Orbit & Skyline

India is on a transformative path to establishing a robust semiconductor ecosystem and becoming a key player in the global industry. However, this vision comes with challenges such as supply chain dependencies, infrastructure gaps, and the need for skilled talent. This blog explores critical factors India must prioritize, including strengthening the supply chain, enhancing infrastructure, fostering innovation, and ensuring sustained financial and governmental support. By addressing these areas, India can build a competitive semiconductor ecosystem and position itself as a global leader in this essential industry. Developing a Strong Infrastructure to Support Growth Building a Domestic Supply Chain:  Investing in local manufacturing of components and  raw materials  can minimize reliance on imports and improve supply chain resilience. Reliable Power Supply:  Ensuring an uninterrupted and high-quality power supply is crucial, as semiconductor manufacturing is highly se...

  Silicon carbide ( SiC ) is rapidly emerging as a game-changing material in the semiconductor industry. Its superior performance in high-power applications—such as electric vehicles, power grids, and renewable energy—sets it apart from traditional silicon-based solutions. With a wide bandgap, high electron mobility, and excellent thermal conductivity, SiC enables more efficient power devices, reducing energy loss and enhancing performance.   This article explores SiC crystal growth and wafer processing techniques, shedding light on the challenges and innovations driving the scalability and cost-effectiveness of SiC semiconductor manufacturing.   1. Fundamentals of SiC Crystal Growth and Material Properties   1.1 SiC Requirements   SiC is integral to modern power applications due to its exceptional properties, including a bandgap three times wider than silicon and a significantly higher critical electric field. These characteristics enable SiC -based power...