Initial Commit

This commit is contained in:
Abhijit Kshirsagar Kshirsagar 2022-04-19 13:05:25 +05:30
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Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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PCB(board)-50
Soldering lead-70
Assembly-1109
Fabrication-1910
LED-14
Resistor 10k-2
Resistor 1k-2
Resistor 30k-2
Resistor 110k-2
Power regulator-60
NPN transistor-16

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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A modern power supply is
essentially a DC-DC converter.
Therefore it first rectifies
the AC power from the wall
into DC.The nice thing about
Such a converter, is that it
can take a whole range of
input voltages and still
Output a constant 12v for our
Pc components.A cheaper power
Supply might use cheaper parts
in the primary side, which is
Why it will only be rated for
200-250v.

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Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

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PCB(board)-50
Soldering lead-70
Assembly-1109
Fabrication-1910
LED-14
Resistor-10k-2
Resistor-1k-2
Resistor-30k-2
Resistor-110k-2
Capacitor-1nano farad(C102)-2
Power regulator-60
NPN transistor-16

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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Components:
555 Timer IC
BC547 NPN Transistor
1k 0.25-watt Resistors
22k 0.25-watt Resistors
180k 0.25-watt Resistor
1M 0.25-watt Resistors
LED 1.5V 5-mm
1N4007 Diode
100nF (104) Capacitor
12V SPDT Relay
Connectors & IC base
Zero PCB or card board

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Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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Industrial Design Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Show (with labelled and dimensioned sketches) how your product will look (in the final form) as delivered to the end user. Include the enclosure, mounting etc as necessary.
* Explain in a few words what the enclosure is made of.

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Complete your entire design in Kicad, including:
* Circuit / schematic design:
* Make sure to assign the appropriate values / ratings for each component. When you select components make sure they exist on a commercial electronic platform (e.g. some are listed here: https://gitea.iitdh.ac.in/PEG/PEG-Wiki/wiki/PurchasingComponents)
* Assign appropriate footprints to each component
* Make sure to run the Electrical Rule Checker before moving to the layout.
* PCB Layout design
When you are done, export the design as a SINGLE ZIP FILE (File > Archive) and then upload the zip file here. 

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Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

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6 x 8 cm Universal PCB Prototype Board Double-Side X 1 - Rs. 49 ( pcb fabrication)
assembly Rs 0.8 per board
100nF capacitor - Rs. 3
NE555DR - Rs. 10 (approx.)
Resistor - approx Rs 2 , each . total: Rs. 14
12v relay (EC-6576) - Rs. 67
BC547: Rs. 3.72, 1N4007 - Rs 1.13
PCB Box Plastic Enclosure: 100 per prototype
Led 3mm X 5mm Rs. 17.88
Board Size (mm): 106 X 42
PCB Fabrication : Rs 894
PCB Assembly: Rs 1918
Board Thickness (mm): 1.6mm 2 layers
Surface finish: HAL lead-free
Total cost of two prototypes: Rs 5907 /- (approx.)

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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Industrial Design Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Show (with labelled and dimensioned sketches) how your product will look (in the final form) as delivered to the end user. Include the enclosure, mounting etc as necessary.
* Explain in a few words what the enclosure is made of.

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Complete your entire design in Kicad, including:
* Circuit / schematic design:
* Make sure to assign the appropriate values / ratings for each component. When you select components make sure they exist on a commercial electronic platform (e.g. some are listed here: https://gitea.iitdh.ac.in/PEG/PEG-Wiki/wiki/PurchasingComponents)
* Assign appropriate footprints to each component
* Make sure to run the Electrical Rule Checker before moving to the layout.
* PCB Layout design
When you are done, export the design as a SINGLE ZIP FILE (File > Archive) and then upload the zip file here. 

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Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

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Please look at exel sheet uploaded in the last question
The uploaded sheet may have some issues due to sheets-exel conversion so please refer to the link
sheets link:
https://docs.google.com/spreadsheets/d/1AprGaciXm09LeOWvp2QEofeByYA_MI5t7lMScfl2eMk/edit?usp=sharing

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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Industrial Design Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Show (with labelled and dimensioned sketches) how your product will look (in the final form) as delivered to the end user. Include the enclosure, mounting etc as necessary.
* Explain in a few words what the enclosure is made of.

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Complete your entire design in Kicad, including:
* Circuit / schematic design:
* Make sure to assign the appropriate values / ratings for each component. When you select components make sure they exist on a commercial electronic platform (e.g. some are listed here: https://gitea.iitdh.ac.in/PEG/PEG-Wiki/wiki/PurchasingComponents)
* Assign appropriate footprints to each component
* Make sure to run the Electrical Rule Checker before moving to the layout.
* PCB Layout design
When you are done, export the design as a SINGLE ZIP FILE (File > Archive) and then upload the zip file here. 

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Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

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around 6000 (INR)on rough estimate  + cost of fitting.
We exclude cost of pump.
And I dont know why my PCB is not loading from semantic and its staying blank probably due to something I added in semantic but its passing the tests.
Hoping that is considered partially and you can also try that as I could not figure out the issue.

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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@ -0,0 +1,4 @@
Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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@ -0,0 +1,3 @@
Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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@ -0,0 +1,4 @@
Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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@ -0,0 +1,3 @@
Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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Complete your entire design in Kicad, including:
* Circuit / schematic design:
* Make sure to assign the appropriate values / ratings for each component. When you select components make sure they exist on a commercial electronic platform (e.g. some are listed here: https://gitea.iitdh.ac.in/PEG/PEG-Wiki/wiki/PurchasingComponents)
* Assign appropriate footprints to each component
* Make sure to run the Electrical Rule Checker before moving to the layout.
* PCB Layout design
When you are done, export the design as a SINGLE ZIP FILE (File > Archive) and then upload the zip file here. 

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Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

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Components:
Since most of the components are bought through mouser shipping and custom charges will be included extra. (Assuming 30% extra then material cost given in online store) = 6930 Rs. (and 40% of the cost is just 2 arduinos, Lol chip shortage is real)
PCB Printing:
I used pcbway estimator to calculate the cost (https://www.pcbway.com/HighQualityOrderOnline.aspx)
My board is 58mm x 38 mm, 2 layer => $ 116 ~ Rs 8900
Assembly:
All the components are either through hole or 0805 package, hence it can he hand soldered. Assuming this assembly charges will be only the soldering lead and consumables used. Hence  Rs.250 can be accounted for assembly.
Miscellaneous costs: (transport and other stimulus need) Rs 1000 
Total Cost for 2 prototypes = Rs. 17080

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You need to make two prototypes of your product. Estimate how much it might cost to build two prototypes (give a breakup of cost across components, PCB, assembly, fabrication, etc).

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@ -0,0 +1,4 @@
Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

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@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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@ -0,0 +1,3 @@
Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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@ -0,0 +1,3 @@
Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

View File

@ -0,0 +1,4 @@
Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

View File

@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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@ -0,0 +1,3 @@
Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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@ -0,0 +1,5 @@
Industrial Design Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Show (with labelled and dimensioned sketches) how your product will look (in the final form) as delivered to the end user. Include the enclosure, mounting etc as necessary.
* Explain in a few words what the enclosure is made of.

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@ -0,0 +1,12 @@
Complete your entire design in Kicad, including:
* Circuit / schematic design:
* Make sure to assign the appropriate values / ratings for each component. When you select components make sure they exist on a commercial electronic platform (e.g. some are listed here: https://gitea.iitdh.ac.in/PEG/PEG-Wiki/wiki/PurchasingComponents)
* Assign appropriate footprints to each component
* Make sure to run the Electrical Rule Checker before moving to the layout.
* PCB Layout design
When you are done, export the design as a SINGLE ZIP FILE (File > Archive) and then upload the zip file here. 

View File

@ -0,0 +1,3 @@
Upload the Bill of materials (BOM) spreadsheet as a single XLS file. The spreadsheet should contain the following columns, at a minimum:
* Reference designation * Part number * Value / Ratings

View File

@ -0,0 +1,4 @@
Design Summary (add text in the box below or upload a PDF)
Explain how you approach this design problem.
Include your assumptions, trade-offs, with any and all design choices you make.

View File

@ -0,0 +1,3 @@
Upload the block diagram of the system you have designed as a single PDF.
Hand drawn diagram is acceptable - just make sure it is neat and clearly labelled. Mark all interfaces. Make sure to include suitable power supply/supplies.

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@ -0,0 +1,3 @@
Power Supply Summary (add text in the box below or upload a PDF. Handwritten+scanned is acceptable as long as it is neat and legible.)
* Explain your choice of your power supply. * Explain how your power supply works. Include circuit diagrams, waveforms and graphs as needed.

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