![]() * Waveform Generators to make AC, Square, and Sawtooth signals * Multiple breadboard and wiring elements * Tons of resistors, capacitors, and LEDs 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. When you insert the symbol component, the cross references are automatically updated with the group number.What does iCircuit 3D do? iCircuit 3D gives you an endless virtual workbench upon which to design and test your electronics projects. The manufacturer part data stores the group number. To associate circuits, they must have the same number.įor example, a reversing contactor uses the circuit groups, on which you can find one coil associated to one contactor and a second coil associated to a second contactor. To associate circuits, enter a number (or a name) on each circuit. The second NO contact (column 6 of drawing 04) is not part of the manufacturer part. The NC contact belonging to the manufacturer part is not used in the drawing (it is placed in reserve instead). In the above example, there are 3 NO power contact type circuits in column 4 of drawing 10 and one NO contact in column 4 of drawing 04. The numbers of the material terminals are automatically added, as is the position of the symbols in the project and drawings. When cross references thumbnails are generated, the softwarelists all circuits associated with the component, filters them to retain only the Child or Same level circuits, and uses the cross references thumbnail associated with the type of circuit to generate the graphics. These are circuits associated with a Child or Same level symbol ( Parent symbols do not generate cross references thumbnails). Role of circuits in cross referencesĪs seen in Configuration of cross references, some types of circuits are associated with a cross references thumbnail (graphic symbol). The numbers of the material terminals are not displayed on the scheme. If there are any differences between the circuits of the manufacturer part and the circuits of the symbols, the circuits are added together and reserved. If they match, the numbers of the material terminals are automatically propagated to the symbol circuits and displayed in the scheme. When a manufacturer part is assigned, the softwarecompares the circuits of the manufacturer part and the circuits of the various symbols representing the component. It consists of a coil, a 3-pole power contactor, NO and NC contacts. The above example shows the definition of reference LC1D09006B7 from Schneider in circuit terms. The circuits of a component are the sum of the circuits of all the symbols representing this component. The software manages several types of circuit, corresponding to the nature of the electrical component.įor example, a three-pole circuit breaker consists of three Circuit breaker, Switch circuits. Terminals and PLC cards can also have circuits. Cross references are generated, and terminals are shown by comparing the circuits of the symbol and the circuits of the manufacturer part. These circuits are used in the symbol definition, and also in the manufacturer part definition. The circuits in a device correspond to what one could call a device "poles".
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