Direct Interface Circuits for Resistive, Capacitive, and Inductive Sensors: A Review
Resumen
Direct interface circuits (DICs) connect resistive, capacitive, and inductive sensors
directly to microcontrollers or FPGAs, eliminating analog conditioning stages and offering
compact, low-cost, and low-power instrumentation. This systematic review qualitatively
synthesizes research up to March 2025 on DIC operation principles, performance metrics,
and application domains. Following PRISMA guidelines, 90 studies from IEEE Xplore,
ScienceDirect, MDPI, SpringerLink, Scopus, and Google Scholar were selected based on
predefined inclusion criteria. Most studies focused on RC-based circuits (53%), followed by
RL-based (5%) and charge transfer capacitive interfaces (5%). RC-DICs demonstrated accu
racies below 0.01% using adaptive calibration; RL-DICs achieved resolutions of 10–12 bits
with higher cycle requirements, while charge transfer interfaces presented systematic errors
up to ±5% due to parasitic capacitances. Environmental monitoring, biomedical sens
ing, liquid-level control, and vehicular detection were frequent application fields. Due to
methodological heterogeneity, findings were synthesized qualitatively without quantitative
meta-analysis or formal bias assessments.
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