Control circuit in an in-pipe wireless micro inspection robot

MHS2000. Proceedings of 2000 International Symposium on Micromechatronics and Human Science (Cat. No.00TH8530) Pub Date : 2000-10-22 DOI:10.1109/MHS.2000.903290

K. Tsuruta, T. Sasaya, Takashi Shibata, N. Kawahara

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引用次数: 22

Abstract

We have been developing an in-pipe wireless micro robot for inspection on inner surface of pipes. The robot consists of a CCD camera, a locomotive device, a system control circuit and wireless energy supply and communication devices. The robot moves in a 10 mm diameter pipe without wire and observes the inner surface of the pipe using the installed CCD camera. We have developed a compact control circuit which controls all the devices installed in the robot by commands from outside and transmits the image data from the CCD camera. As for the control circuit, the power consumption and the size are greatly restricted in order to be installed in the robot. In order to reduce the size of the circuit, we have newly developed an image data communication LSI based on a new architecture. The LSI is made of 0.35 /spl mu/m CMOS technology and has the size of 3.9 mm by 3.9 mm. To make the control circuit compact, we used a flip chip assembly for the LSI and eight more ICs in the robot. Through a fabricated prototype of the micro robot, we have successfully confirmed the wireless image data communication of 2.27 frames per second and control of the robot by microwave technology.

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管道内无线微检测机器人的控制电路

我们一直在开发一种用于管道内表面检测的管道内无线微型机器人。该机器人由CCD摄像机、机车装置、系统控制电路和无线供电通讯装置组成。机器人在直径为10mm的无导线管道中移动，通过安装的CCD摄像机观察管道的内表面。我们开发了一种紧凑的控制电路，可以通过外部命令控制安装在机器人上的所有设备，并传输CCD相机的图像数据。在控制电路方面，为了安装在机器人中，大大限制了功耗和尺寸。为了减小电路的体积，我们开发了一种基于新结构的图像数据通信大规模集成电路。该LSI采用0.35 /spl μ m CMOS技术，尺寸为3.9 mm × 3.9 mm。为了使控制电路更紧凑，我们使用了一个倒装芯片组装大规模集成电路，并在机器人中使用了另外八个集成电路。通过制作微型机器人样机，我们成功地实现了每秒2.27帧的无线图像数据通信和微波技术对机器人的控制。

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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MHS2000. Proceedings of 2000 International Symposium on Micromechatronics and Human Science (Cat. No.00TH8530)

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