Improving the power handling capability of direct contact RF MEMS switches requires a knowledge of conditions at the contact. This paper models the temperature rise in a direct contact RF MEMS switch, including the effects of electrical and thermal contact resistance. The maximum temperature in the beam is found to depend strongly on the power dissipation at the contact, with almost no contribution from dissipation due to currents in the rest of the switch. Moreover, the maximum temperature is found to exceed the limit for metal softening for a significant range of values of thermal and electrical contact resistance. Since local contact asperity temperature can be hundreds of degrees higher than the bulk material temperature modeled here, t...
RF MEMS switches have been presented by several researchers for use in transmit/receive switch circu...
This paper presents the design optimization of a RF MEMS direct contact cantilever switch for minimu...
Radio frequency micro-electromechanical systems (RF MEMS) have been envisioned to be ideal devices f...
Contact-type RF MEMS switches have demonstrated low on-state resistance, high off-state impedance, a...
In order to improve the temperature stability of DC-contact RF MEMS switch, a thermal buckle-beam st...
Abstract—RF MEMS switches have demonstrated excellent performance. However, before such switches can...
MEMS ohmic contact switches offer tremendous performance compared to solid-state switches. However, ...
A metal contact RF MEMS switch was fabricated based on the micro electroplating technology. With the...
Most of the actual applications for RF-MEMS switch require high reliability, but consolidated qualif...
We have experimentally observed the failure of metal contact RF MEMS switches due to a rapid rise in...
This paper explores contact heating in microelectromechanical systems (MEMS) switches with contact s...
This dissertation presents the design and measurement of high performance RF MEMS metal contact swit...
RF MEMS switches have demonstrated excellent performance. However, before such switches can be fully...
RF MEMS switches have demonstrated high isolation, low insertion loss, low power consumption, and go...
In this paper, the design and fabrication of a new radio frequency (RF) microelectromechanical syste...
RF MEMS switches have been presented by several researchers for use in transmit/receive switch circu...
This paper presents the design optimization of a RF MEMS direct contact cantilever switch for minimu...
Radio frequency micro-electromechanical systems (RF MEMS) have been envisioned to be ideal devices f...
Contact-type RF MEMS switches have demonstrated low on-state resistance, high off-state impedance, a...
In order to improve the temperature stability of DC-contact RF MEMS switch, a thermal buckle-beam st...
Abstract—RF MEMS switches have demonstrated excellent performance. However, before such switches can...
MEMS ohmic contact switches offer tremendous performance compared to solid-state switches. However, ...
A metal contact RF MEMS switch was fabricated based on the micro electroplating technology. With the...
Most of the actual applications for RF-MEMS switch require high reliability, but consolidated qualif...
We have experimentally observed the failure of metal contact RF MEMS switches due to a rapid rise in...
This paper explores contact heating in microelectromechanical systems (MEMS) switches with contact s...
This dissertation presents the design and measurement of high performance RF MEMS metal contact swit...
RF MEMS switches have demonstrated excellent performance. However, before such switches can be fully...
RF MEMS switches have demonstrated high isolation, low insertion loss, low power consumption, and go...
In this paper, the design and fabrication of a new radio frequency (RF) microelectromechanical syste...
RF MEMS switches have been presented by several researchers for use in transmit/receive switch circu...
This paper presents the design optimization of a RF MEMS direct contact cantilever switch for minimu...
Radio frequency micro-electromechanical systems (RF MEMS) have been envisioned to be ideal devices f...