Nexperia is a leading expert in the high-volume production of essential semiconductor components that are required by every electronic design in the world. The company’s extensive portfolio includes diodes, bipolar transistors, ESD protection devices, MOSFETs, GaN FETs and analog & logic ICs.
Focused on efficiency and quality, Nexperia produces reliable semiconductor components at high volume > 90 billion annually. Our extensive portfolio meets the stringent standards set by the automotive industry. Industry-leading packages, produced in our own manufacturing facilities, combine power and thermal efficiency with best-in-class quality levels. Nexperia is a leader in the high-volume production of essential semiconductor components that are required by every electronic design in the world with more than 12,000 employees across Asia, Europe and the US supporting customers globally.
Our manufacturing facilities (two front-end, three back-end) are vertically integrated to deliver high-volume production. We offer a high capacity for various packages and build our own equipment for testing and assembly. We work at every step to safeguard the long-term availability of our manufacturing processes and products, to ensure secure supply for our customers.
Nexperia aims to improve reliability along the semiconductor value chain by working closely together with iREL4.0 consortium partners such as suppliers, product-users, and research organizations in complex use-case demonstrators to gain insight into the new application specifications and requirements.
Specific reliability challenges are being investigated that emerge from: (1) the use of new materials and embedding substrates, (2) extended and more extreme requirements on tests performance and (3) monitoring of electronic systems in harsh-outdoor environments. Nexperia will use the project result to prepare and improve its products further for new emerging applications and their matching mission profiles.
Nexperia contributes to the application use cases DI-3 on smart and reliable LED driver systems and E-2 on power-electronics embedding. Our key-contributions are in WP2,3,4 and 6 in which we investigate new materials and key enabling technologies to extend product lifetime, eliminate corrosion driven failure mechanisms and to advance testing capability of components as well as to enable health monitoring capability complex systems.