Why this course?

Description

Chapter 1: Indoor Lighting

• Overview: Types of lighting (ambient, task, accent) and their applications in residential and commercial buildings.
• Design Considerations: Lumens, wattage, energy efficiency, and fixture placement.
• Lighting Layouts: Methods for lighting calculations and choosing appropriate lighting systems for indoor spaces.

Chapter 2: Outdoor Lighting

• Overview: Different types of outdoor lighting (pathway, security, landscape).
• Lighting Techniques: Selection based on function (illumination vs. aesthetics), safety considerations, and environmental factors.
• Design Codes: Reference to standards for outdoor lighting.

Chapter 3: Accessories

• Overview: Common accessories used in electrical systems (switches, sockets, dimmers).
• Selection: Criteria for selecting accessories based on load, location, and safety.
• Integration: How to integrate accessories with the lighting and power systems in the building.

Chapter 4: Cables

• Types of Cables: Discussion of different cables (PVC, XLPE, armored) used in electrical systems.
• Cable Sizing: Methods to calculate appropriate cable sizes for different loads.
• Installation Guidelines: Best practices for cable routing, protection, and termination.

Chapter 5: Load Estimation and Calculation

• Overview: Basics of estimating electrical loads for various systems (lighting, HVAC, appliances).
• Calculation Methods: Step-by-step guidance on calculating the total connected load and demand load.
• Software Tools: Introduction to tools and software used for load estimation.

Chapter 6: Voltage Drop and Short Circuit

• Voltage Drop: How to calculate and minimize voltage drop in circuits to ensure efficiency.
• Short Circuit Calculations: Explanation of fault currents and methods for calculating short circuits in building systems.
• Prevention: Design strategies to mitigate short circuits and overcurrent protection devices.

Chapter 7: Feeding System

• Types of Feeding Systems: Single-phase vs. three-phase systems and their applications.
• Distribution Methods: How to design electrical distribution systems to efficiently deliver power throughout a building.
• Feeder Sizing: Guidelines for determining the correct feeder size based on load and distance.

Chapter 8: Power Factor Correction

• Overview: Importance of maintaining a high power factor in electrical systems.
• Correction Methods: Capacitor banks, synchronous condensers, and other techniques.
• Cost Savings: The economic impact of power factor correction on electricity bills.

Chapter 9: Emergency Systems

• Emergency Lighting: Types of emergency lighting systems and design guidelines.
• Backup Power: Designing emergency power systems using generators and UPS for critical loads.
• Regulations: Key standards and codes governing emergency systems in buildings.

Chapter 10: Earthing (Grounding)

• Earthing Systems: Types of earthing (TT, TN-S, TN-C, IT) and their applications.
• Design Principles: How to design effective earthing systems to protect both people and equipment.
• Earthing Calculations: Methods to calculate the size and placement of grounding electrodes.

Chapter 11: Protection

• Protection Devices: Overview of circuit breakers, fuses, and protective relays.
• Design Guidelines: Designing protection schemes to safeguard electrical systems from faults and overloads.
• Coordination: Ensuring proper coordination between different protection devices in the system.

Chapter 12: Fire Alarm

• System Components: Detectors, alarms, and control panels used in fire alarm systems.
• Design Standards: How to design fire alarm systems in compliance with safety codes and standards.
• Integration: Integrating fire alarm systems with other building services, like HVAC and sprinklers.

Chapter 13: CCTV and IP Telephone

• CCTV Systems: Design principles for surveillance systems, including camera placement and data storage.
• IP Telephony: Basics of IP telephone systems and network design.
• Integration: How to integrate these systems into the building’s overall electrical and network infrastructure.

Chapter 14: Sound System

• Public Address Systems: Design of PA systems for large buildings or facilities.
• Audio Distribution: Methods for distributing sound in different environments (auditoriums, offices).
• Integration: How to integrate sound systems with fire alarms and emergency communication systems.

Chapter 15: Smart Home Systems

• Overview: Introduction to smart home technologies, including lighting, heating, and security automation.
• Design Considerations: How to plan for smart wiring and integration with electrical systems.
• Protocols: Overview of communication protocols (Wi-Fi, ZigBee, Z-Wave) used in smart home devices.