Design of Intelligent Terminal Based on ARM and FPGA

Li Hua Liu; Ming Sun; Shu Jian Zhang

doi:10.4028/www.scientific.net/AMR.616-618.2038

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 616-618Design of Intelligent Terminal Based on ARM and...

Design of Intelligent Terminal Based on ARM and FPGA

Abstract:

At present, China is vigorously developing the smart grid, due to the immaturity of the intelligent circuit breaker, a totally new device is introduced in the process layer to ensure the realization of intellectualization of primary equipment in the intelligent substation: the. The intelligent terminal is an interface of primary equipment and secondary equipment in intelligent substation system realizing the intelligent transformation of the traditional primary equipment, which is also the optimal solution to the traditional switch and transformer interface problems of intelligent substation. The intelligent terminal devices of 126KVGIS are designed in this paper, the design process adopts the method of ARM+FPGA dual-CPU structure，which makes the intelligent terminal have an efficient and rapid processing capacity so as to satisfy the requirement of practical application. Starting from the modularization structure design, function of each module, circuit design and implementation method were introduced in detail. A hardware platform was established according to the design. Finally, the article confirmed the correctness of the hardware platform primarily through experimental method.

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Periodical:

Advanced Materials Research (Volumes 616-618)

Pages:

2038-2043

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.616-618.2038

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Online since:

December 2012

Authors:

Li Hua Liu, Ming Sun, Shu Jian Zhang

Keywords:

ARM, Field-Programmable Gate Array (FPGA), Goose, Intelligent Terminal, Smart Grid (SG)

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References

[1] WANG Yong, MEI Sheng-wei, HE Guang-yu. Digitization Characteristics and Realization of the Primary Device of Transformer Substation [J]. Automation of Electric Power System, 2010, 34(13): 95-99.

Google Scholar

[2] Key Technologies of Smart Grid Research Framework [R]. Beijing: State Grid, 2009.

Google Scholar

[3] WU YI, LIAN Jing-bin, LI Chen. Intelligent Substation System Structure and Principle Study [J]. Central China Electric Power, 2011,24 (3): 1- 4.

Google Scholar

[4] ZHU Bing-quan, REN Yan-ming, JIANG Jian-ning, et al. Strategy for Implementation of IEC 61850 in Substation Automation System During Transitional Period [J]. Automation of Electric Power Systems, 2005 ,29 (23) :54-57.

Google Scholar

[5] CUI Hou-kun, TANG Xiao-jun, LIANG Zhi-cheng, et al. Study on IEC 61850 Conformance Testing [J]. Automation of Electric Power Systems, 2006, 30(8):80-83.

Google Scholar

[6] XIN Yao-zhong, WANG Yong-fu, REN Yan-ming. Survey on Research, Development and Interoperability Test of IEC 61850 in China [J]. Automation of Electric Power Systems, 2007, 31(12): 1-6.

Google Scholar

[7] ZHANG Yan-tao, HUANG Lun, WANG Qing-ping, et al. Scheme and Application of IEC 61850 Standard Conformance Test [J]. Automation of Electric Power Systems, 2008, 32(4): 98-102.

Google Scholar

[8] Q/GDW 428-2010 The Technical Specification For Intelligent Terminal in Smart Substation. (2010)

Google Scholar

[9] Q/GDW441-2010 Technical Specification of Protection For Smart Substation.(2010)

Google Scholar

[10] STM32F10xxx Reference manual. ST Microelectronics, (2008)

Google Scholar

[11] Cyclone Device Handbook Volume [Z]. Altera corporation. (2003)

Google Scholar

[12] Davicom Semiconductor Incorporated[Z]. DM9000A Ethernet Controller with General Processor Interface. Davicom Semiconductor Incorporated, 2005.

Google Scholar

[13] FAN Jian-zhong, MA Qian-li. Development of a GOOSE Packet Capture and Analysis Tool Based on WINPCAP [J]. Automation of Electric Power Systems, 2007,31(23): 52-56.

Google Scholar