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estars-project.eu

http://www.estars-project.eu. Outline. Background and state of Art Scope Consortium Project flow chart and Work Packages Timing and deliverables Systems requirements Results Summary. Relative density improvement in laptop computing since 1990. Swallow able camera capsule.

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estars-project.eu

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  1. http://www.estars-project.eu ICT Project E-STARS [ICT-223927]

  2. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  3. Relative density improvement in laptop computing since 1990 Swallow able camera capsule Wireless sensor module battery battery Background • Applications convergence ==> functions integration (passive, sensor, MEMs, transceive, microsystems); • The size of such microsystem and micromachining shrink year over year; • Conventional energy storage devices ( Battery, super cap) do not scale down sufficiently to meet the need of micro electronics system; • Solid state Thin Film Energy Cell built from semiconductor process offers a revolutionary way of storing energy for micropower devices; ICT Project E-STARS [ICT-223927]

  4. State of Art : Solid state Thin Film Energy Cell X00µm CEA-Liten • Lithium battery • Physics is the same to classical lithium battery • Solid state battery • No liquid: Solid electrolyte with Lithium • High temperature capability (lead free solder reflowable) • Thin film battery • Overall thickness : x00µm • Flexible • Embeddable • manufactured with thin film deposition equipments • High life time and reliability ICT Project E-STARS [ICT-223927]

  5. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  6. Scope: from 2D toward 3D ICT Project E-STARS [ICT-223927]

  7. Breakthrough • Increasing the capacity density by texturing the substrate (3D); • Moderate ratio (2:1): Improve state of Art PVD process to accelerate 5x the deposition rate and to reach 50% of minimum coverage; • High aspect ratio (10:1) represents the breakthrough of the E-stars project; • Investigate alternative deposition technics ICT Project E-STARS [ICT-223927]

  8. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  9. Consortium Bioage ICT Project E-STARS [ICT-223927]

  10. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  11. Work packages and program structure • WP1: Program mgt; • WP2:Requirements definition; • WP3:System architecture design; • WP4:Micro battery layers technology development; • WP5: Assessment of the battery • WP6: System integration • WP7 : Dissiminetion and exploitation ICT Project E-STARS [ICT-223927]

  12. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  13. Individual layer process New PVD 200 mm 3D deposition methods 3D Microbattery Breadboard realizations Phasing PVD lab tool Phase 1 System requirements definition SYSTEM System architecture design Phase 2 TECHNOLOGY Phase 3 System assessment ICT Project E-STARS [ICT-223927]

  14. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  15. WP2: System requirements CRF ICT Project E-STARS [ICT-223927]

  16. PARTNER: BIOAGE KIND: END USER DEVICE 1: Diagnostic Field DEVICE 2: Aerospace Field RF RADIO-NETWORK Frequency ISM 2.4GHz RF Data Rate: 250.000 bps Standard: IEEE 802.15.4(ZigBee) QCM Sensitivity: 0.36ng Frequency: 20MHz Range: +/-360ug MICRO SOLAR CELL Dimensions: 3mm x 3mm Weight: 0.1 gr Max Power: 0.82 mW 3D BATTERY Capacity: 1000 ua/cm2 Power: 50 mW/cm2 N.B.: E-STARS final goal WP2: system requirementsBioage Aerospace Device ANTENNA MICRO SOLAR PANEL QCM REF QCM MEAS CARBON HOUSING EXAMPLE OF APPLICATIONS Characterization of Dust Flux of Atmosphere Characterization of Comet Tail Characterization of Spacecraft “Outgas” Characterization of Spacecraft Contamination Characterization of Interstellar Material ICT Project E-STARS [ICT-223927]

  17. WP2: System requirements CTT/Kelsius ICT Project E-STARS [ICT-223927]

  18. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  19. Substrate texturation High Aspect ratio substrates Low Aspect ratio substrates ICT Project E-STARS [ICT-223927]

  20. PVD deposition on textured substrates Current collector LiCoO2 positive electrode ICT Project E-STARS [ICT-223927]

  21. Electrodeposition method Electrodeposited LiCoO2 All solid state microbattery with electrodeposited LiCoO2 on LAR substrate ICT Project E-STARS [ICT-223927]

  22. Electrosprayed method Si wafer with patternedElectrodeposited LiNiMnO4 Electrosprayed LiNiMnO4 ICT Project E-STARS [ICT-223927]

  23. MOCVD electrolyte Inorganic electrolyte on HAR substrate and impedance measurements ICT Project E-STARS [ICT-223927]

  24. Outline • Background and state of Art • Scope • Consortium • Project flow chart and Work Packages • Timing and deliverables • Systems requirements • Results • Summary ICT Project E-STARS [ICT-223927]

  25. Summary • E-STARS project develops next generation of solid state microbattery through 3D architecture • Complementary consortium from end users to technology providers • Do not hesitate to contact us! ICT Project E-STARS [ICT-223927]

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