1 00:00:00,720 --> 00:00:06,440 To successfully complete the lectures in this course, you'll need a few easy to get hardware components. 2 00:00:07,080 --> 00:00:11,640 If you've completed my advanced step by step courses, you probably already have everything that you 3 00:00:11,640 --> 00:00:12,010 need. 4 00:00:12,540 --> 00:00:14,790 So let's have a look at the required hardware now. 5 00:00:17,050 --> 00:00:23,110 Of course, you need an E.S.P theory to develop and kickboard it really doesn't matter which one have 6 00:00:23,170 --> 00:00:28,060 tested the micro python scripts from this quote in a variety of generic workplace attitudes, and they 7 00:00:28,060 --> 00:00:29,120 all worked fine. 8 00:00:29,800 --> 00:00:35,590 Now, one of using this quote is so generic that it doesn't even have any model information printed 9 00:00:35,590 --> 00:00:36,060 on it. 10 00:00:36,190 --> 00:00:43,420 It's a 19 PIN board with the SPW Room 32 designation on the MCU package. 11 00:00:46,530 --> 00:00:54,150 For the first round of experiments will use and ID with its current limiting resistor, a button and 12 00:00:54,150 --> 00:01:02,070 a particular mirror for the button will use an internal pullup resistor to simplify the external circuitry 13 00:01:02,070 --> 00:01:05,070 so you don't need an additional resistor for the button. 14 00:01:06,330 --> 00:01:09,130 Next, we're going to work with sensors. 15 00:01:09,150 --> 00:01:14,700 So in the section on sensors, you'll experiment with the DHC 20 to the PMA. 16 00:01:14,720 --> 00:01:16,020 Two hundred and eighty. 17 00:01:16,290 --> 00:01:22,180 The ATX held three three five, which is an analog accelerometer and the C. 18 00:01:22,260 --> 00:01:25,770 S zero for ultrasonic distance sensor. 19 00:01:27,670 --> 00:01:34,630 Then we are going to move on to the displaced section of the section on this place is quite busy with 20 00:01:34,630 --> 00:01:37,960 several different devices included in your war testing. 21 00:01:37,990 --> 00:01:41,570 They are in experiments with the OLED screens. 22 00:01:41,590 --> 00:01:48,100 There are three options to choose from, but I particularly like the displays with the Hajj one one 23 00:01:48,100 --> 00:01:54,900 zero six driver because they work well with both the hardware and the software options for AI squared. 24 00:01:54,910 --> 00:01:58,340 See, the driver is pretty good in this section. 25 00:01:58,360 --> 00:02:06,310 We also experiment with a two by 16 Ice Cube see LCD screen, which is based on the P, C, F eight 26 00:02:06,310 --> 00:02:10,020 five seven four parallel to ice, which C converter. 27 00:02:10,780 --> 00:02:13,110 We are also playing around with Pyxis modules. 28 00:02:13,110 --> 00:02:21,790 So I'm using one that has eight individual addressable LEDs and eight by eight Haliday Matrix, which 29 00:02:21,790 --> 00:02:25,420 is driven by the max seven to one nine module. 30 00:02:28,980 --> 00:02:31,800 And we are also going to experiment with motors. 31 00:02:31,830 --> 00:02:41,080 You need a five four vote mini, a motor and a five old mini DC motor to drive the DC motor. 32 00:02:41,100 --> 00:02:45,510 You need the RV eight eight seven one motor controller. 33 00:02:47,490 --> 00:02:51,210 And that's it with the hardware requirements. 34 00:02:52,170 --> 00:02:52,710 When are you ready? 35 00:02:52,740 --> 00:02:55,230 Please continue with the next lecture. 36 00:02:55,530 --> 00:03:01,040 We'll talk a little bit about a few simple things that you can do to make the most out of schools.