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Advance your career in electrical and electronics engineering by gaining expertise in AC electric circuits and electronics.

Course Instructor
Duration

3 hours, 19 minutes

Last updated

February 28, 2024

5
Students

221

£12.99 inc. VAT

More about the course

This course is meticulously crafted to offer a comprehensive understanding of AC electric circuit analysis, crucial in both electrical and electronics engineering domains.
Throughout this course, you'll delve into every aspect of AC electric circuits and electronics, starting from fundamental concepts like sinusoids, and progressing to essential characteristics such as impedance, admittance, power factor, and complex power. Here's an outline of the course:
  1. AC Steady-State Electric Circuit Analysis: In section 2, we initiate with the elucidation of sinusoids and their constituents, pivotal for comprehending AC circuit analysis. Following this, we explore the voltage-current relationship across resistors, capacitors, and inductors. The section culminates with the definition of two vital attributes of AC circuits: impedance and admittance.
  2. Power in AC Circuits: Moving beyond the fundamentals, we transition into power computations within AC circuits. Understanding power is crucial for advanced AC circuit studies. We delineate instantaneous power, root-mean-square (RMS) quantities, power factor, and complex power. Several illustrative examples are solved to exemplify AC circuit analysis techniques.
Each section is punctuated with numerous solved examples, offering practical insights into circuit analysis methodologies.
By mastering the foundational principles of AC electric circuit analysis presented in this course, you'll be equipped to pursue further studies in diverse fields such as electrical engineering, electronics engineering, and computer engineering. This knowledge will be invaluable for exploring topics like analog electronics, circuit design, electric machines, power systems, and beyond.

You will have the following skills after completing this course:

  • Electrical engineering fundamentals
  • Electronics fundamentals
  • Concepts for AC electric circuit analysis such as admittance and reactance
  • Complete analysis of AC electric circuits
  • Electric circuit analysis techniques used in different electrical engineering and electronics engineering fields, such as analog electronics, digital electronics, and power electronics
  • Power in AC circuits
  • What root-mean-square (RMS) is and its importance in AC circuits
  • What power factor is in AC circuits
  • What complex power is in AC circuits

Who will benefit from this course?

The AC Electric Circuit Analysis for Electrical Engineering course offers valuable knowledge and skills that can benefit a wide range of individuals, including:
  1. Electrical Engineering Students: Students pursuing degrees in electrical engineering will find this course essential for building a strong foundation in AC electric circuit analysis, preparing them for more advanced coursework and future career opportunities.
  2. Electrical Engineers: Professionals working in the field of electrical engineering, particularly those involved in power systems, electronics design, and circuit analysis, can enhance their expertise and problem-solving skills through this course.
  3. Electronics Engineers: Engineers specialising in electronics will find this course valuable for understanding AC circuit analysis techniques, which are essential for designing and optimising electronic circuits and systems.
  4. Computer Engineers: Individuals working in computer engineering, especially those involved in hardware design, embedded systems, and signal processing, can benefit from learning AC electric circuit analysis, as it provides a fundamental understanding of circuit behavior and signal processing techniques.
  5. Technicians and Technologists: Technicians and technologists working in the electrical and electronics industry can enhance their job skills and problem-solving abilities by gaining knowledge of AC electric circuit analysis principles.
  6. Researchers: Researchers conducting studies in electrical engineering, power systems, or related fields can benefit from this course by acquiring a deeper understanding of AC circuit analysis techniques and applying them to their research projects.
  7. Professors and Educators: Educators teaching courses related to electrical engineering, electronics, or circuit analysis can use the content and resources from this course to supplement their curriculum and provide students with practical learning experiences.
  8. Professionals in Related Fields: Professionals working in fields related to electrical engineering, such as renewable energy, power distribution, telecommunications, and control systems, can benefit from understanding AC electric circuit analysis principles to better understand and troubleshoot electrical systems.
Overall, anyone seeking to expand their knowledge and skills in AC electric circuit analysis, whether for academic, professional, or personal development purposes, will find this course valuable and beneficial.

Why Should You Take This Online Course?

  • Expertly Designed and Delivered by Industry Experts: Developed and delivered by RICARDO ROMERO -Professional Engineer.
  • Immediate Recognition with an Instant E-Certificate: After finishing our online course, you will receive an instant E-certificate. This certification acknowledges your dedication and successful course completion, allowing you to demonstrate your newly gained knowledge and skills to potential employers, colleagues, or clients. The E-certificate validates your accomplishments immediately, raising your professional standing.
  • Convenient Online Learning Experience: Because our course is entirely online, you may learn at your own pace and convenience. The course materials are accessible from anywhere and anytime, making it ideal for people with hectic schedules. The curriculum is delivered via captivating videos and extensive reading materials, creating a dynamic and interactive learning experience.
  • Self-paced Learning for Maximum Progress: We recognise that everyone has various learning styles and time commitments. As a result, our online course provides self-paced study. You can work through the course materials independently, allowing for a more personalised learning experience. Our course supports your individual learning preferences, whether you like to immerse yourself in the information or take it step by step.
  • Laptop, tablet, and smartphone compatibility: Our online course is device-compatible to improve accessibility. Whether you choose a laptop, tablet, or smartphone, you may easily access and interact with the course contents. This adaptability allows you to learn on the go, incorporating your studies into your everyday routine and maximising your learning possibilities.

Career prospects after completing this course:

Completing the AC Electric Circuit Analysis for Electrical Engineering course opens up various career prospects in the field of electrical engineering and related industries. Some potential career paths and opportunities include:
  1. Power Systems Engineer: Individuals with proficiency in AC electric circuit analysis are well-suited for roles in power systems engineering, where they design, analyse, and optimise electrical power distribution systems, ensuring reliability, efficiency, and safety.
  2. Electronics Design Engineer: Careers in electronics design involve developing and testing electronic circuits and systems for various applications, such as consumer electronics, telecommunications, automotive electronics, and industrial automation.
  3. Control Systems Engineer: Control systems engineers use AC electric circuit analysis principles to design and implement control algorithms for regulating and optimising the performance of dynamic systems in industries such as robotics, automation, and aerospace.
  4. Renewable Energy Engineer: With the growing demand for renewable energy solutions, individuals with knowledge of AC electric circuit analysis can pursue careers in renewable energy engineering, designing and optimising systems such as solar photovoltaic arrays, wind turbines, and energy storage systems.
  5. Power Electronics Engineer: Power electronics engineers design and develop electronic systems and devices for power conversion and control, such as inverters, converters, and motor drives, applying AC electric circuit analysis principles to ensure efficient and reliable operation.
  6. Research and Development (R&D) Engineer: R&D engineers work on developing new technologies and solutions in fields such as electrical engineering, electronics, and energy systems, leveraging their understanding of AC electric circuit analysis to innovate and solve complex engineering challenges.
  7. Technical Consultant: Technical consultants provide expertise and advisory services to companies and organisations in various industries, offering insights and solutions related to AC electric circuit analysis, circuit design, troubleshooting, and optimisation.
  8. Academic and Teaching Positions: Individuals with expertise in AC electric circuit analysis can pursue academic or teaching positions at universities, colleges, or technical institutes, educating and mentoring students in electrical engineering and related disciplines.
  9. Entrepreneur/Startup Founder: Entrepreneurial individuals can leverage their knowledge of AC electric circuit analysis to start their own companies or ventures, developing innovative products, solutions, or consulting services for the electrical engineering market.
Overall, completing this course enhances career prospects by providing valuable skills and knowledge applicable to a wide range of industries and roles within the field of electrical engineering.

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Course Content

    • AC Electric Circuit Analysis for Electrical Engineering – Welcome to the Course 00:01:00
    • AC Electric Circuit Analysis for Electrical Engineering – About Your Instructor 00:01:00
    • AC Electric Circuit Analysis for Electrical Engineering – Outline and Objectives 00:03:00
    • Sinusoids and Their Components 00:09:00
    • Definition of Phasors 00:08:00
    • Voltage-Current Relationship for Resistors 00:05:00
    • Voltage-Current Relationship for Capacitors 00:06:00
    • Voltage-Current Relationship for Inductors 00:07:00
    • Definition of Impedance 00:18:00
    • Definition of Admittance 00:03:00
    • Series/Parallel Combination of Impedances 00:19:00
    • Circuit Analysis Techniques for AC Circuits 00:12:00
    • Example – AC Steady-State Circuit Analysis (1 of 2) 00:11:00
    • Example – AC Steady-State Circuit Analysis (2 of 2) 00:20:00
    • Power in AC Circuits – Instantaneous Power 00:06:00
    • Example – Instantaneous Power 00:08:00
    • Power in AC Circuits – Average Power 00:05:00
    • Example – Average Power 00:06:00
    • Root-Mean-Square (RMS) Value of Sinusoids 00:04:00
    • Example – RMS Values 00:10:00
    • Average Power in Terms of RMS Values 00:03:00
    • Definition of Power Factor 00:08:00
    • Example – Power Factor Calculation 00:06:00
    • Power in AC Circuits – – Complex Power 00:04:00
    • Example – Complex Power 00:16:00
    • Get Your Certificate & Transcript 00:00:00

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