Issue 33, 2023

A self-tuning PID controller based on analog–digital hybrid computing with a double-gate SnS2 memtransistor

Abstract

Most commercial drones utilize a traditional proportional–integral–derivative (PID) controller because of its design simplicity. However, the traditional PID controller has certain limitations in terms of optimality and robustness; it is difficult to actively adjust the PID gains under some disturbances. In this study, we demonstrated an analog–digital hybrid computing platform based on double-gate SnS2 memtransistors to implement a self-tuning/energy-efficient PID controller in drones. The customized analog circuit with memtransistors executes the PID control algorithm with low power consumption; we experimentally verified that the energy consumption of the proposed hybrid computing-based PID controller is only 63% of that of the traditional PID controller. In addition, the precise tunability of analog conductance states in the memtransistor proved to be capable of reconfiguring the performance of the PID controller, where the developed self-tuning algorithm can automatically find the optimal PID control performance.

Graphical abstract: A self-tuning PID controller based on analog–digital hybrid computing with a double-gate SnS2 memtransistor

Supplementary files

Article information

Article type
Paper
Submitted
08 Dec 2022
Accepted
24 Jul 2023
First published
25 Jul 2023

Nanoscale, 2023,15, 13675-13684

A self-tuning PID controller based on analog–digital hybrid computing with a double-gate SnS2 memtransistor

S. Rehman, M. F. Khan, H. Kim and S. Kim, Nanoscale, 2023, 15, 13675 DOI: 10.1039/D2NR06853B

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