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Environmental control for a chip scale laboratory

Environmental control for a chip scale laboratory. Team: Robert Bouda - Leader Ashok Rajan – Communication Liaison Sean Belieu – Webmaster Sahan Fernando Tianyu Wang Zhaokui Wang Faculty Advisor & Client: Dr. Liang Dong. System Description. Problem Need Statement:

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Environmental control for a chip scale laboratory

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  1. Environmental control for a chip scale laboratory Team: Robert Bouda - Leader Ashok Rajan – Communication Liaison Sean Belieu – Webmaster Sahan Fernando Tianyu Wang Zhaokui Wang Faculty Advisor & Client: Dr. Liang Dong

  2. System Description • Problem Need Statement: A greenhouse is costly, space intensive, and we are looking to solve it.

  3. Functional Requirements Risks Channel thickness • Solenoid Control System • A system using Verilog or VHDL capable of receiving and decoding a serial digital signal • Sensor Array • A control element that sends data in a serial digital format to a different system designed to regulate • Channel and Chamber fabrication • A flow channels capable of delivering liquid to individual chambers at volumes of 1µm3. • 7 air flow channels designed to depress and restrict flow through liquid channels using air pressure.

  4. Solenoid Valves

  5. Solenoid ValvesThe connections with the chip are done using thin tubing and syringes:

  6. Solenoid Valves Clippard(12-ET-2M-6) • Extremely basic solenoids • 25-pin interface • Multisim – Verilog Existing technology: • Fluidigm Genetic Analysis

  7. Work plan – Subgroup 1 • This semester: Design the control logic of solenoid valves to: • Control the liquid flow into the growth chambers • Select a specific growth chamber out of 128 growth chambers that are fabricated on an interface. • Nextsemester: • Intergratesensor unit and fabricatedchannelswithSolenoid control

  8. Sensor Unit • The sensor detects temperature/ humidity and outputs the data via serial DATA to a micro-controller. • This data will be outputted via the micro-controller in binary form to the solenoid control system.

  9. Work plan – Subgroup 2 • This semester: • A sensor unit that will successfully read environmental Temperature/Humidity and output data to the control system • Current: • Actual circuit design • Coding the Micro-controller • Next Semester: • Intergrate sensor unit with Solenoid control

  10. Microfluidics Channels • There are 128 micro-greenhouses totally . • And there are 128 channel connect to each of them. • 7 bits are used to make them work individually.(2^7=128) • (As shown above)

  11. Fabrication process Firstly, we fabricate our molds on glass slide by using IBA. Then Once the slides are ready, we used as molds for PDMS, when the control and flow layers is prepared separately we bond them together crossing to each other.

  12. Two layers device • The designed chip has two layers: • flow level(Top), where the cells will ultimately grow. • control layer(Under), used to close and open certain valves by putting under pressure the thin membrane between the control and the flow layers.

  13. Work plan – Subgroup3 • This semester: • Learning how to fabricate. • Learn fabrication with the IBA(isobornylacrylate) process • Learn PDMS(Polydimethylsiloxane) fabrication process • Make a two layers devices and perform tests on it to ensure quality of devices. • NextSemester: • Ensure interface that was created serves as a good mediator between the other two sub projects.

  14. Projected Costs

  15. Final Deliverables • The expected end product will consist of three sub-systems that will be combined to form the complete chip-scale greenhouse system End Product • Temperature and Humidity Sensing Unit • Solenoid Control System • Liquid flow channels

  16. Questions?

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