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Smart Consideration of Inductor Thermal Performance for DC-DC Converter Performance and Reliability

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Figure1: Inductor Self-heating in the core vs the winding

Smart Consideration of Inductor Thermal Performance for DC-DC Converter Performance and Reliability
Len Crane, Director of Technical Marketing

The efficiency and the thermal properties of key components have very real implications for the success of any converter design. Switching FETs and inductors are generally the two most considered choices determining size and performance of any converter. Though made of vastly different materials of course, and with dif
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Date:
02/28/2026
Revolutionizing Power Electronics: Silver Adhesive Pastes for Next-Gen Semiconductor Reliability and Thermal Performance

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Figure 1: Silver adhesive paste for die-bonding

Revolutionizing Power Electronics: Silver Adhesive Pastes for Next-Gen Semiconductor Reliability and Thermal Performance
Yoshinori Fushimi, Product Manager for Silver Adhesive Paste, TANAKA PRECIOUS METAL TECHNOLOGIES Co., Ltd.

­As power electronics evolve with the rise of wide-bandgap semiconductors like silicon carbide (SiC) and gallium nitride (GaN), the demand for advanced die bonding solutions becomes increasingly critical. Die bonding solutions enable power systems that operate at significantly higher switching frequencies, de
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Date:
03/01/2026
Power Density vs. Reliability in Industrial Motion Systems

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Figure 1: High Power Density vs. High Reliability. An isometric view showing how compact designs increase thermal stress, while spaced layouts enhance cooling and reliability

Power Density vs. Reliability in Industrial Motion Systems
Rene Ymzon, Marketing Manager at Advanced Motion Controls

­Manufacturers want smaller cabinets, lighter machines, and higher throughput, but they also expect equipment to operate for years in harsh environments, including heat, dust, vibration, and electrical noise. As automation spreads and switching frequencies rise, margins shrink. A few degrees of temperature or
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Date:
03/01/2026
The Shift in Power and the OEM Collaboration Opportunity

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Figure 1: ENNOVi-SealTech – ENNOVI’s shrinking method for sealing 3-phase busbars at a lower cost and faster processing time compared to conventional methods

The Shift in Power and the OEM Collaboration Opportunity
Till Wagner, Product Manager Energy Systems, ENNOVI

­The automotive industry is undergoing significant change as hybrid and electric vehicles rapidly evolve. Instead of relying on Tier 1 supply partners for the manufacture and supply of systems and modules, OEMs are increasingly bringing development and manufacture in-house. This is particularly true for high-value sy
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Date:
03/01/2026
Powering Global Energy Resilience with Backup Solutions

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Powering Global Energy Resilience with Backup Solutions
Shaun Zeckmeister, Product Manager, Small Diesel, Rehlko

­In an era where energy is essential even with increasingly extreme weather, backup power is no longer optional for critical operations. Power interruptions cost American businesses an estimated $150 billion each year. Add in recent regional outages, such as the 2021 Texas winter freeze that caused up to $130 bi
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Date:
03/01/2026
Gate Driver Power Supply Challenges for SiC and GaN Devices

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Figure 1: A few of the many RECOM DC/DC modules optimized for WBG gate driver applications

Gate Driver Power Supply Challenges for SiC and GaN Devices
Recom Technical Team

­Silicon Carbide (SiC) and Gallium Nitride (GaN) are wide‑bandgap (WBG) semiconductor materials offering advantages over traditional silicon (Si) in power electronics because they switch faster with lower losses. They are gaining significant market share in applications where high efficiency and power density ar
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Date:
03/01/2026
Industrial PoE Switches: Powering the Edge Computing Revolution

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Figure 1: The IEEE has evolved PoE standards from 15.4W (802.3af) to 30W (802.3at) and up to 90-100W (802.3bt) to meet rising demand for power-hungry devices

Industrial PoE Switches: Powering the Edge Computing Revolution
Henry Martel, field application engineer, Antaira Technologies

­The global edge computing market has reached a transformative inflection point. With valuations ranging from USD 21.4 billion to USD 554.39 billion in 2025 depending on market segmentation, and projected growth rates approaching 28-33.5% CAGR through 2035, the infrastructure demands of distributed computing ar
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Date:
03/01/2026
Silicon Reinvented: Architectural Innovations Beyond SuperJunction Power MOSFETs

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Figure 1: The evolution of semiconductor architectures from HEXFET (left) to SuperJunction (middle) and the latest SuperQ technology (right), with dielectric charge-balancing structure shown in red

Silicon Reinvented: Architectural Innovations Beyond SuperJunction Power MOSFETs
Ryan Manack, Vice President of Marketing at iDEAL Semiconductor

­In the 1970s, the 1D power MOSFET, aka HEXFET™, was introduced. The 1980s saw the launch of the IGBT, and in the 1990s, reduced surface field (RESURF) devices – aka SuperJunction™ devices were introduced. Over the last two decades, improvements in silicon power devices have been largely evolutionary rather th
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Date:
03/01/2026
Parallelized Bidirectional Switches Drive Efficiency Higher

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Figure 1: BDS modes

Parallelized Bidirectional Switches Drive Efficiency Higher
Weijing Du, Director of Applications Engineering, Navitas Semiconductor

­The push for efficiency in power conversion is unrelenting, especially in systems that need to deliver high power levels on a continuous basis. Though novel power-switching topologies have improved conversion efficiencies, high-power systems can benefit vastly from improvements in semiconductor technology. Topology Considerations
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Date:
03/01/2026
Solving High-Voltage Power Challenges

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Figure 1: A cyclotron application block diagram

Solving High-Voltage Power Challenges
Hafiz Khalid, Director of Product Marketing, XP Power

­When integrating a high voltage power supply into equipment that requires very high voltage and high power, accuracy and reliability are critical. This applies whether the equipment is a medical cyclotron or an advanced manufacturing tool such as an e-beam welder. High voltage design presents its own set of ch
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Date:
03/01/2026
Using Output Discharge to Address Power Supply Systematic Failures

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Figure 1: Example autonomous mobile robot (AMR) subsystems

Using Output Discharge to Address Power Supply Systematic Failures
Bryan Angelo Borres, and Ino Lorenz Ardiente, Analog Devices

­Power supply blocks provide one of the most critical functionalities in electronics systems, as their behavior affects how the system will behave during the different modes of operation—power-up, power-down, steady-state operation, and in the event of failures—which is critical in achieving the safe state in
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Date:
03/01/2026
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