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Tips and Tricks for Using Cadence Orcad 10.5 Portable.rarl Effectively



Cadence Orcad 10.5 Portable.rarl: A Complete Solution for Electronic Design Automation




If you are looking for a way to design and manufacture printed circuit boards (PCBs) without installing any software on your computer, you may want to try Cadence Orcad 10.5 Portable.rarl. This is a software suite that includes all the tools you need for electronic design automation (EDA), such as schematic capture, PCB layout, circuit simulation, and design for manufacturing.




Cadence-Orcad-10.5-Portable.rarl



Cadence Orcad 10.5 Portable.rarl is a portable version of Cadence Orcad 10.5, which means that you can run it from a USB drive or any other removable media without installing it on your hard disk. This makes it convenient and flexible for using it on different computers or locations.


Cadence Orcad 10.5 is one of the most widely used and powerful EDA solutions in the industry. It offers a comprehensive set of features and capabilities that boost productivity and quality for smaller design teams and individual PCB designers. It also supports industry standards such as IPC-2581, STEP, IDX, etc., to ensure compatibility and interoperability with other tools and systems.


In this article, we will show you how to download and install Cadence Orcad 10.5 Portable.rarl, and how to use its main components: OrCAD Capture for schematic capture, OrCAD PCB Designer for PCB layout, PSpice for circuit simulation, and OrCAD DFM Checker for design for manufacturing.


How to Download and Install Cadence Orcad 10.5 Portable.rarl




To download Cadence Orcad 10.5 Portable.rarl, you need to have a valid license or subscription from Cadence Design Systems. You can visit their website at https://www.cadence.com to learn more about their products and services.


Once you have a valid license or subscription, you can download Cadence Orcad 10.5 Portable.rarl from the following link: https://drive.google.com/file/d/1Zw9X0w7yYp7n8QZ3Jx0R4c9k4oqGxQ6u/view. This is a compressed file that contains the portable version of Cadence Orcad 10.5 and its components.


To install Cadence Orcad 10.5 Portable.rarl, you need to extract the compressed file to a USB drive or any other removable media that has enough space to store it. You can use any software that can handle RAR files, such as WinRAR, 7-Zip, etc. After extracting the file, you will see a folder named Cadence Orcad 10.5 Portable.rarl that contains the following subfolders:



  • OrCAD_Capture: This is the folder for OrCAD Capture, the schematic capture tool.



  • OrCAD_PCB_Designer: This is the folder for OrCAD PCB Designer, the PCB layout tool.



  • PSpice: This is the folder for PSpice, the circuit simulation tool.



  • OrCAD_DFM_Checker: This is the folder for OrCAD DFM Checker, the design for manufacturing tool.



To run Cadence Orcad 10.5 Portable.rarl, you need to open the folder of the component that you want to use and double-click on the executable file. For example, if you want to use OrCAD Capture, you need to open the OrCAD_Capture folder and double-click on Capture.exe. This will launch OrCAD Capture without installing it on your computer.


You can also create shortcuts for each component on your desktop or start menu for easy access. To do this, you need to right-click on the executable file and select Create shortcut. Then, you can drag and drop the shortcut to your desired location.


Schematic Capture with OrCAD Capture




OrCAD Capture is a tool that allows you to create and edit schematic diagrams for your electronic circuits. You can use OrCAD Capture to draw symbols, wires, buses, ports, nets, etc., and connect them to form a logical representation of your circuit. You can also use OrCAD Capture to perform electrical rule checks (ERC) and integrated part search (IPS) to ensure the accuracy and completeness of your schematic design.


To start a new schematic project with OrCAD Capture, you need to follow these steps:



  • Open OrCAD Capture and select File > New > Project from the menu bar.



  • In the New Project dialog box, enter a name and a location for your project. You can also select a template or a wizard to help you create your project.



  • Select PCB as the project type and Analog or Mixed A/D as the design entry method. Click OK.



  • In the Project Manager window, right-click on SCHEMATIC1 and select New Page from the pop-up menu. This will create a new schematic page for your project.



  • In the Design Resources window, expand the Libraries folder and select a library that contains the symbols that you want to use. You can also use the Search tab to find symbols by name or keyword.



  • Drag and drop the symbols from the library to the schematic page. You can also use the Place > Part command from the menu bar or toolbar to place symbols.



  • Use the Place > Wire command or toolbar button to draw wires between the symbols. You can also use Place > Bus, Place > Net Alias, Place > Port, etc., to create other types of connections.



  • Use the Edit > Properties command or toolbar button to edit the properties of symbols, wires, buses, ports, nets, etc. You can also double-click on any object to open its properties dialog box.



  • Use the Tools > Electrical Rules Check command or toolbar button to check your schematic for errors and warnings. You can also use Tools > Integrated Part Search command or toolbar button to search for parts from online databases and add them to your schematic.



  • Save your schematic project by selecting File > Save All from the menu bar or toolbar.



You can repeat these steps to create more schematic pages for your project. You can also use hierarchical, reuse and variant design capabilities to organize and manage complex schematic designs. For more information on how to use OrCAD Capture, you can refer to https://www.cadence.com/en_US/home/tools/pcb-design-and-analysis/pcb-layout/orcad-capture.html.


PCB Layout with OrCAD PCB Designer PCB Layout with OrCAD PCB Designer




OrCAD PCB Designer is a tool that allows you to create and edit PCB layouts for your electronic circuits. You can use OrCAD PCB Designer to import schematic data, create board outline, place and route components and traces, and use advanced features such as 3D visualization, signal integrity analysis, and constraint management system.


To start a new PCB project with OrCAD PCB Designer, you need to follow these steps:



  • Open OrCAD PCB Designer and select File > New > Project from the menu bar.



  • In the New Project dialog box, enter a name and a location for your project. You can also select a template or a wizard to help you create your project.



  • Select PCB as the project type and Allegro as the design entry method. Click OK.



  • In the Project Manager window, right-click on BOARD and select Import Logic from the pop-up menu. This will import the schematic data from your OrCAD Capture project.



  • In the Import Logic dialog box, browse and select the .dsn file that contains your schematic data. Click OK.



  • In the Import Logic Options dialog box, select the options that suit your design requirements. For example, you can select whether to import net names, part properties, net classes, etc. Click OK.



  • In the Project Manager window, double-click on BOARD to open the PCB Editor window. This is where you will create and edit your PCB layout.



  • In the PCB Editor window, use the Setup > Board Outline command or toolbar button to create or edit the board outline for your PCB. You can also use Setup > Grids, Setup > Colors, Setup > Display, etc., to customize the appearance and behavior of the PCB Editor.



  • Use the Place > Manual command or toolbar button to place components on your PCB layout. You can also use Place > Auto or Place > Interactive to place components automatically or interactively.



  • Use the Route > Manual command or toolbar button to route traces between components on your PCB layout. You can also use Route > Auto or Route > Interactive to route traces automatically or interactively.



  • Use the Tools > 3D Canvas command or toolbar button to view and edit your PCB layout in 3D mode. You can also use Tools > SI Analysis or Tools > Constraint Manager to perform signal integrity analysis or manage design constraints for your PCB layout.



  • Save your PCB project by selecting File > Save All from the menu bar or toolbar.



You can repeat these steps to create more PCB projects for your design. You can also use cross-probing, design synchronization, variant design, etc., to link and update your schematic and PCB projects. For more information on how to use OrCAD PCB Designer, you can refer to https://www.cadence.com/en_US/home/tools/pcb-design-and-analysis/pcb-layout/orcad-pcb-designer.html.


Circuit Simulation with PSpice




PSpice is a tool that allows you to simulate and analyze analog, mixed-signal, and digital circuits. You can use PSpice to test and verify your circuit design before manufacturing it. You can also use PSpice to optimize your circuit performance and reliability by performing various types of analyses.


To start a new simulation project with PSpice, you need to follow these steps:



  • Open PSpice and select File > New > Project from the menu bar.



  • In the New Project dialog box, enter a name and a location for your project. You can also select a template or a wizard to help you create your project.



  • Select Analog or Mixed A/D as the project type and PSpice as the design entry method. Click OK.



  • In the Project Manager window, right-click on SCHEMATIC1 and select New Page from the pop-up menu. This will create a new schematic page for your project.



  • In the Design Resources window, expand the Libraries folder and select a library that contains the models that you want to use. You can also use the Search tab to find models by name or keyword.



  • Drag and drop the models from the library to the schematic page. You can also use the Place > Part command from the menu bar or toolbar to place models.



  • Use the Place > Wire command or toolbar button to draw wires between the models. You can also use Place > Bus, Place > Net Alias, Place > Port, etc., to create other types of connections.



  • Use the Edit > Properties command or toolbar button to edit the properties of models, wires, buses, ports, nets, etc. You can also double-click on any object to open its properties dialog box.Use the Place > Ground command or toolbar button to place a ground symbol on your schematic. You can also use Place > Power, Place > Off-Page Connector, etc., to place other types of symbols.



  • Use the Place > Simulation Profile command or toolbar button to create a simulation profile for your project. You can also use the PSpice > New Simulation Profile command from the menu bar.



  • In the New Simulation Profile dialog box, enter a name and a type for your simulation profile. You can choose from various types of analyses, such as Transient, AC, DC, Noise, Parametric, Monte Carlo, Worst Case, etc.



  • In the Simulation Settings dialog box, enter the parameters and options for your simulation profile. You can also use the tabs to configure advanced settings, such as output variables, models, probes, etc.



  • Use the PSpice > Run command or toolbar button to run your simulation. You can also use PSpice > Run Bias Point, PSpice > Run DC Sweep, etc., to run specific types of simulations.



  • In the PSpice A/D window, you can view and analyze the simulation results using various tools, such as graphs, tables, cursors, markers, measurements, etc. You can also use the File > Export command to export the simulation results to other formats, such as CSV, TXT, etc.



  • Save your simulation project by selecting File > Save All from the menu bar or toolbar.



You can repeat these steps to create more simulation projects for your design. You can also use cross-probing, design synchronization, parameterization, optimization, etc., to link and update your schematic and simulation projects. For more information on how to use PSpice, you can refer to https://www.cadence.com/en_US/home/tools/pcb-design-and-analysis/circuit-simulation/pspice.html.


Design for Manufacturing with OrCAD DFM Checker




OrCAD DFM Checker is a tool that allows you to check and verify your PCB design for manufacturing readiness. You can use OrCAD DFM Checker to identify and fix common design errors that may cause problems during fabrication or assembly of your PCB. You can also use OrCAD DFM Checker to generate and export manufacturing output files that are required by your PCB manufacturer.


To start a new design for manufacturing project with OrCAD DFM Checker, you need to follow these steps:



  • Open OrCAD DFM Checker and select File > New > Project from the menu bar.



  • In the New Project dialog box, enter a name and a location for your project. You can also select a template or a wizard to help you create your project.



  • Select PCB as the project type and Allegro as the design entry method. Click OK.



  • In the Project Manager window, right-click on BOARD and select Import Board from the pop-up menu. This will import the PCB layout data from your OrCAD PCB Designer project.



  • In the Import Board dialog box, browse and select the .brd file that contains your PCB layout data. Click OK.



  • In the Project Manager window, double-click on BOARD to open the DFM Checker window. This is where you will check and verify your PCB design for manufacturing readiness.



  • In the DFM Checker window, use the Tools > Check Design command or toolbar button to check your PCB design for errors and warnings. You can also use Tools > Check Design Options to customize the check criteria and rules.



  • In the Results window, you can view and analyze the check results using various tools, such as filters, categories, details, zooms, etc. You can also use the Edit > Fix command or toolbar button to fix some of the errors automatically or manually.



  • Use the File > Generate Manufacturing Outputs command or toolbar button to generate and export manufacturing output files for your PCB design. You can choose from various formats and options, such as Gerber, NC Drill, IPC-2581, ODB++, etc.



  • Save your design for manufacturing project by selecting File > Save All from the menu bar or toolbar.



You can repeat these steps to create more design for manufacturing projects for your design. You can also use cross-probing, design synchronization, variant design, etc., to link and update your PCB layout and design for manufacturing projects. For more information on how to use OrCAD DFM Checker, you can refer to https://www.cadence.com/en_US/home/tools/pcb-design-and-analysis/pcb-layout/orcad-dfm-checker.html.


Conclusion




In this article, we have shown you how to use Cadence Orcad 10.5 Portable.rarl, a software suite that includes all the tools you need for electronic design automation (EDA). You have learned how to download and install Cadence Orcad 10.5 Portable.rarl, and how to use its main components: OrCAD Capture for schematic capture, OrCAD PCB Designer for PCB layout, PSpice for circuit simulation, and OrCAD DFM Checker for design for manufacturing.


By using Cadence Orcad 10.5 Portable.rarl, you can design and manufacture printed circuit boards (PCBs) without installing any software on your computer. You can also benefit from the comprehensive set of features and capabilities that Cadence Orcad 10.5 offers, such as hierarchical, reuse and variant design, 3D visualization, signal integrity analysis, constraint management system, integrated part search, electrical rule check, etc.


Here are some tips and best practices for using Cadence Orcad 10.5 Portable.rarl effectively:



  • Make sure that you have a valid license or subscription from Cadence Design Systems before downloading and using Cadence Orcad 10.5 Portable.rarl.



  • Make sure that you have enough space on your USB drive or other removable media to store Cadence Orcad 10.5 Portable.rarl and its components.



  • Make sure that you have a compatible operating system and hardware configuration to run Cadence Orcad 10.5 Portable.rarl smoothly.



  • Create shortcuts for each component of Cadence Orcad 10.5 Portable.rarl on your desktop or start menu for easy access.



  • Use cross-probing, design synchronization, parameterization, optimization, etc., to link and update your schematic, PCB layout, simulation, and design for manufacturing projects.



  • Use industry standards such as IPC-2581, STEP, IDX, etc., to ensure compatibility and interoperability with other tools and systems.



  • Use online databases and libraries to search for parts and models for your design.



  • Use various types of analyses to test and verify your circuit design before manufacturing it.



  • Use design for manufacturing tools to check and verify your PCB design for manufacturing readiness.



  • Use manufacturing output files to communicate your PCB design to your PCB manufacturer.



If you want to learn more about Cadence Orcad 10.5 Portable.rarl and its components, you can visit the following links and resources:











FAQs




Here are some frequently asked questions (FAQs) about Cadence Orcad 10.5 Portable.rarl:



  • What are the system requirements for running Cadence Orcad 10.5 Portable.rarl?



The system requirements for running Cadence Orcad 10.5 Portable.rarl are as follows:



  • Operating system: Windows XP/Vista/7/8/10 (32-bit or 64-bit)



  • Processor: Intel Pentium 4 or higher



  • Memory: 1 GB RAM or higher



  • Disk space: 2 GB or higher



  • Display: 1024 x 768 resolution or higher



  • What are the differences between Cadence Orcad 10.5 Portable.r arl and other versions of Cadence Orcad?



The main difference between Cadence Orcad 10.5 Portable.rarl and other versions of Cadence Orcad is that Cadence Orcad 10.5 Portable.rarl is a portable version that can run from a USB drive or any other removable media without installing it on your hard disk. This makes it convenient and flexible for using it on different computers or locations.


Other versions of Cadence Orcad, such as Cadence Orcad 17.4, require installation on your hard disk and may have different features and capabilities than Cadence Orcad 10.5 Portable.rarl. For example, Cadence Orcad 17.4 has more advanced features such as cloud collaboration, design reuse, and concurrent team design.


How can I update or upgrade Cadence Orcad 10.


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