![]() ![]() The devices are given an automatic visible name. The default size is the size taken from the connected printer. The size of the circuit page can be changed using the menus in “Options>Design”. The users can also select this option directly from the Zoom tool found in the View ribbon. Panning is available by holding the CTRL key and clicking and holding anywhere in the circuit page. ![]() The useful zoom keyboard shortcuts are CTRL-SHIFT-E (enlarge) and CTRLSHIFT-R (reduce). The Zoom tool (View ribbon) can be used to zoom and unzoom. Right and bottom elevator bars can be used to move around a large circuit. The circuit itself also has a right-click menu. All devices, signals and names can be clicked and rightclicked for entering data or controlling other aspects. The top part of the circuit above is shown in Figure 2. The circuits are the children of the design. Subcircuits may also contain one or more subcircuits. The design may also have one or more subcircuits. A design can be organized on one or more pages: design pages. The design shown in Figure 1 has a top level circuit. The various parts, also called devices, are dragged in from the parts library (Parts palette shown on the right hand side by default) into the design, placed and connected using signals.ĮMTPWorks allows working at different levels: from simple designs to extremely large designs and from simple drawings to customized drawings.įigure 1 A simple (see simple.ecf in Examples\ApplicationCases\simple) circuit assembled in EMTPWorks The picture of Figure 1 is showing a simple circuit assembled in EMTPWorks. Since the top view to all EMTP® simulations is the graphical user interface EMTPWorks, the main objective of this document is to show how required network data can be assembled and what is the expressive power of EMTPWorks for managing EMTP® simulations. ![]() More details can be found in other documents and help tools. Arduino simulator! Write Arduino code right in iCircuit to create advanced microcontroller-based designs.This document presents an overview of available options in EMTP®-EMTPWorks.Scope data can even be exported for offline analysis. You can even export your circuits and PNGs, PDFs, and SVG files so that they are easy to include in reports or web sites. The scope can simultaneously track many signals over time and features a variety of automatic modes that make it easy for you to grasp the behavior of your circuit. If you want to see how a value changes over time, then you can add values to the built-in oscilloscope. The app features a multimeter that you use to probe around the circuit to instantly read voltages and currents. The app has everything from simple resistors, to switches, to MOSFETS, to digital gates. There are over 30 elements you can use to build your circuits. Instead, you just play with the circuit as you normally would, with the power on! You do not stop to take a measurement or spend a lot of time configuring reports. It's just like working with the real circuit. But iCircuit is unlike other CAD programs because it is always simulating. You use it as you would any CAD program: you add elements, connect them together, and set their properties. It is the perfect companion to students, hobbyists, and engineers. Its advanced simulation engine can handle both analog and digital circuits, Arduino microcontrollers, and features realtime always-on analysis. ¿Qué hace iCircuit De? iCircuit is the easiest way to design and experiment with circuits. Descargar para MacOS - servidor 1 -> 15,99 €. ![]()
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