Difference between revisions of "DropBot 2"
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{{Projekt | {{Projekt | ||
|Images={{ProjektImages | |Images={{ProjektImages | ||
|projectimage=TUB.36.1.jpg | |projectimage=TUB.36.1.jpg | ||
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|projectimage=TUB.36.5.jpg | |projectimage=TUB.36.5.jpg | ||
}} | }} | ||
|subcat=Construction elevators | |||
|projectname=DropBot 2 | |||
|projectnameES=DropBot | |||
|projectnameDE=DropBot 3 | |||
|kewords=Construction elevator | |||
|firstin=http://microfluidics.utoronto.ca/dropbot/ | |firstin=http://microfluidics.utoronto.ca/dropbot/ | ||
|desc=DropBot is an open-source Digital Microfluidic (DMF) automation system developed in the (http://microfluidics.utoronto.ca Wheeler Lab). It can be used to manipulate discrete droplets on the surface of an array of electrodes coated with a hydrophobic insulator. DMF has (http://microfluidics.utoronto.ca/research.php many applications) in the fields of biology and chemistry, including diagnostics, cell-based assays, and chemical synthesis. The DropBot features a modular and extensible design, an intuitive user interface, and is capable of driving up to 120 independent channels. It also provides dynamic impedance sensing which enables closed-loop control and real-time measurement of:* drop position* instantaneous drop velocity* electrostatic driving force | |desc=DropBot is an open-source Digital Microfluidic (DMF) automation system developed in the (http://microfluidics.utoronto.ca Wheeler Lab). It can be used to manipulate discrete droplets on the surface of an array of electrodes coated with a hydrophobic insulator. DMF has (http://microfluidics.utoronto.ca/research.php many applications) in the fields of biology and chemistry, including diagnostics, cell-based assays, and chemical synthesis. The DropBot features a modular and extensible design, an intuitive user interface, and is capable of driving up to 120 independent channels. It also provides dynamic impedance sensing which enables closed-loop control and real-time measurement of:* drop position* instantaneous drop velocity* electrostatic driving force | ||
|licence=GNUGPL3 | |||
|typeproject=TUBerlin | |typeproject=TUBerlin | ||
|project_status=active | |project_status=active | ||
|maturity=PDIY | |maturity=PDIY | ||
|design_files_pub=yes | |design_files_pub=yes | ||
|cad_files_editable=yes | |cad_files_editable=yes | ||
| | |mechanical_licence=GNUGPL3 | ||
|assembly_inst_pub=yes | |assembly_inst_pub=yes | ||
|assembly_instructions_editable=yes | |assembly_instructions_editable=yes | ||
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|issue_management_system=yes | |issue_management_system=yes | ||
|versioning_system=yes | |versioning_system=yes | ||
|certificate_requested=No | |||
|product_category=Business & Industrial | |||
}} | }} |
Latest revision as of 06:22, 10 November 2021
DropBot 2 Basic Data Category: Construction elevators URL (first publication): http://microfluidics.utoronto.ca/dropbot/ Keywords: Construction elevator License: GNU GPL 3.0 Project status: Active
Technical documentation Maturity of the project: production / DIY
CAD files are editable: Yes Assembly instructions are published: Yes Bill of materials is published: Yes
yes yes
Project management
Open-o-meter: 8 Product category: Business & Industrial
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Description
DropBot is an open-source Digital Microfluidic (DMF) automation system developed in the (http://microfluidics.utoronto.ca Wheeler Lab). It can be used to manipulate discrete droplets on the surface of an array of electrodes coated with a hydrophobic insulator. DMF has (http://microfluidics.utoronto.ca/research.php many applications) in the fields of biology and chemistry, including diagnostics, cell-based assays, and chemical synthesis. The DropBot features a modular and extensible design, an intuitive user interface, and is capable of driving up to 120 independent channels. It also provides dynamic impedance sensing which enables closed-loop control and real-time measurement of:* drop position* instantaneous drop velocity* electrostatic driving force
+ General Reviews