WEBVTT 00:05.560 --> 00:07.290 Hello and welcome back. 00:07.600 --> 00:16.840 In this tutorial, we will learn how you can add an AC sauce in your circuit and then run your simulation 00:17.080 --> 00:24.010 for AC, the system is a bit different, so let us stick along and learn together. 00:24.640 --> 00:27.310 So we have our circuit. 00:27.520 --> 00:29.290 That is the electrical circuit here. 00:30.080 --> 00:31.000 Just click on it. 00:31.180 --> 00:38.800 And here we have the groundnut, Walesa's resistor, capacitor inductor, one more wrester and and it 00:38.800 --> 00:39.750 is going to the count. 00:40.180 --> 00:42.460 So we have a faulty source from one to two. 00:42.970 --> 00:44.800 We have a track from two to three. 00:44.980 --> 00:54.880 We will connect the capacitor from three to four and we will connect the inductor from four to one. 00:55.450 --> 00:58.840 And one is the voltage source. 00:58.870 --> 01:09.610 OK, so the inductor is connected to the voltage source and for the ester it is connected from six and 01:09.610 --> 01:10.020 one. 01:10.660 --> 01:16.580 So from one it is connected to six and six is the ground. 01:17.030 --> 01:20.370 OK, so let me explain what is going on. 01:20.380 --> 01:21.640 We have a water resource. 01:22.120 --> 01:22.890 It is connected. 01:22.900 --> 01:24.400 Were registered in CCDs. 01:25.120 --> 01:32.110 The register is connected to the capacitor, capacitor is connected to the injector and the industry 01:32.110 --> 01:34.630 is connected to the voltage source. 01:34.780 --> 01:42.850 OK, so this four are a complete circuit and then there's one more resistor which is connected to the 01:43.060 --> 01:43.480 ground. 01:44.890 --> 01:52.090 Now for the full source, we can see that we have our D.C. source here. 01:52.270 --> 02:01.330 So what we going to do is we will select the D.C. source and then click on Chainsaw's. 02:03.080 --> 02:10.940 Winningly consensus, he will have few other options, voltage of such frequency and face in the frequency, 02:11.840 --> 02:13.750 just write any variable. 02:13.820 --> 02:28.650 Let's say if our Q OK, and let's go to the perimeter and write if our Q and let it be one. 02:28.790 --> 02:38.870 So in the voltage source, the frequency will be Barnhart's because we have set up the expression value 02:38.870 --> 02:39.620 as one. 02:39.710 --> 02:44.910 So this is how you set up your frequency in your circuit. 02:46.310 --> 02:53.630 In my next lecture, I will explain how to set up your study and then run your simulation.