"A lighting control system incorporates communication between various system inputs and outputs related to lighting control with the use of one or more central computing devices."
An understanding of how to control the lighting in a space, including the use of dimmers, timers, sensors, and other control systems for efficient energy use and user comfort.
Light basics: Covers the fundamental aspects of light, such as color temperature, luminosity, and light sources, and their impact on lighting design.
Lighting fixtures: Explores the different types of lighting fixtures available for use, such as recessed, surface-mounted, pendant, and track lighting, among others.
Lighting controls: Describes the various types of lighting control systems, such as dimmers, timers, photocells, occupancy sensors, and manual overrides, and their functionalities.
Lighting design principles: Describes the key principles of lighting design, such as contrast, layering, balance, and mood, and how to apply them for effective lighting design.
Lighting calculations: Explores the calculations that lighting designers use to determine the required amount of light for a space, such as lumens, foot-candles, and watts.
Lighting software: Introduces the software used for lighting design, such as AutoCAD, Dialux, and AGI32, and their features.
Lighting standards and codes: Covers the lighting standards and codes that apply to different regions, such as ASHRAE, IESNA, and NEC, and their requirements.
Electrical power and distribution: Covers the basics of electrical power, such as voltage, current, and phase, and their role in lighting design, as well as electrical distribution systems.
Lighting for different spaces: Discusses the special requirements for lighting different spaces, such as residential, commercial, outdoor, and hospitality spaces.
Energy efficiency and sustainability: Covers the strategies for reducing energy consumption and promoting sustainable lighting design, such as LED lighting and daylight harvesting.
Manual lighting control systems: These systems require manual operation to control the lighting, typically through switches or dimmers.
Automatic lighting control systems: These systems use sensors to detect occupancy or light levels and adjust the lighting automatically.
Timed lighting control systems: These systems use timers to turn lights on and off at predetermined times.
Centralized lighting control systems: These systems are typically used in large commercial or public buildings and use a centralized control system to manage all lighting.
Decentralized lighting control systems: These systems allow for individual control of lighting in different areas or zones of a building.
Networked lighting control systems: These systems use a network to connect individual control devices, allowing for centralized management and monitoring.
Wireless lighting control systems: These systems use wireless communication to connect lighting control devices, allowing for easier installation and flexibility.
Daylight harvesting lighting control systems: These systems use sensors to automatically adjust the lighting in response to changes in natural light levels.
Mood lighting control systems: These systems allow for the creation of different lighting scenes or moods, typically used in residential or hospitality settings.
Energy management lighting control systems: These systems aim to reduce energy consumption by optimizing the use of lighting based on occupancy and natural light levels.
"Lighting control systems are widely used on both indoor and outdoor lighting of commercial, industrial, and residential spaces."
"Lighting control systems are sometimes referred to under the term smart lighting."
"Lighting control systems serve to provide the right amount of light where and when it is needed."
"Lighting control systems are employed to maximize the energy savings from the lighting system, satisfy building codes, or comply with green building and energy conservation programs."
"Lighting control systems may include a lighting technology designed for energy efficiency, convenience, and security."
"Automated controls make adjustments based on conditions such as occupancy or daylight availability."
"Lighting is the deliberate application of light to achieve some aesthetic or practical effect."
"It includes task lighting, accent lighting, and general lighting."
"Maximize energy savings from the lighting system, satisfy building codes, or comply with green building and energy conservation programs."
"One or more central computing devices facilitate the communication between various system inputs and outputs related to lighting control."
"Lighting control systems are widely used on both indoor and outdoor lighting of commercial, industrial, and residential spaces."
"Lighting control systems serve to provide the right amount of light where and when it is needed."
"Automated controls make adjustments based on conditions such as occupancy or daylight availability."
"They satisfy building codes and comply with green building and energy conservation programs."
"Task lighting is one of the types of lighting mentioned in the paragraph, which focuses on providing concentrated light for specific activities."
"Accent lighting is another type of lighting mentioned, which is used to highlight specific objects or areas for aesthetic purposes."
"Yes, lighting control systems are widely used on both indoor and outdoor lighting of commercial, industrial, and residential spaces."
"The goal of lighting control systems is to provide the right amount of light where and when it is needed."
" Lighting control systems may include automated controls that make adjustments based on conditions such as occupancy or daylight availability, enhancing convenience and security."