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Estimation of power density in IMPATT using different materials
Authors:Girish Chandra Ghivela  Joydeep Sengupta
Affiliation:1. EMI-EMC Lab, Electronics and Communication Engineering Department, Visvesvaraya National Institute of Technology, Nagpur, IndiagirishVNIT2012@gmail.com"ORCIDhttps://orcid.org/0000-0001-5515-8137;3. EMI-EMC Lab, Electronics and Communication Engineering Department, Visvesvaraya National Institute of Technology, Nagpur, India
Abstract:ABSTRACT

The RF output power dissipated per unit area is calculated using Runge-Kutta method for the high-moderate-moderate-high (n+-n-p-p+) doping profile of double drift region (DDR)-based impact avalanche transit time (IMPATT) diode by taking different substrate at Ka band. Those substrates are silicon, gallium arsenide, germanium, wurtzite gallium nitride, indium phosphide and 4H-silicon carbide. A comparative study regarding power dissipation ability by the IMPATT using different material is being presented thereby modelling the DDR IMPATT diode in a one-dimensional structure. The IMPATT based on 4H-SiC element has highest power density in the order of 1010 Wm?2 and the Si-based counterpart has lowest power density of order 106 Wm?2 throughout the Ka band. So, 4H-SiC-based IMPATT should be preferable over others for the power density preference based application. This result will be helpful to estimate the power density of the IMPATT for any doping profile and to select the proper element for the optimum design of the IMPATT as far as power density is concerned in the Ka band. Also, we have focused on variation of power density with different junction temperatures and modelled the heat sink with analysis of thermal resistances.
Keywords:Runge-Kutta  power density  avalanche voltage  IMPact Avalanche Transit Time (IMPATT)  drift voltage
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