Wireless technology, which already plays a major part in our daily lives, is expected to further expand to networks of billions of autonomous sensors in coming years: the so-called Internet of Things. In one vision, sensors employing low-cost, low-power wireless motes collect and transmit data through a mesh network while operating only on scavenged or battery power. RF MEMS provides one approach to the stringent power and performance required by sensor networks.This dissertation presents improvement to these MEMS technologies and introduces new approaches for wireless communication in low power wireless networks. First, this work presents oscillators based on the capacitive-gap transduced MEMS resonator. As wireless radio needs at least on...
Power consumption, form factor and more importantly cost, are major challenges for today’s wireless ...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
With quality factors (Q) often-exceeding 10,000, vibrating micromechanical resonators have emerged a...
There is little question that the commercial success of smartphones has substantially increased the ...
In today’s connected world, our lives depend heavily on information obtained from networks of sensor...
Wireless communication technology has revolutionized our daily life through rapid development in the...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
On chip capacitive-gap transduced micromechanical resonators constructed via MEMS technology have ac...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
MEMS-based Circuits and Systems for Wireless Communication provides comprehensive coverage of RF-MEM...
As the communication technology evolves day by day, the demands for low cost, low power, multifuncti...
Series-resonant vibrating micromechanical resonator oscillators, using a custom-designed, single-sta...
The very significant growth of the wireless communication industry has spawned tremendous interest i...
Reference oscillators are ubiquitous elements used in almost every electronics system today. The nee...
Power consumption, form factor and more importantly cost, are major challenges for today’s wireless ...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
With quality factors (Q) often-exceeding 10,000, vibrating micromechanical resonators have emerged a...
There is little question that the commercial success of smartphones has substantially increased the ...
In today’s connected world, our lives depend heavily on information obtained from networks of sensor...
Wireless communication technology has revolutionized our daily life through rapid development in the...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
On chip capacitive-gap transduced micromechanical resonators constructed via MEMS technology have ac...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
The recent advances made in MEMS and particularly in RF MEMS technology are enabling new architectur...
MEMS-based Circuits and Systems for Wireless Communication provides comprehensive coverage of RF-MEM...
As the communication technology evolves day by day, the demands for low cost, low power, multifuncti...
Series-resonant vibrating micromechanical resonator oscillators, using a custom-designed, single-sta...
The very significant growth of the wireless communication industry has spawned tremendous interest i...
Reference oscillators are ubiquitous elements used in almost every electronics system today. The nee...
Power consumption, form factor and more importantly cost, are major challenges for today’s wireless ...
This paper reports on the design and implementation of a low power MEMS oscillator based on capaciti...
With quality factors (Q) often-exceeding 10,000, vibrating micromechanical resonators have emerged a...