Company Filing History:
Years Active: 2021-2023
Title: The Innovative Contributions of Charles Blackmer
Introduction
Charles Blackmer, an accomplished inventor based in Londonderry, NH, has made significant advancements in the field of microelectromechanical systems (MEMS). With five patents to his name, his work primarily focuses on creating innovative solutions that enhance the functionality of inertial sensors.
Latest Patents
Among his latest patents, Blackmer has developed a **3-axis gyroscope with rotational vibration rejection**. This invention features columnar multi-axis MEMS devices that optimize performance against undesirable linear and angular vibrations. The design incorporates multiple-mass columns, each equipped with proof masses to facilitate precise rotation sensing while managing motion and mass for balance.
Additionally, Blackmer has contributed to the development of **low-parasitic capacitance MEMS inertial sensors**. These sensors exhibit decreased parasitic capacitance by implementing localized regions of thick dielectric material within trenches. This innovative approach not only enhances the vertical separation between the sense capacitor and its substrate but also provides further reductions in parasitic capacitance. The outcome of these advancements includes accelerometers and gyroscopes that are critical in various applications.
Career Highlights
Charles Blackmer’s career is marked by his significant contributions while working at Analog Devices, Inc. where he has been able to merge his inventive spirit with practical applications that serve the tech industry. His journey as an inventor reflects a deep commitment to enhancing sensor technology.
Collaborations
In his endeavors, Blackmer collaborates with talented individuals, including Jeffrey A. Gregory and Tyler Adam Dunn. Together, they contribute to the exciting developments in MEMS technology, fostering a culture of innovation and shared knowledge within their field.
Conclusion
Charles Blackmer stands out as a visionary inventor whose work in MEMS has the potential to transform various technological applications. With his recent patents, he continues to push the boundaries of innovation, supporting advancements in hardware that are essential in today’s fast-paced technical landscape.