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Inspired by biological hearing systems, this invention provides an ultrasensitive, low-noise, miniaturized optomechanical acoustic particle velocity sensor that detects weak velocity signals in confined spaces. By directly sensing acoustic particle velocity rather than pressure, it measures vector components of sound fields, enabling enhanced localization...

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This invention introduces a compact bidirectional AC-DC converter that merges power factor correction and resonant conversion into a single multilevel stage. By reducing device count, passive size, and DC-link capacitance while achieving soft switching and >98% efficiency, it enables scalable, high-density power conversion for EV charging, grid storage,...

This invention introduces an electrolytic-capacitor-free LED driver that achieves >94% efficiency, extended operational life, and independent multi-channel dimming in a single compact unit, enabling reliable, energy-optimized lighting for industrial, architectural, and entertainment applications. Background: High-power LED systems require long...

This invention combines electrostatic levitation actuators with triboelectric nanogenerators to enable self-powered shock and vibration sensors. By directly converting motion to voltage and voltage to motion, it eliminates complex control systems, delivering compact, CMOS-compatible sensors for impact detection, fall alarms, and environmental monitoring....

This invention introduces a compact three-phase bidirectional AC-DC converter that integrates PFC and high-frequency isolation into a single 9-switch stage. By reducing device count, eliminating capacitor DC bias, and enabling soft-switching at >200 kHz, it achieves >98% efficiency with smaller filters and lighter hardware—ideal for EVs,...

This invention introduces a next-generation liquid cooling system that integrates embedded microchannels with cold plates to achieve exceptional heat removal, uniform temperature distribution, and low pressure drop for high-power electronics. Its perpendicular dual-flow design ensures continuous coolant renewal, enabling reliable thermal performance...

Microelectromechanical system (MEMS) switch that can recover from pull-in collapse using electrostatic levitation Technology Overview: A microelectromechanical system (MEMS) switch that can recover from pull-in collapse using electrostatic levitation. The approach is of great utility for any MEMS component that has to recover easily from pull-in,...

Highly stable, Room-Temperature Sinterable Copper-Gold Alloy Nanoparticle ink technology for high-performance electronics Technology Overview: This new technology features a new copper-gold (CuAu) alloy nanoparticle ink technology in which the CuAu alloy nanoparticle ink can be printed on a substrate and become electrically conductive at room...

This invention presents an air stable copper alloy conductive ink that can be printed and sintered at or near room temperature while achieving high conductivity. Its oxidation resistant alloy design and compatibility with heat sensitive substrates enable low cost, flexible, and sustainable electronic manufacturing for wearable devices and printed circuits. Background:...