Eliminates the Need for Independent Discrete Models for Each Device Size and Process Variation

SAN JOSE, Calif. — (BUSINESS WIRE) — May 14, 2014 — In the past, high voltage (HV) discrete device and product development consisted of a long, serial approach where technologies were developed in TCAD*, physical parts fabricated and packaged, measurements performed and an iterative calibration cycle launched.

As designers simulate application circuits with SPICE and not TCAD, application simulations are often performed and calibrated very late in the technology development process when the silicon-based SPICE model is finally available. Any new sized part in the technology or technology adjustment required another round of TCAD simulations, device fabrication, and measurements before a corresponding discrete SPICE model became available for application simulation.

Now, newly developed physically-based, scalable SPICE models that encapsulate the process technology are at the forefront of the design cycle. Designers, through the SPICE model, can simulate product performance prior to device fabrication, reducing design and fabrication cycles, leading to lower costs and faster time to market.

Fairchild has launched scalable, physical SPICE-level models for high voltage discrete technologies including:

• IGBTs (FS Trench 650 V)
• Super Junction FETs (600 V & 800 V SuperFET^® MOSFETs)
• HV Diodes (STEALTH™ I, II diodes, and HyperFast series)

Fairchild’s HV SPICE models are one physical model that applies to the entire technology platform, instead of a library of independent discrete models for each device size and process variation. It has the ability to track layout and process technology changes.

“At Fairchild, we are focused on providing excellent high-voltage design enablement platforms,” Chris Allexandre, Senior Vice President of Worldwide Sales and Applications at Fairchild, said. “These new SPICE models enable virtual prototyping, helping our customers solve problems faster and develop new products with the shortest time to market, and are part of our commitment to provide amazing service that delivers measureable value for our customers.”

To learn more, visit our website (SPICE Model: SIMetrix and PSPICE) and download Fairchild's high-voltage, physical / scalable SPICE model today.

About Fairchild Semiconductor:

Fairchild has a rich history as a pioneer in the semiconductor industry and that pioneering spirit endures today. In an era where diversity can dilute focus and hamper innovation, we specialize in the development and manufacturing of a complete portfolio of low- to high-power solutions for the mobile, industrial, cloud, automotive, lighting, and computing industries. Fairchild is one of the most reliable partners in the industry, offering the shortest time from concept to silicon, expert FAEs for customer support, and a flexible, multi-source supply chain. Our vision is clear – anticipate the power efficiencies demanded by tomorrow’s electronic products and deliver an amazing design experience.

Delivering this vision is Fairchild’s way of making the world a cleaner and a better place. We accomplish this via a deeply human-centric approach: engage our employees, and strive to delight all our customers with great products at a fair price. If you use a smart phone, drive a car, own a modern appliance, or enjoy film animation you have experienced the power of Fairchild. Fairchild is unique in its deployment of design thinking in conceiving and delivering these advanced products. Our foundation is our guiding principles, which recognizes the inseparability of engaged employees and delighted customers, and encourages our employees to simplify, challenge, explore, play, excel, respect, go fast, and be direct. Please contact us on the web at www.fairchildsemi.com.

Connect with us on LinkedIn

Follow us on Twitter @FairchildSemi

Join the conversation! Check out the latest blogs from Fairchild at http://blog.fairchildsemi.com

Visit us on Facebook at http://www.facebook.com/FairchildSemiconductor

*TCAD (Technology Computer-Aided Design) is a Synopsis tool that refers to the use of computer simulations to develop and optimize semiconductor processing technologies and devices.

---

Contact:

Fairchild Semiconductor
Paul R. Hughes, 1-(800) 341-0392 X 3110
Public Relations Manager
Email Contact