
PCB-level EMI and power supply system analysis
Design Force PI/EMI Advance provides powerful capabilities for PCB-level EMI and Power Supply System Analysis. It offers a fast estimation of worst-case electromagnetic emissions, taking into account the PCB, attached cables, and heatsinks, covering both Common-Mode and Differential Mode emissions.
PCB-level EMI and power supply system analysis
Fast estimation of worst-case electromagnetic emissions
DC analysis for detailed assessment of voltage and current distributions
Incorporate our EMI and Power Integrity Analysis tools into your electronics engineering workflow and equip yourself with the insights needed to optimize your designs for reliability and compliance.
Evaluate both common mode and differential mode emissions to gain insights into signal propagation throughout the system.
Our EMI analysis tool offers a comprehensive examination of your electronic system, identifying major EMI sources efficiently and rapidly.
Visualize areas where I/O crosstalk occurs, enabling precise pinpointing of potential interference zones.
Consider various external antenna mechanisms that might impact your system’s EMI, ensuring a holistic approach to interference management.
Our tool provides wideband Power Integrity Analysis of supply systems up to 15 GHz, uncovering high AC-impedance regions and resonances’ root causes.
Evaluate the efficiency of decoupling capacitors (Decaps) and visualize the impact of mounting inductances. Understand the performance of your Decaps.
Define virtual Decaps for what-if scenarios, optimizing decoupling strategies and ensuring readiness for unforeseen challenges.
Perform DC-Analysis to identify voltage drops and regions with high current load, providing essential insights into power delivery systems.
Identify areas where IC power pins receive insufficient supply voltages, preventing potential performance issues.
Recognize stressed vias under high DC-current loads, ensuring the reliability of your power delivery network.
Extract DC-resistances between power pins to assess the efficiency of your power delivery network.
Explore what-if scenarios by driving the supply system with alternative voltage sources, making your design adaptable to changing conditions.
Related Resources
In this presentation you will be introduced to the necessary steps in constraining and validation of LPDDR4 on the basis of a real design realized in CR-8000 Design Force right first time.
In this presentation, an EMC minded PCB design approach is presented, allowing designers to understand which EMC rules will apply to PCB projects and how EMC analysis capabilities can be utilized in the CAD flow to reduce the risk of EMC compliance failure once the board is manufactured.
In our webinar we will provide an introduction to the challenges of signal integrity and the underlying physical effects. This will provide the basis for practical tips to address the related challenges during PCB design.
ONTEC faced a difficult challenge: develop a multimedia broadcasting product while complying with a customer’s electromagnetic interference requirements, all within a tight development schedule. ONTEC used Zuken’s CR-8000 with Keysight’s ADS (including SiPro) to meet the requirements of the challenge
DDR5 is the latest generation of memory. In this joint webinar with Keysight Technologies, we’ll begin with pre-layout simulation, then transition to CR-8000. The design will then be verified by Electromagnetic (EM) simulation and system simulations in Keysight ADS, in order to build confidence in the final DDR5 design.