1
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Hello, in this studio, we will continue with the digital output and inputs and also analog outputs.

2
00:00:13,380 --> 00:00:14,560
OK, we will check once.

3
00:00:14,780 --> 00:00:16,520
Will it work or not?

4
00:00:16,550 --> 00:00:18,990
First of all, I will make my p.l.c. to run.

5
00:00:19,030 --> 00:00:21,380
OK, now we are at the wrong situation.

6
00:00:21,550 --> 00:00:23,890
And let's check once to this stage.

7
00:00:23,910 --> 00:00:24,550
That's OK.

8
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Output zero point zero and I will make set on so you can see that is active.

9
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So we have an output from the output zero and again set off OK and set on and set off.

10
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OK, so this is working.

11
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This is the first thing.

12
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And another important thing for these CPUs, I will make online it in here and the next section and

13
00:00:52,070 --> 00:00:54,570
let's make it to fifty, first of all.

14
00:00:54,770 --> 00:00:59,610
Normally we were using LDA and one thousand but now it's changed.

15
00:00:59,630 --> 00:01:07,820
OK, so if we go to devise a command list and in here you will see some area at some 400.

16
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Let's go a little bit back, back, back.

17
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OK, in here, always on flat is a four 400 always awful I guess.

18
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Four hundred and one.

19
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OK, so also what we learned is our one hundred seventy two.

20
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Let's go to that.

21
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And you will see in here.

22
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OK, let's read it.

23
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Make a little bit bigger than you will see.

24
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This is Channel two, OK, this is Channel one input, and this is Channel one for the output channel

25
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to analog output.

26
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So we will use our 172 and I will make it close it like that.

27
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And I am four hundred, OK, and always move more and 200 or two thousand four.

28
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Two thousand forty eight.

29
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OK, this is 12.

30
00:02:02,170 --> 00:02:03,590
So this is Tannenwald.

31
00:02:03,640 --> 00:02:04,820
So what will I do.

32
00:02:05,200 --> 00:02:07,030
I will say to here for example.

33
00:02:07,210 --> 00:02:11,670
Five hundred to that are 172.

34
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OK, this is the first thing and then let's send it and update the program line and OK.

35
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And uptake is completed so now I will get my multimeter

36
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ok.

37
00:02:28,460 --> 00:02:37,580
My multimeter is here and then now we are reading Zero World, OK, and now what will I do?

38
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I will put my one prop to analog output, one OK, and another prop to minus.

39
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Let's head up this area.

40
00:02:51,130 --> 00:03:01,000
So now it is OK and you will see two or two of these output OK as analog output, and let's change it

41
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to, for example, to the props are not correct for the minus and plus, I will put it to one side and

42
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also another one.

43
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OK, then you can see two and three world and I will change the value, it is five hundred now.

44
00:03:20,960 --> 00:03:28,880
I will change here to one thousand and I will send it OK and update the program line and then you will

45
00:03:28,880 --> 00:03:30,930
see it is five analog output.

46
00:03:30,950 --> 00:03:36,560
OK, if I say two here, one thousand five hundred seven point five OK.

47
00:03:36,800 --> 00:03:46,640
Or seven to eight and you will say OK, it is working correctly and if I send two thousand ok what will

48
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happen.

49
00:03:47,030 --> 00:03:47,270
Ten.

50
00:03:47,280 --> 00:03:48,590
What is analog output.

51
00:03:48,770 --> 00:03:52,190
And we can read them all of it like that from the analog input.

52
00:03:52,430 --> 00:04:00,980
And this is how can we use OK in here just direct connection to analog output and we can read the analog

53
00:04:00,980 --> 00:04:01,730
output for you.

54
00:04:01,880 --> 00:04:11,120
So this is in a series how can we write to unlock value analog output value and how can we activate

55
00:04:11,300 --> 00:04:13,540
in our output?

56
00:04:13,700 --> 00:04:16,730
If I say to here is zero point zero, what will happen.

57
00:04:16,730 --> 00:04:20,030
Input zero is octave so analog.

58
00:04:20,030 --> 00:04:23,770
I'm sorry, the digital output zero will be also active.

59
00:04:23,810 --> 00:04:33,080
OK, so this is the structure of the eight two hundred eighteen peaks, a serious CPU's in Delta and

60
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we will do an advanced instructions.

61
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Also we will use advanced instructions and we will do advanced applications in the next tutorials and

62
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finished for this video.

63
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See you in the next video.