Company Filing History:
Years Active: 2025
Title: Anosh Davierwalla: Innovator in Oscillator Feedthrough Calibration
Introduction
Anosh Davierwalla is a notable inventor based in San Diego, CA. He has made significant contributions to the field of electronics, particularly in the area of oscillator feedthrough calibration. His innovative work has led to the development of a patented apparatus that addresses signal leakage issues in mixer circuits.
Latest Patents
Davierwalla holds a patent for an apparatus designed for oscillator feedthrough calibration. This invention includes a component arrangement that can be calibrated to account for signal leakage from an oscillator coupled to a mixer circuit. The apparatus features a mixer circuit with a first stage, a second stage, and tuning circuitry. The first stage consists of at least one transistor connected between a mixer input and a mixer output. The second stage includes one or more transistors linked between the first stage's transistor and the mixer output. Additionally, these transistors are connected between a local oscillator signal input and the mixer output. The tuning circuitry incorporates at least one current source linked to the first stage's transistor. This innovative design enhances the performance and accuracy of mixer circuits.
Career Highlights
Anosh Davierwalla is currently employed at Qualcomm Incorporated, a leading technology company known for its advancements in telecommunications and semiconductor technology. His work at Qualcomm has allowed him to focus on cutting-edge innovations in electronic components and systems.
Collaborations
Davierwalla has collaborated with several talented individuals in his field, including Mohamed Abouzied and Chuan Wang. These collaborations have contributed to the advancement of technology and the successful development of innovative solutions.
Conclusion
Anosh Davierwalla is a prominent inventor whose work in oscillator feedthrough calibration has made a significant impact in the electronics industry. His contributions continue to influence advancements in mixer circuit technology.