About

For more than 50 years Fairchild Semiconductor has focused on customer success.

Our commitment to your success drives us to design, manufacture and supply power and mobile semiconductor technologies to make home appliances more energy efficient, enable mobile device manufacturers to deliver innovative new features, and boost the efficiency of industrial products.

Our global presence is supported by internal and external manufacturing and a flexible, multi-source supply chain. Fairchild partners with customers to understand their business and design challenges. We invest in continual research and development, advanced materials science and supply chain innovation to stay ahead of the demand curve. Our semiconductor solutions for automotive, mobile, LED lighting, and power management applications help our customers achieve success every day.

Partner with Fairchild Semiconductor for:

  • Semiconductor solutions that combine design, technology, materials, process and packaging innovation.

  • Proven expertise in power and mobile technologies to meet critical new markets and regional needs.

  • Dedicated customer support, including online tools, design labs, and FAEs, as well as access to regional support centers staffed with expert power and analog engineers.

  • A worldwide, multi-source supply chain combining in-house and external manufacturing resources.

  • Fairchild customers and shareholders count on the long-term financial stability of our company. Partner with us today and rely on our commitment to deliver.



Product Catalog



Technical Articles

Building Blocks for Making Every Design "Fit" (Power Supply and Conditioning) The demands on power supplies-as well as the engineers and semiconductor components used to build them-will continue to increase over the next five years. Market growth is projected to be 6.5% CAGR... (View Full Article)
Practical Challenges and Solutions for Data Center Fitness (Industrial Computing) This tech brief gives an overview of activities that increase IT and facility complexities. (View Full Article)