Company Filing History:
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Years Active: 2012-2024
Title: Monika Schmiedgen: Innovator in Electric Components and BAW Resonators
Introduction
Monika Schmiedgen is a prominent inventor based in Olching, Germany, recognized for her contributions to the field of electric components and acoustic devices. With a total of three patents to her name, her innovative spirit is evident in her latest creations which focus on enhancing the reliability and efficiency of electronic systems.
Latest Patents
One of her noteworthy patents is related to an electric component with a pad for a bump and its manufacturing method. This invention introduces a bump pad enclosure designed to improve the reliability of bump connections. The enclosure consists of an electrode pad, a UBM, and a first shield, which effectively protects the perimeter area of the electrode pad from environmental influences.
Another significant patent by Monika is for a BAW resonator and resonator arrangement. This innovation features a filter comprising first and second BAW resonators. The first BAW resonator includes a piezoelectric layer situated between a top and bottom electrode, accompanied by a dielectric layer that enhances the overall capacitance of the resonator. The second BAW resonator has fewer electrodes than the first, showcasing a streamlined design that optimizes performance.
Career Highlights
Monika has built her career through valuable experiences at notable companies, including Epcos AG and Snaptrack Incorporated. These positions have allowed her to hone her skills and develop groundbreaking technologies in the field of electronics.
Collaborations
Throughout her journey as an inventor, Monika has collaborated with esteemed colleagues such as Habbo Heinze and Edgar Schmidhammer. These partnerships have fostered an environment of creativity and innovation, leading to the successful development of her patents.
Conclusion
Monika Schmiedgen stands out as a remarkable inventor whose work has significantly impacted the fields of electric components and resonators. Her patented innovations promise to enhance the reliability of electronic systems and represent the forefront of technological advancement in her area of expertise.