As technology undergoes constant evolution with innovations and updates, it becomes imperative for engineers to remain at the forefront of electrical engineering trends. Why? The future of electronics impacts numerous industries including automotive, healthcare, manufacturing, telecommunications, banking and finance, retail, education, energy, aerospace, and security. In essence, engineers across various sectors will play a crucial role in pioneering and constructing novel methods of engaging with technology.
1. Wireless Power Transfer
Have you ever fretted about forgetting to pack your charger before embarking on a trip? Or perhaps you indeed left it behind. This trend in electrical engineering alleviates any such concerns or inconveniences.
While still in its nascent stages of development and production, wireless power transfer emerges as a promising innovation for the future of electronics.
In essence, wireless power transfer (WPT), also referred to as wireless energy transfer, entails the conveyance of electrical energy from a power source to a receiver sans the utilization of interconnecting wires. WPT systems harness time-varying electromagnetic fields for energy transmission. These systems operate within the same spectrum as wireless communication devices. Essentially, a receiver within a device captures the power, facilitating contactless charging, powering, and data communication.
2. Wearable Tech
While wearable technology isn’t a novel concept, its perpetual evolution and fresh iterations necessitate the industry to think swiftly on its feet (literally) to cater to consumer demand and to remain at the forefront of electrical engineering trends. However, wearable tech transcends mere gadgets; it can serve as a life-saving tool. Electrical engineers have diligently worked on crafting wearable devices aimed at preventing injuries and workplace accidents.
For instance, SolePower boots are intricately engineered to mitigate on-the-job injuries. These boots incorporate technology that monitors the wearer’s real-time location, environmental conditions, and even fatigue levels. Overall, these boots are engineered to enhance situational awareness and bolster workplace safety.
3. Electric Power Distribution and Supply
Gone are the days when customers solely relied on power from a single, localized power company. Present-day trends in the power generation industry advocate for a more efficient approach to power generation through the implementation of smart grids and microgrids.
A microgrid is comprised of interconnected loads and distributed energy resources, forming a single controllable entity concerning the grid. Put simply, microgrids serve as self-contained power sources that cater to smaller, community-based areas.
These grids can operate in two modes: island or connected, depending on the community’s power needs and usage. There are five primary types of microgrids, each tailored to suit a community’s specific location: campus environment, community, remote off-grid, military base, and commercial. Microgrids offer several advantages.
