Complete Electrical Design and Fundamentals

Complete Electrical Design and Fundamentals , Master the Essentials: Electrical Systems – Theory & Design Calculations (more contents will be added weekly).

What you”ll learn:

• Fundamentals of Electrical Circuits: Understand Ohm’s Law, Kirchoff’s Laws, and Thevenin’s Theorem to analyze and solve electrical circuits.
• AC Circuit Analysis: Master the analysis of AC circuits with resistive, inductive, and capacitive components, calculating power and power factor.
• Three-Phase Systems: Learn the principles of three-phase circuits, including connections, power measurement, and power factor correction.
• Harmonics and Mitigation: Grasp the concept of harmonics, their effects, and strategies to mitigate harmonics in electrical systems.
• Energy Measurement: Explore various energy measurement methods, including electromechanical, electronic, and smart energy meters.
• HT and LT Distribution: Differentiate between high-tension (HT) and low-tension (LT) distribution systems and their applications.
• Per Unit System Basics: Learn the concept of the per unit system and its importance in power system analysis.
• Switchgear and Protection: Explore the role of switchgear in electrical systems and the importance of protection devices.
• Distribution System Types: Understand radial, ring, and mesh distribution systems in electrical power networks.
• Fault Current Calculation: Calculate three-phase fault current and MVA using per unit values for power system protection.
• Types of Circuit Breakers: Understand various circuit breaker types, including air, vacuum, and SF6 circuit breakers.
• Switchboard and Switchgear Assemblies: Learn about high and low voltage switchgear assemblies.
• Protection Systems: Understand the purpose of protection systems and their components, including relays and transformers.
• Protection Schemes: Explore protection schemes, including overcurrent, earth fault, and differential protection.
• Transformer Basics: Learn about distribution transformers, their types, and protection methods.
• Cable Joints and Terminations: Explore methods for joining and terminating cables in electrical installations.
• Earthing Systems: Learn about substation and system earthing, including the role of earthing conductors and circuit protective conductors (CPC).
• Cable Construction and Types: Understand the construction, insulation materials, and specifications of electrical cables.
• Electrical Installation Design Sequence: Understanding steps in designing electrical installations, ensuring a systematic approach to the process.
• Determine Load Characteristics: Analyzing and calculating electrical load requirements for installations, considering equipment and load diversity.
• Determine Supply Characteristics: Identifying and assessing power supply characteristics, such as voltage levels, frequency, and reliability.
• Electrical Installation Outline: Creating an initial plan for installations, detailing the placement of components, circuits, and connections.
• Power Distribution Design: Planning the distribution of electrical power, addressing cable routing, conductor sizing, and selecting distribution equipment.
• Use Standard Final Circuits: Incorporating standard final circuits into designs, ensuring compliance with relevant regulations and standards.
• Isolation and Switching Requirements: Defining requirements for isolation and switching mechanisms, prioritizing safety and functionality.
• Final Assessment and Client Review: Conducting a comprehensive evaluation of the design and reviewing it with the client for alignment.
• Design calculations
• Electrical design
• Departure from Local Electrical Standards: Addressing deviations from local standards, documenting and justifying any departures appropriately.
• Fault calculations
• Cable sizing
• Shock protection

Description