Difference between revisions of "Sensorica's PV characterization"
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{{Projekt | {{Projekt | ||
|Images={{ProjektImages | |Images={{ProjektImages | ||
|projectimage=TUB.178.1.jpg | |projectimage=TUB.178.1.jpg | ||
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|projectimage=TUB.178.3.jpg | |projectimage=TUB.178.3.jpg | ||
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|subcat=Renewable energies | |||
|projectname=Sensorica's PV characterization | |||
|projectnameES=Caracterización fotovoltaica de Sensorica | |||
|projectnameDE=PV-Charakterisierung von Sensorica | |||
|kewords=biogas plant | |||
|firstin=http://www.sensorica.co/home/what-we-do/projects/pv-characterization | |firstin=http://www.sensorica.co/home/what-we-do/projects/pv-characterization | ||
|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. | |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. | ||
|licence=CCBYSA30 | |||
|typeproject=TUBerlin | |typeproject=TUBerlin | ||
|project_status=active | |project_status=active | ||
|maturity=PTT | |maturity=PTT | ||
| | |design_files_pub=yes | ||
| | |cad_files_editable=yes | ||
|mechanical_licence=CCBYSA30 | |mechanical_licence=CCBYSA30 | ||
|assembly_inst_pub=no | |assembly_inst_pub=no | ||
|bill_materials_pub=yes | |bill_materials_pub=yes | ||
|bill_materials_editable=yes | |bill_materials_editable=yes | ||
|contributing_guide_pub=yes | |contributing_guide_pub=yes | ||
|issue_management_system=no | |||
|versioning_system=no | |||
|certificate_requested=No | |||
|product_category=Business & Industrial | |||
}} | }} |
Latest revision as of 07:23, 10 November 2021
Sensorica's PV characterization Basic Data Category: Renewable energies URL (first publication): http://www.sensorica.co/home/what-we-do/projects/pv-characterization Keywords: biogas plant License: CC BY-SA 3.0 Project status: Active
Technical documentation Maturity of the project: prototype
CAD files are editable: Yes Assembly instructions are published: No Bill of materials is published: Yes
no no
Project management
Open-o-meter: 4 Product category: Business & Industrial
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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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