IEEE Access (Jan 2020)

Survey on Field Programmable Analog Array Architectures Eliminating Routing Network

  • Maha S. Diab,
  • Soliman A. Mahmoud

DOI
https://doi.org/10.1109/ACCESS.2020.3043292
Journal volume & issue
Vol. 8
pp. 220779 – 220794

Abstract

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This work focuses on reviewing the field programmable analog array (FPAA) architectures that eliminate the use of switches in signal path. The conventional FPAA architecture is composed of configurable analog blocks (CABs) connected together through switches in routing networks.The architectures covered in this survey have replaced the use of routing network by direct connection between CABs, and use of programmable analog building blocks. The first architecture covered is presented by Becker et al. with a hexagonal topology using operational transconductance amplifier (OTA) as a building block. The second architecture is presented by Mahmoud and Soliman, which uses the second generation current conveyor (CCII+) as a building block for their CABs arranged in a hexagonal architecture as well. Lastly, a more recent FPAA with a rectangular architecture proposed by Diab and Mahmoud is discussed, it uses the OTA as a building block for their rectangular architecture. The three FPAAs targeted continuous-time analog signal processing, having two architectures targeting high frequency applications, while the last targeting low frequency applications. The architectures, CAB structures, and the applications of each FPAA is covered separately in each section.

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