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ELECTRONICS & PCB DESIGNING CERTIFICATION LEVEL 2 – INTERMEDIATE

LEVEL 2 Electronics and PCB Design

Intermediate Electronics and PCB Designing" is an intermediate-level, immersive learning experience tailored for individuals who are eager to deepen their expertise in the field of electronics and circuit analysis. This comprehensive program goes beyond the basics and explores both foundational and advanced concepts, providing a comprehensive understanding of essential electronics principles. Participants will embark on a journey that encompasses a wide range of topics, allowing them to gain valuable skills and competencies. By the end of this course, participants will have achieved the following:
  • A profound comprehension of circuit analysis, covering Ohm's Law, power calculations, and various circuit configurations, including series, parallel, and series-parallel circuits.
  • Practical expertise in hands-on activities, including working with LEDs, resistors, diodes, and deciphering resistor color codes. Participants will have the opportunity to apply this knowledge through circuit simulations and real-world projects.
  • Mastery of multimeter usage, both analog and digital, enabling precise measurements and troubleshooting capabilities.
  • In-depth knowledge of diodes, encompassing their behavior in forward and reverse bias, as well as practical applications in electronic circuits.
  • Exploration of transistors, including Bipolar Junction Transistors (BJT) and Field-Effect Transistors (FET), and their roles in advanced electronics.
  • Proficiency in soldering techniques, a fundamental skill for creating durable electronic connections.
  • Understanding of power supply fundamentals and an introduction to printed circuit boards (PCBs), including the basics of PCB design and software utilization, with a focus on KiCAD.
  • Practical insights into PCB designing and testing procedures, ensuring the ability to develop and evaluate electronic circuits effectively.
  • Knowledge of electronics and electrical codes, essential for maintaining safety and compliance in electronic designs.


    • Elevate your electronics knowledge and skills through "Advanced Electronics and Circuit Design." Whether you're an electronics enthusiast, technician, or engineer, this course empowers you to tackle complex electronics challenges with confidence and opens doors to exciting opportunities in the field. Join us on this educational journey and unleash your potential in the world of advanced electronics and circuitry.
    Exam Coverage

    CIRCUIT ANALYSIS

    Ohms Law (Voltage, Resistance, Current)
    Basic concepts and understanding of the Ohm's law and its practical application in circuits.

    Power
    Power electronics plays a critical role in modern electronics by enabling the precise manipulation of voltage and current to efficiently deliver electrical power to various devices and systems.

    Series Circuits
    In a series circuit, electrical components are connected in a single pathway, creating a single closed loop for current to flow, with the same current passing through each component in the circuit.

    Parallel Circuits
    In a parallel circuit, electrical components are connected in multiple pathways, allowing current to split and flow through each branch independently, ensuring that the voltage across each component remains the same.

    Series Parallel Circuits
    A series-parallel circuit combines elements of both series and parallel configurations, allowing for the connection of electrical components in multiple branches while some components are connected in a series within those branches.

    Activity
    LED and Resistor
    LEDs (Light Emitting Diodes) are semiconductor devices that emit light when current passes through them. A resistor is an electrical component designed to impede the flow of electric current, typically characterized by its resistance value in ohms.

    LED with Diode
    An LED (Light Emitting Diode) is a semiconductor device that emits light when current flows through it in a forward-biased direction, utilizing the principle of electroluminescence in diode materials.

    RESISTOR COLOR CODING
    Resistor color coding is a standard method used to represent the resistance value and tolerance of a resistor by encoding it with a series of colored bands.

    Circuit Simulation and Actual
    Circuit simulation allows engineers and designers to model and analyze electronic circuits on a computer before physically building them, helping identify and rectify potential issues or inefficiencies before actual construction.

    MULTIMETER
    Analog Multimeter Reading
    An analog multimeter provides readings by indicating measurements on a scale using a moving needle, offering continuous and direct visual feedback for measuring electrical quantities such as voltage, current, and resistance.

    Digital Multimeter Reading
    A digital multimeter provides numerical readings on a digital display, making it easy to obtain precise measurements of electrical parameters like voltage, current, and resistance with digital accuracy and clarity.

    Troubleshooting Using Multimeter
    Troubleshooting using a multimeter involves systematically measuring electrical parameters to identify and resolve faults or issues within a circuit or electrical system.

    DIODE
    Forward and Reverse
    A forward diode conducts current in the direction of its arrow symbol when a sufficient voltage is applied, allowing electron flow from the anode to the cathode, while a reverse diode blocks current in the opposite direction and only allows a small leakage current to flow when a reverse voltage is applied.

    Circuits with Diode Application
    Diodes are frequently used in circuits for applications such as rectifying AC to DC, voltage regulation, signal clipping, and protecting against reverse voltage

    TRANSISTORS (BJT/FET)
    Soldering Techniques

    involve heating solder to its melting point and using it to join two or more metal components, creating a strong and durable electrical or mechanical connection.

  • POWER SUPPLY
  • Introduction PCB
  • Introduction Designing
  • Using Software
  • How to use KiCAD
    • PCB DESIGNING
    PCB designing is the process of creating the layout and interconnections of electronic components on a printed circuit board, facilitating the proper functioning of electronic devices and systems.

    TESTING
    Testing is the practice of assessing the functionality, performance, and reliability of electronic components, devices, or systems to ensure they meet specified requirements and standards

    Electronics /Electrical Code
    The electronics/electrical code consists of a set of standardized rules and regulations that govern the safe installation, maintenance, and use of electrical and electronic systems to protect both people and property from potential hazards.

    How to evaluate examination ?

    1. Theoretical Knowledge

    Theoretical knowledge covers the principles, concepts, and facts that form the foundation of a subject, providing a framework for practical applications and problem-solving.

    2. Circuit Analysis

    Circuit analysis is the systematic examination and evaluation of electrical circuits to understand their behavior, voltage, and current relationships, and to solve electrical engineering problems.

    3. Instrumentation

    Instrumentation involves the design, development, and implementation of electronic devices and systems used to measure, control, and monitor various physical parameters and processes in fields such as engineering, science, and industry.

    Examination Details

    Exam Name Exam EPCB-02
    Pre-requisites None
    Validity Lifetime
    Exam Duration 55 minutes
    Number of Questions 40 questions
    Type of Question Multiple Choice
    Passing Score 70%
    Cost $17 USD
    Languages English