A Practical Guide to Circuit Selection for Portable Microprocessor-Based, Low Component Count, Near-DC Ammeter for Custom Instruments

2018 IEEE Life Sciences Conference (LSC) Pub Date : 2018-10-01 DOI:10.1109/LSC.2018.8572257
Paul E. Stevenson, J. Christen
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引用次数: 0

Abstract

The growing market for wearable, portable, and IoT devices has generated a need for a class of circuits to meet the requirements for these applications. In this work we specifically investigate ammeters. The design space requires low component count circuits for measuring slowly varying currents using low-cost microcontrollers. Simple architectures, feasible for an electronics novice are described and compared experimentally. The use of the time domain to improve error and range of measurement is considered. This guide provides an individual without extensive electronics design experience with a simple selection guide for choosing the appropriate architecture for their specific application.
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实用指南电路选择便携式微处理器为基础,低组件计数,近直流电流表定制仪器
不断增长的可穿戴、便携式和物联网设备市场已经产生了对一类电路的需求,以满足这些应用的要求。在这项工作中,我们专门研究电流表。设计空间要求使用低成本微控制器来测量缓慢变化的电流的低元件计数电路。简单的结构,可行的电子新手描述和实验比较。考虑了利用时域来改善误差和测量范围。本指南为没有丰富电子设计经验的个人提供了一个简单的选择指南,用于为其特定应用选择适当的架构。
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2018 IEEE Life Sciences Conference (LSC)
2018 IEEE Life Sciences Conference (LSC)
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