Pspice To Ltspice Converter Video
PSpice A/D Cadence® PSpice® A/D is a full featured analog circuit simulator with support for digital elements. It integrates easily with Cadence PCB schematic entry solutions and comes with an easy-to-use graphical user interface that equips the user with the complete design process to help solve virtually any design challenge from high-frequency systems to low-power IC designs. Due to its wide popularity PSpice models with built-in mathematical functions and behavioral modeling techniques are available from many IC vendors. PSpice A/D Technology Highlights. Improves simulation times, reliability and convergence for large designs.
Improves speed without loss of accuracy via integrated analog and event-driven digital simulations. Explores circuit behavior using basic DC, AC, noise and transient analysis. Allows system-level interfaces to be integrated with electrical designs using the PSpice ® Systems Option. Library selection of 33,000+ analog and mixed-signal models.
Allows for automatic identification of analog and digital signals and automatically applies A-to-D and D-to-A interfaces. Allows designers to explore design relationships with “what if” scenarios before committing to hardware. Enables designers to identify and simulate functional blocks of complex circuitry using mathematical expressions, functions and behavioral devices Features. Set up and run simulations and cross-probe simulation results from OrCAD Capture. View simulation bias results directly on the schematic including node voltages, pin and sub-circuit currents and device power calculations. Use the hierarchical netlister with parametric sub-circuits for faster netlisting of complex hierarchical designs. Expanded simulations can be run in the background while design editing continues.
Create multiple simulation profiles and save them in the OrCAD Capture Project Manager allowing previous simulations to be recalled and run. Seamlessly transition between simulations and the schematic design entry tool.
Pspice To Ltspice Converter Video Software
Perform and monitor simulations, view and edit text files, view simulation messages and graphical results. Utilize analog analysis capabilities such as user-defined accuracy, automatic time-step control and proprietary convergence algorithms to control the simulation process. Interactively trade off accuracy and simulation time by loosening tolerances and time steps during non-critical periods of transient analysis or by extending a transient analysis beyond pre-specified end time. Preempt the current simulation to immediately run another one then return to complete the preempted simulation later; control the queue of simulations waiting to be performed. CHECKPOINT RESTART: Save time by storing simulation states at various time-points and then restart simulations from any of the simulation states. You can modify simulation settings and design parameters before starting a simulation from pre-recorded time-state.
AUTO-CONVERGENCE: Automatically change tolerance convergence limits to make the design converge. You can use this option to get convergence and then fine-tune simulations by further modifying simulator options. This option is recommended for power electronic designs. ASSERTIONS: Use special parts to insert error and warning conditions for the simulator to flag the conditions as the simulation progresses. Shipped models include R, L, C, plus:.
Built-in IGBTs. Several MOSFET models including industry-standard BSIM4, BSIM3v3 and the new EKV2.6 model. Five GaAsFET transistor models including Parker-Skellern and TriQuint TOM3 models. BJT models including Gummel Poon and Mextram.
Nonlinear magnetic models complete with saturation and hysteresis. Transmission line models that incorporate delay, reflection, loss, dispersion and crosstalk. Digital primitives including bidirectional transfer gates with analog I/O models. Select from more than 33,000 analog and mixed-signal models of industry devices. More than 4,500 parameterized models for BJTs, JFETs, MOSFETs, IGBTs, SCRs, magnetic cores and toroids, power diodes and bridges, operational amplifiers, optocouplers, regulators, PWM controllers, multipliers, timers, and sample-and-holds. These models allow passing simulation parameters as properties from the Schematic Editor.
Access basic components plus a variety of macro-models for more complex devices, including operational amplifiers, comparators, regulators, optocouplers, ADCs and DACs. Use state space average models to do fast feasibility simulations and control loop analysis for switched mode power supplies. Automatically generate OrCAD Capture parts for the models created by the Model Editor. Set up and run simulations and cross-probe simulation results from OrCAD Capture. View simulation bias results directly on the schematic including node voltages, pin and sub-circuit currents and device power calculations. Use the hierarchical netlister with parametric sub-circuits for faster netlisting of complex hierarchical designs.
Expanded simulations can be run in the background while design editing continues. Create multiple simulation profiles and save them in the OrCAD Capture Project Manager allowing previous simulations to be recalled and run.
Seamlessly transition between simulations and the schematic design entry tool. Simulation Environment. Perform and monitor simulations, view and edit text files, view simulation messages and graphical results.
Utilize analog analysis capabilities such as user-defined accuracy, automatic time-step control and proprietary convergence algorithms to control the simulation process. Interactively trade off accuracy and simulation time by loosening tolerances and time steps during non-critical periods of transient analysis or by extending a transient analysis beyond pre-specified end time. Preempt the current simulation to immediately run another one then return to complete the preempted simulation later; control the queue of simulations waiting to be performed. Debugging and Convergence. CHECKPOINT RESTART: Save time by storing simulation states at various time-points and then restart simulations from any of the simulation states. You can modify simulation settings and design parameters before starting a simulation from pre-recorded time-state.
AUTO-CONVERGENCE: Automatically change tolerance convergence limits to make the design converge. You can use this option to get convergence and then fine-tune simulations by further modifying simulator options. This option is recommended for power electronic designs. ASSERTIONS: Use special parts to insert error and warning conditions for the simulator to flag the conditions as the simulation progresses.
PSpice Probe. Shipped models include R, L, C, plus:. Built-in IGBTs. Several MOSFET models including industry-standard BSIM4, BSIM3v3 and the new EKV2.6 model. Five GaAsFET transistor models including Parker-Skellern and TriQuint TOM3 models. Afterburn free ebook.
BJT models including Gummel Poon and Mextram. Nonlinear magnetic models complete with saturation and hysteresis. Transmission line models that incorporate delay, reflection, loss, dispersion and crosstalk. Digital primitives including bidirectional transfer gates with analog I/O models. Models and Modeling.
Select from more than 33,000 analog and mixed-signal models of industry devices. More than 4,500 parameterized models for BJTs, JFETs, MOSFETs, IGBTs, SCRs, magnetic cores and toroids, power diodes and bridges, operational amplifiers, optocouplers, regulators, PWM controllers, multipliers, timers, and sample-and-holds.
These models allow passing simulation parameters as properties from the Schematic Editor. Access basic components plus a variety of macro-models for more complex devices, including operational amplifiers, comparators, regulators, optocouplers, ADCs and DACs.
Use state space average models to do fast feasibility simulations and control loop analysis for switched mode power supplies. Automatically generate OrCAD Capture parts for the models created by the Model Editor.
Altium Designer is a unified electronics development tool - which means it includes all the pieces you need to capture, tweak, verify, validate and output your next electronic product. One of the big advantages of this approach is driving XSPICE simulation from the same schematic you use to capture your PCB design - no need to redraw anything just to simulate it!
Check out this video to learn how to correctly download, link and use SPICE and PSPICE simulation models. Visit Altium at the Engineering Design Show on Stand B5 to find out more about the company's wide range of EDA and embedded software design tools.