Chipless Passive Sensor for Wireless Monitoring of High Radiation Doses in Nuclear Infrastructures

We have shown that the electromagnetic coupling between dielectric fluid as water and an RF capacitor allow obtaining a high sensitivity for wireless passive temperature

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Cross section and mask view (glass 1 & Si) of complete sensor Previous results obtained from preliminary test structures (see Figure 2 and Figure 3) indicate that a

Wireless and passive sensors working in harsh environments could be an appropriate solution for the remote sensing of critical parameters.. Passive sensors without

For few years emerged a new kind of passive sensors using electromagnetic transducers, combining very high autonomy, high resistance to harsh environment, potential

Wireless monitoring of fully chipless passive sensors has been demonstrated for the first time using miniaturized HPD (Hydrogen Pressure Dosimitry) solution. We obtained

In the sensor, small portion of high density polyethylene (HDPE) is trapped inside silicon- glass MEMS hermetically sealed structure (Fig. When the sensor is exposed to