PEtra: A Flexible and Open-Source PE Loop Tracer for Polymer Thin-Film Transducers

TL;DR

PEtra is an open-source, highly sensitive, and versatile piezoelectric loop tracer designed for accurate ferroelectric property measurement in polymer thin-film transducers, overcoming limitations of traditional methods.

Contribution

It introduces PEtra, a novel open-source device employing a transimpedance amplifier for improved low-frequency ferroelectric measurements in polymers.

Findings

Achieves sensitivity down to 2 pA

Operates effectively across 0.1 Hz to 200 Hz frequencies

Reduces leakage issues compared to Sawyer-Tower circuit

Abstract

Accurate characterization of ferroelectric properties in polymer piezoelectrics is critical for optimizing the performance of flexible and wearable ultrasound transducers, such as screen-printed PVDF devices. Standard charge measurement techniques, like the Sawyer-Tower circuit, often fall short when applied to ferroelectric polymers due to low-frequency leakage. In this work, we present PEtra, an open-source and versatile piezoelectric loop tracer. PEtra employs a transimpedance amplifier (LMP7721, TI) to convert picoampere-level currents into measurable voltages, covering a frequency range of 0.1 Hz to 5 Hz for a gain setting of 10^7 V/A, and 0.1 Hz to 200 Hz for gain settings between 10^3 V/A to 10^6 V/A (10-fold increments). We demonstrate through simulations and experimental validations that PEtra achieves a sensitivity down to 2 pA, effectively addressing the limitations of traditional charge measurement methods. Compared to the Sawyer-Tower circuit, PEtra directly amplifies currents without the need for a reference capacitor. As a result, it is less susceptible to leakage and can operate at lower frequencies, improving measurement accuracy and reliability. PEtra's design is fully open source, offering researchers and engineers a versatile tool to drive advancements in flexible PVDF transducer technology.