Advanced, accurate simulation of analog/mixed-signal designs
AEi Power IC Model Library Incorporates over 600 high fidelity time-domain PSpice models for power electronic designs, giving designers capabilities previously unavailable for many popular parts. DOCTAR Helps designers avoid errors by identifying what has changed in your design anytime changes are made. DOCTAR Helps designers avoid errors by identifying what has changed in your design anytime changes are made.; Advanced Arena Integration Connect Arena Cloud PLM to OrCAD, giving the entire product team real-time visibility into all data required to make informed decisions early in the design cycle.; SiliconExpert Electronic Component Database Ensure your parts will be. Sampling of notations that PSPICE recognizes. PSpice Notation PSpice Notation 103 K E3 10-3 m E-3 106 Meg (not M) E6 10-6 u E-6 109 G E9 10-9 n E-9 10-12 p (pico) E-12 10-15 f (femto) E-15 Your schematic is now complete! Save your schematic - -From the main menu: File-Save. 1 Place part icon. Add Library icon.
PSpice A/D is a full-featured, Spice-based, analog/mixed-signal circuit simulator that integrates with PSpice Advanced Analysis tools to help designers improve yield and product reliability.
CadenceĀ® PSpiceĀ® A/D is the de-facto industry-standard Spice-based simulator for system design. It simulates complex mixed-signal designs containing both analog and digital parts, and it supports a wide range of simulation models such as IGBTs, pulse width modulators, DACs, and ADCs. Its built-in mathematical functions and behavioral modeling techniques enable fast and accurate simulation of designs with efficient debugging. PSpice A/D also allows users to design and generate simulation models for transformers and DC inductors.
Scalability options include PSpice Advanced Analysis capabilities and integration with MathWorks MATLAB Simulink for co-simulation. Advanced capabilities such as temperature and stress analysis, electro-mechanical simulation, worst-case analysis, Monte Carlo analysis, and curve-fit optimizers help engineers design high-performance circuits that are reliable and withstand parameter variation.