Sim4Life 5G Toolkit provides the most efficient solution for the design, analysis, and optimization of 5G mm-wave antenna arrays. It empowers engineers to develop phased-array antennas in a short time and to meet demanding performance requirements, including regulatory compliance. The power density algorithm is fully compliant with IEC/IEEE 63195, both on flat or curved surfaces.
The 3D Arbitrary Object Array Generation Tool simplifies the creation of CAD models of complex phased arrays with just a few mouse clicks. Thanks to its innovative background logic, setting up FDTD simulations of phased arrays is now as simple as a drag-and-drop operation. Users can apply predefined phase/amplitude excitation patterns (e.g., Chebycheff weights), making it easy to simulate a phased array operating under various conditions.
Key Features
Maximum Exposure evaluator to find the highest value of power density that can be obtained on a given surface by a phased-array antenna
Compliance evaluations based on surface-averaged power density calculations
Total Exposure Ratio (TER) evaluator for devices that have multiple electromagnetic field emission sources to assess overall exposure by considering all sources simultaneously
Easy-to-use beam steering tool
Novel solver-enhanced phantom model technique for realistic and accurate simulations with phantoms at mmWave frequencies
Power density algorithm both on flat or curved surfaces fully compliant with IEC/IEEE 63195
Template-based tools for modeling of phased-array antennas
Dedicated intuitive modeling tools to create CAD models of phased arrays and to setup FDTD simulations
Efficient array-factor far-field evaluators for fast prototyping
MaxGain algorithm to compute the best achievable performance in each spatial direction
Automated setup of simulation for mmWave devices with SPEAG’s mmWave hand phantoms
Two-dimensional maps of spherical patterns such as gain or directivity to quantitatively determine regions with insufficient coverage
Direct comparison with the DASY6/8 results of the mmWave Module
Compatible with circuit design software tools for analysis and further optimization of feeding network effects
Power density algorithm accepting input data from cDASY6/8 mmWave/ICEy mmWave
Import of auxiliary sources reconstructed by DASY8/6 Module mmWave based on measurements into Sim4Life for detailed simulations
Applications
Design and optimization of next-generation mobile phones, 5G base stations, or other mmWave applications
Demonstration of compliance of 5G mmWave antenna arrays
Phased-array antenna design
Maximum Exposure evaluation
Multi-Parameter Multi-Goal Optimizer
Sim4Life’s Multi-Parameter Multi-Goal Optimizer is an effective and easy-to-use toolbox for the optimization and/or tuning of virtual prototypes. The toolbox provides global optimization techniques (e.g. stochastic response surface method) for real-world engineering and medical applications. Sim4Life combines the superior speed of HPC-enabled solvers with dedicated algorithms for the efficient optimization of entire (CAD-derived) devices embedded in complex environments. The optimization framework spans the complete Sim4Life workflow, including modeling, simulation, and postprocessing.
Parameterized MRI Volume Coil Designer
Parameterized MRI volume coil designer for birdcage coil geometries and associated simulation settings (BCAGE).
Interactive tool to create birdcage-style volume coils following user design parameters such as dimensions, operating frequency, feeding and coil topology.
Key Features
Generate coil geometry
Placement and calculation of lumped elements for tunning
Create template simulation with proper settings, materials and grid
Applications
Birdcage coil design for Tx and Rx
Easy design of generic volume Tx coil for implant compatibility
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