Würth Elektronik Watts Up Podcast

RF systems rarely fail in obvious ways. More often, performance erodes quietly; a dB here, a little range there, until designs no longer match expectations. In this episode, we discuss one of the most overlooked sources of RF loss: the transition from a controlled‑impedance PCB trace to a connector and coaxial cable. You'll learn why "50 ohms" is a wave property, not a component value, how small geometry changes at the PCB‑to‑connector interface can create impedance discontinuities, and why connectors and cables should be treated as part of the transmission line, not mechanical afterthoughts. We'll also cover how cable selection, bend radius, mechanical stability, and prototype‑to‑production variability can quietly eat into your link budget, even when the radio and antenna are unchanged. Whether you're designing your first RF system or chasing a few lost dB in a mature product, this episode breaks down the hidden risks and practical design considerations that help protect system margin before they show up in the field. To view datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal.  RELATED SOLUTIONS: Trilogy of Connectors Reference Guide: https://www.we-online.com/en/components/products/TRILOGY_OF_CONNECTORS_ENGLISH Coaxial Connectors: https://www.we-online.com/en/components/products/em/connectors/coax   Coaxial Cable Assemblies: https://www.we-online.com/en/components/products/em/connectors/coax/coaxial_connectors_cable_assemblies  Coaxial Cable Configurator: https://www.we-online.com/en/products/components/service/customized-solutions/cableconfigurator   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast  Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us

RF systems rarely fail in obvious ways. More often, performance erodes quietly; a dB here, a little range there, until designs no longer match expectations. In this episode, we discuss one of the most overlooked sources of RF loss: the transition from a controlled‑impedance PCB trace to a connector and coaxial cable. You'll learn why "50 ohms" is a wave property, not a component value, how small geometry changes at the PCB‑to‑connector interface can create impedance discontinuities, and why connectors and cables should be treated as part of the transmission line — not mechanical afterthoughts. We'll also cover how cable selection, bend radius, mechanical stability, and prototype‑to‑production variability can quietly eat into your link budget, even when the radio and antenna are unchanged. Whether you're designing your first RF system or chasing a few lost dB in a mature product, this episode breaks down the hidden risks and practical design considerations that help protect system margin before they show up in the field. To view datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal.  RELATED SOLUTIONS: Trilogy of Connectors Reference Guide: https://www.we-online.com/en/components/products/TRILOGY_OF_CONNECTORS_ENGLISH   Coaxial Connectors: https://www.we-online.com/en/components/products/em/connectors/coax  Coaxial Cable Assemblies: https://www.we-online.com/en/components/products/em/connectors/coax/coaxial_connectors_cable_assemblies  Coaxial Cable Configurator: https://www.we-online.com/en/products/components/service/customized-solutions/cableconfigurator   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast  Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: <a href= "h

Electromagnetic issues in advanced electronics often show up in the last places engineers expect, turning even well‑designed systems into sources of interference or unexpected malfunction. In this episode, you'll learn about the most common culprits behind interference headaches in Edge AI designs, including layout pitfalls, cabling and grounding surprises, and how high‑speed interfaces like 10BASE‑T1L with PoDL add new layers of complexity. Our experts from Würth Elektronik and Texas Instruments will break down why small design decisions can dramatically affect electromagnetic performance, and how practical techniques, from component selection to sensor board design, can keep interference from derailing your project.   To view the datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal.   RELATED SOLUTIONS: Download the Presented Slides: https://bit.ly/edge_ai_deck EMC Components: https://www.we-online.com/en/components/products/pbs/emc_components 10BASE-T1L SPE Sensor with PoDL Reference Design from Texas Instruments: https://www.ti.com/tool/TIDA-010261 Texas Instruments Reference Designs: https://www.we-online.com/en/components/icref/texas-instruments   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: https://x.com/WurthElectronic/ (Americas) Follow us on X: https://x.com/we_online (Europe) Follow us on Instagram: https://www.instagra

Electromagnetic issues in advanced electronics often show up in the last places engineers expect, turning even well‑designed systems into sources of interference or unexpected malfunction. In this episode, you'll learn about the most common culprits behind interference headaches in Edge AI designs, including layout pitfalls, cabling and grounding surprises, and how high‑speed interfaces like 10BASE‑T1L with PoDL add new layers of complexity. Our experts from Würth Elektronik and Texas Instruments will break down why small design decisions can dramatically affect electromagnetic performance, and how practical techniques, from component selection to sensor board design, can keep interference from derailing your project.   To view the datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal.   RELATED SOLUTIONS: Presented Slides: https://bit.ly/edge_ai_deck EMC Components: https://www.we-online.com/en/components/products/pbs/emc_components 10BASE-T1L SPE Sensor with PoDL Reference Design from Texas Instruments: https://www.ti.com/tool/TIDA-010261 Texas Instruments Reference Designs: https://www.we-online.com/en/components/icref/texas-instruments   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: https://x.com/WurthElectronic/ (Americas) Follow us on X: https://x.com/we_online (Europe) Follow us on Instagram: https://www.instagram.com/wurthel

Unexpected overheating in electronic systems often appears in places engineers least expect, making reliable design a real challenge. In this episode, we explore why thermal problems don't always follow theory and why standard calculations sometimes miss the true source of heat build-up.   You'll learn about the main factors that create hidden thermal resistance, such as air gaps, imperfect interfaces, and material thickness. We explain why the "highest conductivity" materials aren't automatically the best solution and how practical strategies like gap fillers, spreaders, and thermally conductive adhesives can prevent and solve thermal failures. Our experts share real-world design tips to manage hotspots, improve reliability, and select the right thermal interface materials for your specific application.   RELATED COMPONENTS: Gap Filling Solutions: https://www.we-online.com/en/components/products/tm/gap_filling_solutions   Thermal Gap Filler Pad: https://www.we-online.com/en/components/products/THERMAL_WE-TGF   Thermal Transfer Tape: https://www.we-online.com/en/components/products/THERMAL_WE-TTT   Conductive Insulator Pad: https://www.we-online.com/en/components/products/THERMAL_WE-TINS   Graphite Sheet (Heat Spreading Solutions): https://www.we-online.com/en/components/products/THERMAL_WE-TGS   Graphite Foam Gasket (hybrid Solutions): https://www.we-online.com/en/components/products/THERMAL_WE-TGFG b To view the datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal. Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast    Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas)   Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe)   Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas)   Like u

A Hands-On Guide to Diagnosing and Overcoming Thermal Surprises in Electronics Unexpected overheating in electronic systems often appears in places engineers least expect, making reliable design a real challenge. In this episode, we explore why thermal problems don't always follow theory and why standard calculations sometimes miss the true source of heat build-up.   You'll learn about the main factors that create hidden thermal resistance, such as air gaps, imperfect interfaces, and material thickness. We explain why the "highest conductivity" materials aren't automatically the best solution and how practical strategies like gap fillers, spreaders, and thermally conductive adhesives can prevent and solve thermal failures. Our experts share real-world design tips to manage hotspots, improve reliability, and select the right thermal interface materials for your specific application.   RELATED COMPONENTS: Gap Filling Solutions: https://www.we-online.com/en/components/products/tm/gap_filling_solutions   Thermal Gap Filler Pad: https://www.we-online.com/en/components/products/THERMAL_WE-TGF   Thermal Transfer Tape: https://www.we-online.com/en/components/products/THERMAL_WE-TTT   Conductive Insulator Pad: https://www.we-online.com/en/components/products/THERMAL_WE-TINS   Graphite Sheet (Heat Spreading Solutions): https://www.we-online.com/en/components/products/THERMAL_WE-TGS   Graphite Foam Gasket (hybrid Solutions): https://www.we-online.com/en/components/products/THERMAL_WE-TGFG   To view the datasheets or order samples, visit Würth Elektronik online or the MyWE customer portal.   <div class="ewa-r

Selecting the right common mode choke (CMC) can make or break your EMI suppression strategy, but it's easy to fall into common traps. In this episode of "Common Pitfalls of the Common Mode Choke," we highlight the errors most often made during CMC selection, such as focusing only on inductance or overlooking the importance of core material and geometry. You'll learn the practical differences between inductance and impedance, how construction affects performance, and a straightforward workflow for choosing the best CMC for your application. To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: https://x.com/WurthElectronic/ (Americas) Follow us on X: https://x.com/we_online (Europe) Follow us on Instagram: https://www.instagram.com/wurthelectronics (Americas)   Würth Elektronik online: https://www.we-online.com/

Selecting the right common mode choke (CMC) can make or break your EMI suppression strategy, but it's easy to fall into common traps. In this episode of "Common Pitfalls of the Common Mode Choke," we highlight the errors most often made during CMC selection, such as focusing only on inductance or overlooking the importance of core material and geometry. You'll learn the practical differences between inductance and impedance, how construction affects performance, and a straightforward workflow for choosing the best CMC for your application. To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: https://x.com/WurthElectronic/ (Americas) Follow us on X: https://x.com/we_online (Europe) Follow us on Instagram: https://www.instagram.com/wurthelectronics (Americas) Würth Elektronik online: https://www.we-online.com/

In this episode of the Würth Elektronik Watts Up Podcast, we examine the different types of ambient energy and the technical challenges of converting and storing them efficiently. We discuss practical methods for turning ambient energy into reliable power, strategies for managing irregular energy and voltage fluctuations, and the effects of energy loss due to leakage.   We also cover low power converter ICs that handle energy from multiple harvesters and supply microprocessors with integrated RF modules for wireless, autonomous operation. Additionally, we address the important role of low power sensors within the energy harvesting ecosystem. For datasheets, samples, and a technical overview, visit Würth Elektronik online or access the MyWE customer portal.    Würth Elektronik online: https://www.we-online.com/

In this episode of the Würth Elektronik Watts Up Podcast, we examine the different types of ambient energy and the technical challenges of converting and storing them efficiently. We discuss practical methods for turning ambient energy into reliable power, strategies for managing irregular energy and voltage fluctuations, and the effects of energy loss due to leakage.   We also cover low power converter ICs that handle energy from multiple harvesters and supply microprocessors with integrated RF modules for wireless, autonomous operation. Additionally, we address the important role of low power sensors within the energy harvesting ecosystem. For datasheets, samples, and a technical overview, visit Würth Elektronik online or access the MyWE customer portal.    Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast

In this episode of the Würth Elektronik Watts Up Podcast, we focus on the fundamentals of transient suppression and EMI filtering for different electronic interfaces. As electronic devices become more interconnected, controlling voltage spikes and interference is increasingly important.   We discuss filter designs for mains power, asymmetrical, and symmetrical signal interfaces, explaining how to select and size components such as ferrites, capacitors, varistors, and TVS diodes. You'll hear calculation examples and learn how to apply these solutions to scenarios like USB and power line protection.   Topics include: - Why transient suppression is critical for modern circuits - How to approach filter design for different interface types - Component selection tips and calculation steps - Application examples and common pitfalls   For more details, download the full application note: https://www.we-online.com/components/media/o869938v410%20SN024a_EN.pdf   To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.   Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast   Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas)   Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe)   Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas)   Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe)   Follow us on X: https://x.com/WurthElectronic/ (Americas)   Follow us on X: https://x.com/we_online (Europe)   Follow us on Instagram: https://www.instagram.com/wurthelectronics (Americas)   Würth Elektronik online: https://www.we-online.com/

In this episode, we explain the essentials of EMC shielding for electronics: what shielding is, how it works, when you need it, and the most common pitfalls to avoid. Discover how the right materials, good design practices, and early planning can help you pass compliance the first time.  To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal. Find all EMC Shielding materials from Wurth Elektronik: https://www.we-online.com/en/components/products/pbs/emc_components/emi_shielding_material Listen to our PODCAST🎙️: https://www.we-online.com/en/news-center/podcast Follow us on LinkedIn: https://www.linkedin.com/company/wurth-elektronik (Americas) Follow us on LinkedIn: https://www.linkedin.com/company/wuerth-elektronik-group (Europe) Like us on Facebook: https://www.facebook.com/WurthElectronics/ (Americas) Like us on Facebook: https://www.facebook.com/Wuerth.Elektronik.Group/ (Europe) Follow us on X: https://x.com/WurthElectronic/ (Americas) Follow us on X: https://x.com/we_online (Europe) Follow us on Instagram: https://www.instagram.com/wurthelectronics (Americas) Würth Elektronik online: https://www.we-online.com/  Timestamps: 00:00 Introduction 02:02 What is EMC shielding? 03:45 How shielding works 05:27 Shielding materials and effectiveness 10:09 Shielding weak points and effectiveness 12:31 Common mistakes and how to avoid them

Designing with DC/DC converters often means relying on molded inductors for their small footprint and ability to withstand harsh environments. However, higher electrical and thermal stresses can gradually increase magnetic core loss due to insulation breakdown within the core material. In this episode, we explain the percolation phenomenon, Würth Elektronik's approach to understanding insulation degradation in molded inductors, and what it means for the long-term performance of your designs.  To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.

Designing with DC/DC converters often means relying on molded inductors for their small footprint and ability to withstand harsh environments. However, higher electrical and thermal stresses can gradually increase magnetic core loss due to insulation breakdown within the core material. In this episode, we explain the percolation phenomenon, Würth Elektronik's approach to understanding insulation degradation in molded inductors, and what it means for the long-term performance of your designs.  To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.

This episode focuses on the increasing use of high-performance power connectors in automotive systems, driven by the shift toward electrification and higher power demands. The REDCUBE series stands out for its ability to deliver stable, low-resistance connections in environments where reliability and mechanical strength are essential. We'll highlight key design considerations, cover how REDCUBE terminals support automotive and industrial applications, and discuss its mechanics and durability in these demanding conditions.   To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal.

This episode focuses on the increasing use of high-performance power connectors in automotive systems, driven by the shift toward electrification and higher power demands. The REDCUBE series stands out for its ability to deliver stable, low-resistance connections in environments where reliability and mechanical strength are essential. We'll highlight key design considerations, cover how REDCUBE terminals support automotive and industrial applications, and discuss its mechanics and durability in these demanding conditions. To view the datasheets or order samples, visit Würth Elektronik online or visit the MyWE customer portal. [Download the full Application Note here.]

How can custom transformers revolutionize your electronic systems and why are they so difficult to understand?! In our latest episode, we unravel the mysteries of the custom transformer so you can save valuable PCB space, get optimized performance, and ensure a seamless fit for unique applications. We also address the complexities of meeting specific electrical, mechanical, and efficiency requirements while tackling cost, lead times, and minimum order quantity concerns. Learn how custom designs pave the way for enhanced efficiency, superior performance, and a distinct competitive advantage in the market. For more information, visit www.we-online.com to connect with a Würth Elektronik magnetics expert or browse our extensive range of magnetic solutions.

How can custom transformers revolutionize your electronic systems and why are they so difficult to understand?! In our latest episode, we unravel the mysteries of the custom transformer so you can save valuable PCB space, get optimized performance, and ensure a seamless fit for unique applications. We also address the complexities of meeting specific electrical, mechanical, and efficiency requirements while tackling cost, lead times, and minimum order quantity concerns. Learn how custom designs pave the way for enhanced efficiency, superior performance, and a distinct competitive advantage in the market. For more information, visit www.we-online.com to connect with a Würth Elektronik magnetics expert or browse our extensive range of magnetic solutions.

In the second part of our two-part series on the Watts Up Podcast, Würth Elektronik teams up with Nexperia once again to provide a closer look at the NEVB-MTR-C-1 Motor Driver Evaluation Kit. This episode features an expert panel including Stein Hans Nesbakk and Aanas Sayed from Nexperia, and Sherin Sadek, Jared Birk, Ameer Elatrash, and host, Amelia Thompson from Würth Elektronik.   Together, they discuss the technical details, unique features, and hackability of the kit, along with a Q&A session with our experts. Perfect for engineers looking for a user-friendly and versatile motor drive solution. Visit Nexperia online to order the kit and download the user manual. For details on components and to download the reference design, visit the Würth Elektronik IC Reference Design page.

In the second part of our two-part series on the Watts Up Podcast, Würth Elektronik teams up with Nexperia once again to provide a closer look at the NEVB-MTR-C-1 Motor Driver Evaluation Kit. This episode features an expert panel including Stein Hans Nesbakk and Aanas Sayed from Nexperia, and Sherin Sadek, Jared Birk, Ameer Elatrash, and host, Amelia Thompson from Würth Elektronik.   Together, they discuss the technical details, unique features, and hackability of the kit, along with a Q&A session with our experts. Perfect for engineers looking for a user-friendly and versatile motor drive solution. Visit Nexperia online to order the kit and download the user manual. For details on components and to download the reference design, visit the Würth Elektronik IC Reference Design page.

In the first of a two-part series on the Watts Up Podcast, Würth Elektronik teams up with Nexperia to share the story behind the NEVB-MTR1-C-1 Motor Driver Evaluation Kit. This discussion-style episode features an expert panel including Stein Hans Nesbakk and Aanas Sayed from Nexperia, and Sherin Sadek, Jared Birk, Ameer Elatrash, and host, Amelia Thompson from Würth Elektronik. Together, they cover the history of the kit, its development, and the partnership between Nexperia and Würth Elektronik. The panel also discusses some of the kit's capabilities, why it's user-friendly, its unique features, and what engineers can expect to find in the design and evaluation kit.   Visit Nexperia online to order the kit and download the user manual. For details on components and to download the reference design, visit the Würth Elektronik IC Reference Design page.

In the first of a two-part series on the Watts Up Podcast, Würth Elektronik teams up with Nexperia to share the story behind the NEVB-MTR1-C-1 Motor Driver Evaluation Kit. This discussion-style episode features an expert panel including Stein Hans Nesbakk and Aanas Sayed from Nexperia, and Sherin Sadek, Jared Birk, Ameer Elatrash, and host, Amelia Thompson from Würth Elektronik. Together, they cover the history of the kit, its development, and the partnership between Nexperia and Würth Elektronik. The panel also discusses some of the kit's capabilities, why it's user-friendly, its unique features, and what engineers can expect to find in the design and evaluation kit. Visit Nexperia online to order the kit and download the user manual. For component details and to download the reference design, visit the Würth Elektronik IC Reference Design page.

Join us as we cover the essential strategies for managing electromagnetic interference (EMI) and ensuring effective power delivery in electronic systems with Valens Semiconductor. We'll discuss noise reduction techniques for flyback converters and the challenges of maintaining signal integrity across automotive, industrial, and medical environments. Discover how DSP-based solutions can support robust data transmission even in noisy conditions. For more information on EMC solutions and a wide range of electronic components, visit the Wurth Elektronik website at www.we-online.com. Additionally, check out innovative technologies and solutions by visiting the Valens Semiconductor website.

we cover the essential strategies for managing electromagnetic interference (EMI) and ensuring effective power delivery in electronic systems. We'll discuss insights from a recent webinar that covers noise reduction techniques for flyback converters and the challenges of maintaining signal integrity across automotive, industrial, and medical environments. Discover how DSP-based solutions can support robust data transmission even in noisy conditions. For more information on EMC solutions and a wide range of electronic components, visit the Wurth Elektronik website at www.we-online.com. Additionally, you can check out innovative technologies and solutions by visiting the Valens Semiconductor online.

In this episode, we tackle one of the most challenging aspects of circuit design: safety standard compliance. With multiple international standards and countless pages of requirements, how can designers ensure their circuits meet the right criteria without overdesigning or risking last-minute rejections? Join us as we discuss practical strategies to navigate these complexities with confidence. For more information, visit www.we-online.com to connect with a Würth Elektronik magnetics expert or browse our extensive range of magnetic solutions. From inductors and PFC chokes to wireless power transmission and gate drive transformers, we have the off-the-shelf power magnetics you need to bring your designs to life.

Find the perfect temperature sensor for your Industry 4.0 needs! In this audio only episode, we explore the world of temperature sensors, breaking down various technology approaches. We spotlight Würth Elektronik's WSEN-TIDS digital temperature sensor and discuss the key benefits of this sensor type for Industry 4.0 and IIoT applications. Catch the replay and explore more podcasts at https://www.youtube.com/wuerthelektronik/podcasts.

Find the perfect temperature sensor for your Industry 4.0 needs! In this episode, we explore the world of temperature sensors, breaking down various technology approaches. We spotlight Würth Elektronik's WSEN-TIDS digital temperature sensor and discuss the key benefits of this sensor type for Industry 4.0 and IIoT applications. Catch the replay and explore more podcasts at https://www.youtube.com/wuerthelektronik/podcasts.

We are back to focusing on EMI, but now we're taking a look at the crucial topic of modern EMI shielding technology and techniques. As we've discussed in previous episodes, EMI (Electromagnetic Interference) can significantly impact the performance and reliability of sensitive electronic devices, so it is essential that we understand how to prevent these interferences. Complete your design with EMI shielding materials from Würth Elektronik at WE online.

This podcast is designed for newcomers to the world of electronics and for educators aiming to help their students understand the fundamental concepts of key components. We'll simplify the essentials of resistors, capacitors, inductors, diodes, and transistors—explaining what they are, how they function, and their various applications. Whether you're an aspiring engineer, a professional transitioning into the electronics field, or a teacher seeking to provide your students with a basic understanding of these components, this podcast will help you build a solid foundation in electronics. Learn more about the featured components: Resistors Capacitors Inductors Diodes Transistors

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/

Wireless Power Transfer (WPT) and Near Field Communication (NFC) technology is evolving as an alternative to existing electronics that use cables to supply power. The new Qi2.0 standard developed by the Wireless Power Consortium (WPC) and the Ki standard for the kitchen appliances provide more opportunity for innovation. Near Field Communication (NFC) technology is extensively used with WPT to enable simultaneous power transfer and data communication between devices, like smartphones and fitness trackers. In this episode, we're giving an insight into recent trends in WPT and the synergy when combined with NFC. To replay the video, visit www.we-online.com/podcast.