1 00:00:08,340 --> 00:00:14,700 Walk to the basic storyboard I'm going to talk about the basis the board and some of the peripherals 2 00:00:14,700 --> 00:00:15,630 that we'll be using. 3 00:00:15,690 --> 00:00:20,550 And just in different switches is an important thing is to know what's the basis for the board. 4 00:00:20,550 --> 00:00:27,700 The first thing we're all talk about is the power with the power you have the little we've got just 5 00:00:27,700 --> 00:00:32,880 kind of a jump or block right here where we can power from us B which is what I'm currently doing. 6 00:00:33,090 --> 00:00:39,930 Or you can power from an external five volt source which if you connect a pin with a fiber and ground 7 00:00:40,240 --> 00:00:45,670 to these two pins right here you can power your board that way if you want to have like a mobile application. 8 00:00:45,750 --> 00:00:51,990 However for everything we're doing in this lab you can just power it from the USP all the labs work 9 00:00:51,990 --> 00:00:57,750 with that and that just makes sure that the jumper here is selecting the bottom two pins shown on your 10 00:00:57,750 --> 00:00:58,790 screen there. 11 00:00:58,950 --> 00:01:05,040 And you plug your USP in make sure that you have it on a port on your computer that is a power over 12 00:01:05,040 --> 00:01:05,810 us b. 13 00:01:06,030 --> 00:01:07,290 So you can power up your board. 14 00:01:07,620 --> 00:01:08,560 So I'm going to go ahead. 15 00:01:08,580 --> 00:01:16,170 If I slide the switch here that toggles or power off if I turn it back on I notice that power comes 16 00:01:16,170 --> 00:01:24,090 on and when you first turn your board on you should see a some sort of they've got a file that's loaded 17 00:01:24,090 --> 00:01:25,410 on their flash memory. 18 00:01:25,590 --> 00:01:29,850 It just kind of goes through and runs the test to show you that all the peripherals work and you'll 19 00:01:29,850 --> 00:01:32,230 see that the 7 segment display is counting. 20 00:01:32,280 --> 00:01:38,220 Which is something that will be using this lab and these Ltds if I toggle the switches or turn them 21 00:01:38,220 --> 00:01:45,900 off the melody's turn off or if I turn them on the lady comes on and if I push a button you'll notice 22 00:01:45,900 --> 00:01:51,820 that the corresponding 7 segment display value will turn off. 23 00:01:51,820 --> 00:01:58,170 So if I hold that down you'll notice that the second element there is not lit up and not counting the 24 00:01:58,170 --> 00:01:59,100 rest. 25 00:01:59,150 --> 00:02:03,480 And so it was kind of a way that they load a preconfigured file on there just to kind of test all the 26 00:02:03,480 --> 00:02:07,900 different peripherals which are cool ones that we'll be using maybe using the push buttons. 27 00:02:07,920 --> 00:02:09,620 We're using the seven same display. 28 00:02:09,780 --> 00:02:11,310 We're using the ladies. 29 00:02:11,380 --> 00:02:15,450 And so just go ahead and go through I suggest you just toggle all the switches and make sure that none 30 00:02:15,450 --> 00:02:18,280 of the ladies are burnt out or anything like that. 31 00:02:19,190 --> 00:02:24,500 An important thing to know when we're programming the baselessly board. 32 00:02:25,010 --> 00:02:31,880 You'll want to turn your power off and the selector jumper block we have here. 33 00:02:32,150 --> 00:02:38,540 We want to move that to the two center pins and what that does is that powers that initialises that 34 00:02:38,540 --> 00:02:41,470 PDA so that it connects over J tag. 35 00:02:41,660 --> 00:02:44,230 Right now we have the first two selected. 36 00:02:44,540 --> 00:02:48,920 It's looking for a configuration file in the flash memory on the board. 37 00:02:49,220 --> 00:02:54,170 And when we're doing our labs we want it to look for it over J tag which is going to be coming in from 38 00:02:54,170 --> 00:02:57,210 this US be which we connect to our computer. 39 00:02:57,260 --> 00:03:04,730 So if I take this connector switch here and part of my hand being in the way put it on the second two 40 00:03:05,880 --> 00:03:10,450 and I turn the sport back on you'll notice that nothing lights up or anything like that. 41 00:03:10,550 --> 00:03:14,500 And that's because it's looking for the configuration file via the J tag. 42 00:03:14,660 --> 00:03:19,010 And that's where we'll use the Vado to go ahead and program the board and I'll show you how to do that 43 00:03:19,100 --> 00:03:20,080 later on. 44 00:03:20,480 --> 00:03:27,050 So if we go ahead and switch our power back off and move our configuration to test everything back to 45 00:03:27,050 --> 00:03:34,490 the first two internal board back on notice that we load that file back in. 46 00:03:34,510 --> 00:03:35,640 And so we are able to test. 47 00:03:35,640 --> 00:03:40,600 We see our 7 segment display counter counting and our push buttons and push them. 48 00:03:40,800 --> 00:03:45,190 They turn off a specific element on our 7st and splay. 49 00:03:45,410 --> 00:03:48,670 And so those are kind of the main components we'll be using on board. 50 00:03:48,710 --> 00:03:54,340 I'm just going to point out a few other major components we have in the very center there is the actual 51 00:03:54,340 --> 00:03:55,700 APJ that we're programming. 52 00:03:55,740 --> 00:03:57,300 It's an arctic 7. 53 00:03:57,650 --> 00:04:02,850 And if you look at the hardware user guide for the basic 3 board I have posted as a resource you'll 54 00:04:02,850 --> 00:04:07,170 be able to see and it goes through and talks about every component and everything that's on this board 55 00:04:07,500 --> 00:04:10,620 how to access it and everything like that. 56 00:04:10,620 --> 00:04:14,010 Plenty of information there I suggest you go ahead and go through and read it. 57 00:04:14,130 --> 00:04:19,770 One of the things we'll be using our we call in these p.m.-I odds and what they are are they let you 58 00:04:20,130 --> 00:04:26,250 connect a wire into them so you can send a signal from the board and bring it out and we'll use that 59 00:04:26,250 --> 00:04:32,220 for our server the lab to actually send a signal out to control an external motor. 60 00:04:32,350 --> 00:04:35,070 And that is just kind of an overview of the basis through our.