Established in 2001, Wireless Communication Laboratory is a research oriented laboratory specializing in the investigation of basic RF/MW/monolithic microwave integrated circuit (MMIC) components of wireless communications as well as innovative applications. There are five main researches focuses and they are
Miniaturization techniques for guided and radiated wave components;
Novel pattern ground structure and its applications;
Non-destructive material analysis using RF/MW;
Novel phase lock loop techniques;
RFIC for UV flame sensing and its fire safety applications
Besides, Wireless Communication Laboratory supports the professional wireless communication services for local government and innovative wireless applications for industries. These services include radiation safety measurement and survey and; evaluation of WLAN usage and security for example whilst the innovative applications consist of vessel monitoring using GPS/GSM/GIS, Wireless power transmission and so forth.
StarLab is the ultimate tool for antenna pattern measurements in laboratories and production environments where space is limited, cost is critical and the flexibility of a portable system is required.
Microwave Office is the complete linear and nonlinear solution for microwave hybrid, module and MMIC design. It includes linear, harmonic-balance, and time-domain simulation, in a single integrated environment that also features EM simulation and physical layout.
IE3D is a full-wave, method-of-moments based electromagnetic simulator solving the current distribution on 3D and multilayer structures of general shape. It has been widely used in the design of MMICs, RFICs, LTCC circuits, microwave/millimeter-wave circuits, IC interconnects and packages, HTS circuits, patch antennas, wire antennas, and other RF/wireless antennas.
ANSYS HFSS
The ANSYS HFSS Fullwave Simulation software has been considered as the standard tool for high-frequency electromagnetic-wave transmission, reflection, radiation and so on in the relevant field. All analysis and designs must be verified by such tool to confirm its practicableness. With HFSS, the user can achieve best-in-class design in a broad range of applications including antennas, phased arrays, passive Radio Frequency (RF)/microwave components, high-speed interconnects, IC packaging and PCBs.