![]() ICircuit 3D shows an infinite wooden workbench upon which you can build your circuits. This manual covers the basics of building circuits and explains how the simulation works. You can even import your own 3D models to attach your electronics to, or use Blocks to build an enclosure, or a panel for them! Add photographs and other reference images to the environment to keep them close at hand. In the event of a wiring issue or an over-stressed element, magic smoke will billow from the point of failure, making it easy to locate, diagnose, and fix errors. Tapping a part gives you quick access to simulated values such as voltage and current and also allows you to change the parameters of the part. When powered, LEDs light up realistically, DC motors spin, and speakers make noise! Follow the flow of current along your simulated wires, and see pinout and color code data on the circuit components themselves. Each of these parts is adoringly rendered to look like the real thing so that you can enjoy the beauty of electronics. It combines the robust electronics simulation engine of the original iCircuit with the latest rendering and 3D physics technology of iOS.ĭon’t let the physical availability of parts be a constraint on your creativity! Choose from an expansive library of more than 150 physically and electronically simulated parts and over 1,000 reference boards to build and test your circuits for flaws, simulate your physical designs, and test your Arduino code in a fun sandbox environment. This concludes the introduction of subcircuit creation and custom libraries.ICircuit 3D gives you an endless virtual workbench upon which to design and test your electronics projects. This component can now be used in all the designs of the project. ![]() click on "new subsystem", choose a name and prefix for your sub-circuit,Īnd choose* the "from current selection" option for the initial content.Step 6: To add a sub-circuit to this new custom library: Step 5: To take it a step further, this sub-circuit can be added to a custom library. How to add a sub-circuit to the custom library Warning: Note that if a sub-circuit is modified, this modification will automatically be applied for all copies in your schematic. Step 4: This sub-circuit can now be copied and glued to be used for the second branch of the rectifier. Step 3: If you rotate an input or output pin, it automatically changes the direction of connection in the upper main circuit, as shown below. If you want to add an input or output pin, go to the library panel and you can notice that you have a new library with all the necessary pins for sub-circuits. Step 2: To enter this component, just select it and click on open to view the delay control diagram. Step 1: Select the part of your schematic that you want to include in your sub-circuit, and click on sub-circuit: this automatically creates a sub-circuit component. ![]() A sub-circuit for controlling the ignition delay angle will be created. To describe this feature, the example of a single-phase controlled rectifier is considered.
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