«上一篇/Previous Article|本期目录/Table of Contents|下一篇/Next Article»

《工业仪表与自动化装置》[ISSN:1000-0682/CN:61-1121/TH]

卷:

期数:

2015年01期

页码:

35-38

栏目:

出版日期:

2015-02-15

文章信息/Info

Title:

Design of high-precision 3D wind measuring system based on TDC-GP21

文章编号:

20140116

作者:

梁 琛1; 郑 毅2; 王晓兰2

（1.甘肃电力科学研究院；2.兰州理工大学 电气工程与信息工程学院，兰州 730050）

Author(s):

LIANG Chen1;  ZHENG Yi2; WANG Xiaolan2

(1. Gansu Electric Power Research Institute; 2. School of Electrical and Information Engineering,Lanzhou University of Technology, Lanzhou 730050,China)

关键词:

风速; 超声波; 时差法; TDC-GP21

Keywords:

wind speed; ultrasonics;  time difference method;  TDC-GP21

分类号:

TP274+.53

DOI:

-

文献标志码:

A

摘要:

针对快速准确测量风速和风向的问题，采用TDC-GP21高精度时间测量芯片和MSP430F413单片机控制芯片，设计了三维超声波测风系统。利用三对超声波换能器构成三维阵列，采用时差法测量风速和风向。该文介绍了三维超声波测风系统总体结构、超声波驱动电路和超声波接收电路以及风速和风向测量的软件流程。

Abstract:

According to the problem of measuring the wind speed and wind direction in a fast and accurate way, a 3D ultrasonic measuring system is designed by a high-precision time measuring chip TDC-GP21 and a SCM control chip MSP430F413. Three pairs of ultrasonic transducers are used to constitute the 3D arrays and the time difference method is used for measurement. In this paper, the overall structure of 3D ultrasonic measuring system, the ultrasonic driving circuit and the ultrasonic receiving circuit are designed. At the same time, the software process of Wind speed and direction measurement are given.

参考文献/References:

[1] 牟聿强,王秀丽,别朝红.风电场风速随机性及容量系数分析[J].电力系统保护与控制,2009,37(1):65-70.[2] Thoms Ackermann.风力发电系统[M].北京:中国水利水电出版社,2009.[3] Dongwoo Han,Sekwang Park.A study on characteristics of continuous wave ultrasonic anemometer[C].IEEE Digital Object Identifier, 2011:119-122.[4] Araujo G A L,Junior Reginardo T L.Ultrasonic anemometer for the measurement of respiratory flow in the forced oscillation Technique[C].IEEE International Workshop on Digital Object Identifier,2007:1-4.[5] 金松日,唐祯安,陈毅.TDC-GP21在超声波传播时间测量中的应用[J].仪表技术与传感器,2013(6):98-101.[6] 杨亚,王让定,姚灵.TDC-GP21在时差法超声波流量计中的应用[J].微电子学与计算机,2013(30):118-121.[7] 于洋,石佳,陈亮.基于80C51F120的高精度全天候超声测风仪设计[J].传感技术学报,2012,25(11):623-626.[8] 张捷光,齐文新,齐宇.三维超声波测风仪原理与应用[J].计算机与数字程,2013(1):124-130.[9] 周封,李翠,王晨光.基于三维超声波阵列的风电场风力瞬变特性测量研[J].电力系统保护与控制,2012,40(13): 127-134.[10] 梅海洲.基于TDC-GP21型超声波流量计的开发与研究[D].广州:华南理工大学,2012.[11] 王肖敏,王鹏翔.基于MSP430F449的超声波低功耗超声波热量表设计[J].电声技术,2013(37):33-35.[12] 赵灿,刘园胜.基于MSP430F152单片机的超声波热量表的设计[J].仪器仪表与分析检测,2013(1):1-3..

相似文献/References:

[1]张 智,施晓芬,贾全仓.局部放电在线监测系统研制与超声定位研究[J].工业仪表与自动化装置,2014,(05):40.
　ZHANG Zhi,SHI Xiaofen,JIA Quancang.Development of an partial discharge on-line monitoring system and research on ultrasonic location[J].Industrial Instrumentation & Automation,2014,(01):40.
[2]姜 鑫.利用超声波探伤仪对不同温度条件下ABS 3D打印人字齿轮的仿真检测[J].工业仪表与自动化装置,2016,(01):90.
　Jiang Xin.Detection and control of 3D under different temperature conditions printed erringbone gear by ultrasonic flaw detector[J].Industrial Instrumentation & Automation,2016,(01):90.
[3]洪 淼,金浩哲.基于STM32的滑块式油水分离装置设计及测试[J].工业仪表与自动化装置,2018,(01):47.[doi:1000-0682（2018）01-0000-00]
　HONG Miao,JIN Haozhe.Test and design of oil and water separation device in slider type based on STM32[J].Industrial Instrumentation & Automation,2018,(01):47.[doi:1000-0682（2018）01-0000-00]
[4]蔡光跃,顾 晶,罗加雷.安规测试仪用于塑料制品探伤检测[J].工业仪表与自动化装置,2020,(01):73.
　CAI Guangyue,GU Jing,LUO Jialei.Safety tester for plastic product flaw detection[J].Industrial Instrumentation & Automation,2020,(01):73.
[5]李明记,田志远,丁露萍.柴油发动机活塞超声波探伤检测设备的研制[J].工业仪表与自动化装置,2020,(06):80.[doi:1000-0682(2020)06-0000-00]
　LI Mingji,TIAN Zhiyuan,DING Luping.Development of ultrasonic testing equipment for diesel engine piston[J].Industrial Instrumentation & Automation,2020,(01):80.[doi:1000-0682(2020)06-0000-00]
[6]罗前刚.基于动态波形互相关算法的风速传感器的研究[J].工业仪表与自动化装置,2021,(03):105.[doi:10.19950/j.cnki.cn61-1121/th.2021.03.022]
　LUO Qiangang.Research on wind speed sensor based on dynamic waveform cross-correlation algorithm[J].Industrial Instrumentation & Automation,2021,(01):105.[doi:10.19950/j.cnki.cn61-1121/th.2021.03.022]
[7]谢永超,杨 利*.一种高精度智能测距装置的设计[J].工业仪表与自动化装置,2021,(04):19.[doi:10.19950/j.cnki.cn61-1121/th.2021.04.004]
　XIE Yongchao,YANG Li*.Design of a high-precision intelligent distance measuring device[J].Industrial Instrumentation & Automation,2021,(01):19.[doi:10.19950/j.cnki.cn61-1121/th.2021.04.004]
[8]王志慧.FUT510超声波探伤仪在混凝土空洞缺陷识别中的应用研究[J].工业仪表与自动化装置,2021,(05):3.[doi:10.19950/j.cnki.cn61-1121/th.2021.05.001]
　WANG Zhihui.Research on the application of FUT510 ultrasonic flaw detector in the identification of concrete voids[J].Industrial Instrumentation & Automation,2021,(01):3.[doi:10.19950/j.cnki.cn61-1121/th.2021.05.001]
[9]李 占,李 阳,李 林,等.动力电池螺栓紧固防错系统设计与实现[J].工业仪表与自动化装置,2024,(03):22.[doi:DOI:10.19950/j.cnki.CN61-1121/TH.2024.03.004]
　LI Zhan,LI Yang,LI Lin,et al.Design and implementation of error proofing system for tightening power battery bolts[J].Industrial Instrumentation & Automation,2024,(01):22.[doi:DOI:10.19950/j.cnki.CN61-1121/TH.2024.03.004]

备注/Memo

备注/Memo:

-

常用功能

更新日期/Last Update: 2015-02-15