Cross Trac Engineering, Inc.
Dba Cross Trac Engineering Inc
CAGE Code: 64A88
NCAGE Code: 64A88
Status: Active
Type: Commercial Supplier
Dun & Bradstreet (DUNS): 022768516
Summary
Cross Trac Engineering, Inc., Dba Cross Trac Engineering Inc is an Active Commercial Supplier with the Cage Code 64A88 and is tracked by Dun & Bradstreet under DUNS Number 022768516..
Address
2730 Saint Giles Ln
Mountain View CA 94040-4437
United States
Points of Contact
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Frequently Asked Questions (FAQ) for CAGE 64A88
- What is CAGE Code 64A88?
- 64A88 is the unique identifier used by NATO Organizations to reference the physical entity known as Cross Trac Engineering, Inc. Dba Cross Trac Engineering Inc located at 2730 Saint Giles Ln, Mountain View CA 94040-4437, United States.
- Who is CAGE Code 64A88?
- 64A88 refers to Cross Trac Engineering, Inc. Dba Cross Trac Engineering Inc located at 2730 Saint Giles Ln, Mountain View CA 94040-4437, United States.
- Where is CAGE Code 64A88 Located?
- CAGE Code 64A88 is located in Mountain View, CA, USA.
Contracting History for CAGE 64A88 Most Recent 25 Records
- 80NSSC23PB413
- Sbir Phase I Precision Scanning Star Tracker For Spin Stabilized Spacecraft
- 26 Jul 2023
- Sbir Phase I Precision Scanning Star Tracker For Spin Stabilized Spacecraft
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $149,984.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0049
- Eo14042 Optical Intersatellite Communications For Cubesat Swarms
- 16 Nov 2021
- Eo14042 Optical Intersatellite Communications For Cubesat Swarms
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $324,999.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0049
- Optical Intersatellite Communications For Cubesat Swarms
- 18 May 2021
- Optical Intersatellite Communications For Cubesat Swarms
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $324,999.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC21C0049
- Eo14042 Optical Intersatellite Communications For Cubesat Swarms
- 1 Jun 2022
- Eo14042 Optical Intersatellite Communications For Cubesat Swarms
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $324,999.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0211
- Eo14042 The Growing Interest In Cubesat Swarm And Constellation Systems By Nasa, The Department Of Defense And Commercial Ventures Has Created A Need For Self-Managed Inter-Satellite Networks Capable Of Handling Large Amount Of Data While Simultaneously Precisely Synchronizing Time And Measuring The Distances Between The Spacecraft. Crosstrac Engineering, Inc., In Cooperation With Our Partners Professor Kerri Cahoy Of The Massachusetts Institute Of Technology And Mr. Paul Graven Of Cateni, Inc., Proposes To Develop A Free Space Optical Communications And Ranging System With Inherent Precision Pointing As A 1U Module For 3U And Larger Cubesats Requiring Intersatellite Crosslinks. Based On Technology Developed By Professor Cahoy And Her Team At Mit, The Module Will Enable Small Satellites To Achieve The Sub-Milliradian Pointing Control Of The Optical Beam Necessary To Close Laser Crosslinks At Ranges From 200 Km To 1000 Km With Input Power Of Less Than 20 W And Data Rates Of 100 Mbps And Greater, All Within A 10 Cm X 10 Cm X 10 Cm (1U) Volume Or Smaller. The Proposed Work Is Directly Aligned With The Sttr Solicitation T11.02 And The Objectives Of Technology Area 5.1 Optical Communications And Navigation In The Nasa 2015 Technology Roadmap. Optical Crosslinks Are A Key Technology That Will Enable New Multi-Spacecraft Cubesat And Microsatellite Missions. These Missions Include Large Constellations For Global Data Distribution And Rapid Response Earth Imaging And Asset Tracking As Well As Swarm Missions That, Among Other Tasks, Can Be Formed Into Sparse Aperture Systems Providing Unprecedented Image Resolution. These Swarm Missions Require Precise Relative Position Knowledge As Well. The Optical Terminal Being Developed Under This Effort Will Provide This Sub-Mm Level Relative Position Knowledge. Furthermore, The Free Space Optical Crosslinks Can Be Used To Make Atmospheric Composition And Thermophysical Measurements (E.G., Via Laser Occultation).
- 3 Jun 2022
- Eo14042 The Growing Interest In Cubesat Swarm And Constellation Systems By Nasa, The Department Of Defense And Commercial Ventures Has Created A Need For Self-Managed Inter-Satellite Networks Capable Of Handling Large Amount Of Data While Simultaneously Precisely Synchronizing Time And Measuring The Distances Between The Spacecraft. Crosstrac Engineering, Inc., In Cooperation With Our Partners Professor Kerri Cahoy Of The Massachusetts Institute Of Technology And Mr. Paul Graven Of Cateni, Inc., Proposes To Develop A Free Space Optical Communications And Ranging System With Inherent Precision Pointing As A 1U Module For 3U And Larger Cubesats Requiring Intersatellite Crosslinks. Based On Technology Developed By Professor Cahoy And Her Team At Mit, The Module Will Enable Small Satellites To Achieve The Sub-Milliradian Pointing Control Of The Optical Beam Necessary To Close Laser Crosslinks At Ranges From 200 Km To 1000 Km With Input Power Of Less Than 20 W And Data Rates Of 100 Mbps And Greater, All Within A 10 Cm X 10 Cm X 10 Cm (1U) Volume Or Smaller. The Proposed Work Is Directly Aligned With The Sttr Solicitation T11.02 And The Objectives Of Technology Area 5.1 Optical Communications And Navigation In The Nasa 2015 Technology Roadmap. Optical Crosslinks Are A Key Technology That Will Enable New Multi-Spacecraft Cubesat And Microsatellite Missions. These Missions Include Large Constellations For Global Data Distribution And Rapid Response Earth Imaging And Asset Tracking As Well As Swarm Missions That, Among Other Tasks, Can Be Formed Into Sparse Aperture Systems Providing Unprecedented Image Resolution. These Swarm Missions Require Precise Relative Position Knowledge As Well. The Optical Terminal Being Developed Under This Effort Will Provide This Sub-Mm Level Relative Position Knowledge. Furthermore, The Free Space Optical Crosslinks Can Be Used To Make Atmospheric Composition And Thermophysical Measurements (E.G., Via Laser Occultation).
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,074,886.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC20C0651
- Optical Precision Navigation, Timing And Communications.System For Small Spacecraft Swarms
- 29 Jul 2020
- Optical Precision Navigation, Timing And Communications.System For Small Spacecraft Swarms
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $124,935.00
- National Aeronautics And Space Administration (Nasa)
- 80NSSC18C0211
- Eo14042 The Growing Interest In Cubesat Swarm And Constellation Systems By Nasa, The Department Of Defense And Commercial Ventures Has Created A Need For Self-Managed Inter-Satellite Networks Capable Of Handling Large Amount Of Data While Simultaneously Precisely Synchronizing Time And Measuring The Distances Between The Spacecraft. Crosstrac Engineering, Inc., In Cooperation With Our Partners Professor Kerri Cahoy Of The Massachusetts Institute Of Technology And Mr. Paul Graven Of Cateni, Inc., Proposes To Develop A Free Space Optical Communications And Ranging System With Inherent Precision Pointing As A 1U Module For 3U And Larger Cubesats Requiring Intersatellite Crosslinks. Based On Technology Developed By Professor Cahoy And Her Team At Mit, The Module Will Enable Small Satellites To Achieve The Sub-Milliradian Pointing Control Of The Optical Beam Necessary To Close Laser Crosslinks At Ranges From 200 Km To 1000 Km With Input Power Of Less Than 20 W And Data Rates Of 100 Mbps And Greater, All Within A 10 Cm X 10 Cm X 10 Cm (1U) Volume Or Smaller. The Proposed Work Is Directly Aligned With The Sttr Solicitation T11.02 And The Objectives Of Technology Area 5.1 Optical Communications And Navigation In The Nasa 2015 Technology Roadmap. Optical Crosslinks Are A Key Technology That Will Enable New Multi-Spacecraft Cubesat And Microsatellite Missions. These Missions Include Large Constellations For Global Data Distribution And Rapid Response Earth Imaging And Asset Tracking As Well As Swarm Missions That, Among Other Tasks, Can Be Formed Into Sparse Aperture Systems Providing Unprecedented Image Resolution. These Swarm Missions Require Precise Relative Position Knowledge As Well. The Optical Terminal Being Developed Under This Effort Will Provide This Sub-Mm Level Relative Position Knowledge. Furthermore, The Free Space Optical Crosslinks Can Be Used To Make Atmospheric Composition And Thermophysical Measurements (E.G., Via Laser Occultation).
- 13 Oct 2021
- Eo14042 The Growing Interest In Cubesat Swarm And Constellation Systems By Nasa, The Department Of Defense And Commercial Ventures Has Created A Need For Self-Managed Inter-Satellite Networks Capable Of Handling Large Amount Of Data While Simultaneously Precisely Synchronizing Time And Measuring The Distances Between The Spacecraft. Crosstrac Engineering, Inc., In Cooperation With Our Partners Professor Kerri Cahoy Of The Massachusetts Institute Of Technology And Mr. Paul Graven Of Cateni, Inc., Proposes To Develop A Free Space Optical Communications And Ranging System With Inherent Precision Pointing As A 1U Module For 3U And Larger Cubesats Requiring Intersatellite Crosslinks. Based On Technology Developed By Professor Cahoy And Her Team At Mit, The Module Will Enable Small Satellites To Achieve The Sub-Milliradian Pointing Control Of The Optical Beam Necessary To Close Laser Crosslinks At Ranges From 200 Km To 1000 Km With Input Power Of Less Than 20 W And Data Rates Of 100 Mbps And Greater, All Within A 10 Cm X 10 Cm X 10 Cm (1U) Volume Or Smaller. The Proposed Work Is Directly Aligned With The Sttr Solicitation T11.02 And The Objectives Of Technology Area 5.1 Optical Communications And Navigation In The Nasa 2015 Technology Roadmap. Optical Crosslinks Are A Key Technology That Will Enable New Multi-Spacecraft Cubesat And Microsatellite Missions. These Missions Include Large Constellations For Global Data Distribution And Rapid Response Earth Imaging And Asset Tracking As Well As Swarm Missions That, Among Other Tasks, Can Be Formed Into Sparse Aperture Systems Providing Unprecedented Image Resolution. These Swarm Missions Require Precise Relative Position Knowledge As Well. The Optical Terminal Being Developed Under This Effort Will Provide This Sub-Mm Level Relative Position Knowledge. Furthermore, The Free Space Optical Crosslinks Can Be Used To Make Atmospheric Composition And Thermophysical Measurements (E.G., Via Laser Occultation).
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $1,074,886.00
- National Aeronautics And Space Administration (Nasa)