Digital Silicon-Based Temperature Sensors for Industrial Applications

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.  

The technological overhaul taking place in hospitals and medical centers is undoubtedly improving medical procedures. Doctors and health professionals benefit from operating with the highest possible video image quality for the most accurate representation of patients’ conditions. With the advent of medical-grade visualization systems, procedural workflows improve, and high-quality, zero latency uncompressed video images are transmitted over long-distances for better collaboration, education and monitoring. This podcast is based on a paper published in All About Circuits. Today, we will introduce high-bandwidth uncompressed video connectivity for medical diagnostic equipment based on Valens' chipset VS3000 HDBaseT reference design solution, developed in collaboration with Würth Elektronik passive components.

Download the article at All About Circuits: https://www.allaboutcircuits.com/industry-white-papers/challenges-and-advantages-of-high-bandwidth-uncompressed-video-connectivity-for-medical-diagnostic-equipment/ 

Visit Valens online: https://www.valens.com/stello-family