This paper presents the design, fabrication, and characterization of a multi-layer 27-GHz rectenna integrated entirely on silicon, aimed at achieving full CMOS compatibility for energy harvesting applications. The device is fabricated on a high-resistivity silicon (HRSi) substrate, which is selectively etched to create a low-permittivity region for the antenna while maintaining a high-permittivity full substrate for the rectifier circuit. The rectenna, operating in the millimeter-wave (mmWave) band, features a compact single-cell design with dimensions of 13 x 13 mm2 only, making it suitable for integrating IoT devices to support energy autonomy. The rectenna utilizes a GaAs diode rectifier and achieves a measured maximum RF-to-DC power conversion efficiency (PCE) of about 49% at an input power of 12 dBm. This work demonstrates the potential of HRSi-based, silicon-integrated rectennas for efficient energy harvesting in IoT applications. The proposed multilayer fabrication technology allows the realization of high-radiation-efficiency directive antennas and RF circuits directly onto the CMOS substrate, without increasing the overall size of the circuit and maintaining the structural integrity of the device.
Trovarello, S., Aldrigo, M., Vasilache, D., Parvulescu, C., Masotti, D., Dragoman, M., et al. (2025). 27-GHz Silicon-Integrated Rectenna Based on Novel Multilayer Substrate. New York : Institute of Electrical and Electronics Engineers Inc. [10.1109/ims40360.2025.11103837].
27-GHz Silicon-Integrated Rectenna Based on Novel Multilayer Substrate
Trovarello, S.;Masotti, D.;Costanzo, A.
2025
Abstract
This paper presents the design, fabrication, and characterization of a multi-layer 27-GHz rectenna integrated entirely on silicon, aimed at achieving full CMOS compatibility for energy harvesting applications. The device is fabricated on a high-resistivity silicon (HRSi) substrate, which is selectively etched to create a low-permittivity region for the antenna while maintaining a high-permittivity full substrate for the rectifier circuit. The rectenna, operating in the millimeter-wave (mmWave) band, features a compact single-cell design with dimensions of 13 x 13 mm2 only, making it suitable for integrating IoT devices to support energy autonomy. The rectenna utilizes a GaAs diode rectifier and achieves a measured maximum RF-to-DC power conversion efficiency (PCE) of about 49% at an input power of 12 dBm. This work demonstrates the potential of HRSi-based, silicon-integrated rectennas for efficient energy harvesting in IoT applications. The proposed multilayer fabrication technology allows the realization of high-radiation-efficiency directive antennas and RF circuits directly onto the CMOS substrate, without increasing the overall size of the circuit and maintaining the structural integrity of the device.| File | Dimensione | Formato | |
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2025063626.pdf
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