Lao Cai, a northwest mountainous province, has great potential for tourism development and mineral exploitation for socio-economic development. As a province bordering China, every year Lao Cai still has to buy electricity from abroad. Therefore, to reduce the load for domestic fossil power sources is gradually depleting and less dependent on electricity purchased from China. The construction of solar power stations in Lao Cai in particular and in Vietnam in general is essential and in line with the Government's policy. Currently, the distribution and installation of solar power stations is very popular. However, in Vietnam, most inverter and grid-connected controllers are imported from abroad. This article presents research results to create a solar power system with Vietnamese brand. The hardware models are installed and tested in 3 different locations in Lao Cai city with a total capacity of up to 20 KW.

Solar power; Inverter; Grid Controller; Microprocessor; Automatic source switching

[1] F. Filho, Y. Cao, and L. M. Tolbert “11-levelCascaded H-bridge Grid-tied Inverter Interface with SolarPanels,” IEEE Trans, June 2010, pp. 968-972.

[2] A. J. Morrison, “Global Demand Projections forRenewable Energy Resources,” IEEE Canada ElectricalPower Conference, 25-26 Oct. 2007, pp. 537-542.

[3] J. Rodriguez, S. Bernet, B. Wu, J. O. Pontt, and S. Kouro, “Multilevel Voltage -Source-Converter Topologies forIndustrial Medium Voltage Drives,” IEEE Transactions on Industrial Electronics, vol. 54, no. 6, pp. 2930-2945, Dec.2007.

[4] L. M. Tolbert and F. Z. Peng, “Multilevel Converters as aUtility Interface for Renewable Energy Systems,” IEEE Power Engineering Society Summer Meeting, Seattle,Washington, July 15-20, 2000, pp. 1271- 1274.

[5] S. Khomfoi and L. M. Tolbert, Multilevel PowerConverters, Power Electronics Handbook, 2nd EditionElsevier, 2007, ISBN 978-0-12- 088479-7, Chapter 17, pp.451-482.

[6] S. Busquets-Monge, J. Rocabert, P. Rodriguez, S. Alepuz, and J. Bordonau, “Multilevel Diode clamped Converterfor Photovoltaic Generators with Independent Voltage Control of Each Solar Array,” IEEE Transactions on Industrial Electronics, vol. 55, pp. 2713-2723, July 2008,.

[7] T. S. Tran, Research, design, and install a small-scale solar cell power station model with grid connection, Provincial science and technology research project, Da Nang, 2014.

[8] Vietnam Energy Online, “Application situation of solar power projects in Hanoi”, 2017. [Online]. Available: http://nangluongvietnam.vn/news/vn/dien-hat-nhan-nang-luong-tai-tao/tinh-hinh-ung-dung-cac-du-an-dien-mat-troi-tai-ha-noi.html. [Accessed Apr. 29, 2021].

[9] M. P. Vu, “Research on upgrading the model of a combined power station using solar energy and grid power at the Vietnam Academy of Science and Technology”, 2015. [Online]. Available: http://khcn.cinet.vn/articledetail.aspx?articleid=1204&sitepageid=418. [Accessed Apr. 29, 2021].

[10] DAT, “3 kW grid-tied solar power system for households,” 2018. [Online]. Available: http://www.dattech.com.vn/ung-dung/he-thong-dien-mat-troi-hoa-luoi-3-kw-lap-dat-cho-ho-gia-dinh.html. [Accessed Apr. 29, 2021].