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工程设计学报
工程设计学报  2018, Vol. 25 Issue (2): 216-222    DOI: 10.3785/j.issn.1006-754X.2018.02.013
整机和系统设计     
基于电感数字变换传感器的智能小车自动循迹系统
高凤强1,2, 董坤煌1,2, 周牡丹1,2, 郭一晶1,2
1. 厦门大学嘉庚学院 信息科学与技术学院, 福建 漳州 363105;
2. 厦门大学嘉庚学院 嘉庚-微柏工业机器人创新实验室, 福建 漳州 363105
Automatic tracking system for intelligent car based on inductance-to-digital conversion sensor
GAO Feng-qiang1,2, DONG Kun-huang1,2, ZHOU Mu-dan1,2, GUO Yi-jing1,2
1. School of Information Science & Technology, Tan Kah Kee College, Xiamen University, Zhangzhou 363105, China;
2. VIBOT Industrial Robot Innovation Lab, Tan Kah Kee College, Xiamen University, Zhangzhou 363105, China
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摘要:

为了解决智能循迹小车常用的路径识别传感器易受电磁、光线等干扰的问题,提出了基于电感数字变换传感器的智能小车自动循迹系统。通过分析电感数字变换传感器的工作原理,得出通过扩展传感器感应线圈来扩展感应范围的方法,并基于该方法设计了一种使用单个LDC1000电感数字变换器的传感模块。该模块利用SN74LV4052A模拟开关实现对传感器线圈的扩展;采用MSP430单片机搭建了包括主控模块、电源模块、驱动模块和传感器模块的循迹硬件测试系统;通过实时采集和处理传感器的数据并对小车位置进行调整,实现了硬件测试系统循迹的功能;最后,在测试系统上进行了传感器对金属的感应实验和循迹测试。实验结果表明:该传感器可实时检测到轨道与线圈的水平和垂直距离的变化,可以为循迹功能的实现提供保证;该智能小车在5 mm宽的锡箔纸轨道上可以得到良好的循迹效果。研究结果表明该系统具有适用性强、检测技术稳定的特点,可以广泛应用于工业现场智能循迹。
关键词: 电感数字变换传感器循迹小车涡流感应金属探测    
Abstract:

An intelligent tracking system based on inductance-to-digital converter is proposed to solve the problem that the path identification sensors are susceptible to electromagnetic and light interference. A method of expanding induction range by extending sensor induction coil was obtained through the analysis of the working principle of the inductance-to-digital conversion sensor. Then a sensor module with a single LDC1000 inductance digital converter was designed based on this method, and the module realized extending sensor coil through the use of SN74LV4052A analog switch. The MSP430 MCU was used to achieve a tracking test system including main control module, power module, drive module and sensor module. The tracking function of hardware testing system was implemented through the real-time acquisition and processing of sensor data to adjust position of the car. At last, the sensor-to-metal sensing experiments and tracking tests were performed on the test system. Experimental results showed that the horizontal and vertical distance changes between the track and the coil could be detected by the sensor, which provided guarantee for the tracking function. At the same time, the system could get a good tracking effect in the foil track with width of 5 mm. The research result indicates that this system has characteristics of strong applicability and stable detection technology, so that it can be widely applied to the industrial field of intelligent tracking in the future.
Key words: inductance-to-digital conversion sensor    automatic tracking car    eddy current testing    metal detection
收稿日期: 2017-07-10 出版日期: 2018-04-28
CLC:  TP273  
基金资助:

福建省中青年教师教育科研项目(JAT160651);漳州市自然科学基金资助项目(ZZ2017J34);大学生创新创业训练计划项目(201613469024);
通讯作者: 周牡丹(1979-),女,福建福鼎人,副教授,硕士,从事机器人控制、四旋翼飞行器控制研究,E-mail:mudanzhou@xujc.com,http://orcid.org/0000-0002-7891-0018     E-mail: mudanzhou@xujc.com
作者简介: 高凤强(1984-),男,福建漳州人,讲师,硕士,从事工业机器人控制、计算机网络研究,E-mail:fengqianggao@foxmail.com,http://orcid.org/0000-0002-7677-8463
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引用本文:

高凤强, 董坤煌, 周牡丹, 郭一晶. 基于电感数字变换传感器的智能小车自动循迹系统[J]. 工程设计学报, 2018, 25(2): 216-222.

GAO Feng-qiang, DONG Kun-huang, ZHOU Mu-dan, GUO Yi-jing. Automatic tracking system for intelligent car based on inductance-to-digital conversion sensor. Chinese Journal of Engineering Design, 2018, 25(2): 216-222.

链接本文:

https://www.zjujournals.com/gcsjxb/CN/10.3785/j.issn.1006-754X.2018.02.013        https://www.zjujournals.com/gcsjxb/CN/Y2018/V25/I2/216

[1] 宁慧英.基于光电传感器的智能小车自动寻迹控制系统[J].仪表技术与传感器,2012(1):108-110. NING Hui-ying. Automatic rail guided control system for intelligent small car based on optoelectric sensors[J]. Instrument Technique and Sensor, 2012(1):108-110.
[2] 朱艳杰,宜亚丽,景常海,等.全向车测量轮导引方式的设计与仿真[J].工程设计学报,2016,23(4):333-337. ZHU Yan-jie,YI Ya-li,JING Chang-hai, et al. Design and simulation of measuring wheel guidance mode for omnidirectional vehicle[J]. Chinese Journal of Engineering Design, 2016, 23(4):333-337.
[3] 高振新,孙建红.基于MSP430的智能循迹运料小车设计[J].实验室研究与探索,2016,35(8):71-74,97. GAO Zhen-xin, SUN Jian-hong. Design of intelligent tracking material car based on MSP430[J]. Research and Exploration in Laboratory, 2016, 35(8):71-74, 97.
[4] 陈顺平,梅德庆,陈子辰,等.激光导引AGV的自动引导系统设计[J].工程设计学报,2003,10(5):279-282. CHEN Shun-ping, MEI De-qing, CHEN Zi-chen, et al. Design of intelligent navigation system for laser assisted automated guided vehicle[J]. Chinese Journal of Engineering Design, 2003, 10(5):279-282.
[5] 王子辉,叶云岳.基于CMOS传感器的智能循迹小车图像识别技术研究[J].传感技术学报,2009,22(4):484-488. WANG Zi-hui, YE Yun-yue. Research on image acquisition of the self-tracing car based on CMOS camera sensor[J]. Chinese Journal of Sensors and Actuators, 2009, 22(4):484-488.
[6] 高云波,季聪,汉鹏武,等.基于摄像头识别路径的智能车系统设计[J].兰州理工大学学报,2013,39(6):97-102. GAO Yun-bo, JI Cong, HAN Peng-wu, et al. Design of smart car system with camera-based path recognition[J]. Journal of Lanzhou University of Technology, 2013, 39(6):97-102.
[7] 张云洲,杨兵,李龙,等.基于电磁效应的轮式智能车导航控制[J].东北大学学报(自然科学版),2013,34(7):917-921. ZHANG Yun-zhou, YANG Bing, LI Long, et al. Navigation and control for wheeled intelligent car based on electromagnetic effect[J]. Journal of Northeastern University (Natural Science), 2013, 34(7):917-921.
[8] 陈颖莹.TI电感数字转换器为传感设计带来无限可能[J].电子技术应用,2013(10):2. CHEN Ying-ying. TI inductance-to-digital converter created more possible for sensor design[J]. Application of Electronic Technique, 2013(10):2.
[9] 杨维祎,郭颖,王雪峰,等.基于TI杯电子竞赛的金属探测系统设计[J].国外电子测量技术,2015,34(2):54-57. YANG Wei-yi, GUO Ying, WAN Xue-feng, et al. Design of metal detection system based on TI cup electronic contest[J]. Foreign Electronic Measurement Technology, 2015, 34(2):54-57.
[10] 柳文强,谢景卫.基于电感数字转换器的金属探测小车设计[J].微型机与应用,2015,34(20):90-92. LIU Wen-qiang, XIE Jing-wei. Design of metal detecting car based on inductive digital converter[J]. Microcomputer & Its Applications, 2015, 34(20):90-92.
[11] 马贝,田瑞明,周野,等.基于电感感测的自动循迹小车的设计[J].计算机与数字工程,2017,45(7):1422-1425. MA Bei, TIAN Rui-ming, ZHOU Ye, et al. Design of freight robot based on LDC1000 sensor[J]. Computer & Digital Engineering, 2017, 45(7):1422-1425.
[12] 德州仪器. AY-LDC1000用户手册[EB/OL].(2015-05-14)[2016-10-08]. http://www.ti.com.cn/cn/lit/ug/snou136/snou136.pdf. Texas Instrument. AY-LDC1000 user guide[EB/OL]. (2015-05-14)[2016-10-08]. http://www.ti.com.cn/cn/lit/ug/snou136/snou136.pdf.
[13] 刁双林.无线传感器网络通用终端节点设计与实现[D].成都:电子科技大学自动化工程学院,2013:20. DIAO Shuang-lin. The design implement of the general terminal wireless sensor network node[D]. Chengdu:University of Electronic Science and Technology of China, School of Automation Engineering, 2013:20.
[14] 赵旭,雷师节,邬杨波,等.基于电涡流效应的AGV导引传感器设计[J].传感器与微系统,2016,35(12):1-4. ZHAO Xu, LEI Shi-jie, WU Yang-bo, et al. Design of guided AGV sensor based on eddy current effect[J]. Transducer and Microsystem Technologies, 2016, 35(12):1-4.
[15] 张菁,赵鹏.一种电感数字传感器的循迹小车控制系统设计[J].计算机测量与控制,2017,25(5):84-86. ZHANG Jing, ZHAO Peng. Control system design of tracking car with digital inductance sensor[J]. Computer Measurement & Control, 2017, 25(5):84-86.
[16] 李艳红,李自成,孙仕琪,等.基于STM32单片机的金属物体探测定位器系统的设计与实现[J].仪表技术与传感器,2016(4):63-66. LI Yan-hong, LI Zi-cheng, SUN Shi-qi, et al. Design and realization of metal object detection and locating system based on STM32 MCU[J]. Instrument Technique and Sensor, 2016(4):63-66.
[17] 王剑锋.基于LDC1000电感到数字转换器的金属探测器[J].电子设计工程,2015,23(18):167-169. WANG Jian-feng. The metal detector based on LDC1000 sensor[J]. Electronic Design Engineering, 2015, 23(18):167-169.
[18] Texas Instrument. Using multiple sensors with LDC1000 application[EB/OL]. (2015-03-02)[2016-10-08]. http://www.ti.com.cn/cn/lit/an/snoa924/snoa924.pdf.
[19] 李珂,郭颖,付玉祥,等.基于MSP430智能金属检测定位系统设计[J].电子设计工程,2016,24(6):149-151,154. LI Ke, GUO Ying, FU Yu-xiang, et al. Design of intelligent metal detecting and positioning system based on MSP430[J]. Electronic Design Engineering, 2016, 24(6):149-151, 154.
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