Add to ORKGWe present the first measurement results of a power sensor for radio frequency (rf) signals (50 kHz - 40 GHz) with almost no dissipation during the measurement. This sensor is, therefore, a 'through' power sensor, that means that the rf signal is available during the measurement of its power. The power detection has been realized by measuring capacitively the movement of a grounded aluminum membrane, which is suspended above the transmission line carrying the rf signal. The power sensor is thus a capacitive MEMS technology based sensor. The fabrication is done by aluminum surface micromachining on an AF45 glass wafer. We measured the capacitance as a function of the applied rf power and found a linear relationship as predicted from theory
Micro-Electro Mechanical Systems (MEMS) are generally characterized as miniaturized systems with ele...
Wireless technology, which already plays a major part in our daily lives, is expected to further exp...
International audienceThis paper presents a versatile chip-level wireless driving method for microel...
Wideband 100 kHz–4 GHz power sensors are presented, which are based on sensing the electrostatic for...
Two novel RF MEMS power sensors operating up to 5 GHz and 45 GHz respectively have been designed. Th...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
A wideband 100 kHz- 4 GHz power sensor, of which the basic design was presented recently [l], was su...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
A wideband 100 kHz-4 GHz power sensor, of which the basic design was presented recently by L. J. Fer...
The general study is dedicated to Wireless Sensor Networks. The idea is to associate micro-mechanica...
Power savings requirements in wake-up circuits and RFID applications can greatly benefit from the em...
In RF (Radio Frequency) domain, one of the limitations of using MEMS (Micro Electromechanical System...
RF voltage measurement based on electrostatic RMS voltage-to-force conversion is an alternative meth...
Switched capacitors based on radio frequency microelectromechanical systems (RF MEMS) can enable a b...
Micro-Electro Mechanical Systems (MEMS) are generally characterized as miniaturized systems with ele...
Wireless technology, which already plays a major part in our daily lives, is expected to further exp...
International audienceThis paper presents a versatile chip-level wireless driving method for microel...
Wideband 100 kHz–4 GHz power sensors are presented, which are based on sensing the electrostatic for...
Two novel RF MEMS power sensors operating up to 5 GHz and 45 GHz respectively have been designed. Th...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
A wideband 100 kHz- 4 GHz power sensor, of which the basic design was presented recently [l], was su...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
A wideband 100 kHz-4 GHz power sensor, of which the basic design was presented recently by L. J. Fer...
The general study is dedicated to Wireless Sensor Networks. The idea is to associate micro-mechanica...
Power savings requirements in wake-up circuits and RFID applications can greatly benefit from the em...
In RF (Radio Frequency) domain, one of the limitations of using MEMS (Micro Electromechanical System...
RF voltage measurement based on electrostatic RMS voltage-to-force conversion is an alternative meth...
Switched capacitors based on radio frequency microelectromechanical systems (RF MEMS) can enable a b...
Micro-Electro Mechanical Systems (MEMS) are generally characterized as miniaturized systems with ele...
Wireless technology, which already plays a major part in our daily lives, is expected to further exp...
International audienceThis paper presents a versatile chip-level wireless driving method for microel...