1 00:00:02,600 --> 00:00:03,120 Hello. 2 00:00:03,140 --> 00:00:03,770 Welcome back. 3 00:00:03,770 --> 00:00:07,410 In this lesson we shall take a look at the configuration tab. 4 00:00:07,520 --> 00:00:13,620 So we just click over here and then when we click over here it's it's rearranges all the pitfalls we've 5 00:00:13,640 --> 00:00:17,420 changed into different different different groups. 6 00:00:17,420 --> 00:00:22,940 We've caught the control groups here and under this group we've got our ROTC real time club peripheral 7 00:00:23,320 --> 00:00:24,440 and the system peripherals. 8 00:00:24,440 --> 00:00:26,090 We've got a cheap you at the end. 9 00:00:26,120 --> 00:00:28,690 The RCC did the DNA. 10 00:00:28,740 --> 00:00:32,860 We know we've not chosen any analog to digital converters. 11 00:00:32,870 --> 00:00:34,820 Therefore this site is empty. 12 00:00:34,820 --> 00:00:40,890 We've not chosen any connectivity peripherals to this site is empty and we don't have any multimedia. 13 00:00:40,910 --> 00:00:44,110 In fact we've not chosen any middle way to demonstrate this. 14 00:00:44,120 --> 00:00:49,620 I could just enable Fritos over here and you see the Fritos has appeared undamaged away. 15 00:00:49,760 --> 00:00:55,120 I could like I could do the same for the file system and we have some middleware here. 16 00:00:55,130 --> 00:01:00,210 So basically this part is used to configure its peripheral further. 17 00:01:00,880 --> 00:01:03,480 So let's see how cheaply you would want to configure. 18 00:01:03,490 --> 00:01:06,850 You can just click it and we've got a GPL tabs. 19 00:01:06,860 --> 00:01:10,260 We've got the RCC tabs got a system tops. 20 00:01:10,310 --> 00:01:14,420 So these these options are the things we normally write code for. 21 00:01:14,420 --> 00:01:17,720 Do we want it to be output push pu. 22 00:01:17,930 --> 00:01:20,860 We want to modify that here. 23 00:01:20,980 --> 00:01:22,230 What's the output level. 24 00:01:22,240 --> 00:01:25,060 Do we want to set a tie or low by default. 25 00:01:25,060 --> 00:01:26,990 What's to keep your pin mode. 26 00:01:27,130 --> 00:01:28,810 We can select all of that from here. 27 00:01:28,810 --> 00:01:32,740 We're going to take a look at each each arm each pair for on its own. 28 00:01:32,740 --> 00:01:34,990 So I wouldn't go into the details here. 29 00:01:34,990 --> 00:01:40,720 So these allows us to just make the choices using a graphical user interface. 30 00:01:40,720 --> 00:01:41,020 Right. 31 00:01:41,050 --> 00:01:43,120 So there is a much here. 32 00:01:43,610 --> 00:01:45,380 I just love this. 33 00:01:45,500 --> 00:01:52,060 And as you can see it's increases so with things with complex settings this makes it very easy rather 34 00:01:52,060 --> 00:01:59,320 than writing a code for each register in a module like the RTC using the Cuban excuse as the Chinese 35 00:01:59,320 --> 00:02:06,790 to just you know select each parameter and choose change from here asynchronous pre divide a value we 36 00:02:06,790 --> 00:02:08,160 can change the value. 37 00:02:08,310 --> 00:02:16,500 And it would change the value in the pre divider register for us and we can make such changes over here 38 00:02:16,710 --> 00:02:18,100 over here like this. 39 00:02:18,280 --> 00:02:19,280 And yeah. 40 00:02:19,540 --> 00:02:25,000 So we'll take a look at each pair on its own and I'll see you in the next lesson.