A modulator-less Beam Steering Transmitter based on a revised DDS-PLL Phase Shifter Architecture

Giulio D'Amato, Gianfranco Avitabile, Giuseppe Coviello, Claudio Talarico

Abstract


This paper details the design and implementation of a modulator-less beam steering transmitter based on a revised DDS-PLL phase shifter architecture. The proposed topology targets low data rate communications for Internet-of-Things systems, and has been demonstrated using an FPGA evaluation board and a custom PCB with four PLLs centered at 2.453-GHz. Measured system performance for an experimental 32-kbps data rate achieved through a 16-PSK modulation scheme are discussed. The proposed architecture is frequency independent, can be used in multi-band devices and has the potential for being integrated as an RF System-on-Chip.

Keywords


direct digital synthesizer (DDS); phase-locked loop (PLL); modulator-less; beam steering; polar transmitter; low data rate communications; Internet-of-Things (IoT)

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DOI: http://dx.doi.org/10.24138/jcomss.v14i1.439



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