The Collier Report of U.S. Government Contracting

Sampling of Federal Government Funding Actions/Set Asides

In order by amount of set aside monies.

• $99,967 - Thursday the 12th of January 2012
  Missile Defense Agency
  MISSILE DEFENSE AGENCY (MDA)
  PH I RESEARCH&DEVELOPMENT

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• $75,000 - Friday the 10th of July 2015
  National Aeronautics And Space Administration
  NASA SHARED SERVICES CENTER
  THE NASA JUPITER EUROPA ORBITER (JEO) CONCEPTUAL PAYLOAD CONTAINS A THERMAL INSTRUMENT WITH SIX DIFFERENT SPECTRAL BANDS RANGING FROM 8 M TO 100 M. THE THERMAL INSTRUMENT IS BASED ON MULTIPLE LINEAR ARRAYS OF THERMOPILE DETECTORS THAT ARE INTRINSICALLY RADIATION HARD; HOWEVER, THE THERMOPILE CMOS READOUT NEEDS TO BE HARDENED TO TOLERATE THE RADIATION SOURCES OF THE JEO MISSION. BLACK FOREST ENGINEERING (BFE) IS DEVELOPING A THERMOPILE READOUT TO TOLERATE THE JEO MISSION RADIATION SOURCES. ON PHASE II, BFE WILL TEST NEW CIRCUITRY FOR RADIATION HARDNESS, COMPLETE THE DESIGN OF A 1X128 THERMOPILE READOUT INTEGRATED CIRCUIT (ROIC) AND FABRICATE THE ROIC USING 180 NM CMOS TECHNOLOGY. THE PHASE II ROIC ALSO INCLUDES ON-CHIP 16-BIT ANALOG-TO-DIGITAL CONVERSION AND SERIAL DIGITAL OUTPUT FOR SYSTEM NOISE IMMUNITY. THE PHASE II ROIC WILL BE CHARACTERIZED TO MEET THE JEO THERMAL INSTRUMENT REQUIREMENT.

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• $417,079 - Saturday the 9th of June 2012
  Department Of Army
  W6QK ACC-APG CONT CT WASH OFC
  INCREMENTAL FUNDING MOD IN THE AMOUNT OF $417,079.37 FOR THE CONTINUATION OF THE DESIGN, DEVELOP AND DELIVER OF AN ADVANCED ROIC HYBRIDIZED TO A HIGH PERFORMANCE CQWIP DETECTOR ARRAY.

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• $390,107 - Monday the 24th of September 2012
  Department Of Army
  W6QK ACC-APG DURHAM
  SCIENTIFIC RESEARCH SERVICES

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• $359,868 - Tuesday the 12th of June 2012
  Department Of Army
  W6QK ACC-APG DURHAM
  SCIENTIFIC RESEARCH SERVICES

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• $200,000 - Friday the 10th of July 2015
  National Aeronautics And Space Administration
  NASA SHARED SERVICES CENTER
  THE NASA JUPITER EUROPA ORBITER (JEO) CONCEPTUAL PAYLOAD CONTAINS A THERMAL INSTRUMENT WITH SIX DIFFERENT SPECTRAL BANDS RANGING FROM 8 M TO 100 M. THE THERMAL INSTRUMENT IS BASED ON MULTIPLE LINEAR ARRAYS OF THERMOPILE DETECTORS THAT ARE INTRINSICALLY RADIATION HARD; HOWEVER, THE THERMOPILE CMOS READOUT NEEDS TO BE HARDENED TO TOLERATE THE RADIATION SOURCES OF THE JEO MISSION. BLACK FOREST ENGINEERING (BFE) IS DEVELOPING A THERMOPILE READOUT TO TOLERATE THE JEO MISSION RADIATION SOURCES. ON PHASE II, BFE WILL TEST NEW CIRCUITRY FOR RADIATION HARDNESS, COMPLETE THE DESIGN OF A 1X128 THERMOPILE READOUT INTEGRATED CIRCUIT (ROIC) AND FABRICATE THE ROIC USING 180 NM CMOS TECHNOLOGY. THE PHASE II ROIC ALSO INCLUDES ON-CHIP 16-BIT ANALOG-TO-DIGITAL CONVERSION AND SERIAL DIGITAL OUTPUT FOR SYSTEM NOISE IMMUNITY. THE PHASE II ROIC WILL BE CHARACTERIZED TO MEET THE JEO THERMAL INSTRUMENT REQUIREMENT.

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