MM-wave double drift IMPATT diode: a comparison of experimental, theoretical and neural network approach Online publication date: Wed, 26-Sep-2018
by P.R. Tripathy; S.K. Choudhury; S.P. Pati
International Journal of Nano and Biomaterials (IJNBM), Vol. 7, No. 4, 2018
Abstract: This paper presents the comparison of simulation and experimental output with the neural network results of different materials like Si and GaAs-based IMPATT diode at 94 GHz window frequency. The experimental results are nearly equal to simulation results and show a quantitative agreement between theoretical values and experimental output. The experimental results in terms of efficiency and RF power are almost 80-85% of the simulation results. Rest has 15-20% discrepancy between theory and experiment due to several causes like temperature, small-signal approach, parasitic effects, impedance matching problem and proper heat-sink arrangements. The developed neural network model is used to optimise performance of the diode by taking other wide band gap semiconductor material-based IMPATT diode. The model and the results will be very useful for applications in radar and guided missile technology.
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