life problems, as well as explanation of concepts by experts in area using video projectors and computer aided case studies based on practical applications. Participants will solve their system problem, where the trainee’s try to apply the skills learnt with guidance from our specialized experts. ACAD will provide participants a comprehensive assessment on the problems solved using the skills acquired in the training course.
Who Should Attend This Training Course?
This training course is designed for Engineering Professionals concerned with the specification, installation and maintenance of electronic systems. Also, Engineers and Technicians who are responsible for managing engineering operations and wish to know about the implications of modern circuit and system design for the decisions they make.
What Is The Training Course Objectives?
Get a broad understanding of the components used in modern electronic systems and instruments
Understand the necessary troubleshooting systems
Consider some basic circuits used in analogue and digital electronic systems
Review of trends in circuit design and their implications for the service engineer
A mixture of both practical and theoretical work; the practical work providing experience of real circuits
What Is The Training Course Curriculum?
Materials and Components
Resistance capacitance and inductance
Diodes, Zener diodes and transistors
Power semiconductor devices
Surface mount components
Component failure modes
Test Parameters and Equipment
Bandwidth and frequency
Use of oscilloscopes and probes
Logic analyzers and their application
Current, voltage and resistance measurements
Principles of Electronic Trouble-Shooting
Reliability and system availability
Test instrument selection
Fault localization and repair
Strategy for repair to enhance system availability