Choosing the quick autoroute and autoplace option, though means that after a couple of clicks and a few seconds' wait, you have a working PCB layout - in full 3D. You can interact with inputs, like switches or controls, in either the 2D or 3D windows, and both views are updated simultaneously. You can flip or rotate the board to any angle you like, and edit placements or reroute tracks easily.
Mechanical components are straightforward to use: they snap together automatically, and can be moved and rotated in each of the 3 dimensions. Gears can now have fine, medium or coarse teeth; you can set their diameter exactly, and choose any number of teeth for each gear. Gears can be linked directly to each other, or using a chain drive of any length. To change the direction of rotation, worm and bevel gears are also available.
A range of wheels can also be used, and there's even a crank to move the mechanisms manually. Arrows highlight the directions of rotation, and parameters can be plotted on the graph, too.
Using 3D makes mechanisms much more flexible: after all, real mechanisms are 3D, not 2D. The ability to rotate and flip the view makes it much easier to understand and modify the design. The lineup will create random data for you to use, if you wish, but you could also capture data from your class. To add more students, just double-click on the top of the table, and change the number of students in the panel that appears.
As with the line-up, you can double-click on the graphs to edit their properties. The scatter graph lets you add a line of best fit, and an indication of the strength of the correlation. Statistics can sometimes seem a little dry for newcomers; we added this lineup to Yenka to help illustrate some of the key points.
In Yenka, we use straightforward flowcharts to let you construct programs. Your programs always need to begin with a Start command. Next, build your program by dragging commands onto the screen, and linking them together. Linking commands is very similar to wiring electronic components: you can snap their terminals together, by positioning one under another, or draw links between their terminals.
You can use the links to create loops in the program. Many commands have parameters which can be edited by simply clicking on them.
Once your program is complete, with no unconnected terminals, you can run it: just click the green arrow on the Start command to set it running. To try this yourself, you can use our free Yenka home licence. Yenka Technology is all about one thing: linking components together, to design and simulate a working system.
Yenka has a wide range of electronic components, both digital and analog, but they all have a few common features. Each one has terminals, with which it can be connected to other components. The simplest way to link components is to move one so that its terminal overlaps that of another. Once you have liked two components with a wire, they will remain linked when you move one of them: the wire will stretch.
If you release the component when the wire is grey, that wire will break. Gears can now have fine, medium or coarse teeth; you can set their diameter exactly, and choose any number of teeth for each gear.
Gears can be linked directly to each other, or using a chain drive of any length. To change the direction of rotation, worm and bevel gears are also available. A range of wheels can also be used, and there's even a crank to move the mechanisms manually. Arrows highlight the directions of rotation, and parameters can be plotted on the graph, too.
Using 3D makes mechanisms much more flexible: after all, real mechanisms are 3D, not 2D. The ability to rotate and flip the view makes it much easier to understand and modify the design.
Measurement Accurate measurement is vital, and Crocodile Technology 3D gives plenty of options. Add the new digital multimeter to the 3D space to check voltages around your circuit. Advantages of using circuit and PCB software: 1.
Circuits can be simulated on screen without the need to build a circuit on a breadboard with real components. Errors can be corrected and alterations made to the circuit by simply replacing components from menus. No soldering is needed, simply move components with a mouse.
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