WEBVTT 00:01.260 --> 00:03.020 Hello and welcome back. 00:03.360 --> 00:11.590 In this tutorial, we will learn how to create the model and how to set up the circuit for full pretty 00:11.640 --> 00:16.440 far so I have created a file called Fulvia Rectifiers. 00:17.010 --> 00:20.480 And what you need to do first is just right. 00:20.490 --> 00:29.870 Click in the Model Builder in the finally click on ADD component and then select, uh, 080. 00:30.420 --> 00:39.120 Or what you can do is you can just click on the file, click on ADD component and then click on 080. 00:41.250 --> 00:49.200 Oh, now what you have to do, you need to add physics, not that if we are working with only electrical 00:49.200 --> 00:51.290 circuits, you do not need any geometry. 00:51.690 --> 00:53.730 So click on physics. 00:55.250 --> 01:02.210 Click on Add Physics, if it is already selected, you will see add physics option here, click on Add 01:02.210 --> 01:09.170 Physics and then you can search as C i r. 01:10.670 --> 01:21.440 Click on Search and you will see electrical circuit inside ACTC module just right click and click on 01:21.590 --> 01:22.700 Add to component. 01:23.840 --> 01:31.640 So before we start making the model at first, let us make the rough sketch of the model, which is 01:31.640 --> 01:34.560 always useful when you're working with Electrical Circuit. 01:35.360 --> 01:39.410 So at first what we have is a voltage source. 01:39.650 --> 01:42.140 So I would write as V now. 01:43.470 --> 01:45.630 Here we have. 01:47.680 --> 01:50.190 Four components, right? 01:52.580 --> 02:01.250 And then these two are connected via a lot, something like this. 02:03.040 --> 02:07.120 And here, each of. 02:09.600 --> 02:14.130 The box is actually, uh, dired. 02:15.520 --> 02:15.940 Right. 02:16.480 --> 02:18.760 So it's something like this. 02:19.180 --> 02:25.870 OK, so therefore, for decades now, let us name the nodes so the voltage is connected between one 02:25.870 --> 02:26.550 and two. 02:27.460 --> 02:28.660 So this is also true. 02:29.380 --> 02:30.340 This is also one. 02:31.090 --> 02:34.690 Let this be three this before. 02:35.440 --> 02:41.080 And then let's say you just connect ground somewhere. 02:41.410 --> 02:44.340 So let me just connect the ground here. 02:44.860 --> 02:48.730 So I'll just put a resistor here and then ground grounded. 02:50.100 --> 02:55.870 Then this will be five and the ground is five. 02:55.890 --> 02:58.290 OK, so this is two to five and then ground. 02:58.450 --> 03:06.630 So now that we have the circuit and the nodes, let us come back to console and let us click on the 03:06.630 --> 03:11.790 electric circuit and add our resource to advertisers. 03:12.030 --> 03:16.990 Click on the World Resource and it will be added in your physics. 03:18.010 --> 03:23.610 Now it is already named as one and two, so we do not need to change it. 03:24.910 --> 03:29.880 And here we need to add the Dietze. 03:30.210 --> 03:34.350 So we will click on Diebold's four times to add for Dowds. 03:39.310 --> 03:51.400 Now, note that we have added the four diets in our physics, now let us add two resistors, one and 03:51.400 --> 03:51.670 two. 03:52.600 --> 03:57.420 OK, so we have ground water source for year and two registers. 03:58.000 --> 04:04.300 Now, let us try to set it up so the diet is connected between three and one. 04:05.080 --> 04:10.630 Know that the finger and try to compare with our schematic diagram. 04:10.930 --> 04:14.320 So PS three and and is one. 04:15.460 --> 04:22.420 Similarly, the second down it is going from one to four. 04:24.340 --> 04:28.270 If we come back to the third, it is coming from three. 04:30.340 --> 04:30.910 Due to. 04:37.500 --> 04:41.580 And the fourth, it is from two to four. 04:45.630 --> 04:53.970 OK, so we have our diets ready and then the latest, that is the Lord, which is the other one, it 04:53.970 --> 04:56.040 is going to take from three to four. 04:56.730 --> 04:57.940 So this will be three. 04:58.260 --> 04:59.480 This will be four. 05:00.780 --> 05:09.330 And the other is disconnected from two to five, which will be further connected to the ground. 05:09.690 --> 05:12.330 So the ground will be five. 05:13.260 --> 05:15.420 So this is our circuit. 05:17.210 --> 05:25.840 Now, in the next lecture, what we will try to do is we will try to add the values, we set up our 05:25.850 --> 05:30.450 faults and we will make the model ready to simulate. 05:30.980 --> 05:32.000 Thanks for watching. 05:32.000 --> 05:34.670 And we'll be back in our next lecture.