Search Results - energy+efficient+iot

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Chip-Scale Monolithic Led-Photovoltaic Voltage Boost Conversion (Case No. 2025-033)
Summary: UCLA researchers in the Department of Materials Science and Engineering have developed a non-switching optoelectronic voltage conversion platform capable of voltage boost conversion at low input voltages on a miniature scale. Background: Voltage conversion is crucial for powering industrial systems, home appliances, electric vehicles, and...
Published: 12/4/2024   |   Inventor(s): Pattabhi "Aaswath" Raman, Parthiban Santhanam
Keywords(s): Application-Specific Integrated Circuit, Audio Power Amplifier, Autonomous Energy, clean energy, clean energy consumption, Compressed Air Energy Storage, Concentrated Solar Power, Concentrated Solar Power Chemical Engineering, conversion efficiency photoelectric, Doping (Semiconductor), Electronics & Semiconductors, Energy & Water, Energy Balance (Biology), energy conversion, energy conversion applications, Energy Density, Energy Density Boiling Point, Energy Density Silicide, Energy Density Strong Interaction, Energy Efficiency, energy efficient IoT, Energy Generation & Storage, Energy Generation, Transmission, or Storage, Energy Harvesting, Energy Harvesting Evaporation, energy management, Energy Management System, Energy positive, energy recycle, Energy Recycling, Energy Security , high-powered laser systems, Integrated Circuit, Integrated Circuit Standing Wave, Integrated Circuit Via (Electronics), interaction-powered, low-power device, Microelectronics Semiconductor Device Fabrication, Mixed-Signal Integrated Circuit, Monolithic Microwave Integrated Circuit, nanophotonic, nanophotonic structures, nanophotonics, Network Analysis (Electrical Circuits), Neuromorphic circuits, OLED, Optoelectronics, Optoelectronics Waveguide (Electromagnetism), Organic Semiconductor, people-as-power, photonic, Photonic Integrated Circuit, photonic materials, Photonic structures, Photonics, power amplifier, Power Amplifier Circuit, power conversion efficiency, Power distribution & grids, Power Electronics, Power Transmission, Printed Circuit Board, self-powered wireless sensor solutions, Semiconductor, semiconductor chip foundries, Semiconductor Device, Semiconductor Device Fabrication, Semiconductor Ohmic Contact, Semiconductor Risk Assessment, Semiconductor Sapphire, Semiconductors, Short Circuit, soft electrical circuits, thermal circuit, Three-Dimensional Integrated Circuit, wearable electronics, zero-carbon emission power, zzsemiconducting materials
Category(s): Electrical, Electrical > Electronics & Semiconductors, Materials, Materials > Semiconducting Materials, Electrical > Electronics & Semiconductors > Circuits, Energy & Environment, Energy & Environment > Energy Efficiency, Optics & Photonics
Bringing Millimeter Wave Technology to Any IOT Device (Case No. 2023-280)
Summary: UCLA researchers in the Department of Computer Science have developed a novel method of enabling any existing Internet of Things (IoT) device to operate at higher frequencies of the wireless spectrum. Background: The growing presence of smart devices that can communicate, sense, and process data places demands on current wireless networks....
Published: 10/28/2024   |   Inventor(s): Mohammad Hossein Mazaheri Kalahrody, Joerg Widmer, Domenico Giustiniano, Rafael Ruiz, Omid Abari
Keywords(s): BLE, Communication & Networking, Communications Satellite, device enhancement, downlink, Electrical, Electrical Brain Stimulation, Electrical Breakdown, Electrical Engineering, Electrical Impedance, Electrical Load, Electrical Load Equation Of State, Electrical Resistance And Conductance, Electrical Resistivity And Conductivity, electrically small antennas (ESAs), electrically-mediated sensing, energy efficient IoT, energy-efficient wireless communication, Internet of Things (IoT), IoT communication, IoT connectivity, LoRa, low-power device, Network Analysis (Electrical Circuits), operating range, Optical Communication , power conversion efficiency, quantum communication, RGID, scalable communication, smart connectivity, smart technology, strength-electrical conductivity, Telecommunication, Transcutaneous Electrical Nerve Stimulation, uplink, WiFi, wireless communication, wireless connectivity, wireless spectrum
Category(s): Electrical, Electrical > Wireless, Software & Algorithms, Software & Algorithms > Communication & Networking