Dana Vincent Laub

Title: Innovations of Dana Vincent Laub

Introduction

Dana Vincent Laub is a notable inventor based in Irvine, California, with a remarkable portfolio of eight patents. His work primarily focuses on advancements in satellite tuner technology, showcasing his expertise in the field of electronics and communications.

Latest Patents

One of Laub's latest patents is the Integrated Direct Conversion Satellite Tuner. This innovative device is fully integrated on a common substrate, allowing it to receive an RF signal with multiple channels and down-convert a selected channel directly to baseband for further processing. The integrated tuner features on-chip local oscillator generation, tunable baseband filters, and DC offset cancellation. It can be implemented in a completely differential I/Q configuration, which enhances electrical performance. The entire direct conversion satellite tuner can be fabricated on a single semiconductor substrate using standard CMOS processing, minimizing the need for off-chip components. This tuner configuration is versatile and can be utilized to down-convert various RF signals to an IF frequency or baseband, not limited to processing TV signals.

Career Highlights

Throughout his career, Dana Laub has made significant contributions to the field of electronics. He has worked with prominent companies such as Skyworks Solutions, Inc. and Broadcom Corporation, where he has honed his skills and developed innovative technologies.

Collaborations

Laub has collaborated with talented individuals in the industry, including MohyEldeen Fouad Abdelgany and Lawrence M. Burns. These collaborations have further enriched his work and contributed to the advancements in satellite tuner technology.

Conclusion

Dana Vincent Laub's contributions to the field of electronics, particularly in satellite tuner technology, highlight his innovative spirit and dedication to advancing communication systems. His patents reflect a commitment to improving electrical performance and functionality in modern devices.