top of page

Industrial Electrical Circuits

After completing this course, participants will acquire the following knowledge and skills:

  1. Understanding of Industrial Electrical Systems: Participants will gain a foundational understanding of how electrical circuits are used in industrial settings, including their historical development and the importance of safety and regulatory compliance.

  2. Component Identification and Usage: Learners will become familiar with various types of electrical components used in industrial circuits, such as conductors, insulators, breakers, relays, and contactors, and how to appropriately select and use these components.

  3. Electrical Diagram Literacy: Participants will learn to read, interpret, and draw electrical schematics, enabling them to understand and analyze circuit diagrams for complex industrial machinery and systems.

  4. Circuit Design and Construction Skills: The course will equip learners with the skills needed to design and construct functional industrial electrical circuits, guided by specific requirements and standards.

  5. Troubleshooting and Maintenance Abilities: Participants will develop troubleshooting skills to diagnose and resolve issues within industrial electrical circuits. Additionally, they will learn preventive and corrective maintenance practices to ensure the longevity and reliability of electrical systems.

  6. Practical Hands-on Experience: Through lab sessions, participants will apply theoretical knowledge in practical settings, building, testing, and optimizing electrical circuits, which reinforces learning and enhances problem-solving skills.

These competencies will prepare participants for roles that require working with and managing industrial electrical systems, enhancing their employability and expertise in the field.

Industrial Electrical Circuits

Course for Beginners

Total Duration: 30 hours

  • Theory: 10 hours

  • Lab: 10 hours

  • Project: 10 hours

Objective: Equip beginners with foundational knowledge and

skills in industrial electrical circuits, focusing on understanding circuit components,

basic wiring, and safety.

Theory (10 Hours)

  1. Introduction to Electrical Circuits (2 hours)

    • Basic concepts and components of electrical circuits.

    • Overview of electrical safety.

  2. Circuit Design Fundamentals (3 hours)

    • Understanding circuit diagrams.

    • Basic components: resistors, capacitors, inductors.

  3. Electrical Measurements (2 hours)

    • Using multimeters.

    • Measuring voltage, current, and resistance.

  4. Introduction to AC/DC Currents (3 hours)

    • Differences between AC and DC.

    • Basic applications in industrial settings.

Lab (10 Hours)

  1. Building Simple Circuits (3 hours)

    • Hands-on practice with breadboards.

    • Constructing basic series and parallel circuits.

  2. Using Measuring Instruments (4 hours)

    • Practical exercises with voltmeters, ammeters, and ohmmeters.

    • Safety precautions during measurements.

  3. Introduction to Soldering and Wiring (3 hours)

    • Basic soldering techniques.

    • Wiring components and creating circuit connections.

Project (10 Hours)

  • Design and Build a Small Power Supply Circuit (10 hours)

    • Applying theoretical knowledge and lab skills.

    • Complete project from conception to functioning prototype.

    • Documentation and presentation of the project.

Advanced Industrial Electrical

Circuits Course

Total Duration: 30 hours

  • Theory: 10 hours

  • Lab: 10 hours

  • Project: 10 hours

Objective: Advance learners’ knowledge and skills in designing, analyzing,

and troubleshooting industrial electrical circuits, with a focus on complex

circuit designs and motor controls.

Theory (10 Hours)

  1. Advanced Circuit Analysis (4 hours)

    • Techniques for analyzing complex circuits.

    • Using Kirchhoff’s laws, Thevenin’s theorem, and Norton’s theorem.

  2. Digital Electronics Basics (3 hours)

    • Introduction to logic gates and digital circuits.

    • Understanding binary and digital circuit behavior.

  3. Motor Controls (3 hours)

    • Overview of different types of motors (AC, DC) and their control mechanisms.

    • Understanding and designing circuits for motor speed and direction control.

Lab (10 Hours)

  1. Advanced Soldering and PCB Design (4 hours)

    • Techniques for creating printed circuit boards (PCBs).

    • Advanced soldering practice for complex components.

  2. Motor Control Circuits (3 hours)

    • Designing and testing circuits for controlling motor speed and direction.

    • Implementing protection circuits for motor control.

  3. Signal Processing and Instrumentation (3 hours)

    • Working with sensors and signal conditioning circuits.

    • Designing circuits for filtering and amplifying signals.

Project (10 Hours)

  • Automated Control System Design (Basic PLCs) (10 hours)

    • Design and implement a control system using sensors, actuators, and basic control circuits.

    • Integration of feedback mechanisms for precise control.

    • Final testing, optimization, and project documentation.

Circuit electric.png
plc.JPG

Get in Touch

This is a Paragraph. Click on "Edit Text" or double click on the text box to start editing the content.

© 2023 by The Art Seller. Proudly created with Wix.com

  • w-facebook
  • Twitter Clean
bottom of page