"Electronics is a scientific and engineering discipline that studies and applies the principles of physics to design, create, and operate devices that manipulate electrons and other electrically charged particles."
The study of the behavior and effects of electrons in various materials and devices, and their practical applications in creating telecommunications equipment.
Electronics Basics: Introduces the basic concepts and terminologies of electronics such as voltage, current, resistance, power, capacitance, and inductance.
Circuit Analysis: Deals with the analysis of simple to complex circuits to understand its behavior and performance.
Electronic Components: Covers the different types of electronic components used in circuits such as resistors, capacitors, diodes, transistors, and integrated circuits.
Semiconductor Theory: Discusses the theory of semiconductors, which is the backbone of modern electronics.
Digital Electronics: Introduces the basics of digital electronic circuits and their applications in computers, communication systems, and various other systems.
Analog Electronics: Deals with analog signals or continuous signals and covers topics like amplifiers, filters, oscillators, and more.
Communications: Discusses the different modes of communication such as analog and digital, modulation techniques, transmission lines, antennas, and more.
Control Systems: Covers the basics of control systems, their design, and analysis.
Microcontrollers: Introduces the basics of microcontrollers, their architecture, programming, and interfacing with different sensors.
Power Electronics: Covers the basics of power electronics such as AC-DC converters, DC-DC converters, inverters, and more.
Signal Processing: Deals with the processing and analysis of signals such as filtering, noise reduction, and more.
Electromagnetic Theory: Covers the basics of electromagnetism, such as Maxwell's equations, wave propagation, and more.
Microwave Engineering: Covers the basics of microwave theory, transmission lines, waveguides, and more.
Optical Communications: Introduces optical communication systems and covers topics like optical fibers, lasers, and detectors.
Wireless Communications: Deals with wireless communications, such as cellular networks, wireless LANs, and more.
Embedded Systems: Introduces the basics of embedded systems, their programming, interfacing, and control.
Robotics: Deals with the basics of robotics, their design, and control.
Mechatronics: Covers the basics of mechatronics, their design, and control.
Testing and Troubleshooting: Deals with the testing and troubleshooting of electronic circuits and equipment.
Engineering Math: Covers the essential mathematics concepts used in electronics engineering such as calculus, linear algebra, and probability theory.
Phones: These devices transmit and receive voice and data over long distances via cellular or satellite technology.
Radios: Used for communication between ships, planes, and other vehicles, as well as emergency services.
Television: Used for media entertainment and communication, as well as transmitting broadcast signals.
Satellites: Used for communication, navigation, and weather monitoring.
WiFi routers: Used for wireless internet connectivity.
Modems: Used for sending and receiving data over phone lines.
Fiber optic cables: Used for high-speed internet and data transmission.
GPS devices: Used for location tracking and navigation.
Bluetooth devices: Used for short-range wireless communication between devices.
Antennas: Used for transmitting and receiving signals in various frequencies.
"Electronics is a subfield of electrical engineering, but it differs from it in that it focuses on using active devices such as transistors, diodes, and integrated circuits to control and amplify the flow of electric current and to convert it from one form to another."
"Electronics focuses on using active devices such as transistors, diodes, and integrated circuits to control and amplify the flow of electric current."
"Electronics also encompasses the fields of microelectronics, nanoelectronics, optoelectronics, and quantum electronics."
"The main driving force behind the advancement of electronics is the semiconductor industry."
"The semiconductor industry is one of the largest and most profitable sectors in the global economy, with annual revenues exceeding $481 billion in 2018."
"Electronics have a profound impact on various aspects of modern society and culture, such as communication, entertainment, education, healthcare, industry, and security."
"Electronics have a profound impact on communication."
"Electronics have a profound impact on entertainment."
"Electronics have a profound impact on education."
"Electronics have a profound impact on healthcare."
"The semiconductor industry is one of the largest and most profitable sectors in the global economy."
"The electronics industry also encompasses other sectors that rely on electronic devices and systems, such as e-commerce."
"E-commerce generated over $29 trillion in online sales in 2017."
"Using active devices such as transistors, diodes, and integrated circuits to control and amplify the flow of electric current and to convert it from one form to another."
"Electronics encompasses the fields of microelectronics, nanoelectronics, optoelectronics, and quantum electronics, which deal with the fabrication and application of electronic devices at microscopic, nanoscopic, optical, and quantum scales."
"Electronics is a scientific and engineering discipline that studies and applies the principles of physics."
"Devices that manipulate electrons and other electrically charged particles."
"Electronics uses active devices to convert electric current from one form to another, such as from alternating current (AC) to direct current (DC) or from analog to digital."
"Electronics converts electric current from one form to another, such as from alternating current (AC) to direct current (DC) or from analog to digital."