Abstract
This letter presents a directional inline millimeter-wave microelectromechanical systems (MEMS) power sensor with both thermoelectric and capacitive detection elements, in order to show the power transfer direction and improve the high-power detection range. In the design, a certain percentage of the incident power is extracted by a coplanar-waveguide directional coupler, and sensed in a MEMS fixed–fixed beam for the capacitive detection and in a thermopile-based sensor for the thermoelectric detection. This power sensor offers the compatible capability with the GaAs monolithic microwave integrated circuits technology. Measured reflection and insertion losses are less than −14 and 1.3 dB at 30−36 GHz, respectively. Experiments demonstrate that the thermoelectric sensor confirms the directionality of this inline sensor for the known power level with average sensitivities of $\sim 11.30$ and 1.02 $\mu $ V $\cdot ~\mathrm{mW}^{-1}$ thermoelectrically at 34 GHz for two different input ports. [2014-0149]
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