Electromagnetic–Thermal Co-Simulation of Planar Monopole Antenna Based on HIE-FDTD Method

Abstract: This paper presents an efficient approach to implement electromagnetic-thermal (EM-T) co-simulation of a planar monopole antenna based on hybrid implicit-explicit finite-difference time-domain method (HIE-FDTD-M). First, the EM simulation is carried out by solving Maxwell’s curl equation. Once the EM field reaches steady state, the EM power loss is computed according to the electric conductivity of the material. Finally, the thermal field is simulated by taking the EM power loss as the heat source in the heat … Show more

“…In general, the studies introduce and focus on optimum co-simulation techniques for specific circuit environments such as MMICs [7], PCB loss [8], and a bias circuit [9]. Customized codes are co-simulated with commercial simulation tools in [10][11][12]. Customized coding such as an FDTD and Python can provide precise results compared to the general method provided by commercial tools.…”

Accurate Microwave Circuit Co-Simulation Method Based on Simplified Equivalent Circuit Modeling

“…In general, the studies introduce and focus on optimum co-simulation techniques for specific circuit environments such as MMICs [7], PCB loss [8], and a bias circuit [9]. Customized codes are co-simulated with commercial simulation tools in [10][11][12]. Customized coding such as an FDTD and Python can provide precise results compared to the general method provided by commercial tools.…”

Accurate Microwave Circuit Co-Simulation Method Based on Simplified Equivalent Circuit Modeling

Thermal-Mechanical-Electromagnetic Multiphysics Simulation of Satellite Phased Array Antenna Based on DGTD and FEM Method

Construction of a Digital Twin of a Radio Information System Based on Accounting for Thermal and Electrodynamics Processes