Federal Contractor Profile
Orbital Sciences LLC
$2.76B obligated·37 awards·3 agencies·7 NAICS
Federal Contracts
Showing contracts 1–50 of 262 total. Sorted by action date, most recent first. Excludes $0 modifications.
| Date | Agency | PIID | NAICS | Description | Amount |
|---|---|---|---|---|---|
| May 21, 2025 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $1 |
| May 2, 2024 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $200K |
| Nov 1, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $80K |
| Aug 24, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $52K |
| Aug 24, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $271K |
| Jul 14, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $157K |
| May 31, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $320K |
| Mar 24, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $523K |
| Mar 24, 2023 | Department of DefenseFA8809 SDA AND CMBT PWR SSC/SZK-IK | FA881818C0001 | 336414 | LDPE ESPA RING | $72K |
| Feb 28, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $5.4M |
| Feb 28, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $199K |
| Feb 13, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $746K |
| Jan 18, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $887K |
| Jan 5, 2023 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $377K |
| Sep 28, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $6K |
| Sep 22, 2022 | National Aeronautics and Space AdministrationNASA AMES RESEARCH CENTER | 80ARC021F0099 | 541715 | SUPPORT LAUNCH & EARLY ON-ORBIT TESTING, GROUND SUSTAINMENT OF SPACE BASED INFRARED SYSTEMS - EXPERIMENTAL SUB-SYSTEM (SBIRS ESS) SYSTEMS, ON-ORBIT HOST SUPPORT, AND CLOSURE OF SBIRS ESS PROGRAM | $522K |
| Sep 21, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $3.2M |
| Sep 13, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $2.7M |
| Sep 1, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $535K |
| Aug 25, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $1.5M |
| Aug 12, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $1.0M |
| Aug 4, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $747K |
| Jul 27, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $4.0M |
| Jul 14, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $1.3M |
| Jul 5, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $4.5M |
| Jun 21, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $64K |
| Jun 21, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $2.9M |
| May 23, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $37.2M |
| May 19, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $1.4M |
| May 2, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $5.2M |
| Apr 28, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $20K |
| Apr 28, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $83K |
| Mar 31, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $8.0M |
| Mar 31, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNJ16GU21B | 481212 | IGF::OT::IGF ISS COMMERCIAL RESUPPLY SERVICES 2 | $160.6M |
| Mar 16, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881817C0001 | 336414 | IGF::CT::IGF, STP SAT-6, SPACECRAFT ASSEMBLY, INTEGRATION&LAUNCH | $829K |
| Mar 10, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $37.2M |
| Mar 10, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNJ16GU21B | 481212 | IGF::OT::IGF ISS COMMERCIAL RESUPPLY SERVICES 2 | $15.1M |
| Mar 8, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $3.8M |
| Feb 17, 2022 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNJ16GU21B | 481212 | IGF::OT::IGF ISS COMMERCIAL RESUPPLY SERVICES 2 | $17.6M |
| Feb 16, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $500K |
| Feb 2, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $321K |
| Feb 2, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $29K |
| Jan 20, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $141K |
| Jan 20, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $3.9M |
| Jan 14, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881817C0001 | 336414 | IGF::CT::IGF, STP SAT-6, SPACECRAFT ASSEMBLY, INTEGRATION&LAUNCH | $216K |
| Jan 10, 2022 | Department of DefenseFA8818 ASSRD ACS TO SPC SSC/AAK-KT | FA881818C0001 | 336414 | LDPE ESPA RING | $3.5M |
| Dec 23, 2021 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $6.0M |
| Dec 16, 2021 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $46.5M |
| Dec 15, 2021 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNJ16GU21B | 481212 | IGF::OT::IGF ISS COMMERCIAL RESUPPLY SERVICES 2 | $42.5M |
| Dec 2, 2021 | National Aeronautics and Space AdministrationNASA JOHNSON SPACE CENTER | NNH15CN76C | 541712 | IGF::OT::IGF NEXTSTEP NRA AWARD. THIS NEXTSTEP CONTRACT BUILDS UPON THE SUCCESS OF COMMERCIAL ORBITAL TRANSPORTATION SERVICES SPACE ACT AGREEMENT DEVELOPMENT PROGRAM AND AN EXISTING INTERNATIONAL SPACE STATION (ISS) COMMERCIAL RESUPPLY SERVICES (CRS) CONTRACT. ORBITAL HAS SUCCESSFULLY TRANSITIONED FROM COTS TO THE CRS PROGRAM, FLYING THREE VERY SUCCESSFUL PRESSURIZED CARGO RESUPPLY MISSIONS TO THE ISS, USING THE CYGNUS SPACECRAFT. ORBITAL ALSO SUCCESSFULLY DEVELOPED SPACECRAFT FOR SOLAR SYSTEM EXPLORATION TO INCLUDE THE CURRENTLY OPERATIONAL DAWN MISSION. THIS MISSION WAS LAUNCHED IN SEPTEMBER 2007, COMPLETED ITS RENDEZVOUS MISSION AT VESTA IN JULY 2012 AND IS EN ROUTE TO CERES IN EARLY 2015. WITH SPACE AGENCY BUDGETS CONTINUING TO BE TIGHT, EXPLORATION PLANS NEED TO EMPHASIZE EVOLUTION OF EXISTING SYSTEMS, WHERE COST AND SCHEDULE IS BETTER CONTROLLED, AND DEVELOPMENT RISK REDUCED. SPECIFICALLY, ELEMENTS OF THE CURRENT ISS, INCLUDING CYGNUS, CAN BE EVOLVED TO SUPPORT MORE DISTANT SPACE DESTINATIONS. TO SUPPORT THESE ENDEAVORS, ORBITAL CONTRIBUTES TO THE DEVELOPMENT AND PRODUCT IMPROVEMENT OF CYGNUS AND TO NEXTSTEP ACTIVITIES AND HAVE INVESTED IN THE COTS CRS PUBLIC-PRIVATE PARTNERSHIP ENDEAVOR. ORBITAL'S EXPLORATION AUGMENTATION MODULE (BAM) ARCHITECTURE USES A MODULAR, BUILDING BLOCK APPROACH THAT LEVERAGES THE CYGNUS SPACECRAFT TO EXPAND CISLUNAR AND LONG DURATION DEEP SPACE TRANSIT HABITATION CAPABILITIES AND TECHNOLOGIES CRITICAL TO NASAS LONG-TERM EXPLORATION GOALS. ORBITALS ARCHITECTURE CONCEPT BLENDS IN-PRODUCTION HARDWARE WITH ADAPTATION, EVOLUTION, PLANNING, AND FORWARD THINKING. CYGNUS WILL SERVE AS A MODULAR HABITAT AND TEST PLATFORM FOR QUALIFYING TECHNOLOGIES IN A DISTANT RETROGRADE ORBIT (DRO) OR IN A LOW EARTH ORBIT (LEO), EITHER WHILE ATTACHED TO THE ISS OR AS A FREE-FLYER. USING THE EXISTING, OPERATIONAL CYGNUS TO PERFORM THESE MISSIONS HAS THE ADVANTAGE OF DECREASING OVERALL DEVELOPMENT TIME AND COSTS, AND FREEING UP RESOURCES THAT WOULD BE SPENT ON DEVELOPING A SPACECRAFT TO FOCUS ON CULTIVATING MISSION ENABLING TECHNOLOGIES. THE GOAL IS TO HAVE A CYGNUS DERIVED EAM DEPLOYED IN CISLUNAR SPACE BEFORE 2020. THIS SPACECRAFT WILL BE THE FIRST BUILDING BLOCK IN SUPPORTING BOTH COMMERCIAL MARKETS AND GOVERNMENT OBJECTIVES. THE PROPOSED EFFORT FOR THIS NEXTSTEP BAA PHASE I, INVOLVES DEFINING AN EAM ARCHITECTURE AND CONCEPT OF OPERATIONS (CONOPS) THAT ADDRESSES COMMERCIAL MARKETS AND NASA EXPLORATION OBJECTIVES, TECHNOLOGY MATURATION PLANNING AND INFRASTRUCTURE DEVELOPMENT, AND TO IDENTIFY TECHNOLOGIES THAT CAN BE IMPLEMENTED AND DEMONSTRATED IN THE ISSILEO ENVIRONMENT WITHIN THE NEXT THREE YEARS. TO MATURE HABITATION TECHNOLOGIES, THE CONTRACTOR WILL IDENTIFY STATE OF THE ART (SOA) TECHNOLOGIES ACROSS NASA TECHNOLOGY AREAS (TAS) DEFINED IN THE NASA TECHNOLOGY ROADMAP. FOCUS WILL BE ON MATURATION OF THE FOLLOWING TECHNOLOGIES ENVIRONMENTAL CONTROL AND LIFE SUPPORT SYSTEMS ENVIRONMENTAL MONITORING SAFETY AND EMERGENCY RESPONSE AND HABITATION THERMAL CONTROL SYSTEMS AUTONOMOUS HABITATION SYSTEMS NAVIGATION SYSTEMS MANAGEMENT DOCKING AND CAPTURE MECHANISMS AND DEPLOYABLE HABITATION ELEMENTS | $333K |
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