The Future of Semiconductor Applications in Electronics – What to expect in 2025
Explore semiconductor trends for 2025 with Rebound Electronics. From powering AI and IoT to driving EV innovation and renewable energy,…
Most people have heard of microchips, but how much do you know about the components that make them possible? Here we will be discussing the many applications of semiconductors.
A semiconductor is a material that has conductivity properties between a conductor, which has the ability to conduct electricity, and a non-conductor or insulator, which doesn’t allow electrical charges to flow through it.
This means that, under certain conditions, semiconductors have the ability to act either as a conductor or an insulator. Semiconductors can be pure elements such as the most commonly used silicon, or compounds such as gallium arsenide.
The main application of semiconductors is in the creation of semiconductor devices which are essential for a multitude of electronic products. Semiconductor devices conduct electric currents in the solid state, instead of as free electrons across a vacuum, and are the successor to vacuum tubes in almost all applications.
One of the most commonly used semiconductor components is the diode, which acts as a one-way valve in a circuit, only allowing the flow of current in one direction. Conversely, conductors allow current to flow in both directions.
Semiconductors are also used in the design of transistors, which are used both for fast switching and for current amplification.
The MOSFET (metal-oxide-semiconductor field-effect transistor) is the most common semiconductor device in the world.
The semiconductor silicon serves as the base material for the microchip, also known as an integrated circuit or monolithic integrated circuit, a component used in almost every modern electronic device.
A huge amount of tiny MOSFETs are used in the creation of microchips. They are made up of a set of electronic circuits on a small, flat piece of silicon, with many transistors that can turn a current on or off.
The two main types of microchips are the logic chip and the memory chip. Logic chips process information to help electronic devices complete their tasks. One of the most widely known and commonly used logic chips is the CPU or central processing unit.
Memory chips, on the other hand, store information and come in two types – NAND Flash, and ‘working memory’ chips known as DRAM.
The demand for microchips is so high that there is currently a huge supply issue causing lengthy lead times and availability issues across the electronics industry.
Semiconductors are used in almost every sector of electronics.
Consumer electronics: Mobile phones, laptops, games consoles, microwaves and refrigerators all operate with the use of semiconductor components such as integrated chips, diodes and transistors. The high demand for these devices is part of the reason there are currently such long wait times for many consumer electronic devices.
Embedded systems: Embedded systems are small computers that form part of a larger machine. They can control the device and allow user interaction. Embedded systems that we commonly use include central heating systems, digital watches, GPS systems, fitness trackers, televisions and engine management systems in vehicles.
Thermal conductivity: Some semiconductors have high thermal conductivity, so can be used as a cooling agent in certain thermoelectric applications.
Lighting and LED displays: Some semiconductors, usually those available in liquid or amorphous form as a thin-coated film, can produce light and are used in LEDs and OLEDs.
Solar cells: Silicon is also the most commonly used semiconductor in the production of solar panel cells.
 That concludes our brief guide to the applications of semiconductors. As you can see, semiconductors are integral to the modern world and play an important role in the electronic devices we use or come into contact with every day.
A semiconductor is a material whose ability to conduct electricity falls between that of a conductor (which readily conducts electricity) and an insulator (which resists electricity). Commonly made from silicon, semiconductors can function as either depending on their environment.
What are the main uses of semiconductor devices?
Semiconductor devices are crucial in various electronic products. They are used in diodes to allow current flow in one direction, in transistors for switching and amplification, and in microchips which form the foundation of many modern electronic devices.
How are semiconductors used in consumer electronics?
Semiconductors form an essential part of many consumer electronics like mobile phones, laptops, and microwaves. They are used in integrated circuits and components like diodes and transistors that help these devices function efficiently.
What is the future outlook for semiconductors in smartphones?
The semiconductor industry is constantly evolving with significant innovations specifically designed for smartphones. This includes advancements in microchip technology to enhance processing power and energy efficiency, which are critical for supporting sophisticated mobile applications.
How are semiconductors impacting renewable energy technologies?
Semiconductors are playing a pivotal role in the development of renewable energy technologies, particularly in solar power. Silicon, a primary material in semiconductors, is extensively used in solar cells to improve efficiency and reduce costs, aiding the growth of sustainable energy solutions.
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