电力远程监测管理系统及虚拟仪器在其中的应用
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摘要
电力远程监测管理是实现电力系统自动化的关键。本文概要介绍了电力远程监测技术的现状,指出了现有电力远程监测系统存在的问题,提出并研制了一种新型的电力远程监测管理系统,并在系统中利用虚拟仪器处理测量结果。由于主站软件采用了虚拟仪器技术,该系统可以快速、方便、直观、准确地掌握用户的用电情况,提高电力远程监测管理的自动化和现代化水平。
本文介绍了电力远程监测管理系统的构成与工作原理,重点论述了电力远程监测结果的虚拟现实处理方法。全文共分为5章:
第1章为绪论,主要论述了电力远程监测技术的研究现状、虚拟仪器的发展和虚拟仪器的特点,指出电力远程监测管理系统项目研究的重要性。
第2章系统地阐述了电力远程监测管理系统的构成,介绍了系统上行信道、下行信道的工作原理,论述了主站软件的模块化设计思想、简要介绍了系统的主要功能。
第3章对虚拟仪器开发平台LabVIEW作了概述性的介绍,论述了虚拟仪器系统的设计方法和步骤。
第4章重点论述了电力远程监测管理系统测量结果的虚拟化处理方法:测量数据的虚拟化显示和参数曲线的虚拟化显示,探讨并总结了虚拟仪器系统设计的几个关键问题。
第5章介绍了本文研究成果的实际应用情况,总结了系统研究的不足之处,探讨了电力远程监测管理系统的发展方向,以及虚拟仪器技术的发展前景。
The management of electric power remote monitoring is the key technology to realize electric power automatization. This paper summarily introduces the current situation of electric power remote monitoring techniques, indicates the problems that exists in present monitoring system, puts forward and develops a newfashioned electric power remote monitoring system. This system utilizes virtual instrument (VI) to deal with the results of measuring data derived in the course of system monitoring. By the use of VI technology, the system can master user's information promptly, conveniently, accurately and immediately, it can remarkably improve the application level of automatization and modernization in electric power remote monitoring management, too.
This paper introduces the elements and the working principle of the electric power remote monitoring management system. The whole paper is consists of five chapters:
Chapter 1 is the foreword, which discusses the current situation of electric power remote monitoring technologies, presents the development and characteristics of VI. At the same time, this chapter indicates the importance of researching this system.
Chapter 2 systemically demonstrates the parts of the system described in this paper, introduces the working principles of system's top and bottom communication channels, discusses the modularization design method in the master station software development. In the end of this chapter, the main function of the system is briefly introduced.
Chapter 3 summarily introduces Lab VIEW, which is the software flat of VI. This chapter discusses the methods and the approaches in designing the virtual instruments systems.
Chapter 4 stresses two virtual display methods of this system: the method of system measuring data display, and the method of curve data display. This chapter discusses and summaries the key questions in designing VI systems, too.
Chapter 5 introduces the actually operating results of this system, summaries the deficiencies of this paper in the system research work, and discusses the prospects of the electric power remote monitoring management system and the prospects of VI technology.
本文介绍了电力远程监测管理系统的构成与工作原理,重点论述了电力远程监测结果的虚拟现实处理方法。全文共分为5章:
第1章为绪论,主要论述了电力远程监测技术的研究现状、虚拟仪器的发展和虚拟仪器的特点,指出电力远程监测管理系统项目研究的重要性。
第2章系统地阐述了电力远程监测管理系统的构成,介绍了系统上行信道、下行信道的工作原理,论述了主站软件的模块化设计思想、简要介绍了系统的主要功能。
第3章对虚拟仪器开发平台LabVIEW作了概述性的介绍,论述了虚拟仪器系统的设计方法和步骤。
第4章重点论述了电力远程监测管理系统测量结果的虚拟化处理方法:测量数据的虚拟化显示和参数曲线的虚拟化显示,探讨并总结了虚拟仪器系统设计的几个关键问题。
第5章介绍了本文研究成果的实际应用情况,总结了系统研究的不足之处,探讨了电力远程监测管理系统的发展方向,以及虚拟仪器技术的发展前景。
The management of electric power remote monitoring is the key technology to realize electric power automatization. This paper summarily introduces the current situation of electric power remote monitoring techniques, indicates the problems that exists in present monitoring system, puts forward and develops a newfashioned electric power remote monitoring system. This system utilizes virtual instrument (VI) to deal with the results of measuring data derived in the course of system monitoring. By the use of VI technology, the system can master user's information promptly, conveniently, accurately and immediately, it can remarkably improve the application level of automatization and modernization in electric power remote monitoring management, too.
This paper introduces the elements and the working principle of the electric power remote monitoring management system. The whole paper is consists of five chapters:
Chapter 1 is the foreword, which discusses the current situation of electric power remote monitoring technologies, presents the development and characteristics of VI. At the same time, this chapter indicates the importance of researching this system.
Chapter 2 systemically demonstrates the parts of the system described in this paper, introduces the working principles of system's top and bottom communication channels, discusses the modularization design method in the master station software development. In the end of this chapter, the main function of the system is briefly introduced.
Chapter 3 summarily introduces Lab VIEW, which is the software flat of VI. This chapter discusses the methods and the approaches in designing the virtual instruments systems.
Chapter 4 stresses two virtual display methods of this system: the method of system measuring data display, and the method of curve data display. This chapter discusses and summaries the key questions in designing VI systems, too.
Chapter 5 introduces the actually operating results of this system, summaries the deficiencies of this paper in the system research work, and discusses the prospects of the electric power remote monitoring management system and the prospects of VI technology.
引文
[1] 林正盛.虚拟仪器技术及其发展[J].国外电子测量技术,1997,(2):40-44
[2] 路林吉,饶家明.虚拟仪器讲座——第一讲 虚拟仪器概论[J].电子技术,2000,(1):44-47
[3] 李建华,郭明.RS-232和调制解调器高级通信编程[M].北京:人民邮电出版社,2001
[4] 艾长胜,章勇.基于VB的MODEM通信控制.微计算机信息,1999(15)5:18—20
[5] 邬宽明.CAN总线原理和应用系统设计[M].北京:北京航空航天大学出版社,2000
[6] 李华.MCS-51系列单片机使用接口技术[M].北京:北京航空航天大学出版社,1993
[7] 杨乐平,李海涛,肖相生.LabVIEW程序设计与应用[M].北京:电子工业出版社,2001
[8] 李江伟,汪锐,汪仁煌,陈文戈,基于LabView的便携式大型旋转机械故障诊断系统的数据管理[J].自动化仪表,2001,(8):12-13,22
[9] 路林吉,饶家明.虚拟仪器讲座——第三讲 面向仪器与测控过程的图形化开发平台-LabVIEW [J].电子技术,2000,(3):46-49
[10] (美)Evangelos Petroutsos著,邱仲潘 等译.Visual Basic 6从入门到精通[M].北京:电子工业出版社,1999
[11] (美)Matthew Harris著,齐舒创作室译.Visual Basic for Applications 5开发人员指南.北京:机械工业出版社,1998
[12] LabVIEW User Manual[Z].National Instrument Corporation, 1996
[13] 杨宏业,张跃,吕芳.自动抄表系统中通信方案的现状与展望[J].电测与仪表,2001,8:8-11,34
[14] 路林吉,谢平.虚拟仪器讲座——第六讲 虚拟仪器的应用[J].电子技术2000,(6):48-50
[15] 魏相华,张士文,赵继敏.虚拟仪器(Ⅵ)的发展现状和前景[J].工业控制计算机,2001,14(3):1-2,9
[16] 卢奂采.虚拟仪器技术的发展及现状[J].自动化仪表,2001,(11):1-3
[17] 应怀樵.虚拟仪器与PC卡泰技术的现状与发展[J].计算机自动测量与控制,2000,8(2):1-2,13
[18] 钟涛,杨乐平.基于虚拟仪器技术的运载火箭模拟地面测量发射训练系统[J].计算机自动测量与控制,2001,9(1):60-61
[19] 洪添胜,李永刚,罗锡文.LabView中数据采集动态链接库的设计及应用[J].计算机自动测量与控制,2000,8(4):21-22,25
[20] 白凤山,潘而立.动态链接库(DLL)在虚拟仪器中的应用[J].自动化与仪表,2001,(1):21-22
[21] LabVIEW Data Acquisition Basics Manual. National Instruments, 1998
[22] LabVIEW Function and VI Reference Manual. National Instruments, 1998
[23] LabVIEW G Programming Reference Manual. National Instruments, 1998
[24] OLE DB/ADO:Making Universal Data Access a Reality[J]. Microsoft Corporaton, 1997
[25] VXIbus System Specification Rev. July 14, 1989
[26] LabVIEW 6i 评估软件, National Instrument Corporation, 2001
[27] Mitchell Lee.A new carrier current transceiver I.C[J].IEEE Trans Consumer Electronics, 1982, 28(3)
[28] Wacks K P. Utility load management using home automation[J].IEEE Trans Consumer Electronics, 1991, 37(2)
[29] International Standardization Organization: Road Vehicles-Interchange of digital information-Controller area network (CAN) for high-speed communication, ISO11898, 1993
[30] Philips Semiconductors: SJA1000 Stand-alone CAN controller, Application Note AN97076, 1997
[31] 华中工学院电磁测量教研室编.常用电工仪表与测量(修订本)[M].北京:机械工业出版社,1982
[32] 张毅刚,曲春波,赵玉莲,李琼等译.VXI总线即插即用规范,1999
[33] 王可宁,郑舜生,滕召胜.CAN总线在储粮水分自动测试系统中的应用[J].仪表技术,2001,(6):31-33
[34] 王莽,徐波,梁旭.ADO技术在虚拟仪器软件设计中的应用[J].电测与仪表,2001,(5):41-43
[35] 王志新等.虚拟仪器技术及其应用[J].上海理工大学学报,1998(11):49-55
[36] 陈健,刘影,成丽波.论VB及其编程.松辽学刊(自然科学版),1999(4):45-48
[37] http://www.hunu.edu.cn/; http://library.hunu.edu.cn/
[38] 邱关源.电路第三版[M].北京:高等教育出版社,1978
[39] 吴斌,赵学增,张绍卿,孙永顺.基于配电网的自动抄表技术[J].电测与仪表,2001,4:13-15,48
[40] 何立民.MCS-51系列单片机应用系统设计系统配置与接口技术[M].北京:北京航空航天大学出版社,1990
[41] 李朝青.PC机及单片机数据通信技术[M].北京:北京航空航天大学出版社,2001
[42] 中华人民共和国国家经济贸易委员会.低压电力用户集中抄表系统技术条件.中华人民共和国电力行业标准DL/T 698—1999,2000.7.1
[43] 湖南省电力公司办公室.湖南省电力公司配电变压器自动抄表系统技术要求.湖南省电力公司文件湘电公司用[2001]593号,2001.8.20
[44] 李俭川,秦国军,陶利民,胡政.基于数据库的虚拟仪器软件设计方法及其应用[J].微型机与应用,2001,(8):40-42
[45] 李立,王鹏,廖林芸,孙波.基于虚拟仪器的多参量传感器信号采集系统的设计[J].计算机自动测量与控制,2001,9(6):67-68
[2] 路林吉,饶家明.虚拟仪器讲座——第一讲 虚拟仪器概论[J].电子技术,2000,(1):44-47
[3] 李建华,郭明.RS-232和调制解调器高级通信编程[M].北京:人民邮电出版社,2001
[4] 艾长胜,章勇.基于VB的MODEM通信控制.微计算机信息,1999(15)5:18—20
[5] 邬宽明.CAN总线原理和应用系统设计[M].北京:北京航空航天大学出版社,2000
[6] 李华.MCS-51系列单片机使用接口技术[M].北京:北京航空航天大学出版社,1993
[7] 杨乐平,李海涛,肖相生.LabVIEW程序设计与应用[M].北京:电子工业出版社,2001
[8] 李江伟,汪锐,汪仁煌,陈文戈,基于LabView的便携式大型旋转机械故障诊断系统的数据管理[J].自动化仪表,2001,(8):12-13,22
[9] 路林吉,饶家明.虚拟仪器讲座——第三讲 面向仪器与测控过程的图形化开发平台-LabVIEW [J].电子技术,2000,(3):46-49
[10] (美)Evangelos Petroutsos著,邱仲潘 等译.Visual Basic 6从入门到精通[M].北京:电子工业出版社,1999
[11] (美)Matthew Harris著,齐舒创作室译.Visual Basic for Applications 5开发人员指南.北京:机械工业出版社,1998
[12] LabVIEW User Manual[Z].National Instrument Corporation, 1996
[13] 杨宏业,张跃,吕芳.自动抄表系统中通信方案的现状与展望[J].电测与仪表,2001,8:8-11,34
[14] 路林吉,谢平.虚拟仪器讲座——第六讲 虚拟仪器的应用[J].电子技术2000,(6):48-50
[15] 魏相华,张士文,赵继敏.虚拟仪器(Ⅵ)的发展现状和前景[J].工业控制计算机,2001,14(3):1-2,9
[16] 卢奂采.虚拟仪器技术的发展及现状[J].自动化仪表,2001,(11):1-3
[17] 应怀樵.虚拟仪器与PC卡泰技术的现状与发展[J].计算机自动测量与控制,2000,8(2):1-2,13
[18] 钟涛,杨乐平.基于虚拟仪器技术的运载火箭模拟地面测量发射训练系统[J].计算机自动测量与控制,2001,9(1):60-61
[19] 洪添胜,李永刚,罗锡文.LabView中数据采集动态链接库的设计及应用[J].计算机自动测量与控制,2000,8(4):21-22,25
[20] 白凤山,潘而立.动态链接库(DLL)在虚拟仪器中的应用[J].自动化与仪表,2001,(1):21-22
[21] LabVIEW Data Acquisition Basics Manual. National Instruments, 1998
[22] LabVIEW Function and VI Reference Manual. National Instruments, 1998
[23] LabVIEW G Programming Reference Manual. National Instruments, 1998
[24] OLE DB/ADO:Making Universal Data Access a Reality[J]. Microsoft Corporaton, 1997
[25] VXIbus System Specification Rev. July 14, 1989
[26] LabVIEW 6i 评估软件, National Instrument Corporation, 2001
[27] Mitchell Lee.A new carrier current transceiver I.C[J].IEEE Trans Consumer Electronics, 1982, 28(3)
[28] Wacks K P. Utility load management using home automation[J].IEEE Trans Consumer Electronics, 1991, 37(2)
[29] International Standardization Organization: Road Vehicles-Interchange of digital information-Controller area network (CAN) for high-speed communication, ISO11898, 1993
[30] Philips Semiconductors: SJA1000 Stand-alone CAN controller, Application Note AN97076, 1997
[31] 华中工学院电磁测量教研室编.常用电工仪表与测量(修订本)[M].北京:机械工业出版社,1982
[32] 张毅刚,曲春波,赵玉莲,李琼等译.VXI总线即插即用规范,1999
[33] 王可宁,郑舜生,滕召胜.CAN总线在储粮水分自动测试系统中的应用[J].仪表技术,2001,(6):31-33
[34] 王莽,徐波,梁旭.ADO技术在虚拟仪器软件设计中的应用[J].电测与仪表,2001,(5):41-43
[35] 王志新等.虚拟仪器技术及其应用[J].上海理工大学学报,1998(11):49-55
[36] 陈健,刘影,成丽波.论VB及其编程.松辽学刊(自然科学版),1999(4):45-48
[37] http://www.hunu.edu.cn/; http://library.hunu.edu.cn/
[38] 邱关源.电路第三版[M].北京:高等教育出版社,1978
[39] 吴斌,赵学增,张绍卿,孙永顺.基于配电网的自动抄表技术[J].电测与仪表,2001,4:13-15,48
[40] 何立民.MCS-51系列单片机应用系统设计系统配置与接口技术[M].北京:北京航空航天大学出版社,1990
[41] 李朝青.PC机及单片机数据通信技术[M].北京:北京航空航天大学出版社,2001
[42] 中华人民共和国国家经济贸易委员会.低压电力用户集中抄表系统技术条件.中华人民共和国电力行业标准DL/T 698—1999,2000.7.1
[43] 湖南省电力公司办公室.湖南省电力公司配电变压器自动抄表系统技术要求.湖南省电力公司文件湘电公司用[2001]593号,2001.8.20
[44] 李俭川,秦国军,陶利民,胡政.基于数据库的虚拟仪器软件设计方法及其应用[J].微型机与应用,2001,(8):40-42
[45] 李立,王鹏,廖林芸,孙波.基于虚拟仪器的多参量传感器信号采集系统的设计[J].计算机自动测量与控制,2001,9(6):67-68