M. Vu , M. Lewandowski , X. Guo , A. Weightman , S. Watson , T.J. Echtermeyer
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引用次数: 0
摘要
各种应用都需要多通道高压源进行控制,例如静电粘附、电泳和人工肌肉,如压电、液压放大自修复静电(HASEL)和介电弹性体致动器(DEA)。此外,利用图像或电压和电流传感同时监测致动器状态的能力对于确定其行为特征至关重要。在这项工作中,我们介绍了一种多功能表征装置的设计,它能够产生 8 个高压(15 kV)任意波形(60 MΩ 负载时上升时间为 8 ms,下降时间为 80 ms),同时同步监测电压和电流,并录制高速(120 fps)视频。该装置由三个独立模块组成,确保了模块化和可定制性:(1) 成像模块包括一个 Raspberry Pi 和一个 Pi 摄像头;(2) 3.3 V 模拟接口的 16 位分辨率数据采集模块,该模块位于印刷电路板上,可容纳一个微控制器板、两个 8 通道模数转换器和一个 8 通道数模转换器;(3) 多达 8 个直流到高压直流转换器板,由 12 V 直流供电,带 3.3 V 模拟接口。
Modular multi-channel high voltage arbitrary waveform generator and imaging setup for dielectric elastomer actuator characterisation
Various applications require multi-channel high-voltage sources for their control, e.g. electrostatic adhesion, electrophoresis and artificial muscles such as piezoelectric, hydraulically amplified self-healing electrostatic(HASEL) and dielectric elastomer actuators(DEAs). Further, the ability to simultaneously monitor the state of the actuators either with images, or voltage and current sensing is crucial to characterise their behaviour. In this work, we present the design of a versatile characterisation setup, capable of generating eight HV (15 kV) arbitrary waveforms(rise time of 8 ms and fall time of 80 ms for 60 M load), while synchronously monitoring voltage and current, and record high-speed (120 fps) video. The setup ensures modularity and customisability by consisting of three independent modules: (1) The imaging module includes a Raspberry Pi and a Pi Camera; (2) A 3.3 V analogue interface 16-bit resolution data acquisition module on a PCB that accommodates a microcontroller board, two 8-channel analogue-to-digital converters, and an 8-channel digital-to-analogue converter; (3) Up to 8 DC-to-HVDC converter boards powered by 12 V DC, with 3.3 V analogue interface.
HardwareXEngineering-Industrial and Manufacturing Engineering
CiteScore
4.10
自引率
18.20%
发文量
124
审稿时长
24 weeks
期刊介绍:
HardwareX is an open access journal established to promote free and open source designing, building and customizing of scientific infrastructure (hardware). HardwareX aims to recognize researchers for the time and effort in developing scientific infrastructure while providing end-users with sufficient information to replicate and validate the advances presented. HardwareX is open to input from all scientific, technological and medical disciplines. Scientific infrastructure will be interpreted in the broadest sense. Including hardware modifications to existing infrastructure, sensors and tools that perform measurements and other functions outside of the traditional lab setting (such as wearables, air/water quality sensors, and low cost alternatives to existing tools), and the creation of wholly new tools for either standard or novel laboratory tasks. Authors are encouraged to submit hardware developments that address all aspects of science, not only the final measurement, for example, enhancements in sample preparation and handling, user safety, and quality control. The use of distributed digital manufacturing strategies (e.g. 3-D printing) is encouraged. All designs must be submitted under an open hardware license.