Thomas J Skaar

Title: Innovations by Thomas J Skaar

Introduction

Thomas J Skaar, an inventive mind from Eagan, MN, has contributed significantly to the field of electrical engineering with a total of three patents to his name. His work focuses on optimizing power supply in integrated circuits and enhancing data processing systems.

Latest Patents

Thomas J Skaar's latest patents showcase his innovative approach to power management and data separation. One of his notable patents is titled "PHY based wake up from low power mode operation - Apparatus and method for supplying electrical power to a device." This invention describes a system on chip (SoC) integrated circuit that efficiently manages power consumption by utilizing an always-on domain (AOD) power island, allowing a device to enter a low power mode while still being able to wake up when necessary.

Another significant patent is for a "Data separator having an accurate delay circuit." This invention addresses the extraction of data embedded in read signals, utilizing a delay circuit controlled by a frequency synthesizer. The design helps to mitigate fabrication variations common in integrated circuits, ensuring high accuracy in delay intervals.

Career Highlights

In his career, Thomas J Skaar has worked with renowned companies such as VTC Inc. and Seagate Technology Incorporated. His experience in these organizations has greatly influenced his inventive journey, allowing him to develop technologies that are impactful in the electronics industry.

Collaborations

Throughout his career, Thomas has collaborated with notable individuals such as William W. Leake and Scott Younger. These partnerships have contributed to his innovative projects, fostering a collaborative environment that has led to the development of his patented technologies.

Conclusion

Thomas J Skaar's contributions to the field of electrical engineering through his patents reflect a dedication to innovation and improvement. His work not only advances technology but also sets a foundation for future developments in efficient power management and data processing systems.