Voxtel Inc
- View government funding actions
- Beaverton, OR 970066703
- Phone: 971-223-5646
- Corporate URL: www.voxtel-inc.com
- Estimated Number of Employees: 20
- Estimated Annual Receipts: $4,733,000
- Business Start Date: 1999
- Contact Person: Debra Ozuna
- Contact Phone: 971-223-5646
- Contact Email: debrao@voxtel-inc.com
- Business Structure:
- Corporate Entity (Not Tax Exempt)
- Business Type:
- For Profit Organization
- Manufacturer of Goods
- Subchapter S Corporation
- Industries Served: Semiconductor and Related Device Manufacturing, Search, Detection, Navigation, Guidance, Aeronautical, and Nautical System and Instrument Manufacturing, Analytical Laboratory Instrument Manufacturing, Other Scientific and Technical Consulting Services, Research and Development in the Physical, Engineering, and Life Sciences (except Biotechnology)
- Product Areas: REGULATORY STUDIES, SPECIAL STUDIES/ANALYSIS- REGULATORY, SPECIAL STUDIES/ANALYSIS- ENERGY, ENERGY STUDIES, ARCHITECT AND ENGINEERING- GENERAL: LANDSCAPING, INTERIOR LAYOUT, AND DESIGNING, A/E SVCS. (INCL LANDSCAPING INTERIO, ARCHITECT AND ENGINEERING- GENERAL: ENGINEERING DRAFTING, NOT CAD/CAM, ENGINEERING DRAFTING SERVICES, ARCHITECT AND ENGINEERING- GENERAL: INSPECTION (NON-CONSTRUCTION), A/E - INSPECT - NON CONTRUCT, ARCHITECT AND ENGINEERING- GENERAL: MANAGEMENT ENGINEERING, A&E MANAGEMENT ENGINEERING SERVICES, A/E PROD ENG SVCS (INCL DESIGN-CONT, ARCHITECT AND ENGINEERING- GENERAL: PRODUCTION ENGINEERING, ARCHITECT AND ENGINEERING- GENERAL: OTHER, OTHER ARCHITECTS & ENGIN GEN, SUPPORT- PROFESSIONAL: EXPERT WITNESS, EXPERT WITNESS, ENGINEERING AND TECHNICAL SERVICES, SUPPORT- PROFESSIONAL: ENGINEERING/TECHNICAL
Sampling of Federal Government Funding Actions/Set Asides
In order by amount of set aside monies.
- $99,998 - Tuesday the 10th of April 2012
Department Of Air Force
FA8650 USAF AFMC AFRL/RQK
HIGH ENERGY UP DOWN CONVERTING PARTICLES - $749,999 - Saturday the 29th of March 2014
National Aeronautics And Space Administration
NASA SHARED SERVICES CENTER
IGF::OT::IGF OTHER FUNCTION - LARGE-AREA (3M2), UV-SENSITIVE FOCAL PLANE ARRAYS ARE NEEDED FOR OBSERVATION OF AIR SHOWERS FROM ULTRA-HIGH ENERGY COSMIC RAYS (JEM-EUSO) AS WELL AS FOR VISIBLE-WAVELENGTH SPECTROGRAPHIC AND PHOTOMETRIC INSTRUMENTS PLANNED FOR FUTURE TELESCOPES (OWL). EXISTING PHOTOCATHODE-BASED TECHNOLOGIES FOR VISIBLE AND UV INSTRUMENTS LACK SENSITIVITY, ARE BULKY, AND HAVE LIMITED RELIABILITY. SOLID-STATE SILICON PHOTOMULTIPLIERS (SIPMS) ARE EFFICIENT, LIGHT, AND RELIABLE, BUT THE FRONT-ILLUMINATED DESIGNS DEMONSTRATED TO DATE HAVE POOR UV RESPONSE, LIMITED SENSITIVE AREA AND OPTICAL FILL-FACTOR. TO SOLVE THE ABOVE PROBLEMS, A LARGE-AREA, BACK-ILLUMINATED SILICON PHOTOMULTIPLIER (BASIPM) ARRAY TECHNOLOGY HAS BEEN DEVELOPED. THE BASIPM TECHNOLOGY WILL INTEGRATE SIPM PIXEL ARRAYS, FABRICATED ON DOMESTIC, LARGE VOLUME COMMERCIAL CMOS FAB, WITH WAFER-SCALE THINNING. SHORT-WAVELENGTH LIGHT IS ABSORBED NEAR THE SURFACE OF A SILICON DETECTOR, AND MOVING THE OPTICAL ENTRY SURFACE TO THE BACK SIDE OF THE WAFER ENHANCES UV RESPONSE BY ENSURING THAT ALL PHOTO-CARRIERS ARE GENERATED ON THE CORRECT SIDE OF THE JUNCTION FOR EFFICIENT AVALANCHE MULTIPLICATION. PLACING THE OPTICAL ENTRY SURFACE ON THE BACK OF THE WAFER ALSO IMPROVES THE OPTICAL FILL SINCE IT IS NO LONGER BE NECESSARY TO SHINE LIGHT THROUGH THE QUENCH RESISTOR NETWORK ON THE FRONT SURFACE OF THE DETECTOR. LASTLY, BACK-THINNING THE DETECTOR WAFER SIGNIFICANTLY REDUCES THE MASS PER UNIT AREA OF THE FOCAL PLANE ARRAY. VOXTEL HAS SUCCESSFULLY DEMONSTRATED THE ABILITY TO PERFORM WAFER-SCALE BACK THINNING FABRICATION FOR SUPERIOR UV SENSITIVITY. THREE SIPM ARCHITECTURES (25 VARIATIONS) HAVE BEEN CHARACTERIZED AND STUDIED IN DETAIL AND THEIR PERFORMANCE COMPARED WITH COMMERCIALLY AVAILABLE SIPMS. THE DESIGN OF A LARGE FORMAT FOCAL PLANE DESIGN, INCLUDING A MECHANICAL MODEL, MOUNTING, AND ALIGNMENT WILL BE DEVELOPED USING THE PROPOSED TECHNOLOGY. - $749,996 - Friday the 29th of July 2016
National Aeronautics And Space Administration
NASA SHARED SERVICES CENTER
IGF::OT::IGF OTHER FUNCTION - HIGH-PERFORMANCE HDTV CAMERAS ARE COMMERCIALLY WIDESPREAD, BUT ARE NOT PRESENTLY AVAILABLE IN RADIATION-HARD VERSIONS. THE OBJECTIVE OF THE PROPOSED SBIR EFFORT IS TO DEVELOP AND COMMERCIALIZE A RADIATION-HARD, HIGH-PERFORMANCE HDTV SENSOR FOR NASA MISSIONS AND OTHER SPACE-BASED AND HIGH-ENERGY PHYSICS APPLICATIONS. KEY FEATURES OF THIS PROGRAM ARE THE USE OF RADIATION-HARD, FULLY DEPLETED SILICON PHOTODIODES TO MAXIMIZE QUANTUM EFFICIENCY, AND THE USE OF BOTH RADIATION-HARD-BY-PROCESS AND RADIATION-HARD-BY-DESIGN STRATEGIES IN THE DEVELOPMENT OF THE HIGHLY INTEGRATED READOUT CIRCUIT. - $69,996 - Friday the 23rd of March 2012
Department Of Navy
COMMANDER
EXERCISE AN OPTION - $5,138 - Saturday the 15th of September 2012
National Institute Of Standards And Technology
DEPT OF COMM/NAT INST STAND AND TECHNOL
LARGE AREA AVALANCHE PHOTODIODE - $507,992 - Wednesday the 29th of February 2012
Department Of Air Force
FA8650 USAF AFMC AFRL/RQK
READOUT INTEGRATED CIRCUIT FOR HIGH-RATE TRACKING - SBIR II - $472,385 - Thursday the 9th of February 2012
Department Of Air Force
FA8650 USAF AFMC AFRL/RQK
COHERENT HOLOGRAPHIC LADAR APPLICATIONS - SBIR II - $407,307 - Tuesday the 10th of January 2012
Department Of Navy
OFFICE OF NAVAL RESEARCH
RESEARCH AND DEVELOPMENT IN THE PHYSICAL, ENGINEERING, AND LIFE SCIENCES (EXCEPT BIOTECHNOLOGY) - $384,901 - Wednesday the 27th of June 2012
Department Of Air Force
FA8650 USAF AFMC AFRL/RQK
MGRIN - $375,000 - Tuesday the 28th of February 2012
Department Of Air Force
FA8650 USAF AFMC AFRL/RQK
LARGE FORMAT LINEAR MODE SINGLE PHOTON SENSITIVE FLASH LADAR
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