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Würth Elektronik Watts Up Podcast
Author: WE Team
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The entire contents of this production is Copyright © 2008-2022 by Würth Elektronik. The production and reproduction of this podcast, writing, and images may not be copied or duplicated in whole or part by any means without prior written agreement.
Description
Each week, we're seeing what's up in the world of electronic and electromechanical components and PCB design. We'll be checking in with leading industry experts, and Würth Elektronik technology specialists and product managers, who are going to shine a light on interesting topics such as energy harvest, wireless power transfer, EMI issues and more.
Tune in to get technical design tips and applications during your commute, at your desk, or wherever you might be with the Wurth Elektronik's Watts Up Podcast.
Tune in to get technical design tips and applications during your commute, at your desk, or wherever you might be with the Wurth Elektronik's Watts Up Podcast.
115 Episodes
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The podcast explores how to choose the right filter topology based on different system impedances, emphasizing that there's no one-size-fits-all solution for EMI (Electromagnetic Interference). It also covers basic physics principles to keep in mind to prevent unwanted interferences. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
Electromagnetic interference (EMI) is unwanted noise in electrical circuits caused by electromagnetic fields from natural and human-made sources (power lines, radio transmitters, appliances). This podcast explores EMI filters, which are essential for reducing noise in electronic devices, ensuring they meet electromagnetic compatibility (EMC) standards. Key considerations for selecting EMI filters include frequency range, interference levels, filter type, environmental conditions, mounting options, and system compatibility. To read the full Würth Elektronik article, visit Element 14/ An AVNET Community.
This podcast focuses on the critical topic of Electrostatic Discharge, or ESD, and its impact on electronic devices. Our aim is to discuss its detrimental effects on electronics and find effective strategies for its prevention through selecting appropriate overvoltage and creating a well-designed PCB layout. You can find our entire lineup of ESD mitigating components, including TVS diodes, ESD Suppressors, Suppressor Arrays, and other EMC components available at Würth Elektronik online. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
EMC, or electromagnetic compatibility, is crucial in everyday scenarios and can enhance various applications. This podcast will cover the fundamentals of EMC, explore the influence of PCB layout, and examine electromechanical components that improve compatibility. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
EMC, or electromagnetic compatibility, is crucial in everyday scenarios and can enhance various applications. This podcast will cover the fundamentals of EMC, explore the influence of PCB layout, and examine electromechanical components that improve compatibility. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
In this podcast, we explore market trends driving electronic components to their limits, focusing on thermal aging in molded inductors. As miniaturization and higher current densities increase operating temperatures, thermal aging risks grow. We'll discuss its causes, detection methods, impacts on applications, and products designed to address these challenges. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
Digital isolators are crucial for secure, interference-free signal transmission between various voltage levels without direct electrical connection. In this podcast, we'll explore digital isolators in detail, focusing on their role in ensuring safety, interference-free data transmission, and common mode interference mitigation. We'll discuss their internal structure and how they maintain isolation, as well as the industry standards they must meet for reliability and compatibility. Finally, we'll examine the wide range of applications where digital isolators excel, showcasing their versatility and suitability for various scenarios. For a full video and to view product materials, visit our website at www.we-online.com/podcast.
In this podcast episode, we're discussing how X-capacitors ensure device safety and reliability. Learn about their construction, applications, and how to choose the right one. We'll also cover film capacitors, their types, and the strategic placement of X and Y Capacitors. Don't miss insights on the limitations of X2-capacitors and their role in main line filters. Tune in now! For the full video, visit our official podcast page at www.we-online.com/podcast.
In this podcast episode, we discuss Zero Insertion Force (ZIF) and Flat Flexible Cable (FFC) connectors, widely used in data PCBs. While there's no precise standard defining their signal integrity characteristics, we emphasize the importance of prioritizing signal integrity principles. Learn which frequencies can successfully pass through these connectors and explore factors like FFC length, pitch, and connector type. We also examine real-world scenarios, such as bending an FFC and the consequences of contact with an FFC, and address common questions engineers may overlook. For the full video, visit our website at www.we-online.com/webinars.
Transformers, although passive, play a significant role in electromagnetic compatibility (EMC) within power supplies. In this podcast, we'll explore methods to reduce emissions by understanding transformer properties and employing construction techniques. We'll examine examples of both poor and effective design practices, ranging from flying leads to shield windings. To watch the complete video on demand, visit our Würth Elektronik YouTube page or click here.
Anymore, passive components which are solely tested with AEC-Q200 standards are still insufficient for automotive use. Additional tests are crucial for ensuring high-quality components in vehicle electronics. This podcast explores design tips using components meeting AEC-Q22 qualifications for reliable automotive designs. Watch the full webinar on demand here or visit Würth Elektronik online at www.we-online.com/webinars.
In this podcast episode, we talk about why Switched-Mode Power Supplies (SMPS) are preferred over linear power supplies in power supply design, and discuss the challenges of selecting the correct SMPS topology to meet cost, efficiency, and design requirements effectively. To compare types of SMPS topologies, including Non-isolated and Isolated topologies, click here or visit Würth Elektronik online at www.we-online.com.
Because of fast assembling and small sizes, designers are turning to surfance mount technology on their PCBs. Although there are still through-hole (THT) components that need to be soldered by Wave, Through-Hole Reflow (THR), allows designers to solder the Through-Hole Components together with the surfance mount parts in the Reflow Oven, thus canceling the whole Wave Soldering Process; saving time and money. To watch the complete video on demand, visit our Würth Elektronik YouTube page or click here.
The recent GaN technology can operate at very high frequencies and deliver major efficiency gains. In this episode, STMicroelectronics and Würth Elektronik experts will cover the basics of flyback converters and introduce you to the most recent GaN-based auxiliary converter designs and their main benefits. To watch the complete video on demand, visit our Würth Elektronik YouTube page or click here.
Beyond its traditional uses in lighting, signaling, and horticulture, light shows promising potential in advanced sensing applications. In this podcast, we aim to shed light on the operational principles of optical sensors. We'll begin by establishing a basic understanding of relevant optical material properties in various applications. Additionally, we'll explore the impact of external factors, such as incident sunlight, on these optical sensors. Find our complete lineup of optoelectronics available at WE Online. To watch the complete video on demand, visit our Würth Elektronik YouTube page.
In this podcast, we'll show you how to effortlessly decrease the temperature on your PCB. We'll begin by guiding you through the art of designing traces based on two key IPC standards, then test the process with examples and tests. To view the full line of Thermal Management products, visit www.we-online.com/thermalmanagement. To replay the video, visit www.we-online.com/podcast.
In this podcast, we'll show you how to effortlessly decrease the temperature on your PCB. We'll begin by guiding you through the art of designing traces based on two key IPC standards, then test the process with examples and tests. To watch the video, visit www.we-online.com/podcast.
In order to reduce conducted emissions efficiently, it's important to understand the total noise spectrum including the separation of common mode and differential mode. In this episode, we'll investigate how to separate the noise usning an oscilloscope and also give practical measurement examples which demonstrate the iterative filter design process. View EMC solutions from Würth Elektronik- www.we-online.com Visit Rhode & Schwarz online at https://www.rohde-schwarz.com
Creating a low impedance return path plays a crucial role in enhancing EMC performance. A low impedance path acts as an essential base for improving electromagnetic interference (EMI), electromagnetic susceptibility (EMS) and achieving optimal signal integrity. In this episode, we're exploring the key principles and strategies for designing and implementing an effective low impedance (return) path. Find a variety of EMC components available at WE online. Replay the video here- www.we-online.com/podcast
Gallium Nitride (GaN) is a wide bandgap compound semiconductor formed by the combination of Gallium and Nitrogen with an atomic structure of quartzite crystal. In contrast to Silicon Carbide (SiC) power devices that have been around for quite a while, GaN power devices have just started to appear on the market. In this episode, we are taking a look at a comparative study between Gallium Nitride vs. Silicon in soft switching. Silicon and GaN-based devices are compared on different factors and tested with different switching frequencies to explore the best uses for each technology. This episode is based on a white paper created in collaboration with Würth Elektronik and STMicroelectronics, and first shared on All About Circuits. Visit Wurth Elektronik online- www.we-online.com Visit STMicro online- www.stmicro.com Visit All About Circuits online- https://www.allaboutcircuits.com/partner-content-hub/wuerth-elektronik-eisos-gmbh-co-kg/gan-vs-silicon-in-soft-switching-a-comparative-study/
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