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With the rapid increase in portable wireless communication devices, it’s important to be able to evaluate the behavior, reliability, and manufacturability of your designs. Cadence PSpice is a virtual SPICE simulation environment with the largest model library that allows you to prototype your designs using the industry-leading, integrated analog, mixed-signal, and advanced analysis engines to deliver a complete circuit simulation and verification solution. Easily analyze and refine both simple circuits and complex systems, as well as their components and parameters, before moving on to layout and fabrication.
Product Details
PSpice makes it easy for you to verify the performance of your circuits with industry-leading simulation technology!
PSpice is the gold standard for analog and mixed-signal design analysis. With defining features,such as the modeling application,waveform analysis, component tolerance analysis,manufacturing yield assessment, and even integration for advanced system simulation, PSpice provides exactly what you need.
Key Benefits
Run multiple analyses, from bias point to electrical overstress, to gain insight into your circuit’s behavior. Fine-tune design parameters to maximize design performance, yield, cost-effectiveness, and reliability with advanced analysis tools.
PSpice is exceedingly qualified for precision electronics, consumer or high-power industrial equipment, and high-reliability equipment and meets ISO 26262 compliance.
Streamline your simulation process with access to a vast pre-configured built-in library of over 35,000 parametrized models, ranging from discretes to PWM controllers and BJTs to MOSFETs, from various IC vendors.
Perform system-level simulation powered by PSpice and MathWorks’ Simulink. The Cadence PSpice MATLAB Simulink Interface combines two industry-leading simulation tools to create an environment for electro-mechanical system simulation.
Features
| Feature Name | Description |
|---|---|
| Transient Analysis |
Time domain analysis Analyze the response of your circuit over a set time domain as it changes from one steady state condition to another. View graphs of voltage or current as a function of time. |
| Smoke Analysis |
Ensure component reliability Ensure that all the components in your circuits are working within safe operating limits. Analyze how your components react to changes in voltage, current, power, and temperature. |
| Sensitivity Analysis |
Identify critical components Identify which component parameters most affect the goals of your circuit's performance. By analyzing the behavior of components for your entire circuit, it is easy to evaluate yield versus cost tradeoffs, helping maximize cost-effectiveness. |
| Monte Carlo Analysis |
Calculate manufacturing yield Predict the behavior of your circuits under different conditions to balance yield with cost. Advanced statistical analysis helps you evaluate whether tighter component tolerances will improve your design and circuit performance. |
| Optimizer |
Optimize analog circuits Tune your circuits to meet your unique design requirements and performance goals. Easily find the best component or system values. |
| MATLAB Integration |
Electro-mechanical co-simulation The seamless bi-directional integration between MathWorks MATLAB/Simulink and PSpice lets you easily simulate electrical circuits and mechanical, hydraulic, and thermal blocks in one unified environment, so you can emulate real-world applications. |
Success Cases
