San Francisco / Kocaeli / PZT / Boston / New York / Pisa / London / Automation / /
Company
D3 S a / Computer Sciences / lossless LC / John Wiley Sons Inc. / Ferro / high-Q LC / oscillating LC / Micro Electro Mechanical Systems / resonating LC / /
Country
Italy / Turkey / Japan / United States / Korea / China / / /
Facility
Square Waves Domenico Campolo / Carnegie Mellon University / University of Pisa / Robotics Institute / University of California at Berkeley / Bogazici University / University of Tokyo / TUBITAK Marmara Research Center / ZheJiang University / University of California / /
IndustryTerm
ferroelectric devices / output mechanical energy / piezoelectric applications / higher energy density / electronics technology / consumed electrical energy / final solution / electric stored energy / maximum energy / mobile microrobotic applications / linear network / compact driving electronics / piezoelectric actuator applications / actuator energy transmission coefficient / energy / bipolar total energy / energy recovery / output energy / stored electrical energy / energy cycling / energy switching time power / energy conversion / low power applications / electrical energy / final energy / electronics / energy efficiencies / prototype driving electronics consisting / real devices / input electrical energy / linear multi-port networks / unused energy / energy transfer / energy transmission coefficient / energy transmission / smart structure applications / electronics efficiency / steel / /
Organization
University of California / CAD/CAM Robotics Department / MIT / ASME / Robotics Society of Japan / Bogazici University / Istanbul / IEEE / MiTech Lab / Department of Mechanical Engineering / Robotics Institute / University of Pisa / University of Tokyo / Tokyo / Carnegie Mellon University / Department of Electrical Engineering and Computer Sciences / ZheJiang University / HangZhou / TUBITAK Marmara Research Center / Stanford / /
Person
Arthur Ballato / Domenico Campolo / E. Ying-Chin Chou / Linear Model For Piezoelectric Actuators / Kenji Uchino / Ronald S. Fearing / Jan G. Smits / Linear Model For Piezoelectric / /
Position
Model For Piezoelectric Actuators Fig / research scientist and lecturer / CMOS line driver / General / Presidential Young Investigator / professor / correspondent / assistant professor / research engineer / member / /
IEEE TRANS. ON ULTRASONICS, FERROELECTRICS, AND FREQUENCY CONTROL, VOL. 50, NO. 1, JANUARY[removed]TO APPEAR) 1 Efficient Charge Recovery Method for Driving Piezoelectric Actuators with Quasi-Square Waves