1
00:00:01,130 --> 00:00:07,460
Hello and welcome to the scene, you listen try to go to connect ESB first to a board with Arduino.

2
00:00:07,700 --> 00:00:09,710
We are going to use pricing software.

3
00:00:10,520 --> 00:00:17,060
It's a very well known software for creating circuit design, and it's a very good software for showing

4
00:00:17,720 --> 00:00:21,950
the wiring layout for any electronic circuit.

5
00:00:22,340 --> 00:00:25,910
So let's go for a bit more gold here.

6
00:00:27,140 --> 00:00:33,290
Now we need to add Arduino boards, or you can go here and select hardly all.

7
00:00:34,460 --> 00:00:35,240
This is the point.

8
00:00:36,550 --> 00:00:37,960
Now, the next step will be.

9
00:00:41,320 --> 00:00:43,520
Getting the speakers to board.

10
00:00:45,500 --> 00:00:46,130
This is it.

11
00:00:46,670 --> 00:00:47,850
Here we are.

12
00:00:47,870 --> 00:00:49,190
Yes, we has to a ball.

13
00:00:50,880 --> 00:00:53,420
Now we need a logic level shifter.

14
00:00:53,900 --> 00:01:00,560
You can fight logic and you will get tons of results.

15
00:01:04,450 --> 00:01:04,990
Protest.

16
00:01:07,190 --> 00:01:10,670
OK, now we have other fancy illogical lyrical stuff.

17
00:01:11,330 --> 00:01:12,260
We have this one.

18
00:01:15,090 --> 00:01:17,700
And we have others as well.

19
00:01:18,090 --> 00:01:20,820
But this one would be enough for us now.

20
00:01:21,950 --> 00:01:31,430
To start connecting, let's sort out this by 90 degrees right now, we need to connect the 3.3 fold

21
00:01:31,430 --> 00:01:37,100
from that export, which is this sports to our logic level shifter.

22
00:01:37,730 --> 00:01:43,010
So this is the 3.3 volt and we need to connect it to.

23
00:01:44,330 --> 00:01:48,290
The low voltage bill, this one LV.

24
00:01:51,690 --> 00:02:02,010
And let's make it right now, the next step is connecting the five walls from our old Luna board to

25
00:02:02,040 --> 00:02:05,110
the HP or high level this pen.

26
00:02:05,880 --> 00:02:09,180
So let's start this one here.

27
00:02:11,670 --> 00:02:12,300
That's said.

28
00:02:17,480 --> 00:02:17,840
No.

29
00:02:19,380 --> 00:02:26,490
We need to connect the ground from our Arduino with the logic level converter, with these people so

30
00:02:27,090 --> 00:02:31,710
like around from here must be connected to the ground of the level.

31
00:02:31,710 --> 00:02:36,900
Shifters on the ground from here must be connected with the ground from our livers shifter.

32
00:02:37,560 --> 00:02:40,140
Now let's change the coloring to black hair.

33
00:02:41,470 --> 00:02:42,150
I don't hear.

34
00:02:44,130 --> 00:02:45,540
List that I this pin.

35
00:02:51,780 --> 00:02:53,130
OK, now.

36
00:02:54,450 --> 00:02:55,410
Hold on.

37
00:02:56,230 --> 00:02:57,540
Let's lunch last.

38
00:02:59,800 --> 00:03:04,450
Now we have connected the port on the ground and everything is going correctly.

39
00:03:04,510 --> 00:03:07,130
We need to connect the serial communication.

40
00:03:07,810 --> 00:03:08,440
Why else?

41
00:03:09,130 --> 00:03:12,520
And the first step is going to our Arduino on a.

42
00:03:13,390 --> 00:03:21,160
And since we have initialized in the coding bins number two and three for the connection, we need to

43
00:03:21,160 --> 00:03:30,580
connect that up in number three, which is this pin to our logic level converter and we need to make

44
00:03:30,580 --> 00:03:35,440
sure that we are choosing ATX XP or high voltage.

45
00:03:35,620 --> 00:03:38,800
So you need to go to the ATX.

46
00:03:40,220 --> 00:03:40,460
It's.

47
00:03:41,820 --> 00:03:45,200
And as you can see, we have more than one takes.

48
00:03:46,440 --> 00:03:48,840
This is T.X to its fee.

49
00:03:49,590 --> 00:03:53,130
We need to fix its B, which is this one.

50
00:03:54,170 --> 00:03:54,650
No.

51
00:03:56,200 --> 00:03:58,030
Let's move it up here.

52
00:04:03,030 --> 00:04:03,940
You know, OK.

53
00:04:06,080 --> 00:04:08,720
Now, let's turn the color to yellow.

54
00:04:09,570 --> 00:04:12,860
No, I have connected pin number three as our a.m. record.

55
00:04:13,160 --> 00:04:16,040
We have the pin number two and three 40x on our.

56
00:04:16,730 --> 00:04:21,770
Now the other picks from here, which has been number three, is connected to the T. It's V.

57
00:04:22,640 --> 00:04:30,180
Make sure that you are choosing the right them, then you need to connect the R x d0 formula.

58
00:04:30,770 --> 00:04:31,670
Yes, people.

59
00:04:33,790 --> 00:04:39,610
So as you can see here, we have our exit zero to zero.

60
00:04:41,420 --> 00:04:49,430
So now let's go and grab the R X pen and connect with X LV.

61
00:04:51,030 --> 00:04:51,390
Here.

62
00:04:54,540 --> 00:04:57,480
OK, now, as you can see, this is the T.X.

63
00:04:59,430 --> 00:05:04,230
Ali, and we have the Arduino pin connected to 3.x, actually.

64
00:05:05,430 --> 00:05:12,570
This is basically the final version that will take from Arduino converted and sent to various people

65
00:05:13,200 --> 00:05:14,790
without burning the board.

66
00:05:15,460 --> 00:05:17,610
And this is the main goal for the converter.

67
00:05:18,360 --> 00:05:21,780
Now you can see the schematic by clicking here, as you can see.

68
00:05:22,860 --> 00:05:24,120
These are the two boards.

69
00:05:26,420 --> 00:05:36,410
You can move these balls like this and we can rotate, as you can see, but I actually agree on how

70
00:05:36,410 --> 00:05:39,070
to buy a hundred eighty degree, OK?

71
00:05:39,590 --> 00:05:42,380
Now the ground is connected between these two balls.

72
00:05:43,030 --> 00:05:52,640
And as you can see, we have this pin up X and yes, people connected to the ticks LV pin number six

73
00:05:53,180 --> 00:05:58,350
and we have been D3 from our Arduino connected to that, actually.

74
00:05:59,090 --> 00:06:07,970
And we have it's a v high voltage connected to the five volt and the low voltage, or it'll be connected

75
00:06:07,970 --> 00:06:09,380
to the 3.3 volt.

76
00:06:10,650 --> 00:06:11,110
That's it.

77
00:06:11,130 --> 00:06:12,210
This is our connection.

78
00:06:13,500 --> 00:06:15,840
Make sure that you have everything connected that way.

79
00:06:16,500 --> 00:06:19,080
Don't mix things up.

80
00:06:19,410 --> 00:06:25,770
Try to double check your connection before moving forward and connecting your part because if you have

81
00:06:25,770 --> 00:06:29,400
connected any wire and I don't create my damage, your bonds.

82
00:06:30,150 --> 00:06:32,670
Double check before moving on.

83
00:06:33,540 --> 00:06:34,590
Thanks for watching this lesson.

84
00:06:34,620 --> 00:06:39,300
If you have any question regarding anything of this connection, you can ask on the ball.

85
00:06:39,960 --> 00:06:42,540
This is Ashraf from educational engineering team.