CAE - CADD Centre Resource https://caddcentre.com/blog A Gold Mine of Information Thu, 02 Nov 2023 06:44:54 +0000 en-US hourly 1 https://wordpress.org/?v=4.9.24 Wireless Power Transfer https://caddcentre.com/blog/wireless-power-transfer/?utm_source=rss&utm_medium=rss&utm_campaign=wireless-power-transfer Tue, 15 Nov 2022 11:29:03 +0000 https://blog.caddcentre.com/?p=563 Wireless Power Transfer (WPT), is a highly commercialized domain and is currently one of the most sought fields of study. Devices including mobile phone chargers, stationary EV chargers, and dynamic EV chargers (also known...

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Wireless Power Transfer (WPT), is a highly commercialized domain and is currently one of the most sought fields of study. Devices including mobile phone chargers, stationary EV chargers, and dynamic EV chargers (also known as road-powered EV chargers, or RPEVs) have all been developed using WPT with notable breakthroughs. The WPT business is expected to expand over the next few decades based on the current rate of technological advancement.

According to projected development trends, it would be advantageous to be familiar with this technology to get a competitive edge in the business sector. Hence, to familiarize you with this burgeoning technology, the article addresses the foundational elements of WPT technology. Keep reading to explore more about WPT.

What is Wireless Power Transfer?

Wireless power transfer is the movement of electrical energy without the use of cables as a physical link. This technology uses induction coils to transport electrical energy wirelessly (or WPT) over an air gap from a power source to an electrical load. These coils create an electromagnetic field that transmits energy with complete galvanic isolation from a charging base station (the transmitter) to a coil on a portable device (the receiver). The receiver coil then transforms the electromagnetic field’s energy into electrical energy.

Wireless power transfer is useful for powering electrical devices in circumstances where connecting wires would be uncomfortable, risky, or impossible. By eliminating the need for wires and batteries, WPT technology can increase the mobility, comfort, and security of an electronic gadget.

Applications of Wireless Power Transfer

The WPT technology finds application in various domains, some of which are illustrated below.

Electronic Portable Devices

Smartphones, laptops, tablets, and even wearable technology are owned and used by billions of people worldwide. What binds all these devices together and enables mobile use, is the necessity to recharge the internal battery. With WPT, the conventional portable gadget can be disrupted and reimagined without the need for a physical power source. Additionally, it will reduce the cost of using mobile devices, make them more comfortable for consumers, and make them safer (power cords can cause fires and electric shocks). Studies have even been done on the possibility of establishing a network of WPT employing multi-hop WPT systems, in which a generator distributes power wirelessly to targets that can then serve as a  source for other targets and transmit power wirelessly to those targets.

Electronic Portable Devices

Electric Vehicles

As public awareness of global warming and greenhouse gas emissions grows, electric vehicle use increases. However, the application of electric vehicles is limited by their battery capabilities. Electric vehicles currently require a plug-in connection to replenish their internal batteries, which takes several hours. However, experts predict that in the not-too-distant future, a driver will simply need to leave their vehicles in a certain position in their driveway for the vehicle to charge wirelessly and automatically. These projections are based on several WPT studies, notably those that focus on the MPT process and how it might be used to charge electric vehicles.

Solar Power Satellites

Solar Power Satellites (SPS), the WPT’s most significant use, produce power by putting satellites with enormous solar arrays in geosynchronous Earth orbit and sending the generated energy back to Earth as microwaves.

Scope of Wireless Power Transfer

Wireless charging is now supported by many devices than simply smartphones and smartwatches. Its scope increases continuously. The focus is on its use in micro and small-scale industries and other fields. The market’s size is increasing significantly on a global scale as a result.

According to Allied Market Research, this industry’s growth rate from 2020 to 2027 would be roughly 23.4%. A $49,304 million market will exist globally by 2027. In India, its market is prominently growing by 14.5 percent. Further, the scope of this technology is growing outside of the electronics sector, in the automotive, industrial, healthcare, aerospace, and defense industries.

Conclusion

In this technological era, we witness innovations and technological upheavals almost every day. This digital economy is propelled by these discoveries. Wireless power transfer is one such revolutionary development in this area that has the potential to change the course of the electric sector. Therefore, to gain a competitive edge in the labor market, it is wise to arm oneself with the knowledge and skills to use emerging technology. So, acquire knowledge and grow your opportunities in this fast-growing industry.

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Reverse engineering application for recovery of broken parts https://caddcentre.com/blog/reverse-engineering-application-for-recovery-of-broken-parts/?utm_source=rss&utm_medium=rss&utm_campaign=reverse-engineering-application-for-recovery-of-broken-parts Wed, 06 Apr 2022 07:24:38 +0000 https://blog.caddcentre.com/?p=507 Damaged or broken parts are usually too expensive to replace or are no longer available. Reverse engineering can be defined as the systematic evaluation of a product for replication. It involves designing a new...

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Damaged or broken parts are usually too expensive to replace or are no longer available. Reverse engineering can be defined as the systematic evaluation of a product for replication. It involves designing a new part, copying an existing part, restoring a damaged or broken part, improving the accuracy of a model, and inspecting a digital model. The benefits of the technique include immediate feedback, data reduction, direct geometry generation, and higher accuracy of the end product. This article demonstrates some usage possibilities and the benefits of using reverse engineering methodologies and techniques in the production process, especially if there are parts without 3D CAD support.

The purpose of reverse engineering is to test and improve its products, to evaluate competing products and their technical characteristics, to simulate their performance dynamics with other structural units or in the environment, to assess violations of potential copyrights, etc. Therefore, reverse engineering is an indispensable tool for improving existing products and developing new products.

Reverse engineering is an essential department of the geometrical layout and manufacture application area, and this method has been extensively diagnosed as being an essential step within side the product improvement cycle. The use of reverse engineering will in large part lower the production time and costs. Reverse engineering is the procedure of manufacturing layout information within side the shape of CAD version from the bodily component within side the procedure of the product layout. In evaluation to the conventional manufacturing sequence, opposite engineering generally begins with measuring a current object, so that a strong version may be deduced on the way to employ the benefits of CAD/CAM/CAE technologies.

 

Reverse engineering technique incorporates three foremost steps which are used to extract expertise approximately the design, material, structure, floor qualities, and working situations of the product etc. The procedural steps are described as the scanning phase, factor processing phase and solid modelling. Before reverse engineering, some factors have to be taken into consideration in making plans, including motives for which an element is to be reverse engineered, element size, element complexity, element material, element geometry, element finish, etc.

Ability to reduce inspection times or turnaround times, reverse engineering approaches are gaining popularity in today’s competitive market as today’s global environment is rapidly changing and seeking new ways to overcome the time constraints and find new products and improve them. But future work is also needed in this area as there is potential for improving reverse engineering approaches as they lack efficiency and accuracy. Most reverse engineering algorithms require additional improvements for better results and less chance of errors.

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