Company Filing History:
Years Active: 2022-2024
Title: Innovations of Richard E Wahl
Introduction
Richard E Wahl is a notable inventor based in Lubbock, TX (US). He has made significant contributions to the field of technology, holding a total of 3 patents. His work primarily focuses on advanced electronic and photonic devices.
Latest Patents
One of Wahl's latest patents is titled "Scalable unit cell device for large two-dimensional arrays with integrated phase control." This innovative device architecture includes a phase-shifting element and a phase shift driver, both integrated within the unit cell device. The phase shift driver independently controls the phase-shifting element to produce an optical beam with a desired phase. The unit cell device is designed to leverage direct bond hybridization (DBH) to attach an electronic integrated circuit wafer to a photonic integrated circuit wafer, allowing for tight integration of individual element-level phase control in large-scale two-dimensional photonic arrays.
Another significant patent is the "Analog counter with pulsed current source for a digital pixel." This analog counter circuit is designed for use with a digital pixel and includes various components such as inverters, a control switch, and capacitors. The circuit effectively manages the timing and accumulation of charge, enhancing the performance of digital pixels.
Career Highlights
Richard E Wahl is currently employed at Raytheon Company, where he continues to innovate and develop cutting-edge technologies. His work has had a profound impact on the advancement of electronic and photonic systems.
Collaborations
Wahl has collaborated with several talented individuals, including Christopher Casimir Brough and Sean P Kilcoyne. These collaborations have contributed to the successful development of his patented technologies.
Conclusion
Richard E Wahl's contributions to technology through his patents and work at Raytheon Company highlight his role as a leading inventor in the field. His innovative designs and collaborative efforts continue to push the boundaries of electronic and photonic device capabilities.