1
00:00:12,530 --> 00:00:12,950
Hello.

2
00:00:13,100 --> 00:00:15,030
In this tutorial, we will take a look.

3
00:00:15,080 --> 00:00:16,520
One more thing.

4
00:00:16,820 --> 00:00:23,480
This is the diagnostics, the controller and engineer diagnostics into the priority control.

5
00:00:23,720 --> 00:00:27,020
You can run your system, OK, you can hear the voice.

6
00:00:27,260 --> 00:00:30,750
According to this diagram, you can change these parameters.

7
00:00:31,400 --> 00:00:32,750
And you can make stop.

8
00:00:32,990 --> 00:00:36,690
And then you can change, for example, like a 10.

9
00:00:37,000 --> 00:00:44,900
OK, you can say, OK, you can write it to the BFD, OK, and then you can start again.

10
00:00:45,110 --> 00:00:45,710
Like that?

11
00:00:45,950 --> 00:00:50,920
And you can check your system reactions.

12
00:00:50,960 --> 00:00:51,410
OK?

13
00:00:51,440 --> 00:00:59,540
I will make it stop because of there is no real system like, uh, uh, again, before I say like a

14
00:00:59,540 --> 00:01:05,600
hydra for like pipes under pressure control or liquid control like that, OK?

15
00:01:05,630 --> 00:01:12,930
It is not possible to find complete parameters and how it is reacting according to our diagnostics and

16
00:01:12,960 --> 00:01:15,590
general diagnostics are also including this OK.

17
00:01:16,460 --> 00:01:25,730
Pity if the signal keep Chiquita proportional integral and that they're able to control parameters and

18
00:01:25,730 --> 00:01:28,340
also the output limit and feedback gains.

19
00:01:28,340 --> 00:01:32,330
OK, you can adopt them all via engineered diagnostics.

20
00:01:32,330 --> 00:01:32,660
OK?

21
00:01:32,870 --> 00:01:35,300
We have this solved is like that.

22
00:01:35,630 --> 00:01:41,210
If you wonder anything or if you want to ask a question, you can ask me a question immediately.

23
00:01:41,390 --> 00:01:43,490
See you in the next tutorials.