Electricity Acquisition System Design Based on STM32F103

Han Bai Fan; Wen Qian Kang; Meng Xian

doi:10.4028/www.scientific.net/AMR.1049-1050.638

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 1049-1050Electricity Acquisition System Design Based on...

Electricity Acquisition System Design Based on STM32F103

Abstract:

STM32F103 microprocessor as the core, this paper introduces the research design scheme of power acquisition in the smart grid. This design can realize real-time acquisition and analysis of power, has the characteristics of high precision and little error. The power acquisition design program is also used in the chip ATT7022, simplify the design of the circuit. Chip ATT7022 collected can be voltage, current reactive power and power factor and other parameters were calculated. The microprocessor STM32F103 mainly analyze the calculation of the data. If the data is not correct, the microprocessor STM32F103 then control circuit is revised accordingly. Practice shows that the intelligent power acquisition system meet the requirements of the smart grid.

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Periodical:

Advanced Materials Research (Volumes 1049-1050)

Pages:

638-641

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.1049-1050.638

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Online since:

October 2014

Authors:

Han Bai Fan, Wen Qian Kang*, Meng Xian

Keywords:

ATT7022, Electricity Acquisition, STM32F103

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* - Corresponding Author

References

[1] Yuan Jun-jie. A Kind of Multifunctional Power Acquisition Module Design [J]. Journal of low voltage apparatus, 2007 (11): 30-32.

Google Scholar

[2] Qi Xue-fang and He Hong-mao. The Application of Substation Remote Power Acquisition System [J]. Journal of Inner Mongolia electric power technology, 2006 (z1).

Google Scholar

[3] Guo En-lei and Xu Jian-zheng. Modern Communication Technology of Remote Automatic Meter Reading System [J]. Power system communications, 2007, 28 (11): 18-21.

Google Scholar

[4] Li Jing and Chen Yong-tai. Research and Implementation of Electric Energy Measurement chip ATT7022B Communications [J]. Journal of electronic measurement technology, 2008, 31 (5): 88-90.

Google Scholar

[5] Liu Zheng. The Research and Application of Electric Power Information Collection System [J]. Science and technology, 2013 (18): 27-28.

Google Scholar

[6] Li Miao and Wang Chao-jun. Power Acquisition System is the Application of the Relevant Technology and Analysis [J]. Mechanical and electronic information, 2012 (18): 119-120.

Google Scholar