Company Filing History:
Years Active: 2003-2014
Title: David C. Hollocher: Innovator in MEMS Technology
Introduction
David C. Hollocher is a notable inventor based in Norwood, MA (US). He has made significant contributions to the field of microelectromechanical systems (MEMS) with a total of 5 patents to his name. His work focuses on advancing technology that enhances the functionality and reliability of MEMS devices.
Latest Patents
One of Hollocher's latest patents is titled "Anti-capture method and apparatus for micromachined devices." This innovative MEMS device features a movable beam and a differential capacitor with a movable electrode. The electrode responds to the displacement of the movable beam and is positioned between two stationary electrodes. The device includes a voltage circuit that applies different voltages to the stationary electrodes and the movable electrode. Additionally, it has a monitor that is operably coupled with the movable beam to track its displacement. In certain embodiments, the monitor can measure the distance between the movable electrode and at least one of the stationary electrodes. Furthermore, the MEMS device is equipped with a voltage-reducing circuit that adjusts the voltage differential when the monitor detects that the beam's displacement exceeds a predetermined threshold.
Career Highlights
David C. Hollocher is currently employed at Analog Devices, Inc., where he continues to innovate in the MEMS field. His work has been instrumental in developing technologies that improve the performance and efficiency of micromachined devices.
Collaborations
Throughout his career, Hollocher has collaborated with notable colleagues, including Howard R. Samuels and John Memishian. These partnerships have contributed to the advancement of MEMS technology and the successful development of various innovative solutions.
Conclusion
David C. Hollocher is a prominent figure in the MEMS industry, known for his innovative patents and contributions to technology. His work continues to influence the field, paving the way for future advancements in micromachined devices.