Company Filing History:
Years Active: 2003-2004
Title: The Innovations of Robert Bartola
Introduction
Robert Bartola is an accomplished inventor based in Pottstown, PA (US). He has made significant contributions to the field of RF power technology, holding a total of 2 patents. His work focuses on enhancing the performance and efficiency of RF amplifiers, which are crucial in various communication systems.
Latest Patents
One of Bartola's latest patents is for a "Constant gain, constant phase RF power block." This invention is designed for use in RF amplifier apparatuses. The power block features a DC to DC power supply circuit that is co-located with an RF power transistor device on a common heat sink. It takes a varying DC voltage as input and outputs a constant supply voltage and a constant bias voltage. This design allows for easy tuning of the voltages during assembly, ensuring optimal performance.
Another notable patent is for "Automatic LDMOS biasing with long term hot carrier compensation." This invention provides systems and methods for automatically biasing LDMOS devices at turn-on. It compensates for hot carrier effects and temperature variations, allowing multiple LDMOS devices to have their bias points set simultaneously. This scalability is essential for modern RF applications.
Career Highlights
Throughout his career, Robert Bartola has worked with prominent companies in the technology sector. He has been associated with Ericsson GmbH and Infineon Technologies AG, where he contributed to various innovative projects. His expertise in RF technology has made him a valuable asset in these organizations.
Collaborations
Bartola has collaborated with notable professionals in his field, including Thomas W. Moller and William Hart. These collaborations have further enriched his work and contributed to the advancement of RF technology.
Conclusion
Robert Bartola's contributions to RF power technology through his patents and career achievements highlight his role as a significant inventor in the field. His innovations continue to influence the development of efficient communication systems.