Scilab/C4/Calling-User-Defined-Functions-in-XCOS/Gujarati
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Time | Narration |
00:01 | Welcome to the spoken tutorial on Calling user-defined functions in Xcos. |
00:07 | In this tutorial we will learn: |
00:09 | * To write a squaring function in Scilab |
00:12 | * To use the scifunc block in Xcos |
00:15 | * To use MUX block to draw multiple plots |
00:19 | * To call functions having multiple inputs and outputs. |
00:24 | Ubuntu 12.04 is the operating system used with Scilab version 5.3.3 installed. |
00:32 | You should have basic knowledge of Scilab, |
00:35 | basic knowledge of Xcos. |
00:38 | If not, for relevant tutorials, please visit spoken hyphen tutorial dot org. |
00:44 | Start Scilab on your computer. |
00:47 | In the Scilab console, type editor and press Enter. |
00:53 | Then type the following code: |
00:55 | function space y is equal to squareit open bracket a close bracket. |
01:07 | Press the Enter key and type: |
01:10 | y is equal to a raise to 2 |
01:14 | put a semicolon in the end. |
01:17 | The function has one input variable a and one output variable y. |
01:24 | The name of the function is squareit. |
01:27 | This function will do the job of squaring the variable a. |
01:31 | It will store the result in y. |
01:34 | Let us save this file in the desired directory. |
01:38 | I will save this file with file name squareit and extension .sci. |
01:44 | Here we are following the convention of saving functions in .sci format. |
01:50 | Switch to the Scilab console. |
01:53 | Now, type Xcos and press Enter. |
01:57 | Two windows will open, |
01:59 | a Palette browser and an Untitled Xcos window. |
02:04 | Now we will make the Xcos diagram. |
02:06 | This will access the function squareit created just now. |
02:10 | This can be done by using scifunc block. |
02:14 | Switch to the Palette browser window. |
02:17 | Click on the User-Defined function in the pallet browser. |
02:21 | Locate the block scifunc_block_m in this section. |
02:27 | Drag and drop it in untitled Xcos window. |
02:32 | I will zoom the untitled Xcos window for better view. |
02:36 | I will use the Zoom button as you see. |
02:40 | Now double click on the scifunc block to configure it. |
02:44 | A window named Scilab Multiple Values Request will open. |
02:49 | This window will allow you to change the number of input and output ports of the scifunc block. |
02:56 | Our function squareit has only one input and output variable. |
03:00 | Hence, we will keep the settings unchanged. |
03:03 | Click on OK. |
03:05 | A new Scilab Input Value Request window will open. |
03:09 | In the text box, type the function name along with input and output variables. |
03:14 | This function will be called by the scifunc block. |
03:18 | In the text box available, |
03:20 | edit the default function name. |
03:22 | Type y1 equal to squareit open bracket u1 close the bracket. |
03:31 | Note that here the input and output variables are u1 and y1 respectively. |
03:37 | These should be strictly in u and y form and not as per the variable names used in the actual function. |
03:45 | Cick on OK. |
03:47 | Another Scilab Input Value Request window will open. |
03:51 | Keep clicking on OK in the subsequent 3 windows that will appear. |
03:56 | The scifunc block is now configured. |
04:00 | Next we will include a sinusoid generator block. |
04:04 | In the Palette browser window, click on Sources section. |
04:08 | Drag and drop the Sinusoid generator block in Untitled Xcos window. |
04:14 | Place the block towards the left of the scifunc block, for convenience. |
04:20 | Now we need a block to plot the output variable. |
04:23 | In the Palette browser window, click on the Sinks section. |
04:29 | Drag and drop the CScope block in the Untitled Xcos window. |
04:34 | Place the block towards the right of the scifunc block. |
04:38 | Place it away from scifunc block, for convenience. |
04:43 | Notice that the CScope block has a red input port. |
04:47 | This is an event input. |
04:49 | we need an event generator block. |
04:52 | In the Palette browser window, click on Sources section. |
04:57 | Drag and drop the CLOCK underscore c block in the Untitled Xcos window. |
05:05 | Place it above the CScope block. |
05:08 | Notice that the CScope block has only one input port. |
05:13 | But we want to plot both the input and output variables in a single plot window. |
05:18 | Hence, we need a multiplexer block. |
05:22 | This block will multiplex two inputs and generate output on one output port. |
05:28 | In the Palette browser window, click on Signal Routing section. |
05:33 | Drag and drop the MUX block in the Untitled Xcos window. |
05:39 | Place the block between the scifunc block and CScope block. |
05:43 | Let me resize and realign the Mux block. |
05:47 | Now, let us connect the blocks together. |
05:51 | Connect the output port of Sinusoid generator block to the input port of scifunc block. |
05:57 | Now connect the output port of scifunc block to the lower input port of the MUX. |
06:04 | Connect the output port of MUX block to the input port of CScope block. |
06:10 | Connect the output port of CLOCK underscore c block to the event input port of CScope block. |
06:19 | We also have to plot the sine input. |
06:22 | We have to connect the Sinusoid generator block to the MUX. |
06:26 | Click on the upper input port of the MUX block. |
06:30 | Then without releasing, move your mouse pointer towards the link between the Sinusoid generator block and scifunc block. |
06:39 | To bend the link, release the mouse button or click at places. |
06:44 | As you bring the pointer on the link, the link turns green. |
06:49 | Release the mouse button or click once to create a link between these two blocks. |
06:55 | Now let us see the configuration of other blocks. |
06:59 | We can change the frequency, magnitude and phase of the sinusoid generator block. |
07:04 | To do this, double click on the Sinusoid generator block. |
07:09 | The configuration window will open. |
07:11 | We will keep the Magnitude and Frequency as 1 and Phase as 0. |
07:18 | Click on OK to close the configuration window. |
07:21 | Now let us configure the CScope block. |
07:25 | Double click on the CScope block to open its configuration window. |
07:30 | Change the Ymin parameter to minus 2 and Ymax parameter to 2. |
07:37 | Change the Refresh period value to 10. |
07:41 | Make a mental note of this value. |
07:44 | Change the Buffer size value to 2 . |
07:47 | click on OK. |
07:50 | Now let us configure the CLOCK_c block. |
07:54 | Double click on the block to open its configuration window. |
07:58 | Keep the value of Period as 0.1. |
08:02 | Change the Initialisation Time to be 0. |
08:06 | Click on OK. |
08:08 | Now let us change the Simulation parameters. |
08:12 | On the menu bar of the Untitled Xcos window click on the Simulation tab. |
08:17 | Now click on Setup from the drop down menu. |
08:22 | Change the Final Integration time to match the Refresh period of CScope block. |
08:28 | The value of Refresh period was 10. |
08:32 | Hence, put the value of Final integration time as 10. |
08:36 | Click on OK. |
08:38 | Now, click on File and then click on Save to save the Xcos diagram. |
08:44 | Choose a desired directory to save the Xcos diagram. |
08:48 | However, it is advised to save it in the folder where you have saved the squareit.sci file. |
08:56 | Click on OK. |
08:58 | Note that the scifunc block will call the squareit function. |
09:02 | This means that we should first load the squareit function before we execute the Xcos diagram. |
09:09 | Switch to the Scilab editor window, which has the squareit.sci file open. |
09:16 | Click on the Execute button available on the menu bar of the editor. |
09:21 | This will load the squareit function. |
09:24 | Now we can execute the Xcos diagram. |
09:28 | Open the Xcos diagram file. |
09:31 | Click on the Start button available on the menu bar of Xcos window. |
09:37 | A graphic window will appear. |
09:39 | This window will have two plots. |
09:42 | Input sine wave in black color and output sine wave in green color. |
09:47 | Notice that the squaring function implemented in the squareit function, has indeed squared the input sine wave. |
09:55 | Hence, the output sine wave has been shifted to the positive axis. |
10:00 | Close the plot window. |
10:02 | Now, let us see how to edit the scifunc block to call a function which has more than one input and output variables. |
10:10 | Switch to scilab editor window. |
10:13 | Edit the squareit function to have two input and output variables. |
10:19 | Edit the output variable as open square bracket y comma z close the square bracket . |
10:28 | Edit the input variables as open bracket a comma b close bracket. |
10:36 | We will change the function to shift the squared output by 1 unit. |
10:41 | Edit the main function line as: |
10:44 | y is equal to b plus a raise to two put a semicolon in the end. |
10:51 | Also generate an output whose amplitude will be half of the input. |
10:56 | Go to next line by pressing Enter key and type: |
11:01 | z is equal to 0.5 multiplied by a put a semicolon in the end. |
11:10 | Now save the file. |
11:12 | Switch to the Xcos window. |
11:15 | Double click on the scifunc block to configure it. |
11:19 | In the input port size field, put a semi colon after 1 comma 1 and type 1 comma one again. |
11:27 | Similarly, in the output port size field, put a semi colon after 1 comma 1 and type 1 comma 1 again. |
11:36 | Click on OK. |
11:38 | A new Scilab Input Value Request window will open. |
11:41 | In the text box, |
11:43 | put a comma after y1 and type y2, |
11:48 | put y1 and y2 in square brackets, |
11:52 | now put a comma after u1 and type u2. |
11:57 | Click on OK. |
11:59 | Another Scilab Input Value Request window will open. |
12:03 | Keep clicking on OK in the subsequent 3 windows that will appear. |
12:08 | The scifunc block is now configured. |
12:11 | Let me realign the scifunc block. |
12:14 | Switch to the Palette browser window. |
12:17 | In the Sources section, drag and drop the Constant underscore m block in the Xcos window. |
12:24 | Place it below the Sinusoid generator block. |
12:28 | Connect the Constant underscore m block to the lower input of the scifunc block. |
12:36 | The default value of this block is 1. |
12:39 | Keep it unchanged. |
12:41 | Double click on the MUX block. |
12:44 | Change the input port size to 3. |
12:47 | Click on OK. |
12:48 | Let me resize the MUX block and I will connect MUX and CSCOPE block properly. |
12:59 | Connect the lower output port of the scifunc block to the lower input port of MUX block. |
13:07 | Click on File and choose Save to save the xcos file. |
13:12 | Switch to the Scilab editor which has the squareit.sci file open. |
13:18 | Click on the Execute button available on the menu bar of the editor. |
13:23 | This will load the squareit function. |
13:26 | Now we can execute the Xcos diagram. |
13:30 | Click on the Start button available on the menu bar of the Xcos window. |
13:35 | A graphic window will appear. |
13:38 | This window will have three plots. |
13:40 | Input sine wave in black color, |
13:43 | output sine wave in green color and |
13:45 | amplitude scaled input in red colour. |
13:49 | Notice that the function has indeed squared the input sine wave and also shifted it by an offset of 1 unit, which is as expected. |
13:59 | We also get the amplitude scaled of the input sine wave, as expected. |
14:05 | Close the plot window. |
14:08 | Now let us summarize. |
14:10 | In this tutorial we learnt: |
14:12 | * To write a squaring function in Scilab |
14:15 | * To use the scifunc block in Xcos |
14:19 | * To use MUX block to draw multiple plots |
14:22 | * To call functions having multiple input and output. |
14:26 | Watch the video available at the following link. |
14:29 | It summarizes the Spoken Tutorial project. |
14:33 | If you do not have good bandwidth, you can download and watch it. |
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15:05 | More information on this mission is available at spoken-tutorial.org/NMEICT-Intro. |
15:15 | Thank you for joining. Hope you found this tutorial useful. |
15:19 | This is Anuradha Amruthkar from IIT Bombay, signing off. |