Federal Contractor Profile
Space Micro INC
$37M obligated·84 awards·2 agencies·5 NAICS
Federal Contracts
Showing contracts 51–83 of 83 total. Sorted by action date, most recent first. Excludes $0 modifications.
| Date | Agency | PIID | NAICS | Description | Amount |
|---|---|---|---|---|---|
| Mar 14, 2019 | Department of DefenseHQ USSOCOM | H9240519P0018 | 541715 | FEASIBILITY STUDY, SBIR PHASE I, TOPIC SOCOM183- 002, INTERFERENCE REJECTION OF STRONG SIGNALS WITHIN WIDEBAND COMMUNICATION RECEIVERS | $150K |
| Mar 6, 2019 | Department of DefenseW6QK ACC-RSA | W9113M18C0007 | 541715 | SMALL BUSINESS INNOVATIVE RESEARCH PHASE II - REPURPOSED SOFTWARE PROGRAMMABLE RADIO TECHNOLOGY TO SUPPORT FLEXIBLE MISSILE UPLINK/DOWNLINK IMPLEMENTATIONS | $433K |
| Jan 14, 2019 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014719C7121 | 541715 | SBIR/STTR PHASE II R&D: HIGH SPEED MISSILE TO MISSILE COMMUNICATIONS. | $1.0M |
| Dec 18, 2018 | Department of DefenseFA9453 AFRL RVK | FA945319P0556 | 541715 | SBIR I TOPIC AF182-081 SMART ON-BOARD SATELLITE AGC LOOP WITH ANTI-JAMMING CAPABILITY FOR SPREAD SPE | $150K |
| Nov 5, 2018 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7240 | 541715 | IGF::OT::IGF SBIR/STTR PHASE I RESEARCH&DEVELOPMENT, PROPOSAL NUMBER: B172-012-0011, PROPOSAL TITLE: 3D PRINTED MICROSCALE RADIATION SHIELDING | $50K |
| Nov 5, 2018 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7200 | 541715 | SBIR/STTR PHASE I RESEARCH&DEVELOPMENT, PROPOSAL NUMBER B172-001-0009, HIGH SPEED MISSILE RF COMMUNICATIONS | $50K |
| Jul 13, 2018 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC18P2092 | 541715 | SPACE MICRO PROPOSES TO DEVELOP AND QUALIFY AN ADVANCED VISIBLE CAMERA FOR HIGH RADIATION AND THERMAL ENVIRONMENTS. | $125K |
| Jul 10, 2018 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC18P2076 | 541715 | SPACE MICRO PROPOSES AN INNOVATIVE MINIATURE INTEGRATED STAR TRACKER (MIST) FOR SMALL AND NANOSATELLITE PLATFORMS. PHASE I WORK WILL FOCUS ON RADIATION TESTING AND RAD HARDENING OF MIST UP TO 100 KRAD. ROBUSTNESS TO HIGH RADIATION LEVELS CREATES MORE TOLERANCE TOWARDS FALSE STAR READINGS FROM RADIATION EFFECTS, WHILE ADVANCED COMPUTING OFFERS HIGH OUTPUT QUATERNION RATES OF 30 HZ AND ANGULAR RATES OF 10 DEG/S. MIST UTILIZES A RUGGED CUSTOM OPTICAL LENS FOR ON-ORBIT CALIBRATION OF LESS THAN 1 ARCSEC WITH A DUAL FIELD OF VIEW AND OPTION TO ADD MEMS GYROS. THE PROPOSED IMAGING SENSOR IS THE RUBY CMOS SENSOR FROM E2V, FOR WHICH NO CURRENTLY AVAILABLE RADIATION TEST DATA EXISTS. SPACE MICRO STRIVES TO PROVIDE THAT DATA DURING THIS PHASE I EFFORT USING OUR 25 YEARS OF COMBINED RADIATION EXPERIENCE AND PATENTED RADIATION MITIGATION TECHNIQUES. ONE ADVANTAGES OF CMOS DETECTORS OVER VISIBLE IS A>40% HIGHER QUANTUM EFFICIENCY. FUTURE NASA MISSIONS HAVE A NEED FOR RADIATION TOLERANT STAR TRACKERS THAT CURRENT TECH IS NOT ABLE TO PROVIDE. MIST MEETS THAT NEED WITH A<0.5 KG CUBESAT PACKAGE. | $125K |
| Jul 9, 2018 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7331 | 541715 | SBIR/STTR PHASE II R&D - PROGRAMMABLE MULTI-FREQUENCY TRANSMITTER FOR MISSILE COMMUNCIATIONS | $1.0M |
| Jun 4, 2018 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833518C0461 | 541715 | PROGRESS REPORT | $125K |
| Mar 9, 2018 | Department of DefenseW6QK ACC-RSA | W9113M18C0007 | 541715 | SMALL BUSINESS INNOVATIVE RESEARCH PHASE II - REPURPOSED SOFTWARE PROGRAMMABLE RADIO TECHNOLOGY TO SUPPORT FLEXIBLE MISSILE UPLINK/DOWNLINK IMPLEMENTATIONS | $617K |
| Jan 24, 2018 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014717C7614 | 541712 | IGF::OT::IGF SBIR/STTR PHASE I RESEARCH&DEVELOPMENT | $25K |
| Nov 6, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7200 | 541715 | SBIR/STTR PHASE I RESEARCH&DEVELOPMENT, PROPOSAL NUMBER B172-001-0009, HIGH SPEED MISSILE RF COMMUNICATIONS | $100K |
| Nov 6, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7240 | 541715 | IGF::OT::IGF SBIR/STTR PHASE I RESEARCH&DEVELOPMENT, PROPOSAL NUMBER: B172-012-0011, PROPOSAL TITLE: 3D PRINTED MICROSCALE RADIATION SHIELDING | $100K |
| Nov 4, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014718C7247 | 541715 | SBIR/STTR PHASE I RESEARCH&DEVELOPMENT - MINIATURIZED COTS-BASED AVIONICS FOR MISSILE SYSTEMS | $100K |
| Sep 5, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C0032 | 541712 | IGF::OT::IGF RESEARCH&DEVELOPMENT | $1.1M |
| Jul 11, 2017 | Department of DefenseHQUSSOCOM | H9222217P0063 | 541712 | IGF::OT::IGF FEASIBILITY STUDY, SBIR PHASE I, TOPIC SOCOM171- 003, INNOVATIVE CUBESAT PAYLOADS FOR USSOCOM SPACE MISSIONS | $150K |
| Jun 28, 2017 | Department of DefenseFA8651 AFRL RWK | FA865117C0217 | 541712 | IGF::OT::IGF SBIR II - HARDWARE-IN-THE-LOOP CELESTIAL NAVIGATION | $187K |
| May 24, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0447 | 541712 | IGF::OT::IGF RESEARCH AND DEVELOPMENT | $125K |
| May 8, 2017 | Department of DefenseFA8651 AFRL RWK | FA865117C0217 | 541712 | IGF::OT::IGF SBIR II - HARDWARE-IN-THE-LOOP CELESTIAL NAVIGATION | $563K |
| Mar 15, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014717C7614 | 541712 | IGF::OT::IGF SBIR/STTR PHASE I RESEARCH&DEVELOPMENT | $100K |
| Nov 17, 2016 | Department of DefenseW6QK ACC-RSA | W9113M17C0003 | 541712 | IGF::OT::IGF ARMY SBIR PHASE I BASE PERIOD | $100K |
| Aug 1, 2016 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C7747 | 541712 | ::IGF::OT::IGF SBIR PHASE II RESEARCH&DEVELOPMENT | $1.5M |
| Aug 1, 2016 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C7748 | 541712 | ::IGF::OT::IGF SBIR PHASE II RESEARCH&DEVELOPMENT | $1.5M |
| Jul 18, 2016 | National Aeronautics and Space AdministrationNASA GODDARD SPACE FLIGHT CENTER | NNG16LP14P | 541330 | ONE (1) CSP-01 ENGINEERING MODEL. | $8K |
| Jun 17, 2016 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C7524 | 541712 | IGF::OT::IGF SBIR PHASE I RESEARCH AND DEVELOPMENT | $40K |
| Jun 3, 2016 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX16CP74P | 541712 | IGF::OT::IGF WE PROPOSE TO DEMONSTRATE A LOW POWER RADIATION HARD READOUT SYSTEM FOR FREQUENCY MULTIPLEXING OF LARGE FORMAT ARRAYS OF KINETIC INDUCTANCE DETECTORS (KIDS). LARGE FORMAT ARRAYS OF SUPERCONDUCTING DETECTORS ARE A LEADING TECHNOLOGY FOR A NUMBER OF FUTURE NASA MISSIONS DESCRIBED IN THE RECENT ASTROPHYSICS ROADMAP, ?ENDURING QUESTS ? DARING VISIONS? (KOUBELIOTOU, ET AL.) | $125K |
| May 18, 2016 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX15CC02C | 541712 | IGF::OT::IGF A COMMERCIAL SOURCE IS NEEDED FOR SOFTWAREDEFINED NEAREARTH TRANSCEIVERS (SDNESTS) THAT: (1) INTEROPERATE WITH EXISTING SN RELAYS AND NEN GROUND TERMINALS AND SERVICES (2) ARE COMPLIANT WITH THE NASA'S SPACE TELECOMMUNICATIONS RADIO SYSTEM (STRS) ARCHITECTURE STANDARD FOR SOFTWARE DEFINED RADIOS (SDRS) AND (3) HELP NASA MISSIONS AND OTHER GOVERNMENT AGENCIES (OGAS) TRANSITION TO THE FUTURE NEAR EARTH SPACE COMMUNICATIONS INFRASTRUCTURE WHERE CONNECTIVITY, AVAILABILITY AND BANDWIDTH ON DEMAND WILL BE AS UBIQUITOUS AS TODAY'S INTERNET. TO DATE, NO STANDARD USER SPACECRAFT COMMUNICATIONS TRANSMITTER/RECEIVER (TRANSCEIVER) EXISTS THAT ALLOWS A SPACE MISSION TO INTEROPERATE WITH THE FULL RANGE OF COMMUNICATIONS SERVICES AVAILABLE FROM NASA'S SPACE NETWORK (SN) TDRSS RELAYS AND NEAR EARTH NETWORK (NEN) GROUND TERMINALS IN THE NEAR EARTH ENVIRONMENT. IN FACT, EVEN THE HIGH CAPACITY COMMUNICATIONS SINGLE ACCESS CAPABILITIES OF THE SN IN KABAND ARE UNDERUTILIZED DUE IN PART TO LACK OF AFFORDABLE SPACEQUALIFIED TRANSCEIVERS. IN ORDER TO ACHIEVE THE POTENTIAL BENEFITS OF A COMMON SDNEST THAT CAN BE USED BY A WIDE RANGE OF NEAREARTH MISSIONS, SPACE MICRO'S UNIVERSAL TRANSMIT AND RECEIVE (UTR) RF MODULE DEVELOPED UNDER A PHASE II CONTRACT NEEDS TO BE REFINED FOR OPERATION IN THE EXACT FREQUENCY SPECTRUM ALLOCATIONS OF THE SN AND NEN. THEN, THE UTR RF MODULE NEEDS TO BE INTEGRATED WITH THE BEST CAPABILITIES OF SPACE MICRO'S EXISTING COMMERCIAL TRANSMITTER (E.G. UTX300 KABAND TRANSMITTER), RECEIVER, AND SIGNAL PROCESSING SDR PRODUCTS INTO AN INTEGRATED SDNEST. THE ADVANCEMENT OF THE SBIR PHASE II UTR RF FRONT END INTEGRATED WITH THE REMAINING TRANSCEIVER ASPECTS AND VERIFIED FOR COMPLIANCE WITH NASA'S SPACE NETWORKS WILL PROVIDE THE GREATEST BENEFIT TO NASA, NAMELY, A SINGLE, INTEGRATED TRANSCEIVER PRODUCT READY FOR MISSION USE. EXPECTED BENEFITS AND ASSOCIATED TECHNOLOGY MATURATION EFFORTS INCLUDE THE FOLLOWING: * NEW CAPABILITIES: REFINE AND INTEGRATE THE FIRST COMMERCIALLY AVAILABLE SPACEQUALIFIABLE SOFTWARE DEFINED TRANSCEIVER THAT CAN OPERATE WITH THE SAND KABAND CAPABILITIES OF THE SN AND NEN, WITH OPEN WAVEFORMS COMPLIANT WITH THE STRS STANDARD. *IMPROVED PERFORMANCE:ADVANCE THE TECHNICAL PERFORMANCE OF THE SDNEST TO BE ABLE TO OPERATE AT DATA RATES AT LEAST 4X TO 10X HIGHER THAN CURRENT NASA MISSION TRANSCEIVERS IN THE SAME FREQUENCY BANDWIDTH. *GREATER RELIABILITY: ENSURE THAT THE SDNEST CAN OPERATION WITH THE SN IN BOTH S, AND KABANDS AND WITH THE NEN IN SAND KABAND, THUS OFFERING MORE OPERATIONAL OPTIONS TO MISSIONS AND IMPROVING COMMUNICATIONS RELIABILITY. *COST SAVINGS: IMPLEMENT THE SDNEST IN COMPLIANCE WITH NASA?S STRS STANDARD FOR SOFTWARE DEFINED TRANSCEIVERS TO ENABLE BOTH PROPRIETARY COMMERCIAL INNOVATIONS AND USE OF A COMMON SET OF WAVEFORMS DEVELOPED BY OTHERS. THIS ALLOWS NASA MISSIONS TO SAVE ON CUSTOM SOFTWARE AND HARDWARE DEVELOPMENT, AND MULTIPLE MISSIONS TO USE THE SAME TRANSCEIVERS AND SOFTWARE. *SPACE QUALIFICATION: THE SDNEST SPACE PROTOFLIGHT UNIT DEVELOPED UNDER OPTION #2 WILL UNDERGO ENVIRONMENTAL (I.E. VIBE, THERMAL) TESTING AT SPACE MICRO AND COMPATIBILITY TESTING WITH TDRS AT GRC. THIS WILL PROVIDE A HIGH TRL AND HIGH CONFIDENCE SDNEST FOR FUTURE MISSION USE. *USE BEYOND NASA: ULTIMATELY, THE SDNEST CAN BE USED BY MULTIPLE NASA MISSIONS, THOSE OF OGAS, AND POTENTIALLY COMMERCIAL SPACE VENTURES LIKE LOCKHEED MARTIN AND SPACEX AS WELL. THE POTENTIAL RETURN ON INVESTMENT OF THE PROPOSED SDNEST IS SIGNIFICANTLY INCREASED USE OF THE KABAND CAPABILITIES OF THE EXISTING TDRS RELAYS AND EMERGING NEN GROUND TERMINALS BY NASA MISSIONS AND OGAS. THE SDNEST ALSO BECOMES A SOLID BUILDING BLOCK THAT WILL HELP NASA TRANSITION FROM ITS CURRENT INFRASTRUCTURE TO THE FUTURE INTERNETLIKE NEAREARTH COMMUNICATIONS ARCHITECTURE. IT IS EXPECTED THAT THE STMP WILL PROVIDE THE FIRST INTEGRATED SBAND AND KABAND SOFTWARE DEFINED TRANSCEIVER THAT WORKS WITH BOTH THE TDRSS SPACE NETWORK AND NEAR EARTH NETWO | $600K |
| Apr 26, 2016 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C0032 | 541712 | IGF::OT::IGF RESEARCH&DEVELOPMENT | $2.7M |
| Dec 18, 2015 | Department of DefenseNIWC PACIFIC | N6600112C5206 | 541712 | SBIR PHASE II CONTRACT. | $98K |
| Dec 18, 2015 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014716C7524 | 541712 | IGF::OT::IGF SBIR PHASE I RESEARCH AND DEVELOPMENT | $100K |
| Dec 10, 2015 | Department of DefenseFA9453 AFRL RVK | FA945316C0404 | 541712 | IGF::OT::IGF NOVEL MITIGATION TECHNIQUES FOR RECONFIGURABLE COMPUTERS FOR SPACE BASED APPLICATIONS | $996K |
| Nov 9, 2015 | National Aeronautics and Space AdministrationGODDARD SPACE FLIGHT CENTER | NNG16PT07P | 541330 | ENGINEERING MODEL, CHREC SPACE PROCESSOR(CSP-01) (1 EACH) | $8K |
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