ESim/C2/PCB-Layout-for-Astable-Multivibrator/English
PCB Layout for Astable Multivibrator
Author: Saurabh Bansode
Keywords: video tutorial, eSim, EDA, schematic, footprints, Design, ngspice, kicad, analysis, PCB, Gerber
Visual cue
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Narration
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Opening Slide |
Welcome to the spoken tutorial on “PCB Layout for Astable Multivibrator”. |
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Learning Objectives |
In this tutorial, we will learn to -* Create a PCB layout for an Astable Multivibrator and
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Systems Requirements
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To record this tutorial, we will use-* Ubuntu Linux OS 16.04
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Prerequisites |
To practice this tutorial, you should know to:* Create a Schematic in eSim.
If not, please see the prerequisite tutorials on this website. |
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Earlier in this series |
Earlier in this series, we learnt how to* Create a Schematic
I am going to reinforce the idea with the example of an Astable Multivibrator.
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<<FAST-FORWARD>> | A considerable part of this activity has been fast forwarded.
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Download Code Files |
The partially made layout is available in the Code files link.
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eSim Main Window:
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Now launch eSim.
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eSim Main Window:
Click on Open Schematic button from left toolbar. |
Click on Open Schematic button on the left toolbar. |
Schematic editor window:
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The schematic for Astable Multivibrator opens up.
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Pcbnew Layout Editor window opens up. | |
Pcbnew window:
Hover cursor over tracks placed |
I have already placed tracks for most of the airwires.
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Pcbnew window:
Hover mouse over B.Cu text >> Click on B.Cu text |
Under the Layer tab on the right side of the Pcbnew window, click once on B.Cu. |
Pcbnew window:
Click on Place >> select Track |
Click on Place button in the top toolbar and then select Track from the menu. |
Pcbnew window:
Zoom into the Layout editor using F1 key or using your scroll key of the mouse.
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Zoom into the Layout editor using the F1 key.
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Pcbnew window:
Click on node 1 of C1 >> Drag the cursor till node 2 of LED1>> Double click on node 2 of LED1 |
Click on node 1 of C1.
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Now let us place a ground plane to connect all the ground nodes. | |
Pcbnew window:
Click on Add filled zones. |
Click on the Add filled zones button on the right of the Pcbnew window. |
Pcbnew window:
Click once, slightly above the top-left corner of the board outline. |
Click once, slightly above the top-left corner of the board outline. |
Copper Zone Properties window:
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Now, let’s place the ground plane on the Bottom Copper layer.
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Click on OK | Click on the OK button at the bottom right corner of the Copper Zone Properties window. |
Pcbnew window:
Drag the cursor towards right, horizontally
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Drag the cursor with the pencil icon horizontally towards the right.
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Pcbnew window:
Move the cursor vertically towards the bottom-right vertex of the board >> Click once on the editor after crossing the bottom-left vertex. |
Let us move this cursor vertically, towards the bottom-right vertex of the board.
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Pcbnew window:
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We shall now finish drawing a rectangular ground plane outline.
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Pcbnew window:
Hover cursor over ground plane outline >> Hover cursor over ground plane outline and board outline. |
I have finished the ground plane outline.
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Pcbnew window :
Right-click inside the board outline.
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Right-click inside the board outline.
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Press Esc key | Press Esc key to exit the Add filled zones tool. |
Let us now perform Design Rule Check i.e DRC, for the layout we created. | |
Pcbnew window:
Click on Perform design rules check |
Click on Perform Design Rules check present at the top of the Pcbnew toolbar. |
DRC Control window:
Click on Start DRC
Highlight the messages window |
Click on Start DRC.
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DRC Control window:
Click OK |
Click the OK button at the bottom right corner, to exit the DRC Control window. |
Pcbnew window:
Press Ctrl and S key together |
Let us press Ctrl and S keys together to save our work.
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Pcbnew window:
Click on Plot(HPGL, PostScript or Gerber format) icon |
Click on the Plot button at the top of the Pcbnew toolbar. |
Plot window:
Click on the tab below : Plot format. >> select Gerber. >> Hover mouse over Layers tab >> Click on boxes to the left of B.Cu, F.Silks and Edge.Cuts layers from the provided layer options. |
Click on the tab below Plot format and select Gerber out of the 6 options.
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Plot window:
Click on the Browse button |
Click on the Browse button at the top right of Plot window. |
Select Output Directory window:
Browse to desired directory >> Click on Desktop>>double click on ASM_PCB
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Let us navigate to the desired directory where we wish to save the gerber files.
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Text box on the Plot Window:
Select the other options as shown here |
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Plot window:
Click on Plot button at the bottom |
Now click on the Plot button at the bottom of the Plot window. |
Messages window:
Hover cursor over the messages in the Messages window |
Acknowledgement messages will appear in the Messages window. |
Next, let us generate the drill file in gerber format for our designed board. | |
Plot window:
Click on Generate Drill File |
Click on Generate Drill File at the bottom of the Plot window. |
Drill File Generation window:
Select the Millimeters option from the Drill Units section.
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Select the Millimeters option from the Drill Units section.
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Text box on the Drill Files Generation Window:
Select the other options as shown here |
We will leave the rest of the settings as they are. |
Drill Files Generation window:
Click on Drill File |
Click the Drill File option at the right of the Drill Files Generation window. |
Drill Files Generation window:
Hover mouse over Messages window |
An acknowledgement message will appear in the Messages window. |
Drill Files Generation window:
Click on Close |
Click the Close button at the bottom right corner of Drill Files Generation window. |
Plot window:
Click on Close |
Click the Close button at the bottom right corner of the Plot window. |
Pcbnew window:
Press Ctrl and S key at the same time. |
Let us save our work by pressing Ctrl and S keys simultaneously. |
System Computer:
Windows OS users, click on start -> type “Gerbview” in the search bar and open the Gerbview application |
Now we will view the gerber files created.
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Terminal :
Type gerbview >> Press Enter |
Type gerbview and press the Enter key. |
Gerbview window :
Click on File>> select Load Gerber File |
Click on File at the top left corner, and select Load Gerber File option. |
Open Gerber File window :
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Let us browse to the directory where we had saved our gerber files.
double-click on ASM_PCB. |
Press Ctrl and A keys at the same time.
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Press Ctrl and A simultaneously to select all the gerber files.
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Gerbview window :
Hover mouse over the PCB layout in Gerber Format |
We can see the PCB Layout that we created in Gerber format. |
Let us summarize. | |
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Summary |
* Create a PCB layout for an Astable Multivibrator.
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Forum |
Please post your timed queries in this forum. |
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FOSSEE Forum |
Please post your general queries on eSim in this forum. |
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Lab Migration |
FOSSEE team coordinates the Lab Migration project. |
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Circuit Simulation Project |
FOSSEE team coordinates the Circuit Simulation Project. |
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Acknowledgment
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Spoken Tutorial Project is funded by NMEICT, MHRD, Govt. of India.
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Previous slide
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This is _________ from IIT Bombay, signing off.
Thank you.
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