3D Printed Circuit Board: Difference between revisions

Revision as of 23:08, 2 April 2019

Method 1 - 3D print serves as resist on copper clad board, which is then etched in standard fashion.
Method 2 - Solderless version uses conductive paint. 3D print conduits for conductive paint, put components into small holes on other side, bending leads for good contact. Resistivity of the commercial conductive paint is 1 ohm per inch - workable for logic circuits but not power circuits above 1A. Instructable - [1]. Compare to resistance of copper, perhaps 1000x less? [2]

Revision as of 22:51, 2 April 2019 (view source) Marcin (talk \| contribs) (Created page with "*3D print serves as resist on copper clad board, which is then etched in standard fashion.")		Revision as of 23:08, 2 April 2019 (view source) Marcin (talk \| contribs) No edit summary Newer edit →
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	*3D print serves as resist on copper clad board, which is then etched in standard fashion.		#Method 1 - 3D print serves as resist on copper clad board, which is then etched in standard fashion.
			#Method 2 - Solderless version uses conductive paint. 3D print conduits for conductive paint, put components into small holes on other side, bending leads for good contact. Resistivity of the commercial conductive paint is 1 ohm per inch - workable for logic circuits but not power circuits above 1A. Instructable - [https://www.instructables.com/id/3D-Printing-3D-Print-A-Solderless-Circuit-Board/]. Compare to resistance of copper, perhaps 1000x less? [https://www.electronics-tutorials.ws/resistor/resistivity.html]