Add to ORKGA novel inline type millimeter wave MEMS power sensor is presented. The electrostatic force due to the rms voltage across the transmission line conductors displace the sensor electrode, and the movement can be detected capacitively. The modelling of the sensor shows that it has S11 better than -30 dB up to 32 GHz with a power resolution of -28 dBm
A low-noise, low-perturbing electrostatic position measurement system for capacitive MEMS sensors is...
Abstract — Tilt sensing is important for human body mo-tion detection and measurement. Two tilt sens...
A sensor for the precise and accurate measurement of micromechanical forces is presented. The sensor...
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...
Two novel RF MEMS power sensors operating up to 5 GHz and 45 GHz respectively have been designed. Th...
Wideband 100 kHz–4 GHz power sensors are presented, which are based on sensing the electrostatic for...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
We present the first measurement results of a power sensor for radio frequency (rf) signals (50 kHz ...
A wideband 100 kHz- 4 GHz power sensor, of which the basic design was presented recently [l], was su...
Micro-Electro Mechanical Systems (MEMS) are generally characterized as miniaturized systems with ele...
This paper details the design and analysis of a novel MEMS fully differential capacitive sensor whic...
A wideband 100 kHz-4 GHz power sensor, of which the basic design was presented recently by L. J. Fer...
This paper presents the overall design of an industrial vibration transmitter using Micro Electro Me...
AbstractWe present sensors for electrical DC and RF voltage measurements employing the principle of ...
A low-noise, low-perturbing electrostatic position measurement system for capacitive MEMS sensors is...
Abstract — Tilt sensing is important for human body mo-tion detection and measurement. Two tilt sens...
A sensor for the precise and accurate measurement of micromechanical forces is presented. The sensor...
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...
Two novel RF MEMS power sensors operating up to 5 GHz and 45 GHz respectively have been designed. Th...
Wideband 100 kHz–4 GHz power sensors are presented, which are based on sensing the electrostatic for...
Existing power sensors for RF signals are based on thermistors, diodes and thermocouples. These powe...
We present the first measurement results of a power sensor for radio frequency (rf) signals (50 kHz ...
A wideband 100 kHz- 4 GHz power sensor, of which the basic design was presented recently [l], was su...
Micro-Electro Mechanical Systems (MEMS) are generally characterized as miniaturized systems with ele...
This paper details the design and analysis of a novel MEMS fully differential capacitive sensor whic...
A wideband 100 kHz-4 GHz power sensor, of which the basic design was presented recently by L. J. Fer...
This paper presents the overall design of an industrial vibration transmitter using Micro Electro Me...
AbstractWe present sensors for electrical DC and RF voltage measurements employing the principle of ...
A low-noise, low-perturbing electrostatic position measurement system for capacitive MEMS sensors is...
Abstract — Tilt sensing is important for human body mo-tion detection and measurement. Two tilt sens...
A sensor for the precise and accurate measurement of micromechanical forces is presented. The sensor...