Enhance circuit performance with
advanced Mixed Simulation techniques
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Equip yourself with the skills to streamline design, minimize errors, and avoid costly rework
Transform your circuit designs with Altium’s on-demand Mixed Simulation Training. Learn to simulate both analog and digital components within a unified environment to enhance design accuracy and cut time-to-market. This comprehensive program can help you stay ahead in the competitive electronics industry.
Learn through hands-on exercises with real-world applications!
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Hours of Training: 8
Downloadable Activities: 17
This course provides in-depth training on component simulation features, enabling participants to simulate and verify designs with components that include pre-built simulation models.
This module introduces you to the process of installing Mixed Simulation File-Based Libraries and accessing the SPICE Simulator within Altium Designer. It lays the groundwork for effective simulation in your design workflow.
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In this module, you will explore Altium Designer's powerful component search capabilities using the Components Panel. You’ll learn how to efficiently select and query components from various libraries to streamline your design process.
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In this module, you'll learn how to edit the parameters of various components for SPICE simulation by utilizing the Properties Panel in Altium Designer. This step is crucial for setting up accurate simulations that reflect your design intent.
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In this module, you'll learn how to generate the SPICE netlist used for simulation. While this process is typically automated in Altium Designer, understanding how to perform it manually can be beneficial, especially when troubleshooting simulation results.
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In this module, we focus on Editing Component Parameters within Altium Designer, emphasizing the importance of specifying both main and parasitic parameters in component simulation models. Understanding these parameters is crucial for achieving realistic simulation results.
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Altium provides you with a Simulation Generic Components Library for you to use having most typical generic components for simulation use. There are occasions where you want specific simulation components that may not be available. For this situation you will need to add SPICE Simulation to your specific components. Adding a SPICE simulation to a component is much like adding a footprint to a schematic symbol not having one. The following will provide a guided lesson in how to add SPICE to a component.
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The Operating Point simulation calculates the values of the equilibrium points of currents and voltages for the steady-state operation of the circuit. We will use the Mutivibrator Project for this exercise.
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In this module, we will work with a multivibrator circuit created using the Simulation Generic Components and Miscellaneous Devices libraries. By adding net names (c1, c2, b1, b2) to the nets of interest, we enhance our ability to view and analyze the simulation waveforms effectively.
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In this module, we will explore the powerful SPICE Modeler in Altium Designer, which enables the analysis of complex waveforms to assess the functional performance of your circuit designs. Focused on Fourier Analysis, this module will guide you in configuring and generating waveforms for in-depth review.
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In this module, we will conduct a DC Sweep analysis using SPICE. This analysis allows you to plot steady-state voltages or currents across a range of sources, enabling you to perform essential checks on your simulation model to ensure its accuracy. We will generate the family of output characteristics for both a field-effect transistor (FET) and a standard transistor by sweeping the voltage sources and measuring the resulting currents.
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In this module, we will explore AC Sweep simulation, a powerful tool for plotting and analyzing the frequency characteristics of various circuits and filters. The AC Sweep employs a single variable: frequency. By changing this parameter, you can observe the frequency response of the circuit. In this exercise, we will utilize a sinusoidal supply and configure the parameters for the AC Sweep simulation.
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In this module, we will explore Parametric Sweep Analysis, which involves varying the parameters of a component's properties to observe how these changes affect circuit performance. Many of these properties are derived from the component's datasheet. It’s important to note that not all component properties may be reflected in the Properties Panel of Altium Designer compared to the datasheet, so reviewing the datasheet is essential for thorough analysis.
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In this module, we will explore Monte Carlo Simulation, a powerful statistical analysis technique used to understand the impact of variability in component values and other factors on circuit performance. By performing repeated calculations with randomly induced variables, Monte Carlo simulations help to assess how these variations can affect outcomes, making it a valuable tool for engineers.
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In this module, we will delve into Analog Behavioural Modelling (ABM) in Altium Designer. This feature allows engineers to utilize PSpice syntax for equations with voltage and current sources, enabling the use of a broader range of PSpice models from various manufacturers that employ non-standard modeling formats. This opens up new possibilities for circuit simulation and design validation.
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In this module, we will explore XSPICE, an extension of the traditional SPICE simulation that enables the modeling of digital circuits in addition to analogue simulations.Altium Designer provides a robust set of SPICE models specifically designed for Digital Circuit Analysis, which allows for a more comprehensive approach to circuit simulation.
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In this module, we will explore Advanced Simulation Options within Altium Designer, focusing on how to effectively troubleshoot and manage simulation errors that can arise during the simulation process. Understanding the nuances of simulation parameters is crucial for ensuring accurate results and optimizing your design workflow.
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In this module, we delve into Stress Analysis, a critical aspect of ensuring that your circuit components operate within safe limits. This analysis helps to evaluate maximum voltages, currents, and power dissipations for each individual component, checking them against predefined limits in the component's stress model.
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Work training into your personal schedule. Our On-Demand Courses offer comprehensive video instructions, along with exercise instructions and a reference PDF with links to Altium’s online documentation
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