Company Filing History:
Years Active: 2024
Title: Innovator Iñigo Salinas: Pioneering Micro Scale Image Capture Technology
Introduction
Iñigo Salinas, an inventive mind hailing from Saragossa, Spain, has made significant strides in the field of optical systems. With a focus on micro-scale image capture, his innovative approach reflects a deep understanding of both technology and application.
Latest Patents
Salinas holds a patent for a unique Micro Scale Image Capture System. This invention presents an optical capture system designed to achieve low divergence of incident light (approximately 1°) and low acceptance angles of the captured light (less than 8°). Notably, the system employs a large array of collimated high-power white LEDs, numbering between 60 and 100, positioned approximately 650 mm from the sample. A digital camera integrated with a 50 mm focal objective and a 25 mm extension tube effectively captures images with a working distance of about 100 mm, while maintaining a magnification of ×0.5 for microscale captures. The high precision of this system allows for image sizes of 4×4 microns per pixel, presenting a significant advancement in imaging technology.
Career Highlights
Iñigo Salinas serves at Seddi, Inc., where his innovative contributions have fostered advancements in optical capture methodologies. His experience and dedication to the field highlight his commitment to enhancing imaging capabilities in various applications.
Collaborations
Salinas's work is complemented by collaborations with colleagues such as Carlos Aliaga and Raúl Alcain. Together, they contribute to the vision and realization of cutting-edge solutions in the optical imaging landscape.
Conclusion
Iñigo Salinas stands out as an influential inventor in the area of micro-scale image capture. His unique patent exemplifies his innovative spirit and dedication to pushing the boundaries of optical technology. As he continues to develop and refine his ideas, the potential impact of his work within the scientific and technological communities remains significant.