#USA #Bethlehem #iDEAL Semiconductor #SuperQ Technology #MOSFETs

iDEAL’s SuperQ Technology Revolutionizes Power Devices

In a groundbreaking move for the semiconductor industry, iDEAL Semiconductor has proudly announced the full-scale production of its SuperQ™ technology, which introduces the first-generation 150V MOSFETs. This advancement is more than just a new product line; it represents the first significant evolution in silicon MOSFET design in over 25 years.

Introduction to SuperQ Technology

SuperQ technology has been engineered to enhance performance and efficiency in silicon power devices. Unlike previous innovations that have plateaued in their performance capabilities, SuperQ offers a fresh architectural design that effectively eliminates traditional limitations in silicon's switching and conduction processes. This technology not only expands the n-conduction region nearly to double the standard (up to 95%) but also reduces switching losses by up to 2.1 times when compared to existing devices.

Product Features and Highlights

The inaugural product from the newly launched 150V MOSFET series, designated as iS15M7R1S1C, features an impressively low on-resistance of 6.4 mΩ and is readily available in a compact 5 x 6 mm PDFN package. This specific design includes exposed leads that enhance assembly ease and improve board-level reliability, proving iDEAL’s commitment to practicality in industrial applications.

Moreover, the new 200V family includes the iS20M6R1S1T, which boasts an on-resistance of 6.1 mΩ that is not only 10% lower than the industry's leading competitors but also achieves a remarkable 36% lower resistance than the runner-up in the market. The company is also sampling a variety of 200V MOSFETs in different packages, such as TOLL, TO-220, and D2PAK-7L, ensuring compatibility and flexibility across numerous applications.

Future Developments

As an exciting precursor to future innovations, iDEAL is also in the process of developing 300V and 400V MOSFET platforms to address the market needs in voltage classes currently underserved by existing silicon technologies. The upcoming devices are projected to deliver significantly lower resistance compared to mainstream solutions, thereby unlocking new avenues for enhanced efficiency and performance.

Mark Granahan, CEO and co-founder of iDEAL Semiconductor, emphasized the importance of this innovation by stating, "For the past quarter-century, the industry has relied on Reduced Surface Field (RESURF) technologies like Superjunction, but these architectures' performance has plateaued. To achieve the necessary gains in power delivery and efficiency, a new architecture is required, and that is SuperQ."

With the demand for superior power solutions in sectors including industrial automation, AI data centers, and global electrification, the SuperQ technology positions iDEAL to cater to evolving industry needs and usher in new insights for designers. Granahan further stated, "SuperQ will enable emerging critical applications by striking an unprecedented balance between cost and performance."

Sustainability and Future-Ready Technologies

The innovations brought forth by SuperQ are not destined to fabricating only MOSFETs; the technology framework is anticipated to impact a variety of semiconductor devices, such as IGBTs, diodes, and power ICs. SuperQ also aims to pave the way for future advancements in semiconductor materials, contributing to a sustainable strategy in power electronics.

iDEAL's semiconductor solutions are not just a product of advanced engineering; they are a significant step towards greener technology and efficient energy use. With manufacture and assembly taking place entirely in the United States, iDEAL Semiconductor enjoys the advantage of quality control unified with innovative design and customer-centric solutions.

Conclusion

To learn more about iDEAL's cutting-edge technology and product offerings, visit www.idealsemi.com. The launch of SuperQ technology marks a pivotal moment in the semiconductor landscape, representing significant potential for transformation in power electronics and a stride toward more efficient energy solutions for the future.