ANSYS provides a complete suite of engineering simulation tools to help identify signal integrity issues early in the design cycle for electronics IC packages, PCBs, connectors and other complex interconnects. ANSYS signal integrity analysis products predict EMI/EMC, signal integrity and power integrity issues — enabling your design team to optimize system performance before build and test.
ANSYS provides the world’s leading simulation solution for power delivery from chip to package, PCBs and chassis/casings. ANSYS simulation tools for multifoundry-certified chip-level power sign-off, automated AC operating performance prediction and DC power loss and thermal mitigation ensure chip-package-system power integrity for performance, reliability and cost.
ANSYS delivers a comprehensive motor design methodology that will reduce design cost and optimize size, noise, efficiency and durability. The ANSYS motor design solution delivers robust electromagnetic, thermal and mechanical analyses, combined with power electronic circuit simulation and embedded software tools to analyze the complete motor-driven system.
Sensors, actuators, and transformers and other electromagnetic and electromechanical devices are key to the megatrend of electrification. ANSYS low frequency, electromagnetic field simulation software allows you to accurately calculate critical design parameters and automatically create precise system-level device models quickly and accurately.
From electric drives to power supplies and robotic systems, ANSYS is the choice for power electronics designers worldwide. With ANSYS power electronics design solutions, you can achieve first-pass system success and deliver efficient, optimized designs in less time and with less cost.
The Internet of Things, wearable electronics, 5G, unmanned aerial vehicles (UAV) and automotive radar are emerging applications that are driving extreme integration of RF and wireless communications. The ANSYS Antenna and Wireless System design flow delivers the simulation features you need to create reliable, optimized systems faster than your competition.
ANSYS HFSS-SBR+ is a powerful, shooting and bouncing ray (SBR) electromagnetic field solver option for HFSS. HFSS SBR+ predicts performance of antennas mounted to electrically large platforms. Antenna designs created in HFSS can be linked to HFSS SBR+ and placed on an electrically large platform and rapidly solved. This powerful combination enables you to analyze installed performance and optimize antenna placement.
With a rapidly increasing number of wireless devices and a finite spectrum in which to operate, the likelihood of these communication systems interfering with each other and degrading the performance of neighboring systems becomes greater every day. The ANSYS RF Option now includes EMIT, the industry-leading software for predicting RF co-site and EMI interference of multiple radio transmitters and receivers.
Analyze complex automotive radar driving scenarios using the powerful and accurate methods of ANSYS HFSS SBR+. Engineers can solve advanced automotive ADAS radar systems and understand the response from a complex automotive driving scenario. Features include SBR+ solution type, parametric antenna sources with far-field overlay and accelerated frequency sweeps.
As communication systems push the limits of component size, weight and performance, engineers must adopt new technologies and smarter workflows by leveraging EM field simulators linked to powerful harmonic balance and transient circuit simulation. ANSYS electromagnetic solutions break the cycle of repeated design iterations and physical prototyping. With ANSYS solutions, you can consistently achieve best-in-class design in a broad range of applications including passive RF/mW components, integrated multichip modules, advanced packaging and RF PCBs.
ANSYS provides electronics cooling simulation products for chip, package and board thermal analysis as well as thermo-mechanical stress analysis. ANSYS simulation tools help you manage excessive heat that can otherwise lead to increasing leakage and electromigration failures of the chip, as well as analyze die package, PCB and interconnect thermal differential expansion to enhance reliability of the entire electronic system.
Model the radar signatures of electrically very large targets and scenes with the powerful HFSS SBR+ solver. Engineers can easily perform fast radar cross section (RCS) calculations to detect objects such as aircrafts, vehicles and ships, as well as design these objects to minimize radar detection.
ANSYS electromagnetic and circuit technologies empower engineers to mitigate potential EMI issues early in the design cycle. Automated workflows in ANSYS Electronics Desktop leverage easy mechanical CAD (MCAD) and electrical CAD (ECAD) system assemblies to simulate complete electrical devices, increase their immunity and meet EMC standards using a single simulation platform.
Ansys possesses the unique ability to capture all facets of electronic reliability in a comprehensive workflow that allows for true multiphysics analysis.
Radio frequency desensitization (RF desense) is a form of RF interference (RFI) that results in reduced performance, or “desensitization,” of wireless systems that are integrated into electronic devices. Combining ANSYS HFSS with EMIT, a capability within ANSYS RF Option, can identify and eliminate desense in wireless electronic products.