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	Sensorica's PV characterization Basic Data Category: Renewable energies URL (first publication): http://www.sensorica.co/home/what-we-do/projects/pv-characterization License: Project status: Technical documentation Maturity of the project: no no no Other Assembly instructions are editable: Bill of materials is editable: Design files are in original format: No Free redistribution is allowed licence: No Project management Open-o-meter: 0 Product category: Business & Industrial Contains original non-electronic hardware: Contains original electronic hardware: Contains original software:

Description

The aim of the project is to design and create a system device for optical characterization of thin and transparent materials, as an open source project so it can have a maximum of social impact, and can be utilized and modified by communities around the world. The main application of the device is the measurement of the quantum efficiency (QE) of photovoltaic cells. The device is essentially an automated tilt angle and rotation stage, capable of both tilt angle adjustments (from 0-90 degrees) and for rotation (0-360 degrees) with 1 degree accuracy. There are some additional elements for fixing the sample and for electrical connections.

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Public cad repository for non-electronic hardware
Bill of materials
Contributing guide

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-|desc=<div><div><p>SENSORICA is an open, decentralized, and self-organizing value network.</p><p>SENSORICA thrives on open innovation.</p><p>We design, produce, and distribute open hardware.</p><p>SENSORICA is open, why compete with us when you can join us?</p><p>SENSORICA is a commons-based peer production system.</p><p>Your revenue is based on your contribution within SENSORICA.</p><p>SENSORICA is NOT a power-based structure, but a value-based structure.</p><p>We bet on speed rather than protection, we thrive on open innovation.</p><p>SENSORICA is a growing pool of know-how in sensing technology.</p><p>SENSORICA is an institution designed for the know-how economy.</p><p>Know-how and production capacity are the key to the new economy.</p><p>What you know and what you can do are more important that who you are.</p><p>Share and be social and you’ll be fine</p><p>All revenue is redistributed among members based on individual contributions.</p><p>Be autonomous and show initiative There is no boss within SENSOICA</p><p>A new economical paradigm…</p></div><br/><br/><div><p>PV characterization</p><br/><div><div><div><b>TO THE</b></div><div><b>PV CHARACTERIZATION PROJECT</b></div><br/><br/><div>Two axis directional gimbal platform featuring a brushless dc motor direct drive system and magnetic base micromanipulators, almost entirely 3D printed.</div><br/><br/><div><div>Introduction video</div><br/><div>Prototype ready</div></div><br/><br/><div>Pictures</div><br/><br/><div>We are in Milestone 3.</div><br/><br/><div><p>Contents</p></div></div><br/><br/><div><div><h3>Description</h3><br/><br/><div><p>The aim of the project is to design and create a system device for optical characterization of thin and transparent materials, as an open source project so it can have a maximum of social impact, and can be utilized and modified by communities around the world. The main application of the device is the measurement of the quantum efficiency (QE) of photovoltaic cells. The device is essentially an automated tilt angle and rotation stage, capable of both tilt angle adjustments (from 0-90 degrees) and for rotation (0-360 degrees) with 1 degree accuracy. There are some additional elements for fixing the sample and for electrical connections.</p></div><br/><br/><div><b><br/>Planning and contribution logging</b></div><br/><br/><div><p>Applications</p><div><ul><li>Characterization of photovoltaic cells</li><li>photography and video</li></ul></div></div><br/><p>Short-term goals</p>Create two working devices.<p>Long-term goals</p>Distribute the device as CC-BY-SA<p>Milestones</p><li>Design Characteristics</li><li>Design</li><br/><li>Product</li><br/><br/><h3>Participants</h3></div><br/><div><h3>Status</h3><br/><div>Recent Announcements<div><ul><li>Prototyping of the system best suited out of options evaluated in Milestone 1 and finalized in Milestone 2: electronic systems, mechanical parts and software development and installation. <b>Duration</b>:3 weeks<br/>Posted Aug 5, 2015, 3:09 PM by Tiberius Brastaviceanu</li><li>Design of the system best suited out of options evaluated in Milestone 1 will be formalized: electronic systems, mechanical parts and software. Schematics will be provided to build a first<br/>Posted Jul 7, 2015, 5:27 PM by Tiberius Brastaviceanu</li><li><b>This project started on June 18th, 2015 and will end two weeks later. </b>We are doing Milestone 1: Design considerationsThe goal of this milestone is to perform a comprehensive<br/>Posted Jul 6, 2015, 10:46 PM by Tiberius Brastaviceanu</li></ul><div>Showing posts <strong>1 - 3</strong> of <strong>3</strong>.</div></div></div><br/><br/><h3>Agenda - use it to coordinate &amp; plan</h3><br/><div>PV characterization project calendar<div>PV characterization project calendar</div></div><h3>Audios</h3><b>Coordination meeting, 7/28/28</b><br/><br/><h3>Videos</h3></div></div></div><br/><br/><div>Subpages (5):</div></div></div>
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+|desc=The aim of the project is to design and create a system device for optical characterization of thin and transparent materials, as an open source project so it can have <u>a maximum of social impact</u>, and can be utilized and modified by communities around the world. The main application of the device is the measurement of the quantum efficiency (QE) of photovoltaic cells. The device is essentially an automated tilt angle and rotation stage, capable of both tilt angle adjustments (from 0-90 degrees) and for rotation (0-360 degrees) with 1 degree accuracy. There are some additional elements for fixing the sample and for electrical connections.
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