Multiphysics Computation and Design for the Development of RF Devices and Systems with High Performance and Reliability Wen-Yan Yin Innovative Institute of Electromagnetic Information and Electronic Integration (EIEI) College of Information Science and Electronic Engineering, Zhejiang University (ZJU), Hangzhou, CHINA E-mail: wyyin@zju.edu.cn |
Abstract:
Multiphysics compatibility strategy, targeting at high performance and reliability, should be the first issue to be considered in many defense and civil fields. In particular, it has been widely employed in the design of RF devices (silicon LDMOSFET, GaAs HBT, and AlGaN/GaN HEMT), components (switch, limiter, low noise amplifier, phase shifter, and mixer, etc.) and electronic warfare systems (high speed data link radio, active phased array radar and navigation system, etc.). While for commercial applications, it is very popular used in the development of high performance, miniaturized, high reliability RF transceivers, RRAM for wireless communication and internet of thing (IoT), etc. However, multiscale multiphysics modeling, computation, and compatibility design methods remain many very challenging tasks even with nowadays.
This presentation will introduce multiscale multiphysics computation & compatibility researches carried out at EIEI of Zhejiang University, China recently, It mainly includes: (1) multiphysics modeling at different scales, (b) high performance computing required for multiscale multiphysics simulation, and (c) multiphysics compatibility design in the development of RF packaging, thermal management of RRAM array, and electromagnetic protection of electronic warfare systems, etc.