https://wiki.opensourceecology.org/api.php?action=feedcontributions&feedformat=atom&user=S+OberloierOpen Source Ecology - User contributions [en]2026-05-05T09:31:44ZUser contributionsMediaWiki 1.39.13https://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=167797Shane Log2018-03-15T12:43:58Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
<br />
<html><iframe width="520" height="280" src="https://osedev.org/wiki/shane"></iframe></html><br />
=Wen Mar 15, 2018=<br />
Fixed Backlash compensation. As always - most updated code can be found here. https://github.com/ShaneOberloier/gcode_leveler<br />
<br />
=Mon Mar 5, 2018=<br />
Spindle Failure mode addressed.<br />
http://opencircuitinstitute.org/content/configure-circuit-mill-development-log-spindle-dropping-auto-probing-and-z-axis-failure-mode<br />
=Sat Mar 3, 2018=<br />
Review of performance:<br />
*Defending Master's thesis - this summer<br />
*Spring for the CNC Circuit mill - put 4 around the rods - weight is about 1 kg, so force constants of 4 springs at 250 g per inch<br />
*Issue resolved - slip of motor - just put a single rubber band on the circuit mill<br />
*Start time sheet - <br />
*Wood backing - appears to be not needed<br />
*Spindle slip from holder - fixed with rubber bands. <br />
*Larger motor driver fixed z motors slipping slightly down<br />
*Software screenshot - http://opencircuitinstitute.org/content/oci-copper-carve<br />
*Hardware - https://www.youtube.com/watch?v=lcineYCNqX0&feature=youtu.be<br />
*Do 1/4" plate, otherwise would have to test a thinner plate<br />
*Do a 3D printed enclosure for all electronics?<br />
*Plan on a good manual - Scribus<br />
*Revenue models - on-demand printing of Manual + information products<br />
*http://opencircuitinstitute.org/content/schematic-design for printer friendly version<br />
*Start using time sheet.<br />
*Feb hours - 30 hours<br />
*[[Current Meeting]]<br />
<br />
=Thu Feb 15 2018=<br />
[http://opencircuitinstitute.org/content/circuit-mill-development-log-z-slip-fixed-promising-results Circuit Mill Development Log: Z Slip Fixed - Promising Results] Fixed Z slippage - and some other findings to optimize milling process<br />
<br />
=Thu Jul 6 2017=<br />
[http://voltfolio.com/main/content/ose-d3d-circuit-mill-steps-mm-calibration OSE D3D Circuit Mill: Steps per mm Calibration]<br />
<br />
=Tue Jun 20 2017=<br />
Assembled all axes for CNC router<br />
<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=167320Shane Log2018-03-05T15:35:50Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
<br />
<html><iframe width="520" height="280" src="https://osedev.org/wiki/shane"></iframe></html><br />
<br />
=Mon Mar 5, 2018=<br />
Spindle Failure mode addressed.<br />
http://opencircuitinstitute.org/content/configure-circuit-mill-development-log-spindle-dropping-auto-probing-and-z-axis-failure-mode<br />
=Sat Mar 3, 2018=<br />
Review of performance:<br />
*Defending Master's thesis - this summer<br />
*Spring for the CNC Circuit mill - put 4 around the rods - weight is about 1 kg, so force constants of 4 springs at 250 g per inch<br />
*Issue resolved - slip of motor - just put a single rubber band on the circuit mill<br />
*Start time sheet - <br />
*Wood backing - appears to be not needed<br />
*Spindle slip from holder - fixed with rubber bands. <br />
*Larger motor driver fixed z motors slipping slightly down<br />
*Software screenshot - http://opencircuitinstitute.org/content/oci-copper-carve<br />
*Hardware - https://www.youtube.com/watch?v=lcineYCNqX0&feature=youtu.be<br />
*Do 1/4" plate, otherwise would have to test a thinner plate<br />
*Do a 3D printed enclosure for all electronics?<br />
*Plan on a good manual - Scribus<br />
*Revenue models - on-demand printing of Manual + information products<br />
*http://opencircuitinstitute.org/content/schematic-design for printer friendly version<br />
*Start using time sheet.<br />
*Feb hours - 30 hours<br />
*[[Current Meeting]]<br />
<br />
=Thu Feb 15 2018=<br />
[http://opencircuitinstitute.org/content/circuit-mill-development-log-z-slip-fixed-promising-results Circuit Mill Development Log: Z Slip Fixed - Promising Results] Fixed Z slippage - and some other findings to optimize milling process<br />
<br />
=Thu Jul 6 2017=<br />
[http://voltfolio.com/main/content/ose-d3d-circuit-mill-steps-mm-calibration OSE D3D Circuit Mill: Steps per mm Calibration]<br />
<br />
=Tue Jun 20 2017=<br />
Assembled all axes for CNC router<br />
<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=166277Shane Log2018-02-16T04:01:38Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
<br />
=Thu Feb 15 2018=<br />
[http://opencircuitinstitute.org/content/circuit-mill-development-log-z-slip-fixed-promising-results Circuit Mill Development Log: Z Slip Fixed - Promising Results] Fixed Z slippage - and some other findings to optimize milling process<br />
<br />
=Thu Jul 6 2017=<br />
[http://voltfolio.com/main/content/ose-d3d-circuit-mill-steps-mm-calibration OSE D3D Circuit Mill: Steps per mm Calibration]<br />
<br />
=Tue Jun 20 2017=<br />
Assembled all axes for CNC router<br />
<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=RF_Transmitter&diff=163249RF Transmitter2018-01-02T01:21:09Z<p>S Oberloier: </p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>RF Transmitter</big></center><br />
|-<br />
|<center>[[Image:RF_Transmitter.png.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/rf-transmitter RF Transmitter]<br />
|-<br />
|'''Input:''' 9V, single ended signal<br />
|-<br />
|'''Output:''' Antenna Output<br />
|}<br />
''This is a design from the Open Circuit Institute. More can be found [http://opencircuitinstitute.org/designs HERE].''<br />
==Description==<br />
A simple Radio Frequency Transmitter. The circuit includes a DC rejection capacitor, input low pas filter, and a resonant circuit for AM modulation. A tunable capacitor is used in order to generate a resonating carrier.<br />
<br />
The design could be built on significantly - perhaps by adding an antenna trace rather than outgoing terminals. Add buffering circuits. Perhaps add input and output amplifiers. Add a simple mixer for an external modulator. The possibilities for extension are endless.<br />
<br />
This design is made with reference to a design in [http://a.co/2XZLZyr Practical Electronics for Inventors, Third Edition]<br />
<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/rf-transmitter http://opencircuitinstitute.org/content/rf-transmitter]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=RF_Transmitter&diff=163248RF Transmitter2018-01-02T01:17:19Z<p>S Oberloier: Created page with "{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px" !<center><big>Non-Inverti..."</p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Non-Inverting Amplifier</big></center><br />
|-<br />
|<center>[[Image:RF_Transmitter.png.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/rf-transmitter RF Transmitter]<br />
|-<br />
|'''Input:''' 9V, single ended signal<br />
|-<br />
|'''Output:''' Antenna Output<br />
|}<br />
''This is a design from the Open Circuit Institute. More can be found [http://opencircuitinstitute.org/designs HERE].''<br />
==Description==<br />
A simple Radio Frequency Transmitter. The circuit includes a DC rejection capacitor, input low pas filter, and a resonant circuit for AM modulation. A tunable capacitor is used in order to generate a resonating carrier.<br />
<br />
The design could be built on significantly - perhaps by adding an antenna trace rather than outgoing terminals. Add buffering circuits. Perhaps add input and output amplifiers. Add a simple mixer for an external modulator. The possibilities for extension are endless.<br />
<br />
This design is made with reference to a design in [http://a.co/2XZLZyr Practical Electronics for Inventors, Third Edition]<br />
<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/rf-transmitter http://opencircuitinstitute.org/content/rf-transmitter]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:RF_Transmitter.png.png&diff=163247File:RF Transmitter.png.png2018-01-02T01:16:02Z<p>S Oberloier: </p>
<hr />
<div></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Non-Inverting_Amplifier&diff=163238Non-Inverting Amplifier2018-01-02T00:56:45Z<p>S Oberloier: Created page with "{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px" !<center><big>Non-Inverti..."</p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Non-Inverting Amplifier</big></center><br />
|-<br />
|<center>[[Image:non_invert_amplifier.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/non-inverting-amplifier Non-Inverting Amplifier]<br />
|-<br />
|'''Input:''' +-36V, single ended signal<br />
|-<br />
|'''Output:''' Amplified Signal<br />
|}<br />
''This is a design from the Open Circuit Institute. More can be found [http://opencircuitinstitute.org/designs HERE].''<br />
==Description==<br />
A simple non-inverting amplifier circuit, built around the famous LM741 op-amp. The gain is settable from 1 to 101. Supply can be up to +-36V. If a negative supply is not available, tie the input to ground.<br />
<br />
Pins on the input side are as follows:<br />
<br />
1. +V supply<br />
2. Signal In<br />
3. Ground<br />
4. -V supply<br />
<br />
Pins on the output side are as follows:<br />
<br />
1. Signal Out<br />
2. Ground<br />
<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/non-inverting-amplifier http://opencircuitinstitute.org/content/non-inverting-amplifier]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:Non_invert_amplifier.png&diff=163237File:Non invert amplifier.png2018-01-02T00:55:41Z<p>S Oberloier: </p>
<hr />
<div></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Friendly_Organizations&diff=163236Friendly Organizations2018-01-02T00:28:00Z<p>S Oberloier: Adding Electronics category</p>
<hr />
<div><noinclude>{{breadcrumb|Organizations}}</noinclude><br />
<br />
Feel free to edit this page or discuss your ideas related to possible partnerships in [http://blog.opensourceecology.org/forum/partnerships/ our forum].<br />
<br />
You can also create a page and add it to the [[:Category: Collaboration Discussions]]<br />
<br />
For related wikis, see [[:Category: Related Wikis]]<br />
<br />
__TOC__<br />
<br />
=Open Source Software=<br />
*Oregon State U - Open Source Lab - [http://osuosl.org/about]<br />
=Open Source Electronics=<br />
*[[Open Circuit Institute]] - A fully open repository of circuit designs in all categories<br />
*Open Circuit Design - http://opencircuitdesign.com/<br />
*http://omni.mcn.org/electriliteb/ - Electric Vehicle, to be developed in the open source<br />
=Misc.=<br />
*Juliet Schor - discusses us in her book, Plenitude: The New Economics of True Wealth. See [http://blog.opensourceecology.org/?p=2081 blog].<br />
*Kevin Carson - [http://www.amazon.com/Homebrew-Industrial-Revolution-Low-Overhead-Manifesto/dp/1439266999 The Homebrew Industrial Revolution] - large section of chapter on OSE<br />
*[http://www.communityfortomorrow.org/ASoundSolution.htm Community for Tomorrow]<br />
*John Robb's [http://globalguerrillas.typepad.com/globalguerrillas/2010/04/starters-universal-mechanical-power-sources.html?cid=6a00d83451576d69e2013485b06f06970c Global Guerillas]<br />
*[http://www.transitionnetwork.org/ Transition Network] - Provides general information on Transition Towns and includes a global directory of initiatives. <br />
*[http://globalguerrillas.typepad.com/ Global Guerrillas] - John Robb's website on "networked tribes, systems disruption, and the emerging bazaar of violence. Resilient Communities, decentralized platforms, and self-organizing futures."<br />
* Jan. 2011 - [http://shareable.net/blog/the-next-net Shareable]<br />
* [http://www.communityfortomorrow.org/ Community of tomorrow]<br />
*[http://www.oceanarks.org/ OceanArks] - Promoting several sustainable technologies, like using plants to clean up polluted water, urban agriculture etc.<br />
*7.25.08 - [http://fabuntu.org/ Fabuntu]<br />
*The Nature of Order - [http://books.google.com/books?id=kZtZ57_nz-UC&printsec=frontcover&dq=strong+centers&source=gbs_summary_r&cad=0*PPA8,M1]<br />
*6.1.08 - [http://madconomist.com/what-if-us-collapses-soviet-collapse-lessons-every-american-needs-to-know Collapse of US Empire]<br />
*6.1.08 - [http://video.google.com/videoplay?docid=3340274697167011147&hl=en Non Peak Oil]<br />
*5.30.08 - [http://inventors.about.com/library/inventors/bljefferson.htm Early OpenFarmTech]<br />
*5.30.08 - [http://www.bloglines.com/ BlogLines]<br />
*5.29.08 - [http://www.plantsciences.ucdavis.edu/ltras/itech/ Open Farm Hardware]<br />
*5.29.08 - [http://algalturfscrubber.com/ Algal Turf Scrubber]<br />
*5.24.08 - [http://www.ted.com/talks/view/id/258 TED talk with Paul Stamets on mycelium]<br />
*5.24.08 - [http://rodaleinstitute.org/about_us Rodale Institute]<br />
*AIDG Business Incubation - http://www.aidg.org/incubation.htm <br />
*Personal Sovereignty Foundation - http://EcoComics.org/personal%20sovereignty%20foundation.html<br />
*Ripple peer money system - http://ripple.sourceforge.net/<br />
*Euclides Mance - Brazil peer economy movement - http://www.solidarius.com.br/mance/index.php?lng=en<br />
*Global directory of environmental technologies - http://www.eco-web.com/<br />
*Project management - http://www.edwardtufte.com/bboard/q-and-a-fetch-msg?msg_id=000076&topic_id=1&topic=Ask%20E%2eT%2e<br />
*Design for Disassembly - http://www.co-design.co.uk/design.htm<br />
*Lakota secede from the Union - http://blogs.usatoday.com/ondeadline/2007/12/lakota-withdraw.html <br />
*The Story of Stuff - http://www.storyofstuff.com/<br />
*Relocalization Network - http://www.relocalize.net/groups<br />
*Jeff Budderer blog on us - http://blog.onevillage.tv/wp/?p=483<br />
*RMI on Factor 10 cost reduction- http://10xe.com/subpages/tunnel.html<br />
*Wired mag on emergency shelter: http://www.wired.com/culture/lifestyle/multimedia/2007/10/gallery_instant_housing?slide=8&slideView=8<br />
*o.design - http://www4.autistici.org/o.design/modules/news/<br />
*Freedom Force - http://www.freedom-force.org/<br />
*[http://freeconferencecalls.com Free conference calls]<br />
*[http://www.ilsr.org/pubs/pubsalist.html Institute for Local Self Reliance]<br />
*Computer Professionals for Social Responsibility - http://www.cpsr.org/about<br />
*Constitution.org on invisible contracts - http://www.constitution.org/mercier/incon.htm<br />
*Anxiety Culture - http://www.anxietyculture.com/contents.htm<br />
*Critical Path primer - http://www.anxietyculture.com/criticalpath.htm<br />
*Mindfully.org- http://www.mindfully.org/About-Mindfully_org.htm<br />
*On distraction - http://www.anxietyculture.com/distract.htm<br />
*Gupta Option - http://guptaoption.com/3.future_islam.php<br />
*http://www.farmcatalog.com/1%60books/voices.aspx<br />
*China is not doing so well, either: http://www.atimes.com/atimes/China/ID18Ad01.html + http://www.opendemocracy.net/democracy-climate_change_debate/article_2407.jsp<br />
*http://en.wikipedia.org/wiki/Long-Term_Capital_Management<br />
*Sunvention - http://www.bsrsolar.com/<br />
*Anil Gupta - http://www.iimahd.ernet.in/~anilg/<br />
*National Innovation Foundation, India - http://nifindia.org/<br />
*State-in-a-Box governance - http://vinay.howtolivewiki.com/blog/hexayurt/my-state-in-a-box-identity-services-architecture-paper-is-now-online-290<br />
*Hacks in all areas- http://www.hackaday.com/2006/11/07/siamese-electric-motors/<br />
*Adam Kumpf @ MIT - http://web.mit.edu/kumpf/www/index.html + [http://web.mit.edu/kumpf/www/kumpf-links.html Inventing Sites]<br />
*Will O'Brien - http://biobug.org/articles/<br />
*Stanford: Entrepreneurial Design for Extreme Affordability - http://extreme.stanford.edu/index.html<br />
*book "Handy Farm Devices and How to Make Them" (1909) http://www.journeytoforever.org/farm_library/device/devicesToC.html[http://www.republicoflakotah.com/about-us/faq/ Republic of Lakotah]<br />
*[http://www.lowtechmagazine.com/ Low Tech Magazine] and [http://www.notechmagazine.com/ No Tech Magazine]<br />
<br />
==Fabrication, makers and hackers==<br />
*[http://vermeulen.ca/product-hacking.html Product hacking]<br />
*OS metal depository, transaction system http://pktp.co.cc/<br />
*FabFolk - http://www.fabfolk.com/<br />
*Mobile Fab Lab - http://mobilefablab.blogspot.com/ <br />
*www.fablabinnova.blogspot.com <br />
*Fab Lab Forum 4 - http://cba.mit.edu/events/07.08.fab/<br />
*[http://fablab.no/ Norway FabLab]<br />
*Fab@Home - http://www.fabathome.org/wiki/index.php?title=Fab%40Home:Overview<br />
*The Multimachine - http://opensourcemachine.org/<br />
*[http://ng.cba.mit.edu/dist/PV.mp4 Fab Lab promo commercial]<br />
*[http://blog.cowtowncomputercongress.org/ Cowtown Computer Congress] - Local Kansas City hackerspace.<br />
*[http://hackerspaces.org/wiki/ Hackerspaces] - Provides general information and a directory of hackerspaces around the world. <br />
**[http://hackerspaces.org/wiki/List_of_ALL_Hacker_Spaces List of all hackerspaces]<br />
*Smari McCarthy, Iceland Fab Lab leader - http://smari.yaxic.org/blag/2007/10/16/an-offer-you-cant-refuse/<br />
*Make Blog - http://blog.makezine.com/<br />
*Instructibles - http://www.instructables.com/<br />
*DIY Life - http://www.diylife.com/<br />
*Ready Made Blog - http://readymade.com/blogs/rmblog<br />
*[http://www.finkbuilt.com/blog/ Finkbuilt], a tinkerer's blog<br />
*[http://www.humblefactory.com/ HumbleFactory] - very innovative ideas for open hardware<br />
<br />
==Food==<br />
*[http://growingpower.org/ Growing Power], based in Chicago and Milwaukee. Educating people about local food systems. Aquaponics, beekeeping, wormeries.<br />
*[http://arkfab.org/ ArkFab]. This seems to have an identical vision to OSE: to create a post-scarcity world thru open-source development of local food systems and digital fabrication. <br />
*[http://cd3wd.com/cd3wd_40/cd3wd/index.htm cd3wd]. 13 gigabytes of information on development for the 3rd world<br />
*Dasagavya: organic growth promoter for plants - http://www.hindu.com/seta/2006/05/18/stories/2006051801921800.htm<br />
* [[Refarm the city]]<br />
* http://www.permaculture.com<br />
* [http://ooooby.ning.com/ Ooooby]<br />
*5.25.08 - [http://permacultureinstitute.pbwiki.com/ Chaordic Permaculture Institute]<br />
*Organic Hydroponic Lettuce Production - http://www.organitech.com/index.php?goto=bep<br />
*[http://www.fao.org/corp/knowledgeforum/en/ FAO knowledge forum]. Huge online collexion of knowledge on farming. [http://www.fao.org/sard/en/init/1574/2225/1846/index.html SARD initiative] focuses on educating people about sustainable agriculture<br />
*[http://carbon.org/ Institute for Simplified Hydroponics]<br />
*[http://www.growingedge.com/magazine/ Growing Edge]<br />
<br />
==Appropriate technology & development==<br />
*[http://www.thefullbellyproject.org/ The Full Belly Project], open-source appropriate technology. Inventors of the universal nut sheller<br />
*[[Appropedia:|Appropedia]], open-content encyclopedia of appropriate technology<br />
*[http://www.tinytechindia.com/ Tiny Tech India], tools for small-scale rural development<br />
<br />
==Building==<br />
*[http://earthship.com/ Earthship Biotecture] - With a background of 40 years of research and development of self-sufficient housing made from recycled materials, Earthship Biotecture focuses on development of Earth friendly and people friendly community living concepts that require little or no mortgage payment and no utility bills.<br />
*[http://hexayurt.com/ Vinay Gupta's Hexayurt] <br />
*[http://www.jeffvail.net/2007/04/mefab-open-architecture-project.html Open Architecture Network] <br />
*Geiger Research Institute of Sustainable Building - http://grisb.org/<br />
*[http://oikos.com/ OIKOS Green Building Sources]<br />
*[http://www.calearth.org/ Cal-Earth] promotes 'superadobe' building<br />
*[http://www.dwell.com/ Dwell Magazine]<br />
*[http://www.domusweb.it/en/op-ed/open-source-architecture-osarc-/ Open Source Architecture manifesto]<br />
<br />
==Open culture==<br />
*P2P Foundation blog on the open economy - http://blog.p2pfoundation.net/what-kind-of-economy-are-we-moving-to-1-overview-of-attention-economy-concepts/2007/10/03<br />
*Open Product Design from Christian Fiebig, Germany - http://opensourceproductdesign.org/<br />
*6.15.08 - [http://hcsoftware.sourceforge.net/jason-rohrer/freeDistribution.html Model beyond copyright]<br />
*Open Source development theory - http://www.guptaoption.com/5.open_source_development.php<br />
*6.15.08 - [http://www.engr.uconn.edu/msl/paper/holonic/paper1.html Holonic Management]<br />
*6.4.08 - [http://givebank.org/projects.html Give Bank Open Source Product Design]<br />
*6.4.08 - [http://onthecommons.org/content.php?id=1942 peer economy emergence - threat or boon?]<br />
*Berkeley Center for Open Innovation - http://openinnovation.haas.berkeley.edu/Home_COI.html<br />
* P2P Foundation [http://p2pfoundation.net/ wiki] and [http://blog.p2pfoundation.net/ blog]<br />
*P2P Economy for business - http://p2peconomy.com/<br />
*Hot off the press (Oct. '07) on physical production - http://www.peerconomy.org/wiki/Main_Page by [http://siefkes.net/ Christian Siefkes, Ph.D.]<br />
*4.9.08 - OS is antidote to planned obsolescence - [[http://www.theinquirer.net/en/inquirer/news/2007/03/28/open-source-the-only-weapon-against-planned-obsolescence]] <br />
*4.9.08 - Design Club - http://opendesignclub.com/index.php/About.html<br />
*Feb. 2011 - Open MythSource: http://openmythsource.com/ - interviewed on the [http://agroinnovations.com/index.php/en_us/multimedia/blogs/podcast/2011/02/episode-121-state-banks-opensource-mythology-and-viralized-transgenics/ Agroinnovations Podcast]<br />
*5.5.2011 - Cultural Creatives: http://culturalcreatives.cc/the-revolution-movie<br />
<br />
==Ecovillages, ashrams and resilient communities==<br />
*[http://dandelionvillage.org/ Dandelion Village] - Based in Bloomington, Indiana, USA - currently using an OSE CEB Press to build a home, more to come<br />
*[http://money.cnn.com/2007/09/26/technology/village_saving_planet.biz2/index.htm Gaviotas revisited]<br />
*[http://www.powerfromthesun.net/jtlylecenter.html J.T. Lyle Center for Regenerative Studies] - an experiment in sustainable living in California<br />
*[http://gen.ecovillage.org/ Global Ecovillage Network] - "The Global Ecovillage Network (GEN) is a growing network of sustainable communities and initiatives that bridge different cultures, countries, and continents. GEN serves as umbrella organization for ecovillages, transition town initiatives, intentional communities, and ecologically-minded individuals worldwide."<br />
*The Farm - http://www.thefarm.org/lifestyle/index.html<br />
*Vigyan Ashram - new education - http://vigyanashram.com/ - vapabal@gmail.com<br />
*[http://www.auroville.org/ Auroville], see [[Auroville Earth Institute]]<br />
*http://www.twinoaks.org/<br />
*[http://www.arcosanti.org/ Arcosanti]<br />
*[http://www.thenzp.com/1_3.aspx The New Z-Land Project] - "The New Z-Land Project's mission is to create a prototype circular city and sustainable community in New Zealand which will subscribe to a Resource Sharing Society."<br />
*[http://resilientcommunities.org/ Resilient Communities] - Blog run by Bob Stilger that focuses on healthy and resilient communities.<br />
*[http://www.nyhistory.com/central/oneida.htm Oneida]<br />
*[http://mtbest.net/ Mt Best], a homestead in Australia. Website has some innovative ideas on energy efficiency etc.<br />
*[http://ecosustainablevillage.com.ip01-web23.net/Village_Maps.htm Eco Sustainable Village], consultants for building sustainable communities<br />
*[http://villageforum.com/ Village Forum] - A website helping people create small communities<br />
*[http://www.tamera.org/index.php?id=66&L=0 Tamera] - "Tamera’s aim is to develop an example of a model for a nonviolent co-existence of people and between people and nature."<br />
*[http://www.berkana.org/ Berkana] - "Berkana and our partners share the clarity that whatever the problem, community is the answer. We prepare for an unknown future by creating strong and sustainable relationships, by wisely stewarding the earth’s resources, and by building resilient communities."<br />
*[http://www.atlasinitiativegroup.org/ Atlas Initiative Group] - "The mission of the Atlas Initiative Group is to design, plan and build Atlas City in America, providing a peaceful transition model from a monetary based system economy to a resource based system economy demonstrated through an advanced city which will maximize automation and provide the highest standard of living for its participants."<br />
*7.17.08 - A new country - http://wiki.aardsource.org/Main_Page<br />
*7.1.08 - [http://seasteading.org/seastead.org/ephemerisle/index.html Ephemerisle] - a festival held at sea to get people thinking about the possibilities of living at sea. Now discontinued.<br />
* http://www.damanhur.org/ Damanhur]<br />
<br />
==Support==<br />
*[http://bfi.org/ Buckminster Fuller Institute]<br />
*[http://unreasonableinstitute.org/ Unreasonable Institute] - "At Unreasonable Institute we give high-impact social entrepreneurs wings. We are an international accelerator and investor in early stage social ventures and we seek out 25 of the world's most brilliant and bold social entrepreneurs to attend our annual 6 week Institute. There we will unite these entrepreneurs (deemed Unreasonable Fellows) and pair them with personal and entrepreneurial skill training, daily guidance from over 50 expert mentors, as well as opportunities and access to the seed capital their ventures need to take flight. " (Nikolay: not sure whether this one can be of direct help, but is here just for the record).<br />
*[http://awesomefoundation.org/ The Awesome Foundation], founded to increase the amount of awesomeness in the world. Members of each local chapter pool together $1000 a month and give it to whoever has an idea for doing something awesome.<br />
*1000 True Fans - http://www.kk.org/thetechnium/archives/2008/03/1000_true_fans.php<br />
<br />
==Energy==<br />
* Feb. 2011 - All Power Labs: Gasifier Experimenters Kit: http://www.gekgasifier.com/<br />
*6.2.08 - [http://www.stanford.edu/~hydrobay/lookat/mkii.html another Tesla turbine thingy]<br />
*6.2.08 - [http://kimmelsteampower.com/gallery.html Kimmel Steam Power]<br />
*Boundary Layer Turbines - http://freeenergynews.com/Directory/Devices/TeslaTurbine/index.html<br />
*[http://uk.youtube.com/watch?v=ugAivXAusus Flash steam Babington oil buner] on Youtube<br />
*Ken Boak's oil and wood power - http://www.geocities.com/kenboak/wastewatts.html<br />
*[http://www.green-trust.org/2000/biofuel/babington/default.htm Page from Green Trust site on vegetable oil burner]<br />
*[http://www.biofab.org/ The BIOFAB]: International Open Facility Advancing Biotechnology (BIOFAB) was founded in December 2009 as the world's first biological design-build facility. This professionally staffed public-benefit facility was initiated by a grant from the National Science Foundation (NSF) and is led by bioengineers from UC Berkeley and Stanford University. The BIOFAB is operated in partnership with Lawrence Berkeley National Laboratory (LBNL), the BioBricks Foundation (BBF), and the Synthetic Biology Engineering Research Center (SynBERC).<br />
*[http://gasifiers.bioenergylists.org/smallchp%20 List of Bioenergy companies]<br />
*[http://jnaudin.free.fr/ JLN Labs] - Free-Energy solutions and new generation of space-propulsion systems.<br />
*[http://bingofuel.online.fr/bingofuel BingoFuel] - Alternative Fuels researches.<br />
<br />
==Economics and abundance==<br />
*[http://www.michaeljournal.org/plenty.htm In This Age of Plenty] from Louis Even.<br />
*Open protocols and standards to exchange new units of value : http://open-udc.org.<br />
*Futurism - http://thevenusproject.com/resource_eco.htm.<br />
*Chris Anderson on [http://www.netvision.de/uk/dispatching/?event_id=5bb1b5e95afabb2e62d2b148ded47706&portal_id=369401748e8249f142a700d8098a3473 post scarcity economics]<br />
*[http://www.rbose.org/ Research Based Open Source Environment] - "A collaboration platform for the development of open sourced solutions based on resource management and implementing them in our daily lives."<br />
*[http://www.thezeitgeistmovement.com The Zeitgeist Movement] - A global movement dedicated to promoting and educating about sustainable development.<br />
*[http://www.p-ced.com/1/ People-Centered Economic Development] - Advocacy for an alternate economic paradigm measured in human terms.<br />
<br />
==Who might be interested in open source ecology? who has the same vision?==<br />
<br />
* [http://www.sristi.org/cms/en/our_network Honey Bee Network] (which has a link to http://www.techpedia.in/)<br />
* [http://www.hackerspaces.org Hackerspaces]<br />
* [http://www.debian.net Debian], http://planet.debian.net<br />
* [http://www.ubuntu.com Ubuntu], http://planet.ubuntu.com<br />
* [http://www.openp2pdesign.org openp2pdesign.org], [http://www.openp2pdesign.org/twitter/ twitter news]<br />
* [http://www.welserver.com/ Web Energy Logger], with a live map of US data.<br />
<br />
[[Category: Collaboration]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Category:Open_Circuit_Institute&diff=163235Category:Open Circuit Institute2018-01-02T00:21:03Z<p>S Oberloier: </p>
<hr />
<div>The [[Open Circuit Institute]] (OCI) is a community devoted to open source circuit board design, manufacturing, and theory. The community consists of engineers and hobbyists alike - and anyone can join and contribute. OCI is first and foremost a circuit design repository. These circuits can be stand alone devices, or constituent pieces that can be used in more complex circuit boards. OCI also has aspirations to be an educational resource, lowering the barrier of electronics to all non-professionals. Anyone can design and create their own useful circuit boards!</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Category:Open_Circuit_Institute&diff=163234Category:Open Circuit Institute2018-01-02T00:20:30Z<p>S Oberloier: </p>
<hr />
<div>The [Open Circuit Institute] (OCI) is a community devoted to open source circuit board design, manufacturing, and theory. The community consists of engineers and hobbyists alike - and anyone can join and contribute. OCI is first and foremost a circuit design repository. These circuits can be stand alone devices, or constituent pieces that can be used in more complex circuit boards. OCI also has aspirations to be an educational resource, lowering the barrier of electronics to all non-professionals. Anyone can design and create their own useful circuit boards!</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Open_Circuit_Institute&diff=163233Open Circuit Institute2018-01-02T00:19:55Z<p>S Oberloier: </p>
<hr />
<div>''This information has been taken directly from the "About" page of OCI on 1JAN2018''<br />
<br />
[[File:OCI.png]]<br />
== What is the Open Circuit Institute? ==<br />
The [http://opencircuitinstitute.org/ Open Circuit Institute] (OCI) is a community devoted to open source [http://opencircuitinstitute.org/content/circuit-board-design circuit board design], [http://opencircuitinstitute.org/content/manufacturing manufacturing], and [http://opencircuitinstitute.org/content/theory theory]. The community consists of engineers and hobbyists alike - and anyone can join and contribute. OCI is first and foremost a circuit design repository. These circuits can be stand alone devices, or constituent pieces that can be used in more complex circuit boards. OCI also has aspirations to be an educational resource, lowering the barrier of electronics to all non-professionals. Anyone can design and create their own useful circuit boards!<br />
<br />
A point of emphasis - What makes OCI unique vs other similar sites is that we're looking to create a comprehensive repository of circuit boards. So your submisson doesn't need to be extremely unique and creative to be considered "good content." Everything has its place from simple LED blinkers, to particle accelerator control boards.<br />
<br />
== What is our Purpose? ==<br />
*'''Sharing Designs:''' Log in and [http://opencircuitinstitute.org/node/add/design share] your circuit board designs and tell the community a little bit about them! Or [http://opencircuitinstitute.org/designs download], make, and test someone's design. Make modifications or improvements and re-share designs. [http://opencircuitinstitute.org/user Your OCI page] can be a good place to share your skills with potential employers.<br />
*'''Expedite the Design Process:''' Why re-invent the wheel? Check OCI for the design you need. Or perhaps you can find components required by your design and add them to create a more complex device. Also since the target of OCI designs are to be [http://opencircuitinstitute.org/content/manufacturing-hardware home-manufacturable], you can have the designs same day.<br />
*'''Open Platform for Cheap and Effective Boards: '''DIY boards can be very in-expensive and easy to maintenance. Since the designs are open, you really do own the board! You know exactly how the board works and have a community devoted to making the repository of designs as good as it can be.<br />
*'''Defined Design Standards: '''Manufacturing boards can be difficult if you don't know what you're doing, and can involve a lot of trial and error. We define valid [http://opencircuitinstitute.org/content/standards design standards] to keep designs easy to manufacture, and consistent with other designs on the database. OCI also provides a [http://opencircuitinstitute.org/content/universal-part-list Universal Parts List] (UPL) which is a list of parts that are versatile and can be used for many designs. Using parts from the UPL will reduce time spent selecting parts, and ensure that others can build your boards quickly - given they stock parts from the UPL.<br />
*'''Educate Interested Hobbyists and Non-Professionals: '''Board design can be tough. OCI provides concise [http://opencircuitinstitute.org/content/how-tos instructions] on how to develop a circuit board from scratch. Using the UPL simplifies the process since options have already been narrowed down to general parts. Out database of designs can also act as a great reference to help understand how board are designed and how they work.<br />
<br />
==How Can I Contribute?==<br />
*'''Upload your Design: '''Log in and [http://opencircuitinstitute.org/node/add/design upload your design]. Your designs will fit best if they follow our [http://opencircuitinstitute.org/content/standards design standards] and use parts off of the [http://opencircuitinstitute.org/content/universal-part-list Universal Parts List]<br />
*'''Contribute to our Forum: '''Ask questions, discuss design theory, debugging advice, build teams, all at the [http://opencircuitinstitute.org/forum OCI Forums]<br />
*'''Add a Request for A Design: '''Not sure how to design circuit boards but have a great idea? Add the idea to the [http://opencircuitinstitute.org/design-requests Design Requests] page!<br />
*'''Create someone's design request: '''Have engineering skills but don't know what to make? Find a design idea you like on the [http://opencircuitinstitute.org/design-requests Design Requests] page and try and make it a reality!<br />
*'''Download and Fabricate Someone else's Design and Provide Feedback: '''Browse the [http://opencircuitinstitute.org/designs Whole Database], or see [http://opencircuitinstitute.org/rising Hot New Designs]. Create them and let the user know how it worked!<br />
*'''Improve an Existing Design: '''If you download someones design and modify it, share it back with the community. That is how Open Source creates great new things!<br />
*'''Help fund This Site: ''' By clicking the [https://www.paypal.com/donate/?token=iElJ7d22U1qXbSVx1pD2A3qQx6uDYNCMqZWygyxR2lyXcHhkbrb75nkINK0ppnJnovI0L0&country.x=US&locale.x=US Donate button], you can help keep this site running. Funds will go to hosting costs, advertisement to build our user base, competition prizes, open source product development, and educational video production (parts for circuits)<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Open_Circuit_Institute&diff=163232Open Circuit Institute2018-01-02T00:18:59Z<p>S Oberloier: Page creation</p>
<hr />
<div>''This information has been taken directly from the "About" page of OCI on 1JAN2018''<br />
<br />
[[File:OCI.png]]<br />
== What is the Open Circuit Institute? ==<br />
The Open Circuit Institute (OCI) is a community devoted to open source [http://opencircuitinstitute.org/content/circuit-board-design circuit board design], [http://opencircuitinstitute.org/content/manufacturing manufacturing], and [http://opencircuitinstitute.org/content/theory theory]. The community consists of engineers and hobbyists alike - and anyone can join and contribute. OCI is first and foremost a circuit design repository. These circuits can be stand alone devices, or constituent pieces that can be used in more complex circuit boards. OCI also has aspirations to be an educational resource, lowering the barrier of electronics to all non-professionals. Anyone can design and create their own useful circuit boards!<br />
<br />
A point of emphasis - What makes OCI unique vs other similar sites is that we're looking to create a comprehensive repository of circuit boards. So your submisson doesn't need to be extremely unique and creative to be considered "good content." Everything has its place from simple LED blinkers, to particle accelerator control boards.<br />
<br />
== What is our Purpose? ==<br />
*'''Sharing Designs:''' Log in and [http://opencircuitinstitute.org/node/add/design share] your circuit board designs and tell the community a little bit about them! Or [http://opencircuitinstitute.org/designs download], make, and test someone's design. Make modifications or improvements and re-share designs. [http://opencircuitinstitute.org/user Your OCI page] can be a good place to share your skills with potential employers.<br />
*'''Expedite the Design Process:''' Why re-invent the wheel? Check OCI for the design you need. Or perhaps you can find components required by your design and add them to create a more complex device. Also since the target of OCI designs are to be [http://opencircuitinstitute.org/content/manufacturing-hardware home-manufacturable], you can have the designs same day.<br />
*'''Open Platform for Cheap and Effective Boards: '''DIY boards can be very in-expensive and easy to maintenance. Since the designs are open, you really do own the board! You know exactly how the board works and have a community devoted to making the repository of designs as good as it can be.<br />
*'''Defined Design Standards: '''Manufacturing boards can be difficult if you don't know what you're doing, and can involve a lot of trial and error. We define valid [http://opencircuitinstitute.org/content/standards design standards] to keep designs easy to manufacture, and consistent with other designs on the database. OCI also provides a [http://opencircuitinstitute.org/content/universal-part-list Universal Parts List] (UPL) which is a list of parts that are versatile and can be used for many designs. Using parts from the UPL will reduce time spent selecting parts, and ensure that others can build your boards quickly - given they stock parts from the UPL.<br />
*'''Educate Interested Hobbyists and Non-Professionals: '''Board design can be tough. OCI provides concise [http://opencircuitinstitute.org/content/how-tos instructions] on how to develop a circuit board from scratch. Using the UPL simplifies the process since options have already been narrowed down to general parts. Out database of designs can also act as a great reference to help understand how board are designed and how they work.<br />
<br />
==How Can I Contribute?==<br />
*'''Upload your Design: '''Log in and [http://opencircuitinstitute.org/node/add/design upload your design]. Your designs will fit best if they follow our [http://opencircuitinstitute.org/content/standards design standards] and use parts off of the [http://opencircuitinstitute.org/content/universal-part-list Universal Parts List]<br />
*'''Contribute to our Forum: '''Ask questions, discuss design theory, debugging advice, build teams, all at the [http://opencircuitinstitute.org/forum OCI Forums]<br />
*'''Add a Request for A Design: '''Not sure how to design circuit boards but have a great idea? Add the idea to the [http://opencircuitinstitute.org/design-requests Design Requests] page!<br />
*'''Create someone's design request: '''Have engineering skills but don't know what to make? Find a design idea you like on the [http://opencircuitinstitute.org/design-requests Design Requests] page and try and make it a reality!<br />
*'''Download and Fabricate Someone else's Design and Provide Feedback: '''Browse the [http://opencircuitinstitute.org/designs Whole Database], or see [http://opencircuitinstitute.org/rising Hot New Designs]. Create them and let the user know how it worked!<br />
*'''Improve an Existing Design: '''If you download someones design and modify it, share it back with the community. That is how Open Source creates great new things!<br />
*'''Help fund This Site: ''' By clicking the [https://www.paypal.com/donate/?token=iElJ7d22U1qXbSVx1pD2A3qQx6uDYNCMqZWygyxR2lyXcHhkbrb75nkINK0ppnJnovI0L0&country.x=US&locale.x=US Donate button], you can help keep this site running. Funds will go to hosting costs, advertisement to build our user base, competition prizes, open source product development, and educational video production (parts for circuits)<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:OCI.png&diff=163223File:OCI.png2018-01-02T00:11:56Z<p>S Oberloier: </p>
<hr />
<div></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Plus_Minus_5V_Power_Supply&diff=163218Plus Minus 5V Power Supply2018-01-01T23:50:25Z<p>S Oberloier: </p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Plus Minus 5V Power Supply</big></center><br />
|-<br />
|<center>[[Image:PM_5V_Supply.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/plus-minus-5v-power-supply Plus Minus 5V Power Supply]<br />
|-<br />
|'''Input:''' 12-48VDC 2A<br />
|-<br />
|'''Output:''' +-5VDC 1A(ea)<br />
|}<br />
''This is a design from the Open Circuit Institute. More can be found [http://opencircuitinstitute.org/designs HERE].''<br />
==Description==<br />
A +-5V power supply. The input is 12V (as a minimum, it can go up to 48V). Made to be used with [http://a.co/d6g73Y9 this 12V power supply]. The max current is 1A per supply. This supply works perfectly for amplifier circuits that deal with AC signals. The entire board is a single layer, easily milled or etched.<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/plus-minus-5v-power-supply http://opencircuitinstitute.org/content/plus-minus-5v-power-supply]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Plus_Minus_5V_Power_Supply&diff=163217Plus Minus 5V Power Supply2018-01-01T23:45:07Z<p>S Oberloier: </p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Plus Minus 5V Power Supply</big></center><br />
|-<br />
|<center>[[Image:PM_5V_Supply.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/plus-minus-5v-power-supply Plus Minus 5V Power Supply]<br />
|-<br />
|'''Input:''' 12-48VDC 2A<br />
|-<br />
|'''Output:''' +-5VDC 1A(ea)<br />
|}<br />
==Description==<br />
A +-5V power supply. The input is 12V (as a minimum, it can go up to 48V). Made to be used with [http://a.co/d6g73Y9 this 12V power supply]. The max current is 1A per supply. This supply works perfectly for amplifier circuits that deal with AC signals. The entire board is a single layer, easily milled or etched.<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/plus-minus-5v-power-supply http://opencircuitinstitute.org/content/plus-minus-5v-power-supply]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]<br />
[[Category:Electronics]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Plus_Minus_5V_Power_Supply&diff=163216Plus Minus 5V Power Supply2018-01-01T23:44:40Z<p>S Oberloier: </p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Plus Minus 5V Power Supply</big></center><br />
|-<br />
|<center>[[Image:PM_5V_Supply.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/plus-minus-5v-power-supply Plus Minus 5V Power Supply]<br />
|-<br />
|'''Input:''' 12-48VDC 2A<br />
|-<br />
|'''Output:''' +-5VDC 1A(ea)<br />
|}<br />
==Description==<br />
A +-5V power supply. The input is 12V (as a minimum, it can go up to 48V). Made to be used with [http://a.co/d6g73Y9 this 12V power supply]. The max current is 1A per supply. This supply works perfectly for amplifier circuits that deal with AC signals. The entire board is a single layer, easily milled or etched.<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/plus-minus-5v-power-supply http://opencircuitinstitute.org/content/plus-minus-5v-power-supply]<br />
[[Category:Open Circuit Institute]]<br />
[[Category:Open Hardware]]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Plus_Minus_5V_Power_Supply&diff=163215Plus Minus 5V Power Supply2018-01-01T23:43:20Z<p>S Oberloier: </p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Plus Minus 5V Power Supply</big></center><br />
|-<br />
|<center>[[Image:PM_5V_Supply.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/plus-minus-5v-power-supply Plus Minus 5V Power Supply]<br />
|-<br />
|'''Input:''' 12-48VDC 2A<br />
|-<br />
|'''Output:''' +-5VDC 1A(ea)<br />
|}<br />
[[Category:Open Circuit Institute]]<br />
==Description==<br />
A +-5V power supply. The input is 12V (as a minimum, it can go up to 48V). Made to be used with [http://a.co/d6g73Y9 this 12V power supply]. The max current is 1A per supply. This supply works perfectly for amplifier circuits that deal with AC signals. The entire board is a single layer, easily milled or etched.<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/plus-minus-5v-power-supply http://opencircuitinstitute.org/content/plus-minus-5v-power-supply]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Category:Open_Circuit_Institute&diff=163213Category:Open Circuit Institute2018-01-01T23:41:50Z<p>S Oberloier: Category Creation</p>
<hr />
<div>The Open Circuit Institute (OCI) is a community devoted to open source circuit board design, manufacturing, and theory. The community consists of engineers and hobbyists alike - and anyone can join and contribute. OCI is first and foremost a circuit design repository. These circuits can be stand alone devices, or constituent pieces that can be used in more complex circuit boards. OCI also has aspirations to be an educational resource, lowering the barrier of electronics to all non-professionals. Anyone can design and create their own useful circuit boards!</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Plus_Minus_5V_Power_Supply&diff=163212Plus Minus 5V Power Supply2018-01-01T23:37:13Z<p>S Oberloier: Plus Minus 5V supply from OCI</p>
<hr />
<div>{|style="border:1px solid #000000; background-color: #ffff99; margin-left:.1em; margin-top:1px; -moz-border-radius:15px;" align="right" width="400px"<br />
!<center><big>Plus Minus 5V Power Supply</big></center><br />
|-<br />
|<center>[[Image:PM_5V_Supply.png|200px]]</center><br />
|-<br />
|'''OCI Page:''' [http://opencircuitinstitute.org/content/plus-minus-5v-power-supply Plus Minus 5V Power Supply]<br />
|-<br />
|'''Input:''' 12-48VDC 2A<br />
|-<br />
|'''Output:''' +-5VDC 1A(ea)<br />
|}<br />
==Description==<br />
A +-5V power supply. The input is 12V (as a minimum, it can go up to 48V). Made to be used with [http://a.co/d6g73Y9 this 12V power supply]. The max current is 1A per supply. This supply works perfectly for amplifier circuits that deal with AC signals. The entire board is a single layer, easily milled or etched.<br />
==Design Files & Videos==<br />
Available at the Open Circuit Institute:<br />
[http://opencircuitinstitute.org/content/plus-minus-5v-power-supply http://opencircuitinstitute.org/content/plus-minus-5v-power-supply]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:PM_5V_Supply.png&diff=163208File:PM 5V Supply.png2018-01-01T23:28:22Z<p>S Oberloier: </p>
<hr />
<div></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=155157Shane Log2017-07-06T23:06:02Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Thu Jul 6 2017=<br />
[http://voltfolio.com/main/content/ose-d3d-circuit-mill-steps-mm-calibration OSE D3D Circuit Mill: Steps per mm Calibration]<br />
<br />
=Tue Jun 20 2017=<br />
Assembled all axes for CNC router<br />
<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_Belt_Tensioning&diff=154441D3D Belt Tensioning2017-06-21T21:30:24Z<p>S Oberloier: </p>
<hr />
<div>https://youtu.be/cZhVIurDXw8?t=2363<br />
<br />
<html><iframe width="854" height="480" src="https://www.youtube.com/embed/cZhVIurDXw8?t=2363" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Belt tensioning procedure starts at 38:00</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_Belt_Tensioning&diff=154440D3D Belt Tensioning2017-06-21T21:30:01Z<p>S Oberloier: </p>
<hr />
<div>https://youtu.be/cZhVIurDXw8?t=2363<br />
<br />
<html><iframe width="854" height="480" src="https://www.youtube.com/embed/cZhVIurDXw8?t=2363" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Belt tentioning procedure starts at 38:00</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_Belt_Tensioning&diff=154439D3D Belt Tensioning2017-06-21T21:29:45Z<p>S Oberloier: </p>
<hr />
<div>https://youtu.be/cZhVIurDXw8?t=2363<br />
<br />
<html><iframe width="854" height="480" src="https://www.youtube.com/embed/cZhVIurDXw8?t=2363" frameborder="0" allowfullscreen></iframe></html><br />
Belt tentioning procedure starts at 38:00</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154426D3D CNC Circuit Mill2017-06-21T14:12:51Z<p>S Oberloier: /* Development Pictures */</p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG|frameless|600px|middle|alt=The disassembled axes required to convert the D3D printer to the circuit board mill|The disassembled axes required to convert the D3D printer to the circuit board mill]]<br />
<br />
The disassembled axes required to convert the D3D printer to the circuit board mill<br />
<br />
[[File:D3D_Extras.jpeg|frameless|600px|middle|alt=These are the required additional parts to transition from the 3D printer to the circuit board mill|These are the required additional parts to transition from the 3D printer to the circuit board mill]]<br />
<br />
These are the required additional parts to transition from the 3D printer to the circuit board mill<br />
<br />
[[File:D3D_Axes.jpeg|frameless|600px|middle|alt=The complete set of axes for the D3D circuit mill|The complete set of axes for the D3D circuit mill]]<br />
<br />
The complete set of axes for the D3D circuit mill<br />
<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
<script><br />
<br />
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* RECOMMENDED CONFIGURATION VARIABLES: EDIT AND UNCOMMENT THE SECTION BELOW TO INSERT DYNAMIC VALUES FROM YOUR PLATFORM OR CMS.<br />
* LEARN WHY DEFINING THESE VARIABLES IS IMPORTANT: https://disqus.com/admin/universalcode/#configuration-variables*/<br />
/*<br />
var disqus_config = function () {<br />
this.page.url = PAGE_URL; // Replace PAGE_URL with your page's canonical URL variable<br />
this.page.identifier = PAGE_IDENTIFIER; // Replace PAGE_IDENTIFIER with your page's unique identifier variable<br />
};<br />
*/<br />
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var d = document, s = d.createElement('script');<br />
s.src = 'https://cnc-circuit-mill.disqus.com/embed.js';<br />
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<script id="dsq-count-scr" src="//cnc-circuit-mill.disqus.com/count.js" async></script><br />
</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154425D3D CNC Circuit Mill2017-06-21T14:07:16Z<p>S Oberloier: /* Development Pictures */</p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG|thumb|upright=2|middle|alt=The disassembled axes required to convert the D3D printer to the circuit board mill|The disassembled axes required to convert the D3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Extras.jpeg|thumb|upright=2|middle|alt=These are the required additional parts to transition from the 3D printer to the circuit board mill|These are the required additional parts to transition from the 3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Axes.jpeg|thumb|upright=2|middle|alt=The complete set of axes for the D3D circuit mill|The complete set of axes for the D3D circuit mill]]<br />
<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
<script><br />
<br />
/**<br />
* RECOMMENDED CONFIGURATION VARIABLES: EDIT AND UNCOMMENT THE SECTION BELOW TO INSERT DYNAMIC VALUES FROM YOUR PLATFORM OR CMS.<br />
* LEARN WHY DEFINING THESE VARIABLES IS IMPORTANT: https://disqus.com/admin/universalcode/#configuration-variables*/<br />
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</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154424D3D CNC Circuit Mill2017-06-21T14:03:32Z<p>S Oberloier: /* Development Pictures */</p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG|frame|upright=0.05|left|alt=The disassembled axes required to convert the D3D printer to the circuit board mill|The disassembled axes required to convert the D3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Extras.jpeg|frame|upright=0.05|left|alt=These are the required additional parts to transition from the 3D printer to the circuit board mill|These are the required additional parts to transition from the 3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Axes.jpeg|frame|upright=0.05|left|alt=The complete set of axes for the D3D circuit mill|The complete set of axes for the D3D circuit mill]]<br />
<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
<script><br />
<br />
/**<br />
* RECOMMENDED CONFIGURATION VARIABLES: EDIT AND UNCOMMENT THE SECTION BELOW TO INSERT DYNAMIC VALUES FROM YOUR PLATFORM OR CMS.<br />
* LEARN WHY DEFINING THESE VARIABLES IS IMPORTANT: https://disqus.com/admin/universalcode/#configuration-variables*/<br />
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var d = document, s = d.createElement('script');<br />
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<script id="dsq-count-scr" src="//cnc-circuit-mill.disqus.com/count.js" async></script><br />
</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154423D3D CNC Circuit Mill2017-06-21T14:03:04Z<p>S Oberloier: /* Development Pictures */</p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG|frame|upright=0.5|left|alt=The disassembled axes required to convert the D3D printer to the circuit board mill|The disassembled axes required to convert the D3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Extras.jpeg|frame|upright=0.5|left|alt=These are the required additional parts to transition from the 3D printer to the circuit board mill|These are the required additional parts to transition from the 3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Axes.jpeg|frame|upright=0.5|left|alt=The complete set of axes for the D3D circuit mill|The complete set of axes for the D3D circuit mill]]<br />
<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
<script><br />
<br />
/**<br />
* RECOMMENDED CONFIGURATION VARIABLES: EDIT AND UNCOMMENT THE SECTION BELOW TO INSERT DYNAMIC VALUES FROM YOUR PLATFORM OR CMS.<br />
* LEARN WHY DEFINING THESE VARIABLES IS IMPORTANT: https://disqus.com/admin/universalcode/#configuration-variables*/<br />
/*<br />
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var d = document, s = d.createElement('script');<br />
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<script id="dsq-count-scr" src="//cnc-circuit-mill.disqus.com/count.js" async></script><br />
</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154422D3D CNC Circuit Mill2017-06-21T14:01:41Z<p>S Oberloier: </p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG.jpg|thumb|upright=0.5|left|alt=The disassembled axes required to convert the D3D printer to the circuit board mill|The disassembled axes required to convert the D3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Extras.jpeg|thumb|upright=0.5|left|alt=These are the required additional parts to transition from the 3D printer to the circuit board mill|These are the required additional parts to transition from the 3D printer to the circuit board mill]]<br />
<br />
<br />
[[File:D3D_Axes.jpeg|thumb|upright=0.5|left|alt=The complete set of axes for the D3D circuit mill|The complete set of axes for the D3D circuit mill]]<br />
<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
<script><br />
<br />
/**<br />
* RECOMMENDED CONFIGURATION VARIABLES: EDIT AND UNCOMMENT THE SECTION BELOW TO INSERT DYNAMIC VALUES FROM YOUR PLATFORM OR CMS.<br />
* LEARN WHY DEFINING THESE VARIABLES IS IMPORTANT: https://disqus.com/admin/universalcode/#configuration-variables*/<br />
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</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=D3D_CNC_Circuit_Mill&diff=154421D3D CNC Circuit Mill2017-06-21T13:58:21Z<p>S Oberloier: </p>
<hr />
<div><html><iframe width="560" height="315" src="https://www.youtube.com/embed/Epit8c9zp8Q" frameborder="0" allowfullscreen></iframe></html><br />
<br />
<br />
=Working Document=<br />
==Design==<br />
<html><iframe src="https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/embed?start=false&loop=false&delayms=3000" frameborder="0" width="960" height="569" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1C4IuTWnB4G93zKcHiDYbKnv-I1E9vXXrRzeZbQzTZmM/edit#slide=id.g1861bf60d5_0_6 edit]<br />
<br />
==Data Collection==<br />
<html><iframe src="https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="299" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1n4KegLSiURKZQzL4JkHLyYosdQdHT3C8u430TYw3fmI/edit#slide=id.p edit]<br />
<br />
=CAD=<br />
<br />
==Design Notes==<br />
Note on CAD Procedure and Organization:<br />
#Draw a frame piece, and create a complete frame made of 6 of these pieces.<br />
#Save file: [[File:D3D 13" Frame.fcstd]]<br />
#Begin the design by downloading the X axis - [[File:D3D_16_Sub-assembly_X_Axis.fcstd]]<br />
#Correct the length of the axis to 11" length (for 13" frame - 1" shorter on each side to accommodate mounting on the Y axes). Rotate the axis such that the orientation - when looking according to the Viewing Direction and XYZ axis orientation of Slide 1 in Working Document - is that the motor is on the left side of the axis (note that the orientation shown in First Slide in the Working Document has the motor on the right hand side, which is not correct).<br />
#Save the file as [[File:D3D Circuit Mill X Axis.fcstd]] once the length is 11" and orientation is correct. This will be the file you can use later for the x axis (2 of them) to merge into the final assembly - with the second x axis being a mirror image.<br />
#Now create the Y axis according to the orientation convention of the First Slide in the Working Document. This axis should be 13" long.<br />
#Save the y axis file as [[File:D3D Circuit Mill Y Axis.fcstd]].<br />
#Now create the Z axis as in the working document. This axis can be 8" long - as we don't need a lot of z travel.<br />
#Save the Z axis file as [[File:D3D Circuit Mill Z Axis.fcstd]].<br />
#Import the<br />
<br />
==Files==<br />
<br />
*Frame 16" assembled: [[File:Full_Frame_16in.FCStd]]<br />
*Single 16" frame: [[File:Single_Frame_16in.fcstd]]<br />
*Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
*Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
*Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
*Spindle Motor: [[File:t-king_spindlemotor.fcstd]]<br />
*Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]. STL - [[File:D3D Circuit Mill Motor Mount.stl]]<br />
*'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
*Frame 13": [[File:D3D 13" Frame.fcstd]]<br />
<br />
=Simplified CAD Files=<br />
<br />
<gallery mode="packed-hover" heights="180"><br />
File:D3D_circuit_mill_assembled_16inch.jpeg|'''Assembly:''' [[File:D3D_Circuit_Mill.fcstd]]<br />
<br />
File:D3D_frame_assembled_16inch.jpeg|D3D frame 16": [[File:D3D_frame_assembled_16_inch.FCStd]]<br />
<br />
File:D3D_circuit_mill_X_axis.jpeg|Single x axis: [[File:D3D Circuit Mill X Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Y_axis.jpeg|Single y axis: [[File:D3D Circuit Mill Y Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_Z_axis.jpeg|Single z axis: [[File:D3D Circuit Mill Z Axis.fcstd]]<br />
<br />
File:D3D_circuit_mill_spindle_motor.jpeg|spindle motor: [[File:t-king_spindlemotor.fcstd]]<br />
<br />
File:D3D_circuit_Mill_Motor_Mount.jpeg|Spindle Motor Mount: [[File:D3D Circuit Mill Motor Mount.fcstd]]<br />
</gallery><br />
<br />
=Industry Standards=<br />
*Hackaday projects - [https://hackaday.io/list/6906-cnc-projects]<br />
==Open Source==<br />
*[[Cyclone PCB Circuit Mill]]<br />
*[[Sienci Mill]]<br />
<br />
=Links=<br />
*[[Universal CNC Axis]]<br />
<br />
=Development Pictures=<br />
[[File:Circuitboardmill axes disassembly.JPG.jpg]]<br />
The disassembled axes required to convert the D3D printer to the circuit board mill<br />
<br />
[[File:D3D_Extras.jpeg]]<br />
These are the required additional parts to transition from the 3D printer to the circuit board mill<br />
<br />
[[File:D3D_Axes.jpeg]]<br />
The complete set of axes for the D3D circuit mill<br />
=Discussion=<br />
<html><div id="disqus_thread"></div><br />
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</html></div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:Circuitboardmill_axes_disassembly.JPG&diff=154420File:Circuitboardmill axes disassembly.JPG2017-06-21T13:54:58Z<p>S Oberloier: The disassembled axes required to convert the D3D printer to the circuit board mill</p>
<hr />
<div>The disassembled axes required to convert the D3D printer to the circuit board mill</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:D3D_Extras.jpeg&diff=154419File:D3D Extras.jpeg2017-06-21T13:51:57Z<p>S Oberloier: These are the required additional parts to transition from the 3D printer to the circuit board mill</p>
<hr />
<div>These are the required additional parts to transition from the 3D printer to the circuit board mill</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=File:D3D_Axes.jpeg&diff=154418File:D3D Axes.jpeg2017-06-21T13:47:59Z<p>S Oberloier: All completed axes for the D3D circuit mill</p>
<hr />
<div>All completed axes for the D3D circuit mill</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=154417Shane Log2017-06-21T13:42:30Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Tue Jun 20 2017=<br />
Assembled all axes for CNC router<br />
<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=149178Shane Log2017-03-13T15:10:02Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Mon Mar 13 2017=<br />
Began Programming, and Assembly [https://create.arduino.cc/projecthub/arjun/programming-attiny85-with-arduino-uno-afb829 Reference for programming ATTiny]<br />
<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148963Shane Log2017-03-07T22:31:21Z<p>S Oberloier: /* Tues Mar 7 2017 */</p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mprc Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148962Shane Log2017-03-07T22:26:28Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Tues Mar 7 2017=<br />
Design Simplification. Simulations complete. Made Parts Table. [http://www.digikey.com/short/32mpmw Ordered Components] for first test run.<br />
<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148470Shane Log2017-02-24T18:10:11Z<p>S Oberloier: /* Fri Feb 24, 2017 */</p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software. [http://voltfolio.com/main/content/importance-properly-tightened-anti-backlash-nuts Fixed PCB mill issue]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148462Shane Log2017-02-24T14:29:58Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
=Fri Feb 24, 2017=<br />
Finished Method section of paper. Started milling boards. Ordered parts. Fixed PCB leveling software.<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148157Shane Log2017-02-17T20:10:30Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
*[https://obsproject.com/ Open Broadcaster Software]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=148156Shane Log2017-02-17T20:09:18Z<p>S Oberloier: </p>
<hr />
<div>Welcome! Shane's blog - [http://www.voltfolio.com/main/content/pcb-design-workshop]<br />
<br />
=Fri Feb 17, 2017=<br />
Meeting with Marcin. Sensor Node Designed.<br />
<br />
Op-Amp Video<br />
<html><iframe width="560" height="315" src="https://www.youtube.com/embed/M0yn-z6XeI4" frameborder="0" allowfullscreen></iframe></html><br />
<br />
Relevant Links from Discussion:<br />
*[https://www.youtube.com/watch?v=42AQ_EtRVq4 Blender Video Sequence Editor (VSE)]<br />
*[https://www.youtube.com/watch?v=zK3rDhJqMu0 KiCAD Tutorial]<br />
*[http://qucs.sourceforge.net/ Quite Universal Circuit Simulator (Qucs)]<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=146956Shane Log2017-01-25T00:43:26Z<p>S Oberloier: </p>
<hr />
<div>Welcome!<br />
<br />
=Tue Jan 24, 2017=<br />
Researching feasibility of two wire interface (TWI) for communications. Taking a look at current sensor options. Drafting system system hub, and overall system<br />
<br />
=Tue Jan 22, 2017=<br />
Working on [http://www.appropedia.org/Literature_Review_for_Creating_Open_Source_Low_Cost_Power_Measurement_System_for_Solar_Energy Literature review]<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=146598Shane Log2017-01-19T04:08:58Z<p>S Oberloier: </p>
<hr />
<div>Welcome!<br />
<br />
=Tue Jan 17, 2017=<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit?ts=58791202#slide=id.g1c1064e0a8_6_0 Photovoltaics class - discuss project goals with Dr. Pearce]. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloierhttps://wiki.opensourceecology.org/index.php?title=Shane_Log&diff=146597Shane Log2017-01-19T03:59:49Z<p>S Oberloier: </p>
<hr />
<div>Welcome!<br />
<br />
=Tue Jan 17, 2017=<br />
Photovoltaics class - discuss project goals with Dr. Pearce. [https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.g1bf6d5dc9b_0_0 Concept drawing for universal sensor node].<br />
<br />
=Fri Jan 13, 2017=<br />
<html><iframe src="https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/embed?start=false&loop=false&delayms=3000" frameborder="0" width="480" height="275" allowfullscreen="true" mozallowfullscreen="true" webkitallowfullscreen="true"></iframe></html><br />
<br />
[https://docs.google.com/presentation/d/1Yf-j-kPGAcRU-lFbqf5hdC7iJWqkh7LtwhV7hN0Xujg/edit#slide=id.p edit]</div>S Oberloier