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Lensless Short-Range Reflection-Mode Imaging at 275 GHz Using CMOS Concurrent Transceivers

Cited 3 time in Web of Science Cited 3 time in Scopus
Authors

Byreddy, Pranith R.; Sosa, Walter E.; Zhu, Yukun; Chen, Zhiyu; Pouya, Behnam; Choi, Wooyeol; Kenneth, K. O.

Issue Date
2023-02
Publisher
Institute of Electrical and Electronics Engineers Inc.
Citation
IEEE Sensors Letters, Vol.7 No.2
Abstract
Lensless short-range reflection-mode imaging through a cardboard cover is demonstrated at 275 GHz using a pair of concurrent complimentary metal-oxide-semiconductor transceiver pixels separated by & SIM;5 mm on a printed circuit board (PCB). This is the first such demonstration at frequencies above 100 GHz. The separation between the imaged object and pixels is similar to 1 cm and the operation at 275 GHz allows the lateral resolution to be reduced to similar to 2 mm due to a smaller wavelength. A concurrent transceiver pixel incorporating a transmitter with an effective isotropic radiated power of -18.9 dBm and a receiver with a double sideband noise figure of similar to 51 dB in an area of 0.45 x 0.49 mm(2) is used. The reflected signals from a target must be greater than the transmitted signal directly coupled to the receiver, and this isolation between the transmitter and receiver limits the imager range and contrast. Full-wave electromagnetic simulations (ANSYS high-frequency structure simulator (HFSS)) of a PCB with a transmit and receive rectangular patch antenna with a separation of similar to 5 mm show that similar to 65 dB isolation at 275 GHz can be achieved. This should be sufficient to image a target with a radar cross section of 2 mm x 2 mm with a reflection coefficient of 0.1 that is 1-cm away. This work points to a path for incorporation of millimeter and submillimeter wave imaging in a handheld device.
ISSN
2475-1472
URI
https://hdl.handle.net/10371/199937
DOI
https://doi.org/10.1109/LSENS.2023.3239804
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  • College of Engineering
  • Department of Electrical and Computer Engineering
Research Area High Frequency Microelectronics, Microwave engineering, Radio Frequency Integrated Circuit, 초고주파 공학, 초고주파 시스템, 초고주파 집적회로

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