配电子站和其应用软件的设计
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摘要
本论文首先对配电子站在配电自动化系统中的作用和地位进行了介绍,在此基础上,对配电子站的国内外研究现状进行了分析,针对目前已应用的配电子站的不足之处,结合新技术提出了新一代配电子站的设计要求。根据配电子站的性能要求,设计出了合理的配电子站硬件系统结构,选出了适合配电子站功能需求的实时操作系统;同时根据配电子站在配电自动化系统中的作用和地位,综合分析了配电子站的应用特点,给出了其应用软件的功能需求和其应用指标。在此基础上采用UML的设计方法对配电子站的应用系统进行了设计。建立了配电子站的对象模型,和其关键动态过程模型。
按照设计方案实现的系统,其性能指标完全达到了设计的要求,验证了设计的可行性和有效性。设计方案有以下几个方面的优点:
(1)选用Window CE嵌入式操作系统和其它非嵌入式操作系统相比,系统需要更少的硬件资源,操作系统中的资源可方便裁减,能够保证系统实时性,系统的运行更加稳定、可靠。
(2)系统软件设计采用UML通用建模技术,保证了软件结构的合理性,提高了软件的健壮性和可维护性。
(3)系统中的通道和规约采用动态绑定机制,提高了系统的灵活性。
西安理工大学工程硕士学位论文
(4)采用多线程方式提高了系统的运行效率。
(5)采样嵌入式系统构造的配电子站,系统结构紧凑,成本大大降低。
This thesis firstly introduces the function and position of the sub control center in the distribution automation system. At the basis of that, analyzes present research of the sub control center at home and abroad, brings forward new generation design request aiming at the defects of the applied sub control center at present. According to the design request, the hardware system structure for reasonable sub control center is worked out ,and the real-time operating system is chosen, for which suits the sub control center's function demand; meanwhile synthetically analyzes the application characteristics of the sub control center according to the function and position in the electric automation system, together with the function demand and application target of the applied software. Then the sub control center application system is designed out by the UML design method. And the object model of the sub control center is established, with dynamic process in its key model.
According to the system achieved by the design scheme the function target comes to the design request completely, which verifies that the design is feasible and effective .The and effective. The advantages of the design scheme are as follows:
(1) Choose to use the Windows CE embedded operating system, comparing to other unisex-type operating system this type need less hardware and resources
in the operating can be cut conveniently, which make the system have real-time quality and the movement movement more stable dependable.
(2) Design of the system software adopts UML general use model technique, this guarantees the software structure reasonable, enhances the persistence and protection of the system.
(3) Channels and rules in the system adopt dynamic binding mechanism to make the system flexible.
(4) The adoption multi-threading model increases the movement efficiency of the system.
(5) Adopt the embedded system to construct sub control center, system structure tightly packed, the cost declines consumedly.
按照设计方案实现的系统,其性能指标完全达到了设计的要求,验证了设计的可行性和有效性。设计方案有以下几个方面的优点:
(1)选用Window CE嵌入式操作系统和其它非嵌入式操作系统相比,系统需要更少的硬件资源,操作系统中的资源可方便裁减,能够保证系统实时性,系统的运行更加稳定、可靠。
(2)系统软件设计采用UML通用建模技术,保证了软件结构的合理性,提高了软件的健壮性和可维护性。
(3)系统中的通道和规约采用动态绑定机制,提高了系统的灵活性。
西安理工大学工程硕士学位论文
(4)采用多线程方式提高了系统的运行效率。
(5)采样嵌入式系统构造的配电子站,系统结构紧凑,成本大大降低。
This thesis firstly introduces the function and position of the sub control center in the distribution automation system. At the basis of that, analyzes present research of the sub control center at home and abroad, brings forward new generation design request aiming at the defects of the applied sub control center at present. According to the design request, the hardware system structure for reasonable sub control center is worked out ,and the real-time operating system is chosen, for which suits the sub control center's function demand; meanwhile synthetically analyzes the application characteristics of the sub control center according to the function and position in the electric automation system, together with the function demand and application target of the applied software. Then the sub control center application system is designed out by the UML design method. And the object model of the sub control center is established, with dynamic process in its key model.
According to the system achieved by the design scheme the function target comes to the design request completely, which verifies that the design is feasible and effective .The and effective. The advantages of the design scheme are as follows:
(1) Choose to use the Windows CE embedded operating system, comparing to other unisex-type operating system this type need less hardware and resources
in the operating can be cut conveniently, which make the system have real-time quality and the movement movement more stable dependable.
(2) Design of the system software adopts UML general use model technique, this guarantees the software structure reasonable, enhances the persistence and protection of the system.
(3) Channels and rules in the system adopt dynamic binding mechanism to make the system flexible.
(4) The adoption multi-threading model increases the movement efficiency of the system.
(5) Adopt the embedded system to construct sub control center, system structure tightly packed, the cost declines consumedly.
引文
【1】 Dan Borowwsi, Ralph Seamon. EPRI Project RP2592, Large Scale Distrubution Automation and Load Control, Enter Test Year, IEEE Trans. On Power Delivery, Vol.5,No. 1, January 1990
【2】 Ns Markushevich,AP Berman,et al,美国电力公司先进的配电自动化的实施,供用电,Vol.20,(2)2003.
【3】 Bok Nam Ha, Automation System Development in Korea, Transmission & Distribution World, November 1998.
【4】 Raul Garginli,采用新遥信技术的配电自动化系统,供用电.Vol.14.No.2,1997.4.
【5】 黄兵,吴成东,曾乃鸿.一个国外已运行的配电自动化系统,电力系统自动化,Vol.23,No.18,1999.9
【6】 张烈忠.英国一个配电网控制和自动化方案,供用电,Vol.15.No.2.1998.4
【7】 H.Oono, M.Kawaharasaki, et al. A Large Scale DAS in CEPCO, IEEE Trans. On Power Systems, Vol. 7, No.2, May 1992
【8】 Kato S, Naito T, et al, Computer-based distribution automation. IEEE Power Industry Computer Application Conference. 1985:374-380
【9】 陈勇、海涛、稻叶正明,构筑配电自动化系统的三种基本模式,电网技术,Vol.26,No.2,Feb.2002
【10】 张建功,杨子强等.配电自动化的实用模式探讨,电网技术,Vol.27,No.1,2003(1).
【11】 周呖听,周静,章明.上海天平小区配网自动化的结构与功能,供用电,Vol.20.No.3.2003.6
【12】 辛耀,霍锦强,配电自动化的实践探讨,供用电,Vol.19,No.1,2002
【13】 杨爱民,深圳福永镇配电自动化实施方案,电网技术,Vol.26,No.7,2002
[14]邹本国,淄博电业局配电自动化系统技术特点,电力系统自动化,Vol.26,No.13,2002(7)
[15]朱英伟、何云良等,金华地区配电自动化一期工程实施方案,电力系 统自动化,Vol.26,No.9,May 10.2002,p78-79.
[16]中国电机工程学会城市供电专业委员会系统控制及保护分专委会,馈线自动化模式及国内应用实例.供用电,1999,16(6)
[17]焦邵华,焦燕莉等.馈线自动化的最优控制模式,电力系统自动化,Vol.26,No.21,2002(10).
[18]代波,潘承铨.南宁供电局配电自动化系统通讯传输方案探讨.广西电力,No.1 2003.
[19]韩小涛,伊项根等,无线局域网在配电自动化通讯系统中的应用,电力系统通讯,2002.6
[20]徐金龙,基于有线电视网的配电自动化通讯方案,电力系统自动化,Vol.26,No.27,Apr.10.2002,p73~76.
[21]王业平,罗小莉等,EMS/DMS一体化通讯系统设计,电力系统自动化,Vol.23,No.18,1999(9)
[22] Pao-Hsiang His, Shi-Lin Chen. Distribution Automation Communication Infrastructure, IEEE Transactions on Power Delivery, Vol. 13,No.3,Juiy 1998
[23]洪宪平,走向网络化的远动系统,电力系统自动化,2001.3.25
[24]潭文茹,关于配电自动化系统的传输规约,电力自动化,Vol.23,No.16,pp37—
[26]郭其一,邹洁,赵艳华.工业嵌入式操作系统综述.机车电传动,No.1,2003
[27]张新房,徐大平等.基于windows CE 3.0的嵌入式控制器的研究.计算机测量与控制.2003.11(6)
[28]刘大鹏,马孝江.基于Windows CE的嵌入式操作系统的实时性分析.自动化技术与应用,(1)2002
[29]彭飞,柳重堪,张其善.嵌入式系统的开发利器----Windows CE操作系统,电子技术应用,(9)2002.
[30] Chris Muench, Windows CE 权威指南,中国电力出版社,2001.6
[31] Douglas Boling,Microsoft Windows CE 程序设计,北京大学出版社,1999.8
[32]韩福坤,魏小伟等.远动规约测试及故障分析系统,电力自动化设备,Vol.21,No.8,Aug.2001
[33]Kayshav Dattatri,C++面象对象高效编程,2000.9
[34]魏民、罗安,使用面向对象的设计技术实现电力通讯规约,电网技术,Vol.26,No.3,Mar.2002.
[35] C.L. Su, C. N. Lu et al. Wide Area Network Performance Study of Distribution Management System. Electrical Power and Energy Systems, Vol. 22(2000), 9-14
[36]徐春晖,张伯明,汤磊.TH2100 SCADA系统中的前置部分的研究.电力自动化设备.Vol.21,No.3,Mar.2001
[37]吕少坤,韩福坤.重视前置机系统在电网调度自动化系统中的作用,华北电力技术.No.6,2000
[38] Grady Booch,James Rumbaugh, Ivar Jacobson,UML 用户指南,机械工业出版社,2001.6
[39]夏明超,黄益庄,谢忻.THDS-100调度自动化系统中的多线程技术的应用,清华大学学报(自然科学版).Vol.41,No.3,2001
【2】 Ns Markushevich,AP Berman,et al,美国电力公司先进的配电自动化的实施,供用电,Vol.20,(2)2003.
【3】 Bok Nam Ha, Automation System Development in Korea, Transmission & Distribution World, November 1998.
【4】 Raul Garginli,采用新遥信技术的配电自动化系统,供用电.Vol.14.No.2,1997.4.
【5】 黄兵,吴成东,曾乃鸿.一个国外已运行的配电自动化系统,电力系统自动化,Vol.23,No.18,1999.9
【6】 张烈忠.英国一个配电网控制和自动化方案,供用电,Vol.15.No.2.1998.4
【7】 H.Oono, M.Kawaharasaki, et al. A Large Scale DAS in CEPCO, IEEE Trans. On Power Systems, Vol. 7, No.2, May 1992
【8】 Kato S, Naito T, et al, Computer-based distribution automation. IEEE Power Industry Computer Application Conference. 1985:374-380
【9】 陈勇、海涛、稻叶正明,构筑配电自动化系统的三种基本模式,电网技术,Vol.26,No.2,Feb.2002
【10】 张建功,杨子强等.配电自动化的实用模式探讨,电网技术,Vol.27,No.1,2003(1).
【11】 周呖听,周静,章明.上海天平小区配网自动化的结构与功能,供用电,Vol.20.No.3.2003.6
【12】 辛耀,霍锦强,配电自动化的实践探讨,供用电,Vol.19,No.1,2002
【13】 杨爱民,深圳福永镇配电自动化实施方案,电网技术,Vol.26,No.7,2002
[14]邹本国,淄博电业局配电自动化系统技术特点,电力系统自动化,Vol.26,No.13,2002(7)
[15]朱英伟、何云良等,金华地区配电自动化一期工程实施方案,电力系 统自动化,Vol.26,No.9,May 10.2002,p78-79.
[16]中国电机工程学会城市供电专业委员会系统控制及保护分专委会,馈线自动化模式及国内应用实例.供用电,1999,16(6)
[17]焦邵华,焦燕莉等.馈线自动化的最优控制模式,电力系统自动化,Vol.26,No.21,2002(10).
[18]代波,潘承铨.南宁供电局配电自动化系统通讯传输方案探讨.广西电力,No.1 2003.
[19]韩小涛,伊项根等,无线局域网在配电自动化通讯系统中的应用,电力系统通讯,2002.6
[20]徐金龙,基于有线电视网的配电自动化通讯方案,电力系统自动化,Vol.26,No.27,Apr.10.2002,p73~76.
[21]王业平,罗小莉等,EMS/DMS一体化通讯系统设计,电力系统自动化,Vol.23,No.18,1999(9)
[22] Pao-Hsiang His, Shi-Lin Chen. Distribution Automation Communication Infrastructure, IEEE Transactions on Power Delivery, Vol. 13,No.3,Juiy 1998
[23]洪宪平,走向网络化的远动系统,电力系统自动化,2001.3.25
[24]潭文茹,关于配电自动化系统的传输规约,电力自动化,Vol.23,No.16,pp37—
[26]郭其一,邹洁,赵艳华.工业嵌入式操作系统综述.机车电传动,No.1,2003
[27]张新房,徐大平等.基于windows CE 3.0的嵌入式控制器的研究.计算机测量与控制.2003.11(6)
[28]刘大鹏,马孝江.基于Windows CE的嵌入式操作系统的实时性分析.自动化技术与应用,(1)2002
[29]彭飞,柳重堪,张其善.嵌入式系统的开发利器----Windows CE操作系统,电子技术应用,(9)2002.
[30] Chris Muench, Windows CE 权威指南,中国电力出版社,2001.6
[31] Douglas Boling,Microsoft Windows CE 程序设计,北京大学出版社,1999.8
[32]韩福坤,魏小伟等.远动规约测试及故障分析系统,电力自动化设备,Vol.21,No.8,Aug.2001
[33]Kayshav Dattatri,C++面象对象高效编程,2000.9
[34]魏民、罗安,使用面向对象的设计技术实现电力通讯规约,电网技术,Vol.26,No.3,Mar.2002.
[35] C.L. Su, C. N. Lu et al. Wide Area Network Performance Study of Distribution Management System. Electrical Power and Energy Systems, Vol. 22(2000), 9-14
[36]徐春晖,张伯明,汤磊.TH2100 SCADA系统中的前置部分的研究.电力自动化设备.Vol.21,No.3,Mar.2001
[37]吕少坤,韩福坤.重视前置机系统在电网调度自动化系统中的作用,华北电力技术.No.6,2000
[38] Grady Booch,James Rumbaugh, Ivar Jacobson,UML 用户指南,机械工业出版社,2001.6
[39]夏明超,黄益庄,谢忻.THDS-100调度自动化系统中的多线程技术的应用,清华大学学报(自然科学版).Vol.41,No.3,2001