Search Results - jing+wang

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Strategic Design of Driving and Sensing Through Magnetically Induced Strain for a Resonant MEMS Device and a Resonant MEMS Array
Advantages Enables magnetic-field-based tuning of MEMS resonance frequency and amplitude Supports non-contact actuation using external AC or DC magnetic fields Improves post-CMOS compatibility using magnetostrictive structural materials Enables multifunctional MEMS devices for sensing, tuning, and energy applications Summary Conventional MEMS...
Published: 1/15/2026   |   Inventor(s): Ugur Guneroglu, Mian Wei, Adnan Zaman, Jing Wang
Keywords(s): Sensors, Telecommunication / Wireless Communication
Category(s): Technology Classifications > Engineering > Electrical Engineering, Technology Classifications > Electronics, Technology Classifications > Electronics > Electronics Sensors, Technology Classifications > Electronics > Electronics Telecommunications
Strategic Design of Drive and Sense Electrodes for a Resonant MEMS Device and a Resonant MEMS Array
Advantages Enhances target resonance performance without complex electrode reshaping or fabrication changes Suppresses spurious vibration modes to improve signal clarity and device reliability Compatible with existing MEMS processes, reducing redesign time and manufacturing risk Applicable across multiple MEMS materials, geometries, frequencies,...
Published: 1/13/2026   |   Inventor(s): Ugur Guneroglu, Adnan Zaman, Jing Wang
Keywords(s):  
Category(s): Technology Classifications > Electronics, Technology Classifications > Electronics > Electronics Sensors, Technology Classifications > Electronics > Electronics Telecommunications, Technology Classifications > Engineering > Electrical Engineering
Design of Wireless Interrogated MEMS Capacitive Intraocular Pressure Sensors
Advantages Detects intraocular pressure changes with sub-0.1 mmHg resolution for superior clinical precision. Battery-free wireless design enables safe, continuous monitoring through inductive telemetry technology. Biocompatible materials ensure long-term implantation with minimal risk and high patient safety. MEMS-based fabrication allows cost-effective,...
Published: 10/14/2025   |   Inventor(s): Ramesh Ayyala, Liguan Li, Jing Wang
Keywords(s): Ophthalmic Equipment, Ophthalmology
Category(s): Technology Classifications > Medical > Ophthalmology
Frequency Alteration and Performance Enhancement of a Resonant MEMS Device and a Resonant MEMS Array
Advantages Improves resonator precision and quality using localized Joule heating Enables post-fabrication tuning without redesign or full re-manufacture Enhances performance by lowering motional resistance and boosting Q factor Works with a wide range of MEMS materials and device shapes Summary MEMS resonators are widely used in precision...
Published: 1/23/2026   |   Inventor(s): Ugur Guneroglu, Jing Wang, Adnan Zaman
Keywords(s): Electronics, Piezoelectric, Semiconductors
Category(s): Technology Classifications > Engineering > Electrical Engineering, Technology Classifications > Engineering > Mechanical Engineering, Technology Classifications > Electronics, Technology Classifications > Engineering
3D Printable High-k, low-loss ceramic-thermoplastic composites with tailored properties for high power RF device applications
Competitive Advantages 3D printed Increased permittivity values Decreases coefficient of thermal expansion Better device performance in humid environments Summary Our researchers have developed an approach to develop high-k and low-loss polymer-ceramic composites by further modifying the new processes with introducing surface...
Published: 4/3/2024   |   Inventor(s): Jing Wang, Vishvajitsinh Kosamiya
Keywords(s): 3D Printing, Industrial Applications, Materials
Category(s): Technology Classifications > Advance Materials
A Novel Compound for High Frequency Application
Competitive Advantages Highly reliable High permeability Low magnetic loss High operating frequency and stability Summary New electronics and biomedical devices are being proposed which utilize radio frequency (RF)/microwaves, such as biomedical imaging, sensors, etc. These new applications will need better RF/microwave materials with high...
Published: 7/12/2023   |   Inventor(s): Poonam Lathiya, Jing Wang
Keywords(s): Electronics, Medical Devices, RF and Microwave Engineering
Category(s): Technology Classifications > Electronics, Technology Classifications > Medical, Technology Classifications > Medical > Medical Devices