Add to ORKGExisting power sensors for RF signals are based on thermistors, diodes and thermocouples. These power sensors are used as terminating devices and therefore they dissipate the complete incoming signal. Furthermore, new telecommunication systems require low weight, volume and power consumption and a high level of\ud integration with electronics. These requirements are expected to be fulfilled by RF MEMS devices. The design and fabrication of a power sensor for RF signals based on MEMS technology was the main objective of this thesis. The research was performed in the context of the European project ¿EMMA¿ (Electro Mechanical Microcomponents for precision Applications)
International audienceThis paper presents a novel application of MEMS to RF signals: microwave power...
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...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
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...
We present the first measurement results of a power sensor for radio frequency (rf) signals (50 kHz ...
Power savings requirements in wake-up circuits and RFID applications can greatly benefit from the em...
This paper presents a structure of MEMS capacitor providing independence of its nominal capacity and...
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 [l], was su...
This thesis is concerned with the design and implementation of radio frequency (RF) power amplifiers...
In this work a wide overview on the exploitation of MEMS technology (MicroElectroMechanical-Systems)...
In this paper we present a power attenuator for RF (RadioFrequency) and microwave signals entirely d...
International audienceThis paper presents a novel application of MEMS to RF signals: microwave power...
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...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
A novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to t...
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...
We present the first measurement results of a power sensor for radio frequency (rf) signals (50 kHz ...
Power savings requirements in wake-up circuits and RFID applications can greatly benefit from the em...
This paper presents a structure of MEMS capacitor providing independence of its nominal capacity and...
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 [l], was su...
This thesis is concerned with the design and implementation of radio frequency (RF) power amplifiers...
In this work a wide overview on the exploitation of MEMS technology (MicroElectroMechanical-Systems)...
In this paper we present a power attenuator for RF (RadioFrequency) and microwave signals entirely d...
International audienceThis paper presents a novel application of MEMS to RF signals: microwave power...
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...