Stellarray, Incorporated
Dba Stellarray Inc
CAGE Code: 543G5
NCAGE Code: 543G5
Status: Active
Type: Manufacturer
Dun & Bradstreet (DUNS): 808343607
Summary
Stellarray, Incorporated, Dba Stellarray Inc is an Active Manufacturer with the Cage Code 543G5 and is tracked by Dun & Bradstreet under DUNS Number 808343607..
Address
9210 Cameron Rd Ste 300
Austin TX 78754-3971
United States
Points of Contact
No Points of Contact...
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Frequently Asked Questions (FAQ) for CAGE 543G5
- What is CAGE Code 543G5?
- 543G5 is the unique identifier used by NATO Organizations to reference the physical entity known as Stellarray, Incorporated Dba Stellarray Inc located at 9210 Cameron Rd Ste 300, Austin TX 78754-3971, United States.
- Who is CAGE Code 543G5?
- 543G5 refers to Stellarray, Incorporated Dba Stellarray Inc located at 9210 Cameron Rd Ste 300, Austin TX 78754-3971, United States.
- Where is CAGE Code 543G5 Located?
- CAGE Code 543G5 is located in Austin, TX, USA.
Contracting History for CAGE 543G5 Most Recent 25 Records
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 27 Mar 2023
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 7 Aug 2020
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-M&O Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- NNX17CC19C
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- 30 Aug 2018
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $747,779.00
- National Aeronautics And Space Administration (Nasa)
- 89233118CNA000046
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 25 Sep 2018
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 25 Oct 2023
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 7 Jun 2023
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 29 Jun 2023
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 26 Jan 2021
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-M&O Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 15 Dec 2021
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-M&O Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 16 Sep 2022
- Eo14042 Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000001
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- 8 Mar 2019
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $1,048,194.00
- Department Of Energy (Doe)
- 89233118CNA000001
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- 1 Oct 2018
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $1,048,194.00
- Department Of Energy (Doe)
- NNX17CC19C
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- 30 Aug 2018
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $747,779.00
- National Aeronautics And Space Administration (Nasa)
- NNX17CC19C
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- 4 Jun 2018
- Igf::Ot::Igf The Proposed Multi-Purpose X-Ray Source And System (Mpxs) Can Be Used On Flight Missions, Space Stations, Planetary Excursions And Planetary Or Asteroid Bases, To Meet Nearly All Nasa Imaging Needs In The Exploration Medical Condition List (Emcl). This Includes A Range Of Radiographic Imaging Modalities - 2D, Digital Tomosynthesis And Half Or Full Ct To Cover Routine And Emergency Imaging Needs. The Mpxs Source Is Comprised Of Sections, Each Designed For A Specific Range Of X-Ray Imaging Conditions. The Source Is Currently Designed As A Rectangular Box Made Primarily Of Aluminum Nitride (Aln) Sheets. Each Aln Sidewall Has A Window That Allows X-Ray Flux To Exit. The Window Can Be A Hollow Section Of The Sidewall Or A Thin Strip Of Low Z Material Over A Window Aperture In The Sidewall. Thin Strips Of Metal Can Be Placed Over The Windows For Beam Filtration. Each Window Will Output Flux From One Or More Rows Of Spots (X-Ray Pixels, Or Xels) On The Metal Anode Inside, For Example A 1 X 30 Xel Row. These Xels Are Digitally Addressed With Separate Electron Beams From Field Emission Cold Cathodes In The Cathode Array. The System Will Comprise One Or More Sources, Paired With One Or More Digital X-Ray Detectors, Controlled By Software Loaded On A Laptop Or Mission Systems. Each Pair Will Weigh Less Than 0.1% Of A Current Tomographic Imaging System In Less Than 0.1% Of The Volume. Extensions To The Source Design Can Reduce These Figures Even Further. The Programmability Of The X-Ray Flux Sequences/Patterns From The Sources Will Enable The Range Of Imaging Modalities, And Make Mpxs Well Suited To Use With Emerging Ai Capabilities In Radiographic Diagnosis.
- Nasa Shared Services Center
- National Aeronautics And Space Administration (Nasa)
- $747,779.00
- National Aeronautics And Space Administration (Nasa)
- 89233118CNA000046
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 28 Jun 2021
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-M&O Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000046
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- 19 Nov 2018
- Sbir Phase Iii Award - Modular, Addressable Research Irradiator Using Flat Panel X-Ray Sources For The Department Of Energy, National Nuclear Security Administration's Office Of Radiological Security (Na-212)
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $998,098.00
- Department Of Energy (Doe)
- 89233118CNA000001
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- 16 Dec 2019
- Sbir Phase Iii Award - Self-Contained Blood Irradiator
- Nnsa Non-Mo Cntrctng Ops Div
- Department Of Energy (Doe)
- $1,044,875.50
- Department Of Energy (Doe)