A wirelessly ultra-low-power system for equilibrium measurements in total hip replacement surgery

10th IEEE International NEWCAS Conference Pub Date : 2012-06-17 DOI:10.1109/NEWCAS.2012.6328976

Zhihua Wang, Hong Chen, Ming Liu, Hanjun Jiang, Tianjia Sun, Xu Zhang

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引用次数: 1

Abstract

This paper presents a wirelessly ultra-low-power system for equilibrium measurement in Total Hip Replacement (THR) surgery. The system consists two parts: the Contact Array Measurement System (CAMS) and the display part. The CAMS is designed to measure the contact distribution of the sensors array between the surface of the femoral head and the acetabulum of the template. The sensors array is designed on the surface of the femoral head and the data is transmitted wirelessly by a low power transceiver. The CAMS composes of a sensors array (31 sensors used in current system), an ultra-low-power microprocessor, and an ultra-low-power transceiver. The display part demonstrates the contact distribution in-vivo in 3D images. The two parts of the system communicate with each other on a RF link at the band of 400MHz. The signal conditioning circuits, the sub-threshold 8-bit microprocessor and the transceiver have been designed and fabricated in 0.18μm CMOS process. The tested results show that the solution of the signal conditioning circuits is 60.1μVpp (1.35g) with ±100mVpp input and the chip can operate under 1.2V to 3.6V voltage supply for single battery application with 116-160μA power consumption. The 3Mbps MSK transmitter consumes only 3.9mW in total. The system has been validated by experimental results. Some clinical experiments will be carried out in the future.

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全髋关节置换术中平衡测量的无线超低功耗系统

介绍了一种用于全髋关节置换术(THR)中平衡测量的无线超低功耗系统。该系统由接触式阵列测量系统(CAMS)和显示部分两部分组成。CAMS设计用于测量传感器阵列在股骨头表面和模板髋臼之间的接触分布。传感器阵列设计在股骨头表面，数据通过低功率收发器无线传输。CAMS由一个传感器阵列(目前系统中使用的31个传感器)、一个超低功耗微处理器和一个超低功耗收发器组成。显示部分以三维图像的形式展示体内的接触分布。系统的两个部分在400MHz频段的射频链路上相互通信。采用0.18μm CMOS工艺设计制作了信号调理电路、亚阈值8位微处理器和收发器。测试结果表明，该信号调理电路的解决方案为60.1μVpp (1.35g)，输入为±100mVpp，芯片可在1.2V ~ 3.6V电压下工作，功耗为116 ~ 160μ a。3Mbps的MSK发射机总共只消耗3.9mW。实验结果验证了该系统的有效性。一些临床实验将在未来进行。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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10th IEEE International NEWCAS Conference

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