Add to ORKGThis paper investigates both theoretically and experimentally the dielectric charging effects of capacitive RF MEMS switches. Dielectric charging caused by charge injection under voltage stress was observed. The amphoteric nature of traps and its effect on the switch operation were confirmed under both positive and negative control voltages. Furthermore, it has been confirmed that the charging is a complicated process, which can be better described through the stretched exponential relaxation. This charging mechanism is the one that is responsible for the appearance of the negative pull out voltage and finally for the device failure
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
RF MEMS capacitive switches show great promise for use in wireless communication devices such as mob...
The paper investigates the charging processes in RF-MEMS capacitive switches. Two basic mechanisms t...
Abstract—To design and validate accelerated life tests of RF MEMS capacitive switches, acceleration ...
Dielectric charges cause stiction problems in most capacitive RF-MEMS switches, creating a major rel...
Abstract—Bipolar control-voltage waveforms, under which the control voltage alternates between posit...
A major issue in the reliability of RF MEMS capacitive switches is charge injection in the dielectri...
Based on a one-dimensional model of dielectric charging for capacitive RF MEMS switches, the accumul...
The charging processes have been investigated in dielectrics used in RF MEMS capacitive switches. Th...
The charging processes have been investigated in dielectrics used in RF MEMS capacitive switches. Th...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
RF MEMS capacitive switches show great promise for use in wireless communication devices such as mob...
The paper investigates the charging processes in RF-MEMS capacitive switches. Two basic mechanisms t...
Abstract—To design and validate accelerated life tests of RF MEMS capacitive switches, acceleration ...
Dielectric charges cause stiction problems in most capacitive RF-MEMS switches, creating a major rel...
Abstract—Bipolar control-voltage waveforms, under which the control voltage alternates between posit...
A major issue in the reliability of RF MEMS capacitive switches is charge injection in the dielectri...
Based on a one-dimensional model of dielectric charging for capacitive RF MEMS switches, the accumul...
The charging processes have been investigated in dielectrics used in RF MEMS capacitive switches. Th...
The charging processes have been investigated in dielectrics used in RF MEMS capacitive switches. Th...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...
International audienceDielectric charging is a key failure mechanism in radio frequency (RF) microel...