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Bench Talk for Design Engineers

Bench Talk

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Bench Talk for Design Engineers | The Official Blog of Mouser Electronics


How to Maximize the Efficiency of Energy Harvesting in Electronics Adam Kimmel
Energy harvesting requires a distinction between maximum power and maximum efficiency. Improved conversion efficiency increases power for the same input energy; however, this does not necessarily mean the highest power. Here is how you can maximize the efficiency of MCU energy harvesters.

Electrical Connection Technology for Energy Storage Systems Phoenix Contact
Modular in design from utility storage to residential, Battery Management Systems are at the heart of renewable energy storage. A well-designed BMS using data to control power input and output is key to maximizing efficiency, safety, and cost.

Hybrid Energy Storage Device as Backup to Solar Cells Vishay Intertechnology Inc.
The movement toward more sustainable solutions motivates design engineers to move beyond finite energy sources toward a fully renewable solution: solar cells. However, design engineers must overcome several challenges to realize this approach in the IoT.

New Tech Tuesdays: Two Alt-Energy Solutions for Developers of Solar Vehicle Design Tommy Cummings
In this week's New Tech Tuesday, we look at vehicle electrification products from Littelfuse and Analog Devices

How Energy Harvesting by Ultra-Low-Power MCUs Can Eliminate Batteries Adam Kimmel
Ultra-low-power MCUs are a good choice for energy harvesting. They exist in wearables, wireless, and other apps where extending battery life is needed. Let’s look at how energy harvesting works to understand how energy harvesting enables ULP MCUs.

MHDV Electrification Creates Spin-off Benefits Jeff Shepard
The power electronics and energy storage technologies being developed for medium- and heavy-duty electric vehicles (MHDVs) will benefit other application areas such as smart grids, microgrids, renewable energy, grid-scale energy storage, industrial systems, and even LDVs.

Going Off-Grid Efficiently With MicroGrids Paul Lee
Microgrids are becoming popular for environmental and dollar cost savings. However, adoption is dependent on efficient power conversion electronics enabled by the increasing use of wide bandgap semiconductors.

An Introduction to Nanoelectronics Liam Critchley
As components need to get smaller to accommodate consumer needs, manufacturers need a way of doing this. Nanoelectronics is the creation of electrical components using nanomaterials that can not only reduce the size of the device, but also provide the same, if not better, performance.

Energy Harvesting Could End Fossil Fuel Dependency KEMET Electronics
Demand for safe, power-efficient, renewable energy sources that require little or no maintenance is increasing on a daily basis. Learn why energy harvesting holds great promise as a solution to overcome the depletion of fossil fuels.

Energy Harvesting Is an Emerging IoT Enabler Sravani Bhattacharjee
Learn about energy harvesting, a fast-emerging option for system designers to address IoT power design challenges. Get deeper insights on what IoT energy harvesting involves, its promises and challenges, R&D success stories, and some futuristic applications.

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