![]() Note: Unlimited plane layers (power, ground) for all editions, which means 2 signal layers editions can create 4-layer boards.Note: Non-profit hobbyists can request a free "Lite" upgrade.DXF import makes creating complex layouts easier. Custom templates can be created for non-standard patterns. Creation of pattern is basically selecting a template, entering a couple of vital parameters, drawing the silkscreen, and launching automatic pad renumbering. Circle, lines (headers, DIP), square (QFP), matrix (BGA), rectangle (RQFP), and zig-zag standard templates. More than 140000 components in standard libraries.ĭraw patterns with various types of shapes, pads, holes, and dimensions. Importing libraries from different EDA formats. ![]() BSDL import, bulk pin naming, and pin manager tools for pins and buses. Manage component libraries and create single- or multi-part components by selecting a template and its dimensions, defining visual and electrical pin parameters, setting up a Spice model, and attaching pattern with a 3D model to finalize component creation. Design rule check with in-depth detailing and net connectivity verification procedures are available. The board can be previewed in 3D and exported to STEP format for mechanical CAD modeling. DRC also checks length and phase tolerances for differential pairs and controls signal synchronization for nets and buses (including layer stackup and bonding wire induced signal delays). When routing with real-time DRC, the program reports errors on the fly before actually making them. Design requirements are defined by net classes, class-to-class rules, and detailed settings by object types for each class or layer. DipTrace Schematic has ERC verification and Spice export for external simulation.Įngineering tool for board design with smart manual routing, differential pairs, length-matching tools, shape-based autorouter, advanced verification, layer stackup manager, and wide import/export capabilities. Cross-module management ensures that principal circuits can be easily converted into a PCB, back-annotated, or imported/exported from/to other EDA software, CAD formats and net-lists. The parts library links schematic symbols and PCB footprints.ĭipTrace is a sophisticated schematic and PCB layout software.Screenshot of Schematic Capture in DipTrace v3 (2016)Īdvanced circuit design tool with support of multi-sheet and multi-level hierarchical schematics that delivers a number of features for visual and logical pin connections. So when you click on “Convert to PCB”, the layout will be pre-loaded with the right footprints for the selected parts.DipTrace is a sophisticated schematic and PCB layout software. I had it installed on my computer for over a year but have never really used it. Since I needed a super simple PCB for some 78XX / 79XX type linear regulators, I decided to use this opportunity for my first steps with DipTrace.ĭipTrace offers different prices for different packages. The cheapest version, DipTrace Starter (300 pins, 2 signal layers), is available for $ 75. #DIPTRACE SCHEMATIC TUTORIAL FULL#ĭipTrace Full offers unlimited pins and unlimited signal layers for $ 895. All versions of DipTrace come with a humongous parts library and 3D models for a large amount of general purpose parts. In case a part or footprint is not included in the libraries, DipTrace offers both a component editor and a pattern editor for custom parts. I needed a super small PCB for 78XX type voltage regulators. This mini project was perfect for my first steps with DipTrace. ![]() Please be aware that this article is going to be extremely coarse as it is supposed to be a general overview of the DipTrace software. The functionality of this software is rather complex as this is a professional design tool. The starting point for my project was the “Schematic Capture” module. ![]() It looks very neat and very well ordered. The positioning of all toolbars and elements seems very intuitive. I selected a 78XX voltage regulator, 1 shunt capacitor for the input side and 2 shunt capacitors for the output. I like to put a small capacitor (~ 100 nF) and a larger capacitor (~10 μF) on the output of my linear regulator circuits. Additionally I put a screw terminal each on the input and output side. It took less than 5 minutes to get the circuit together. To be fair, I totally forgot to enter component values in the schematic capture as I was rushing through it.Īfter the schematic is complete, the next step is to convert it to a PCB layout.
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