In the previous chapters, a monolithic mm-wave sensor network was introduced. An on-chip wireless power receiver with an ultra-low-power receiver and transmitter front-end was presented. In this chapter, the base-station for monolithic sensor networks with phased-array architecture is analyzed and the key circuits are developed. By using a phased-array architecture, the base-station can achieve better sensitivity for the receiver part, and can also increase the transferred power density at the sensor node location for the transmitter part.</p
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
Restricted until 4 Nov. 2009.This thesis presents unique architectures for the implementation of mul...
This chapter is focused on the analysis of integrated circuits and systems for wireless transceivers...
In the previous chapters, a monolithic mm-wave sensor network was introduced. An on-chip wireless po...
In this chapter, a battery-less wireless sensor system is proposed, which is called the Power REduce...
In the previous chapters, the rectifier for an on-chip wireless power receiver is analyzed and the m...
Future wireless sensor networks require reliable, batteryless, miniaturized, low-cost sensor nodes w...
This chapter presents the analysis, implementation, and measurement of two fully integrated mm-wave ...
This dissertation presents the research contributions of monolithic integrated circuit design and im...
This thesis focuses on the design and characterization of millimeter-wave monolithic active and pass...
Wireless technology is facing several important trends. Growing demand for throughput and capacity o...
Monolithic wireless sensors with integrated antenna, on-chip transceiving, sensing and energy scaven...
Scaling in silicon semiconductor process technology, although driven by digital applications, has al...
Abstract—Based on the indoor radio-wave propagation analysis, and the fundamental limits of CMOS tec...
The ever increasing speed of transistors in mainstream silicon-based technologies made the mm-wave d...
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
Restricted until 4 Nov. 2009.This thesis presents unique architectures for the implementation of mul...
This chapter is focused on the analysis of integrated circuits and systems for wireless transceivers...
In the previous chapters, a monolithic mm-wave sensor network was introduced. An on-chip wireless po...
In this chapter, a battery-less wireless sensor system is proposed, which is called the Power REduce...
In the previous chapters, the rectifier for an on-chip wireless power receiver is analyzed and the m...
Future wireless sensor networks require reliable, batteryless, miniaturized, low-cost sensor nodes w...
This chapter presents the analysis, implementation, and measurement of two fully integrated mm-wave ...
This dissertation presents the research contributions of monolithic integrated circuit design and im...
This thesis focuses on the design and characterization of millimeter-wave monolithic active and pass...
Wireless technology is facing several important trends. Growing demand for throughput and capacity o...
Monolithic wireless sensors with integrated antenna, on-chip transceiving, sensing and energy scaven...
Scaling in silicon semiconductor process technology, although driven by digital applications, has al...
Abstract—Based on the indoor radio-wave propagation analysis, and the fundamental limits of CMOS tec...
The ever increasing speed of transistors in mainstream silicon-based technologies made the mm-wave d...
Thesis (Ph.D.)--University of Washington, 2021The demands for higher data rates continue to drive re...
Restricted until 4 Nov. 2009.This thesis presents unique architectures for the implementation of mul...
This chapter is focused on the analysis of integrated circuits and systems for wireless transceivers...