Follow the same instructions above to add the following components: Now we will add the rest of the components. To do this, right click on the LED and choose properties. It is generally a good idea to rename or comment components to not confuse which one is which. After placing, hit ESC key to prevent adding the component multiple times. Right click on LED1Īnd choose Place LED1 and drag the mouse somewhere onto the schematic sheet and left click. The component(s) should now appear on the right side panel. Click on the Search button.Ĭhoose Name for the Field, contains for the Operator, and type LED, then click Search. If you do not see the Libraries panel, click on the tab labeled Libraries on the right side. To access the Libraries panel, click on Panels in the bottom right corner and To navigate the schematic, you can zoom in and out using the mouse wheel + CTRL, and right click to position the screen.Ĭomponents are accessed through the Libraries panel for library components. Change the Sheet Size to A4, and double check to make sure both Visible and Snap Grid are enabled and set to 100mil. Then click on Panels in the bottom right corner and select Properties. Open up the schematic file by double clicking it in the left side pane. Do the same for "Schlib1.SchLib", saving it as "Tutorial_SchLib".īefore we start drawing the circuit, we are going to setup the appropriate document options, including the sheet size and snap and visible grids. Right click on "PcbLib1.PcbLib" and Save As "Tutorial_PcbLib". Do the same for the "PCB1.PcbDoc" file, and save it as "Tutorial". Right click on "Sheet1.SchDoc" and Save As "Tutorial". When saving each file, make sure to check the directory where you are saving to. In the bottom left, click on Projects, and do the same to create the "PCB Library". Now do the same, but add "Schematic Library".
To create a schematic file, right click on the project name on the left side, add new to project, Schematic. Is generally good at getting at least very close to what you need. This task can be done using an autorouter function, which The final task will be to route the signals (remember, with two layers) between components. You will then use your schematic to create the physical board layout by moving the pieces into their desired location. The first is the schematic, in which you define the parts and connections you wish toĮxist on your design.
The first thing to note about a project is that you will have two separate files that will be very closely linked. Change the Project name to "Tutorial", and choose a location of your choice. Create a new project by going to File > New > Project, and selecting PCB Project. Wait a few days and, like magic, you will have a shiny circuit board onto which you can solder your components.īegin by launching Altium Designer 17.1 (installed in lab). This tutorial will guide you through the process of turning a circuit into a printed circuit board file that you can then send away to the fabrication house. After saving the document, the * sign and red color will vanish.So, you’ve finished your circuit prototype and you’re ready to make it permanent? Tired of those messy wires and loose components, and ready for something that looks professional? All you need is a good PCB program and you’re ready to go! The asterisk * sign and red color shows that the document has some changes and it needs to be saved. The first one is the main document editing workspace and other is Project Panel.įile → New → Project → PCB Project (This will create a PCB_Project1.PrjPCB*) When you start the Altium Designer application from start menu, the two main elements you will see. The Software: Altium Designer version 18.1.7
ALTIUM DESIGNER PCB LAYOUT TUTORIAL SOFTWARE
This software offers the auto-routing, differential pair routing, enhanced violation reporting, enhancements in design rules check (DRC), same net clearance rule improvements, change target length during tuning, smart component placement, 3D step model generation for mechanical enclosure designs, Active BOM and static simulation probes. The FPGA based embedded system design, Hardware Description Language (HDL) design, signal integrity and circuit simulation are the main properties available in Altium Designer. Today many design engineers prefer Altium Designer as their design platform because it is user friendly, having good graphic user interface (GUI) and availability of numerous design options. The Altium Designer is the leading CAD software for Circuit design, PCB layout design, and schematic capture.
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