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SILICON CARBIDE DIODE Nexperia expands SiC diode portfolio for automotive and industry
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Nexperia has announced that its 650 V, 10 A silicon carbide Schottky diode is now automotive qualified (PSC1065H-Q) and available in real-two-pin (R2P) DPAK (TO-252-2) packaging, making it suitable for various applications in electric vehicles and other automobiles. Read more about this here.
Additionally, in a further extension to its portfolio of SiC diodes, Nexperia is now also offering industrial-grade devices with current ratings of 6 A, 16 A, and 20 A in TO-220-2, TO-247-2, and D2PAK-2 packaging to facilitate greater design flexibility. These diodes address the challenges of demanding high voltage and high current applications including switched-mode power supplies, AC-DC and DC-DC converters, battery-charging infrastructure, motor drives, uninterruptible power supplies as well as photovoltaic inverters for sustainable energy production.
The merged PiN Schottky (MPS) structure of these devices provides additional advantages over similar competing SiC diodes, including outstanding robustness against surge currents. This eliminates the need for additional protection circuitry, thereby significantly reducing system complexity and enabling hardware designers to achieve higher efficiency with smaller form factors in rugged high-power applications. Nexperia’s consistent quality across various semiconductor technologies provides designers with confidence in the reliability of these diodes.
:quality(80)/p7i.vogel.de/wcms/ff/22/ff22163c256104c22639a24e8af3565b/0113258006.jpeg "Read more about different types of diodes in this article. (Source: Witold Krasowski - stock.adobe.com)")
TYPES OF DIODES - OVERVIEW
The different diode types explained
In addition, Nexperia’s ‘thin SiC’ technology delivers a thinner substrate (one-third of its original thickness) which dramatically reduces the thermal resistance from the junction to the back-side metal. This results in lower operating temperature, higher reliability and device lifetime, higher surge current capability, and lower forward voltage drop.
“We’ve seen an excellent market response to the initial release of our SiC diodes. They have proven themselves in design-ins with one notable example in power supplies for industrial applications, where customers have achieved especially good results. The superior reverse recovery of these diodes translates to high efficiency in real-world use”, says Katrin Feurle, Senior Director and Head of Product Group SiC Diodes & FETs at Nexperia. “We are particularly excited that this is our first automotive-qualified product, and it is already recognized by major automotive players for its performance and reliability.”
Power Electronics in the Energy Transition
The parameters for energy transition and climate protection solutions span education, research, industry, and society. In the new episode of "Sound On. Power On.", Frank Osterwald of the Society for Energy and Climate Protection Schleswig‐Holstein talks about the holistic guidance his organization can provide.
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:quality(80)/p7i.vogel.de/wcms/b0/61/b061eedd36cacdba008c761853ad6636/0125621825v2.jpeg "Explore how Nexperia's new 1200 V SiC Schottky diodes revolutionize power efficiency for AI servers, telecom equipment, and solar inverters. (Source: Nexperia)")
:quality(80)/p7i.vogel.de/wcms/ba/72/ba72f640b48f4d3cc74a65739d1f80b1/0124207036v2.jpeg "Nexperia's new flip-chip land grid array (FC-LGA) packages deliver superior RF performance and meet automotive quality with industry's first side-wettable flank versions. Find out more here. (Source: Nexperia)")