Hello. So, whatever we have discussed in the SMT and double sided PCB design, let's finish those things with this ftdi based design. So here is my schematic of the FPGA details inverter. And now, what you have to do is you have to create a PCB of coverage. So we have used all those SMD components in creating the particular schematic. And now, here we can create a PCB.

As you can see, this is the USB connector that the other one you see is the IC is what is the connector for the detail connection or tubal connection Actually, that's all the components that capacitor it's a living thing, it's assembly. These are having a package of 1206 as this was before, because it's really simpler to be canceled. That's what we have used 1206 you can answer them manually also using a simple soldering iron. So just like before, what we were doing, all you have to do is place the components properly, and then we have to route them, then what will happen here is routing to only one layer is simply not possible. So even now the only top proper routing only top bottom proper is not possible. And that's why what we need to do is we need to take decisions based on how we actually route our signals.

So maybe sometimes we need some tracks on top over Ethernet. So let's finish with this. And then we'll begin with it. Next is the size This is the board size actually stick to your environment as you want it to be authentic. So definitely start at the top side or we can select the best of the best select the bottom your top layer This is our track begins and this is how to stop at a point. Yes, Elia is in other tracks on the other level, what do you need to do is simply take a track, click because then again, change the layer.

And then we can start routing on the other side. Let's see how we can return the device also. So this is a top copper layer. Also make sure that you reduce the grid size and the components. So the tracks are properly aligned to the facts on all the components. This is our chance.

The benefit is you can route a bottom copper track and drop couple tracks above each of them. Now here is the problem. So what we have to do is We have to just click it once the gesture is given back selected, and essentially at that point now it shows some higher spheres that it's not helping. It's just a bit of practice, we'll get to know how it happens. So we have to put them by again, because the ice surface mounting tag which holds up the top of the section, it doesn't have a bottom layer. So we have to make sure every bottom layer comes to top, then it's going to be icy.

But with the collector that's not the case director has a pad on both sides. So to the collector, all the tracks can come and get connected. So let's now get completely no as needed. Just place your tracks straightforward. And whenever needed, you can simply just Change the track site as well as the track live So that's the name that we added to our food did offer food if needed, we can also add this to the bottom side, but since you did not have much left on the bottom of the pool on the top side also change the layer as you might have seen in my video. Whenever you want to change the knees you can simply click on the middle mouse button.

So whenever I try box a topper, then by pressing the middle mouse button of the school button I can change over to the bottom whenever the track changes as needed to add some text on to your visiting some more things on the obesity You can also drill into these but you can also add relevance on to your PCB and finish your design So, that's it for this video. I hope you will enjoy learning the PCB designing using single sided accessible sided techniques. And it will help you in your designs in your projects or whatever book that you're pursuing. Finish all the exercises as even so as to become an expert into this finish.