Finite Difference Time Domain Analysis software
Modeling and simulation of many RF applications and antennas present a challenge in terms of speed, required memory, and accuracy. INTEGRATED Engineering Software introduces CHRONOS, INTEGRATED’s new time domain solver for modeling and simulating 3D RF and microwave applications.
The move from frequency domain techniques into time-domain can result in huge time savings.
By adding CHRONOS to its product line, INTEGRATED will provide designers with the most powerful innovative techniques including: Finite Difference Time Domain (FDTD), Moment of Methods (MoM), and the Finite Element Method (FEM).
The easy-to-use interface of CHRONOS allows professionals to model the geometry and assigns its physical properties, providing fast and accurate results in the time domain. The time domain results can be transformed and displayed with different parameters in the frequency domain thanks to the powerful automatic post processing tools in CHRONOS.
After specifying the geometry, assigning material properties and sources and specifying the required outputs, CHRONOS will automatically generate an efficient mesh for accurate simulation. Read More
Design engineers depend on CHRONOS for the design and analysis of high frequency components including:
Planar microwave and antenna structures
Wire antennas
UWB antennas
Microwave circuits, waveguides and coaxial structures
Near field and far field applications
Finite Difference Time Domain Analysis software
Modeling and simulation of many RF applications and antennas present a challenge in terms of speed, required memory, and accuracy. INTEGRATED Engineering Software introduces CHRONOS, INTEGRATED’s new time domain solver for modeling and simulating 3D RF and microwave applications.
The move from frequency domain techniques into time-domain can result in huge time savings.
By adding CHRONOS to its product line, INTEGRATED will provide designers with the most powerful innovative techniques including: Finite Difference Time Domain (FDTD), Moment of Methods (MoM), and the Finite Element Method (FEM).
The easy-to-use interface of CHRONOS allows professionals to model the geometry and assigns its physical properties, providing fast and accurate results in the time domain. The time domain results can be transformed and displayed with different parameters in the frequency domain thanks to the powerful automatic post processing tools in CHRONOS.
After specifying the geometry, assigning material properties and sources and specifying the required outputs, CHRONOS will automatically generate an efficient mesh for accurate simulation. Read More
Design engineers depend on CHRONOS for the design and analysis of high frequency components including:
- Planar microwave and antenna structures
- Wire antennas
- UWB antennas
- Microwave circuits, waveguides and coaxial structures
- Near field and far field applications
