High-Frequency Power Generation Archives

High-Frequency Power Generation

Power generation at high frequencies is an interesting challenge for silicon-based integrated circuits. In this research thrust we focus on innovative solutions for this problem, based on distributed circuits and deep understanding of the fundamental trade-offs in this area of research.

Frontiers in Flexible and Shape-Changing Arrays

Flexible active antenna arrays

Mutual Power Optimization of Photovoltaics and Wireless Power Transfer for Space Based Solar Power

Optically Synchronized Phased Arrays in CMOS

Fully Collapsible Lightweight Dipole Antennas

A 28 GHz Optically Synchronized CMOS Phased Array with an Integrated Photodetector

Dynamic Focusing of Large Arrays for Wireless Power Transfer and Beyond

Scalable, Deployable, Flexible Phased Array Sheets

A flexible phased array system with low areal mass density

A Wideband On-Chip Radiator Driven by a Traveling-Wave Photodetector

A Photodetector-Driven Coherent RF Array with Wide Tuning Range

A 69-to-79GHz CMOS multiport PA/radiator with +35.7dBm CW EIRP and integrated PLL

Fully Integrated CMOS X-band Power Amplifier Quad with Current Reuse and Dynamic Digital Feedback (DDF) Capabilities

Designing Optimal Surface Currents for Efficient On-Chip mm-Wave Radiators With Active Circuitry

Dynamic Polarization Control of Two-Dimensional Integrated Phased Arrays

Mutual Synchronization for Power Generation and Beam-Steering in CMOS With On-Chip Sense Antennas Near 200 GHz

A mm-Wave Segmented Power Mixer

A 2×2 Dynamic Polarization-Controlling Integrated Phased Array

Dynamic Polarization Control

An Integrated Slot-Ring Traveling-Wave Radiator