1
00:00:00,690 --> 00:00:03,090
SB 32 Development Board.

2
00:00:07,130 --> 00:00:15,250
The SB 32 is a low cost system on chip series created by express systems.

3
00:00:15,560 --> 00:00:24,740
It's an improvement on the popular SB eight two six six that is widely used in Internet of Things projects.

4
00:00:25,820 --> 00:00:34,070
They, SB 32, has both Wi-Fi and Bluetooth capabilities, which make it an all rounder chip for the

5
00:00:34,070 --> 00:00:38,870
development of Internet of Things project and embedded systems engineer.

6
00:00:42,470 --> 00:00:50,090
Now, in this course, you will learn how to get started with that iOS P32 and learn how to use it to

7
00:00:50,090 --> 00:00:59,870
scan Wi-Fi hotspots, control LEDs, buttons, sensors or get sensors reading on our page along with

8
00:00:59,870 --> 00:01:01,040
other examples.

9
00:01:02,000 --> 00:01:08,510
This course will equip you with the basic knowledge that you will need when working on your ISP.

10
00:01:08,510 --> 00:01:10,790
32 projects in the future.

11
00:01:12,950 --> 00:01:21,360
Now, some of the main specifications for the ESB said it all when it comes to the chip specifications.

12
00:01:21,380 --> 00:01:26,600
You will find that it has a dual core, which means that it has two processors.

13
00:01:27,200 --> 00:01:35,690
It also has Wi-Fi and Bluetooth built, and you don't have to plug in any use B dongle to enable Wi-Fi

14
00:01:35,690 --> 00:01:36,680
or get a module.

15
00:01:37,340 --> 00:01:39,410
It runs 32 bit programs.

16
00:01:40,070 --> 00:01:51,230
The clock frequency can go up to 240 megahertz, and it has 512 kilobytes from this particular board.

17
00:01:51,230 --> 00:01:56,030
Has 30 or 36 pins, 15 in each row.

18
00:01:56,630 --> 00:02:04,490
It also has wide variety of peripherals available, like capacitive touch sensors and a digital converter

19
00:02:05,690 --> 00:02:14,390
digital analog converter, universal asynchronous serial communication modules, USB, I, I, Square

20
00:02:14,390 --> 00:02:15,970
C, and much more.

21
00:02:17,330 --> 00:02:25,820
This board comes with built in hall effect sensor and built and temperature sensor, so this board is

22
00:02:25,820 --> 00:02:29,930
all what you need to get started in no time in the Internet of Things world.

23
00:02:30,980 --> 00:02:37,610
Now, to start programming the sport, you need a software or a programming environment.

24
00:02:40,390 --> 00:02:47,170
You can simply use the original I.D., which we are going to do and this course, it's a very easy to

25
00:02:47,170 --> 00:02:50,490
use software and most people are familiar with it.

26
00:02:50,500 --> 00:02:56,920
And if you even if you are not familiar, it's the easiest software to use when you want to program.

27
00:02:57,100 --> 00:03:03,310
Yes, Barry Bonds, there is also a software explosive IDF software.

28
00:03:03,790 --> 00:03:08,980
It's basically an Internet of Things development framework that they provide for their boards.

29
00:03:09,550 --> 00:03:13,180
There is also micro Python, JavaScript or law.

30
00:03:14,140 --> 00:03:17,410
The ones that we are going to use in this course is our digital I.D.

31
00:03:17,650 --> 00:03:25,210
It requires some adjustments to install the ISP library, but everything will be explained in details

32
00:03:25,750 --> 00:03:27,490
in a separate section.

33
00:03:28,000 --> 00:03:35,710
What you will learn how to download and install the required libraries for different sports and the

34
00:03:35,710 --> 00:03:39,940
right steps to do so now to prepare your board.

35
00:03:41,520 --> 00:03:48,060
For the other, we know already there is an Add-On for the Arduino I.D. that allows you to program the

36
00:03:48,060 --> 00:03:56,520
ISP 32 using that platform, the very same platform that you can use to program Arduino can also be

37
00:03:56,520 --> 00:03:58,350
used to program ISP.

38
00:03:59,850 --> 00:04:07,440
Using Arduino programming language, so it's out of the box and ready for you to use.

39
00:04:07,740 --> 00:04:15,090
And the next lesson we are going to explain the SPCA is to point out how many bands out there, how

40
00:04:15,090 --> 00:04:23,850
to recognize each bean function and which band to use when you want to connect input output, P.W. signal

41
00:04:24,270 --> 00:04:25,080
or sensor.

42
00:04:25,920 --> 00:04:27,240
Thanks for watching this lesson.

43
00:04:27,450 --> 00:04:29,850
This is Ashar from educational engineering team.