Technical Features

Current

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Figure 1. Infineon StrongIRFET™ and OptiMOS™ power MOSFET 20-300 V technologies

Bring Your Design to the Next Level of Efficiency with OptiMOS™ 6 100 V Power MOSFET Technology

Francesca Pastorelli, Senior Specialist Product Management, Power Discretes, and Simone Mazzer, Senior Application Engineer, both at Infineon Technologies

Introducing a game changer for high switching frequency applications High efficiency, power density, and better thermal behavior are the key trends when it comes to power management. Infineon is constantly working on introducing highly innovative power MOSFET technologies able to meet the requirements for all app

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Date:

04/30/2022

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Figure 1: Unipolar RDS∙A versus breakdown voltage data by technology (room temperature)

Direct Drive of SiC JFET – Extracting Maximum Performance

Jonathan Dodge, P.E., UnitedSiC (now Qorvo)

The silicon carbide (SiC) JFET is arguably the most ideal switch technology for an application requiring minimum conduction loss, such as solid-state relay (SSR), solid-state circuit breaker (SSCB), and high power motor drive. Its low on-resistance per unit area (RDS∙A) and fast switching compete well

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Date:

05/01/2022

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Figure 1. Intelligent Rack PDUs for Powering, Monitoring, and Managing Critical Infrastructure

50 Shades of Green for Legacy Data Centers

John Berenbrok, Starline

Several decades ago “green” meant only one thing in a data center, a business-related conversation, money! Increasing margins, lowering costs, improving the bottom line, achieving the ideal EBITDA (earnings before interest, taxes, depreciation, and amortization). These were the only shades of green discussed in

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Date:

05/01/2022

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Figure 1: An electrolytic capacitor essentially consists of an anode and cathode film, separator paper, and electrolytes

Why Calculating Capacitor Lifetime Makes Sense

Sven Jimenez Rodriguez, Product Sales Manager Capacitors, and Christian Kasper, Technical Support, Rutronik

Electrolytic and polymer hybrid capacitors have an almost identical design: they consist of a cathode side and an anode side, which in turn are both made of aluminum film. The film for the anode is subjected to an oxidation process, which creates an aluminum oxide layer forming the dielectric. Both films are ro

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Date:

05/01/2022

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Figure 1: 1200A MPE HEMP Filter

Ensuring Resilience Within Power Applications

Paul Currie, Director, MPE Ltd, Liverpool

In recent years strengthened legislation, particularly in the USA and the EU, has seen power and utility companies having to consider electromagnetic interference (EMI) and electromagnetic pulse (EMP) threats within their sites. Legislation now dictates that the resilience of power systems against interruption or

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Date:

05/01/2022

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Figure 1. Power delivery and power efficiency has become the largest concern in large scale computing systems. The industry has witnessed a dramatic increase in power consumed by processors with the advent of ASICs and GPUs processing complex AI functions. Rack power has also subsequently increased with AI capability being utilized in large scale learning and inferencing application deployments. In most cases, power delivery is now the limiting factor in computing performance as new CPUs look to consume ever increasing currents. Power delivery entails not just the distribution of power but also the efficiency, size, cost and thermal performance

Unlocking Super Compute Performance

Doug Ping, Vicor Sr. Principal Applications Engineer

The increasing complexity and variety of compute workloads demand immense processing capabilities. Whether used in a cloud data center or on-premise, a new breed of processors is able to increase throughput and reduce latency. However, processor advances are pushing power delivery boundaries. As a result, po

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Date:

05/01/2022

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Figure 1: Data center energy use has stayed flat even with exponential traffic increase. Source: IEA

Optimizing Data Center Intermediate Bus Voltage for Significant System Efficiency Improvements

Oscar Persson, Specialist R&D Engineer, Flex Power Modules

While system designers have worked to get more data throughput without proportionally increasing power draw, there has been equal pressure to squeeze better efficiency out of the power delivery system, to reduce losses, consequent costs and cooling system overhead. Power converter designers have responded wi

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Date:

05/01/2022

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Figure 1: The evolution of process technologies improves upon the trench gate structure for a lowered on-resistance per unit area

A Look at the Advantages of 4th Generation SiC MOSFETs

Brandon Becker - Marketing Manager at ROHM Semiconductor

Power is arguably the most critical part of next-generation electric vehicles, alternative energy systems, and data centers, and industrial power supplies are increasingly reliant on efficient operations to save on energy costs and increase the effectiveness of their subsystems/equipment. In these applications, eve

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Date:

05/01/2022

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Figure 1. Precision high-side current sense circuit based on the LTC2063 zero-drift amplifier

Precision Ultra-Low-Power High-Side Current Sense

Catherine Chang, Applications Engineer, Analog Devices

Precision high-side measurement of microamp currents requires a small value sense resistor and a low offset voltage amplifier. The LTC2063 zero-drift amplifier has a maximum input offset voltage of just 5 µV and draws just 1.4 µA, making it a great choice for building a complete ultra low power, precision hi

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Date:

05/01/2022

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Figure 1: The block diagram of the MDC901 GaN gate driver

Drive Your Power Applications to the Next Level with GaN

Mike Wens, Jef Thoné and David Czajkowski, MinDCet NV

The entire ecosystem surrounding GaN HEMTs, which includes active and passive components like gate drivers, inductors and capacitors as well as the design techniques to implement the devices effectively, must quickly evolve to realize GaN’s full potential. As the device directly controlling the GaN HEMTs, th

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Date:

05/01/2022