Sun Gui-ling, Zhao Jie, Zhang Xue-jian, Li Wei-xiang, Jin Zhen . Sampling and Processing of Power Distribution in Intense Microwave Field[J]. Journal of Electronics & Information Technology, 2005, 27(6): 995-998.
Citation:
Sun Gui-ling, Zhao Jie, Zhang Xue-jian, Li Wei-xiang, Jin Zhen . Sampling and Processing of Power Distribution in Intense Microwave Field[J]. Journal of Electronics & Information Technology, 2005, 27(6): 995-998.
Sun Gui-ling, Zhao Jie, Zhang Xue-jian, Li Wei-xiang, Jin Zhen . Sampling and Processing of Power Distribution in Intense Microwave Field[J]. Journal of Electronics & Information Technology, 2005, 27(6): 995-998.
Citation:
Sun Gui-ling, Zhao Jie, Zhang Xue-jian, Li Wei-xiang, Jin Zhen . Sampling and Processing of Power Distribution in Intense Microwave Field[J]. Journal of Electronics & Information Technology, 2005, 27(6): 995-998.
A method to effectively measure the microwave field distribution is proposed in this paper. Firstly, to quantitatively measure the intense microwave field power distribution, a measurement container and a multiplex temperature sampling and processing system are designed. Then two algorithms are manipulated to make adjustment to the sampling data. Experimental results of power field in microwave field are provided. It is feasible, dependable and also valuable for practice.
Decareau R V. Microwave foods: new product development [M].Trumbull, Conn., USA. Food and Nutrition Press, 1992:68 - 70.[2]Ma Lizhuang, Paul D L, Pothecary N, et al.. Experimental validation of a combined electromagnetic and ghermal FDTD model of a microwave heating process[J].IEEE Trans. on Microwave Theory and Techniques.1995, 43(11):2565-[3]Anantheswaran R C, Liu L. Effect of electrical shielding on time-temperature distribution and flow profiles in water in a cylindrical container during microwave heating[J]. Joural of Microwave Power and Electromagnetic Energy, 1994, 29(4):220 - 230.
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